GPATCH8 cDNA ORF clone, Homo sapiens(human)

The following GPATCH8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GPATCH8 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu86698 XM_024450664.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu86698 XM_017024380.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu03428 NM_001002909.4
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu50234 NM_001304940.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 NM_001304943.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 NM_001304942.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 NM_001304941.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65527 NM_001304939.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 XM_017024379.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 XM_017024377.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 XM_017024378.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 XM_017024375.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 XM_017024376.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65525 XM_011524557.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu65526 XM_011524559.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_024450660.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_017024374.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_024450662.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_024450663.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_017024373.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_011524558.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_011524561.2
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_017024372.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_024450661.1
Latest version!
Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu50234 XM_017024376.1 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 NM_001304941.1 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu03428 NM_001002909.3 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu65527 NM_001304939.1 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 NM_001304942.1 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 NM_001304940.1 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65526 XM_011524558.1 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu50234 XM_017024379.1 Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OHu86698
    Clone ID Related Accession (Same CDS sequence) XM_024450664.1 , XM_017024380.1
    Accession Version XM_024450664.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3867bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTTCAAAC CAACCACAGT GGCTGTAGAT GAAGAAGGTG GAGAAGATGA TAAAGATGAA 
    TCAGCTACAA ATAGTGGCAC AGGTGCCACT GCTTCTTGTG GCCTGGGATC TGAATTCTCC
    ACAGATAAAG GAGGCCCTTT CACTGCAGTA CAAATCACTA ATACCACTGG ACTGGCCCAG
    GCTCCTGGGT TAGCCTCCCA AGGCATCAGC TTTGGCATTA AGAATAATCT GGGGACCCCA
    TTGCAAAAAT TGGGAGTGTC ATTTTCTTTT GCCAAAAAGG CTCCTGTCAA ACTCGAATCA
    ATAGCATCAG TTTTCAAGGA CCATGCGGAG GAAGGGACCT CTGAAGATGG AACAAAACCC
    GATGAGAAGA GTTCTGACCA AGGACTGCAG AAGGTAGGAG ACTCTGATGG GAGCAGTAAT
    CTTGATGGTA AAAAAGAGGA TGAAGACCCT CAGGATGGAG GGTCCCTTGC CTCAACATTA
    TCCAAATTAA AAAGGATGAA ACGAGAAGAA GGAGCTGGGG CTACAGAGCC TGAGTATTAC
    CACTACATCC CCCCAGCACA CTGCAAAGTA AAACCTAATT TTCCCTTTCT ACTTTTTATG
    AGAGCCAGTG AACAAATGGA TGGTGATAAT ACTACACACC CAAAGAATGC CCCAGAGAGT
    AAAAAAGGCA GTTCTCCCAA GCCTAAAAGC TGCATCAAGG CGGCAGCAAG CCAAGGAGCA
    GAAAAGACAG TTAGTGAAGT CTCTGAGCAG CCGAAGGAAA CCAGCATGAC CGAGCCCTCA
    GAACCAGGAA GCAAAGCTGA GGCAAAGAAG GCCTTAGGAG GGGATGTAAG TGATCAGAGT
    TTAGAAAGTC ATAGTCAGAA GGTTTCAGAG ACCCAAATGT GTGAGTCCAA CTCTTCTAAA
    GAAACCTCTC TGGCCACCCC AGCAGGGAAA GAAAGCCAAG AAGGACCCAA ACATCCTACT
    GGTCCCTTCT TCCCAGTTTT GAGCAAAGAT GAAAGCACTG CCCTCCAGTG GCCATCAGAA
    CTATTAATTT TCACCAAGGC AGAACCCTCC ATTTCATACA GTTGTAACCC TTTATATTTT
    GACTTTAAAC TTTCAAGGAA CAAAGATGCC AGAACTAAAG GAACAGAAAA ACCAAAGGAT
    ATAGGAAGCT CCTCAAAGGA CCATCTCCAA GGCCTAGATC CTGGTGAGCC AAATAAAAGC
    AAGGAAGTGG GCGGAGAGAA AATAGTACGT TCCTCAGGAG GCAGAATGGA CGCACCTGCT
    TCAGGGTCTG CCTGTAGCGG CCTGAACAAG CAGGAGCCTG GGGGTAGCCA TGGGTCTGAG
    ACAGAAGACA CAGGGAGAAG CCTTCCCAGC AAGAAAGAAC GATCTGGGAA GTCCCACCGG
    CACAAAAAGA AAAAGAAGCA CAAAAAATCC AGCAAACACA AACGTAAACA CAAGGCTGAC
    ACAGAAGAGA AAAGCTCTAA GGCAGAGTCA GGGGAGAAAT CTAAGAAGCG CAAGAAACGA
    AAACGAAAGA AGAATAAGTC ATCAGCCCCA GCAGATTCTG AACGAGGACC CAAACCAGAA
    CCCCCTGGGA GTGGCAGTCC CGCACCACCA AGAAGAAGGC GGAGAGCTCA AGATGACTCC
    CAGCGGAGAT CCCTCCCAGC TGAAGAGGGG AGCAGTGGCA AAAAGGATGA AGGTGGGGGT
    GGTAGCAGCT CCCAAGACCA TGGTGGGAGG AAACACAAAG GTGAACTTCC ACCTTCATCC
    TGCCAGCGAA GAGCAGGCAC CAAACGGAGC AGCCGGTCTA GCCATCGGAG CCAACCCAGT
    AGTGGAGATG AGGATAGTGA TGATGCTTCC TCACACCGGC TGCACCAGAA GTCTCCATCC
    CAGTACAGTG AGGAAGAAGA AGAGGAAGAT TCAGGCAGTG AGCATTCCCG CAGCCGCTCA
    AGGTCTGGCC GGCGCCATTC CTCGCATCGT TCCTCCCGGC GTTCTTACTC AAGTAGCTCA
    GATGCCTCTT CAGACCAGAG CTGCTATAGT AGACAGCGCA GTTACTCTGA TGACAGCTAC
    AGTGACTACA GTGACAGATC ACGAAGGCAC TCCAAGCGCT CCCATGACTC AGATGACTCA
    GACTATGCCA GCTCCAAACA CCGATCAAAA CGGCACAAAT ATTCATCTTC TGATGATGAC
    TATAGCCTCA GTTGCAGCCA GTCCCGAAGC CGATCTCGGA GTCATACCAG AGAGCGCTCA
    AGATCCCGGG GCCGCAGCCG CAGCAGCAGT TGTAGTCGTA GTCGAAGCAA GCGGAGAAGC
    CGTAGCACCA CAGCCCACAG CTGGCAACGG AGCCGGAGCT ATAGCCGGGA CCGCAGCCGC
    AGCACCAGGA GCCCTTCCCA GAGATCAGGC TCCAGGAAGA GATCATGGGG TCACGAGAGC
    CCTGAGGAGA GGCATTCTGG GCGTCGGGAC TTCATTCGTT CTAAGATCTA CCGCTCCCAG
    TCCCCCCACT ATTTCCGATC AGGCCGGGGA GAAGGTCCTG GGAAGAAAGA TGATGGCAGA
    GGAGATGACA GTAAAGCAAC AGGTCCACCT TCCCAGAACA GCAACATTGG CACAGGAAGA
    GGGTCAGAAG GTGACTGCAG TCCTGAAGAC AAGAACTCTG TCACTGCCAA ACTGCTACTG
    GAGAAGATCC AGTCAAGGAA AGTGGAGAGG AAACCTAGTG TGAGTGAGGA GGTGCAGGCC
    ACCCCTAATA AAGCTGGGCC CAAGCTCAAG GACCCCCCAC AAGGTTACTT TGGGCCCAAG
    CTCCCCCCAT CTCTTGGCAA TAAGCCTGTC CTTCCACTGA TAGGGAAGCT CCCAGCTACC
    CGAAAGCCCA ATAAGAAGTG TGAAGAGTCT GGCTTGGAAA GGGGGGAAGA GCAAGAACAG
    TCAGAGACAG AAGAGGGGCC CCCAGGGAGT AGTGATGCCC TATTTGGGCA TCAGTTCCCT
    TCAGAGGAAA CAACTGGCCC CTTATTAGAC CCACCCCCAG AAGAGTCAAA GTCTGGAGAA
    GCTACTGCTG ATCACCCTGT GGCTCCACTA GGCACCCCAG CACATTCTGA CTGCTACCCT
    GGGGACCCAA CCATCTCCCA TAACTACCTC CCCGACCCCA GTGATGGGGA CACCCTGGAG
    TCCCTGGATA GCAGCAGTCA GCCAGGCCCT GTGGAGTCCA GCTTGCTGCC TATAGCACCA
    GACCTTGAGC ATTTCCCCAG TTATGCACCT CCCAGTGGGG ATCCTAGTAT TGAGTCAACA
    GATGGGGCTG AGGATGCTTC ACTGGCCCCC CTGGAAAGCC AGCCCATCAC CTTCACCCCT
    GAGGAGATGG AGAAGTACAG CAAGCTCCAG CAGGCTGCTC AGCAACACAT CCAGCAGCAG
    CTTCTGGCCA AGCAAGTAAA GGCCTTTCCA GCCTCAGCTG CCCTGGCCCC AGCCACACCA
    GCCCTGCAAC CCATCCACAT TCAGCAGCCA GCTACAGCCT CTGCCACCTC CATCACAACT
    GTTCAGCATG CCATCCTACA ACATCATGCT GCCGCAGCTG CTGCCGCCAT CGGCATTCAC
    CCTCACCCCC ATCCCCAACC ACTTGCCCAG GTGCATCATA TTCCCCAGCC CCATCTGACC
    CCCATTTCTT TGTCCCACCT CACTCACTCA ATCATCCCTG GCCACCCTGC CACCTTTCTC
    GCTAGCCATC CCATCCACAT CATTCCCGCC TCAGCCATCC ATCCTGGGCC CTTCACCTTT
    CACCCTGTCC CACATGCTGC CCTCTACCCC ACCCTACTTG CTCCACGGCC TGCTGCAGCA
    GCTGCCACTG CACTTCACCT TCACCCACTA CTTCACCCCA TCTTCTCAGG TCAGGACCTG
    CAACATCCCC CCAGCCATGG CACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024306432.1
    CDS752..4618
    Translation

    Target ORF information:

    RefSeq Version XM_024450664.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450664.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTTCAAAC CAACCACAGT GGCTGTAGAT GAAGAAGGTG GAGAAGATGA TAAAGATGAA 
    TCAGCTACAA ATAGTGGCAC AGGTGCCACT GCTTCTTGTG GCCTGGGATC TGAATTCTCC
    ACAGATAAAG GAGGCCCTTT CACTGCAGTA CAAATCACTA ATACCACTGG ACTGGCCCAG
    GCTCCTGGGT TAGCCTCCCA AGGCATCAGC TTTGGCATTA AGAATAATCT GGGGACCCCA
    TTGCAAAAAT TGGGAGTGTC ATTTTCTTTT GCCAAAAAGG CTCCTGTCAA ACTCGAATCA
    ATAGCATCAG TTTTCAAGGA CCATGCGGAG GAAGGGACCT CTGAAGATGG AACAAAACCC
    GATGAGAAGA GTTCTGACCA AGGACTGCAG AAGGTAGGAG ACTCTGATGG GAGCAGTAAT
    CTTGATGGTA AAAAAGAGGA TGAAGACCCT CAGGATGGAG GGTCCCTTGC CTCAACATTA
    TCCAAATTAA AAAGGATGAA ACGAGAAGAA GGAGCTGGGG CTACAGAGCC TGAGTATTAC
    CACTACATCC CCCCAGCACA CTGCAAAGTA AAACCTAATT TTCCCTTTCT ACTTTTTATG
    AGAGCCAGTG AACAAATGGA TGGTGATAAT ACTACACACC CAAAGAATGC CCCAGAGAGT
    AAAAAAGGCA GTTCTCCCAA GCCTAAAAGC TGCATCAAGG CGGCAGCAAG CCAAGGAGCA
    GAAAAGACAG TTAGTGAAGT CTCTGAGCAG CCGAAGGAAA CCAGCATGAC CGAGCCCTCA
    GAACCAGGAA GCAAAGCTGA GGCAAAGAAG GCCTTAGGAG GGGATGTAAG TGATCAGAGT
    TTAGAAAGTC ATAGTCAGAA GGTTTCAGAG ACCCAAATGT GTGAGTCCAA CTCTTCTAAA
    GAAACCTCTC TGGCCACCCC AGCAGGGAAA GAAAGCCAAG AAGGACCCAA ACATCCTACT
    GGTCCCTTCT TCCCAGTTTT GAGCAAAGAT GAAAGCACTG CCCTCCAGTG GCCATCAGAA
    CTATTAATTT TCACCAAGGC AGAACCCTCC ATTTCATACA GTTGTAACCC TTTATATTTT
    GACTTTAAAC TTTCAAGGAA CAAAGATGCC AGAACTAAAG GAACAGAAAA ACCAAAGGAT
    ATAGGAAGCT CCTCAAAGGA CCATCTCCAA GGCCTAGATC CTGGTGAGCC AAATAAAAGC
    AAGGAAGTGG GCGGAGAGAA AATAGTACGT TCCTCAGGAG GCAGAATGGA CGCACCTGCT
    TCAGGGTCTG CCTGTAGCGG CCTGAACAAG CAGGAGCCTG GGGGTAGCCA TGGGTCTGAG
    ACAGAAGACA CAGGGAGAAG CCTTCCCAGC AAGAAAGAAC GATCTGGGAA GTCCCACCGG
    CACAAAAAGA AAAAGAAGCA CAAAAAATCC AGCAAACACA AACGTAAACA CAAGGCTGAC
    ACAGAAGAGA AAAGCTCTAA GGCAGAGTCA GGGGAGAAAT CTAAGAAGCG CAAGAAACGA
    AAACGAAAGA AGAATAAGTC ATCAGCCCCA GCAGATTCTG AACGAGGACC CAAACCAGAA
    CCCCCTGGGA GTGGCAGTCC CGCACCACCA AGAAGAAGGC GGAGAGCTCA AGATGACTCC
    CAGCGGAGAT CCCTCCCAGC TGAAGAGGGG AGCAGTGGCA AAAAGGATGA AGGTGGGGGT
    GGTAGCAGCT CCCAAGACCA TGGTGGGAGG AAACACAAAG GTGAACTTCC ACCTTCATCC
    TGCCAGCGAA GAGCAGGCAC CAAACGGAGC AGCCGGTCTA GCCATCGGAG CCAACCCAGT
    AGTGGAGATG AGGATAGTGA TGATGCTTCC TCACACCGGC TGCACCAGAA GTCTCCATCC
    CAGTACAGTG AGGAAGAAGA AGAGGAAGAT TCAGGCAGTG AGCATTCCCG CAGCCGCTCA
    AGGTCTGGCC GGCGCCATTC CTCGCATCGT TCCTCCCGGC GTTCTTACTC AAGTAGCTCA
    GATGCCTCTT CAGACCAGAG CTGCTATAGT AGACAGCGCA GTTACTCTGA TGACAGCTAC
    AGTGACTACA GTGACAGATC ACGAAGGCAC TCCAAGCGCT CCCATGACTC AGATGACTCA
    GACTATGCCA GCTCCAAACA CCGATCAAAA CGGCACAAAT ATTCATCTTC TGATGATGAC
    TATAGCCTCA GTTGCAGCCA GTCCCGAAGC CGATCTCGGA GTCATACCAG AGAGCGCTCA
    AGATCCCGGG GCCGCAGCCG CAGCAGCAGT TGTAGTCGTA GTCGAAGCAA GCGGAGAAGC
    CGTAGCACCA CAGCCCACAG CTGGCAACGG AGCCGGAGCT ATAGCCGGGA CCGCAGCCGC
    AGCACCAGGA GCCCTTCCCA GAGATCAGGC TCCAGGAAGA GATCATGGGG TCACGAGAGC
    CCTGAGGAGA GGCATTCTGG GCGTCGGGAC TTCATTCGTT CTAAGATCTA CCGCTCCCAG
    TCCCCCCACT ATTTCCGATC AGGCCGGGGA GAAGGTCCTG GGAAGAAAGA TGATGGCAGA
    GGAGATGACA GTAAAGCAAC AGGTCCACCT TCCCAGAACA GCAACATTGG CACAGGAAGA
    GGGTCAGAAG GTGACTGCAG TCCTGAAGAC AAGAACTCTG TCACTGCCAA ACTGCTACTG
    GAGAAGATCC AGTCAAGGAA AGTGGAGAGG AAACCTAGTG TGAGTGAGGA GGTGCAGGCC
    ACCCCTAATA AAGCTGGGCC CAAGCTCAAG GACCCCCCAC AAGGTTACTT TGGGCCCAAG
    CTCCCCCCAT CTCTTGGCAA TAAGCCTGTC CTTCCACTGA TAGGGAAGCT CCCAGCTACC
    CGAAAGCCCA ATAAGAAGTG TGAAGAGTCT GGCTTGGAAA GGGGGGAAGA GCAAGAACAG
    TCAGAGACAG AAGAGGGGCC CCCAGGGAGT AGTGATGCCC TATTTGGGCA TCAGTTCCCT
    TCAGAGGAAA CAACTGGCCC CTTATTAGAC CCACCCCCAG AAGAGTCAAA GTCTGGAGAA
    GCTACTGCTG ATCACCCTGT GGCTCCACTA GGCACCCCAG CACATTCTGA CTGCTACCCT
    GGGGACCCAA CCATCTCCCA TAACTACCTC CCCGACCCCA GTGATGGGGA CACCCTGGAG
    TCCCTGGATA GCAGCAGTCA GCCAGGCCCT GTGGAGTCCA GCTTGCTGCC TATAGCACCA
    GACCTTGAGC ATTTCCCCAG TTATGCACCT CCCAGTGGGG ATCCTAGTAT TGAGTCAACA
    GATGGGGCTG AGGATGCTTC ACTGGCCCCC CTGGAAAGCC AGCCCATCAC CTTCACCCCT
    GAGGAGATGG AGAAGTACAG CAAGCTCCAG CAGGCTGCTC AGCAACACAT CCAGCAGCAG
    CTTCTGGCCA AGCAAGTAAA GGCCTTTCCA GCCTCAGCTG CCCTGGCCCC AGCCACACCA
    GCCCTGCAAC CCATCCACAT TCAGCAGCCA GCTACAGCCT CTGCCACCTC CATCACAACT
    GTTCAGCATG CCATCCTACA ACATCATGCT GCCGCAGCTG CTGCCGCCAT CGGCATTCAC
    CCTCACCCCC ATCCCCAACC ACTTGCCCAG GTGCATCATA TTCCCCAGCC CCATCTGACC
    CCCATTTCTT TGTCCCACCT CACTCACTCA ATCATCCCTG GCCACCCTGC CACCTTTCTC
    GCTAGCCATC CCATCCACAT CATTCCCGCC TCAGCCATCC ATCCTGGGCC CTTCACCTTT
    CACCCTGTCC CACATGCTGC CCTCTACCCC ACCCTACTTG CTCCACGGCC TGCTGCAGCA
    GCTGCCACTG CACTTCACCT TCACCCACTA CTTCACCCCA TCTTCTCAGG TCAGGACCTG
    CAACATCCCC CCAGCCATGG CACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu86698
    Clone ID Related Accession (Same CDS sequence) XM_024450664.1 , XM_017024380.1
    Accession Version XM_017024380.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3867bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTTCAAAC CAACCACAGT GGCTGTAGAT GAAGAAGGTG GAGAAGATGA TAAAGATGAA 
    TCAGCTACAA ATAGTGGCAC AGGTGCCACT GCTTCTTGTG GCCTGGGATC TGAATTCTCC
    ACAGATAAAG GAGGCCCTTT CACTGCAGTA CAAATCACTA ATACCACTGG ACTGGCCCAG
    GCTCCTGGGT TAGCCTCCCA AGGCATCAGC TTTGGCATTA AGAATAATCT GGGGACCCCA
    TTGCAAAAAT TGGGAGTGTC ATTTTCTTTT GCCAAAAAGG CTCCTGTCAA ACTCGAATCA
    ATAGCATCAG TTTTCAAGGA CCATGCGGAG GAAGGGACCT CTGAAGATGG AACAAAACCC
    GATGAGAAGA GTTCTGACCA AGGACTGCAG AAGGTAGGAG ACTCTGATGG GAGCAGTAAT
    CTTGATGGTA AAAAAGAGGA TGAAGACCCT CAGGATGGAG GGTCCCTTGC CTCAACATTA
    TCCAAATTAA AAAGGATGAA ACGAGAAGAA GGAGCTGGGG CTACAGAGCC TGAGTATTAC
    CACTACATCC CCCCAGCACA CTGCAAAGTA AAACCTAATT TTCCCTTTCT ACTTTTTATG
    AGAGCCAGTG AACAAATGGA TGGTGATAAT ACTACACACC CAAAGAATGC CCCAGAGAGT
    AAAAAAGGCA GTTCTCCCAA GCCTAAAAGC TGCATCAAGG CGGCAGCAAG CCAAGGAGCA
    GAAAAGACAG TTAGTGAAGT CTCTGAGCAG CCGAAGGAAA CCAGCATGAC CGAGCCCTCA
    GAACCAGGAA GCAAAGCTGA GGCAAAGAAG GCCTTAGGAG GGGATGTAAG TGATCAGAGT
    TTAGAAAGTC ATAGTCAGAA GGTTTCAGAG ACCCAAATGT GTGAGTCCAA CTCTTCTAAA
    GAAACCTCTC TGGCCACCCC AGCAGGGAAA GAAAGCCAAG AAGGACCCAA ACATCCTACT
    GGTCCCTTCT TCCCAGTTTT GAGCAAAGAT GAAAGCACTG CCCTCCAGTG GCCATCAGAA
    CTATTAATTT TCACCAAGGC AGAACCCTCC ATTTCATACA GTTGTAACCC TTTATATTTT
    GACTTTAAAC TTTCAAGGAA CAAAGATGCC AGAACTAAAG GAACAGAAAA ACCAAAGGAT
    ATAGGAAGCT CCTCAAAGGA CCATCTCCAA GGCCTAGATC CTGGTGAGCC AAATAAAAGC
    AAGGAAGTGG GCGGAGAGAA AATAGTACGT TCCTCAGGAG GCAGAATGGA CGCACCTGCT
    TCAGGGTCTG CCTGTAGCGG CCTGAACAAG CAGGAGCCTG GGGGTAGCCA TGGGTCTGAG
    ACAGAAGACA CAGGGAGAAG CCTTCCCAGC AAGAAAGAAC GATCTGGGAA GTCCCACCGG
    CACAAAAAGA AAAAGAAGCA CAAAAAATCC AGCAAACACA AACGTAAACA CAAGGCTGAC
    ACAGAAGAGA AAAGCTCTAA GGCAGAGTCA GGGGAGAAAT CTAAGAAGCG CAAGAAACGA
    AAACGAAAGA AGAATAAGTC ATCAGCCCCA GCAGATTCTG AACGAGGACC CAAACCAGAA
    CCCCCTGGGA GTGGCAGTCC CGCACCACCA AGAAGAAGGC GGAGAGCTCA AGATGACTCC
    CAGCGGAGAT CCCTCCCAGC TGAAGAGGGG AGCAGTGGCA AAAAGGATGA AGGTGGGGGT
    GGTAGCAGCT CCCAAGACCA TGGTGGGAGG AAACACAAAG GTGAACTTCC ACCTTCATCC
    TGCCAGCGAA GAGCAGGCAC CAAACGGAGC AGCCGGTCTA GCCATCGGAG CCAACCCAGT
    AGTGGAGATG AGGATAGTGA TGATGCTTCC TCACACCGGC TGCACCAGAA GTCTCCATCC
    CAGTACAGTG AGGAAGAAGA AGAGGAAGAT TCAGGCAGTG AGCATTCCCG CAGCCGCTCA
    AGGTCTGGCC GGCGCCATTC CTCGCATCGT TCCTCCCGGC GTTCTTACTC AAGTAGCTCA
    GATGCCTCTT CAGACCAGAG CTGCTATAGT AGACAGCGCA GTTACTCTGA TGACAGCTAC
    AGTGACTACA GTGACAGATC ACGAAGGCAC TCCAAGCGCT CCCATGACTC AGATGACTCA
    GACTATGCCA GCTCCAAACA CCGATCAAAA CGGCACAAAT ATTCATCTTC TGATGATGAC
    TATAGCCTCA GTTGCAGCCA GTCCCGAAGC CGATCTCGGA GTCATACCAG AGAGCGCTCA
    AGATCCCGGG GCCGCAGCCG CAGCAGCAGT TGTAGTCGTA GTCGAAGCAA GCGGAGAAGC
    CGTAGCACCA CAGCCCACAG CTGGCAACGG AGCCGGAGCT ATAGCCGGGA CCGCAGCCGC
    AGCACCAGGA GCCCTTCCCA GAGATCAGGC TCCAGGAAGA GATCATGGGG TCACGAGAGC
    CCTGAGGAGA GGCATTCTGG GCGTCGGGAC TTCATTCGTT CTAAGATCTA CCGCTCCCAG
    TCCCCCCACT ATTTCCGATC AGGCCGGGGA GAAGGTCCTG GGAAGAAAGA TGATGGCAGA
    GGAGATGACA GTAAAGCAAC AGGTCCACCT TCCCAGAACA GCAACATTGG CACAGGAAGA
    GGGTCAGAAG GTGACTGCAG TCCTGAAGAC AAGAACTCTG TCACTGCCAA ACTGCTACTG
    GAGAAGATCC AGTCAAGGAA AGTGGAGAGG AAACCTAGTG TGAGTGAGGA GGTGCAGGCC
    ACCCCTAATA AAGCTGGGCC CAAGCTCAAG GACCCCCCAC AAGGTTACTT TGGGCCCAAG
    CTCCCCCCAT CTCTTGGCAA TAAGCCTGTC CTTCCACTGA TAGGGAAGCT CCCAGCTACC
    CGAAAGCCCA ATAAGAAGTG TGAAGAGTCT GGCTTGGAAA GGGGGGAAGA GCAAGAACAG
    TCAGAGACAG AAGAGGGGCC CCCAGGGAGT AGTGATGCCC TATTTGGGCA TCAGTTCCCT
    TCAGAGGAAA CAACTGGCCC CTTATTAGAC CCACCCCCAG AAGAGTCAAA GTCTGGAGAA
    GCTACTGCTG ATCACCCTGT GGCTCCACTA GGCACCCCAG CACATTCTGA CTGCTACCCT
    GGGGACCCAA CCATCTCCCA TAACTACCTC CCCGACCCCA GTGATGGGGA CACCCTGGAG
    TCCCTGGATA GCAGCAGTCA GCCAGGCCCT GTGGAGTCCA GCTTGCTGCC TATAGCACCA
    GACCTTGAGC ATTTCCCCAG TTATGCACCT CCCAGTGGGG ATCCTAGTAT TGAGTCAACA
    GATGGGGCTG AGGATGCTTC ACTGGCCCCC CTGGAAAGCC AGCCCATCAC CTTCACCCCT
    GAGGAGATGG AGAAGTACAG CAAGCTCCAG CAGGCTGCTC AGCAACACAT CCAGCAGCAG
    CTTCTGGCCA AGCAAGTAAA GGCCTTTCCA GCCTCAGCTG CCCTGGCCCC AGCCACACCA
    GCCCTGCAAC CCATCCACAT TCAGCAGCCA GCTACAGCCT CTGCCACCTC CATCACAACT
    GTTCAGCATG CCATCCTACA ACATCATGCT GCCGCAGCTG CTGCCGCCAT CGGCATTCAC
    CCTCACCCCC ATCCCCAACC ACTTGCCCAG GTGCATCATA TTCCCCAGCC CCATCTGACC
    CCCATTTCTT TGTCCCACCT CACTCACTCA ATCATCCCTG GCCACCCTGC CACCTTTCTC
    GCTAGCCATC CCATCCACAT CATTCCCGCC TCAGCCATCC ATCCTGGGCC CTTCACCTTT
    CACCCTGTCC CACATGCTGC CCTCTACCCC ACCCTACTTG CTCCACGGCC TGCTGCAGCA
    GCTGCCACTG CACTTCACCT TCACCCACTA CTTCACCCCA TCTTCTCAGG TCAGGACCTG
    CAACATCCCC CCAGCCATGG CACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879869.1
    CDS742..4608
    Translation

    Target ORF information:

    RefSeq Version XM_017024380.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024380.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTTCAAAC CAACCACAGT GGCTGTAGAT GAAGAAGGTG GAGAAGATGA TAAAGATGAA 
    TCAGCTACAA ATAGTGGCAC AGGTGCCACT GCTTCTTGTG GCCTGGGATC TGAATTCTCC
    ACAGATAAAG GAGGCCCTTT CACTGCAGTA CAAATCACTA ATACCACTGG ACTGGCCCAG
    GCTCCTGGGT TAGCCTCCCA AGGCATCAGC TTTGGCATTA AGAATAATCT GGGGACCCCA
    TTGCAAAAAT TGGGAGTGTC ATTTTCTTTT GCCAAAAAGG CTCCTGTCAA ACTCGAATCA
    ATAGCATCAG TTTTCAAGGA CCATGCGGAG GAAGGGACCT CTGAAGATGG AACAAAACCC
    GATGAGAAGA GTTCTGACCA AGGACTGCAG AAGGTAGGAG ACTCTGATGG GAGCAGTAAT
    CTTGATGGTA AAAAAGAGGA TGAAGACCCT CAGGATGGAG GGTCCCTTGC CTCAACATTA
    TCCAAATTAA AAAGGATGAA ACGAGAAGAA GGAGCTGGGG CTACAGAGCC TGAGTATTAC
    CACTACATCC CCCCAGCACA CTGCAAAGTA AAACCTAATT TTCCCTTTCT ACTTTTTATG
    AGAGCCAGTG AACAAATGGA TGGTGATAAT ACTACACACC CAAAGAATGC CCCAGAGAGT
    AAAAAAGGCA GTTCTCCCAA GCCTAAAAGC TGCATCAAGG CGGCAGCAAG CCAAGGAGCA
    GAAAAGACAG TTAGTGAAGT CTCTGAGCAG CCGAAGGAAA CCAGCATGAC CGAGCCCTCA
    GAACCAGGAA GCAAAGCTGA GGCAAAGAAG GCCTTAGGAG GGGATGTAAG TGATCAGAGT
    TTAGAAAGTC ATAGTCAGAA GGTTTCAGAG ACCCAAATGT GTGAGTCCAA CTCTTCTAAA
    GAAACCTCTC TGGCCACCCC AGCAGGGAAA GAAAGCCAAG AAGGACCCAA ACATCCTACT
    GGTCCCTTCT TCCCAGTTTT GAGCAAAGAT GAAAGCACTG CCCTCCAGTG GCCATCAGAA
    CTATTAATTT TCACCAAGGC AGAACCCTCC ATTTCATACA GTTGTAACCC TTTATATTTT
    GACTTTAAAC TTTCAAGGAA CAAAGATGCC AGAACTAAAG GAACAGAAAA ACCAAAGGAT
    ATAGGAAGCT CCTCAAAGGA CCATCTCCAA GGCCTAGATC CTGGTGAGCC AAATAAAAGC
    AAGGAAGTGG GCGGAGAGAA AATAGTACGT TCCTCAGGAG GCAGAATGGA CGCACCTGCT
    TCAGGGTCTG CCTGTAGCGG CCTGAACAAG CAGGAGCCTG GGGGTAGCCA TGGGTCTGAG
    ACAGAAGACA CAGGGAGAAG CCTTCCCAGC AAGAAAGAAC GATCTGGGAA GTCCCACCGG
    CACAAAAAGA AAAAGAAGCA CAAAAAATCC AGCAAACACA AACGTAAACA CAAGGCTGAC
    ACAGAAGAGA AAAGCTCTAA GGCAGAGTCA GGGGAGAAAT CTAAGAAGCG CAAGAAACGA
    AAACGAAAGA AGAATAAGTC ATCAGCCCCA GCAGATTCTG AACGAGGACC CAAACCAGAA
    CCCCCTGGGA GTGGCAGTCC CGCACCACCA AGAAGAAGGC GGAGAGCTCA AGATGACTCC
    CAGCGGAGAT CCCTCCCAGC TGAAGAGGGG AGCAGTGGCA AAAAGGATGA AGGTGGGGGT
    GGTAGCAGCT CCCAAGACCA TGGTGGGAGG AAACACAAAG GTGAACTTCC ACCTTCATCC
    TGCCAGCGAA GAGCAGGCAC CAAACGGAGC AGCCGGTCTA GCCATCGGAG CCAACCCAGT
    AGTGGAGATG AGGATAGTGA TGATGCTTCC TCACACCGGC TGCACCAGAA GTCTCCATCC
    CAGTACAGTG AGGAAGAAGA AGAGGAAGAT TCAGGCAGTG AGCATTCCCG CAGCCGCTCA
    AGGTCTGGCC GGCGCCATTC CTCGCATCGT TCCTCCCGGC GTTCTTACTC AAGTAGCTCA
    GATGCCTCTT CAGACCAGAG CTGCTATAGT AGACAGCGCA GTTACTCTGA TGACAGCTAC
    AGTGACTACA GTGACAGATC ACGAAGGCAC TCCAAGCGCT CCCATGACTC AGATGACTCA
    GACTATGCCA GCTCCAAACA CCGATCAAAA CGGCACAAAT ATTCATCTTC TGATGATGAC
    TATAGCCTCA GTTGCAGCCA GTCCCGAAGC CGATCTCGGA GTCATACCAG AGAGCGCTCA
    AGATCCCGGG GCCGCAGCCG CAGCAGCAGT TGTAGTCGTA GTCGAAGCAA GCGGAGAAGC
    CGTAGCACCA CAGCCCACAG CTGGCAACGG AGCCGGAGCT ATAGCCGGGA CCGCAGCCGC
    AGCACCAGGA GCCCTTCCCA GAGATCAGGC TCCAGGAAGA GATCATGGGG TCACGAGAGC
    CCTGAGGAGA GGCATTCTGG GCGTCGGGAC TTCATTCGTT CTAAGATCTA CCGCTCCCAG
    TCCCCCCACT ATTTCCGATC AGGCCGGGGA GAAGGTCCTG GGAAGAAAGA TGATGGCAGA
    GGAGATGACA GTAAAGCAAC AGGTCCACCT TCCCAGAACA GCAACATTGG CACAGGAAGA
    GGGTCAGAAG GTGACTGCAG TCCTGAAGAC AAGAACTCTG TCACTGCCAA ACTGCTACTG
    GAGAAGATCC AGTCAAGGAA AGTGGAGAGG AAACCTAGTG TGAGTGAGGA GGTGCAGGCC
    ACCCCTAATA AAGCTGGGCC CAAGCTCAAG GACCCCCCAC AAGGTTACTT TGGGCCCAAG
    CTCCCCCCAT CTCTTGGCAA TAAGCCTGTC CTTCCACTGA TAGGGAAGCT CCCAGCTACC
    CGAAAGCCCA ATAAGAAGTG TGAAGAGTCT GGCTTGGAAA GGGGGGAAGA GCAAGAACAG
    TCAGAGACAG AAGAGGGGCC CCCAGGGAGT AGTGATGCCC TATTTGGGCA TCAGTTCCCT
    TCAGAGGAAA CAACTGGCCC CTTATTAGAC CCACCCCCAG AAGAGTCAAA GTCTGGAGAA
    GCTACTGCTG ATCACCCTGT GGCTCCACTA GGCACCCCAG CACATTCTGA CTGCTACCCT
    GGGGACCCAA CCATCTCCCA TAACTACCTC CCCGACCCCA GTGATGGGGA CACCCTGGAG
    TCCCTGGATA GCAGCAGTCA GCCAGGCCCT GTGGAGTCCA GCTTGCTGCC TATAGCACCA
    GACCTTGAGC ATTTCCCCAG TTATGCACCT CCCAGTGGGG ATCCTAGTAT TGAGTCAACA
    GATGGGGCTG AGGATGCTTC ACTGGCCCCC CTGGAAAGCC AGCCCATCAC CTTCACCCCT
    GAGGAGATGG AGAAGTACAG CAAGCTCCAG CAGGCTGCTC AGCAACACAT CCAGCAGCAG
    CTTCTGGCCA AGCAAGTAAA GGCCTTTCCA GCCTCAGCTG CCCTGGCCCC AGCCACACCA
    GCCCTGCAAC CCATCCACAT TCAGCAGCCA GCTACAGCCT CTGCCACCTC CATCACAACT
    GTTCAGCATG CCATCCTACA ACATCATGCT GCCGCAGCTG CTGCCGCCAT CGGCATTCAC
    CCTCACCCCC ATCCCCAACC ACTTGCCCAG GTGCATCATA TTCCCCAGCC CCATCTGACC
    CCCATTTCTT TGTCCCACCT CACTCACTCA ATCATCCCTG GCCACCCTGC CACCTTTCTC
    GCTAGCCATC CCATCCACAT CATTCCCGCC TCAGCCATCC ATCCTGGGCC CTTCACCTTT
    CACCCTGTCC CACATGCTGC CCTCTACCCC ACCCTACTTG CTCCACGGCC TGCTGCAGCA
    GCTGCCACTG CACTTCACCT TCACCCACTA CTTCACCCCA TCTTCTCAGG TCAGGACCTG
    CAACATCCCC CCAGCCATGG CACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu03428
    Clone ID Related Accession (Same CDS sequence) NM_001002909.4 , NM_001002909.3
    Accession Version NM_001002909.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, AK025600.1, BC136629.1 and BC024147.2. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_001002909.3. Transcript Variant: This variant (1) encodes the longest isoform (1). ##Evidence-Data-START## Transcript exon combination :: SRR1660803.12881.1, SRR1660805.222318.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2467148 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000591680.6/ ENSP00000467556.1 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGGTAA TCACTTTGAT 
    CAGTATGAGG AAGGACACTT GGAAATTGAA CAAGCGTCAC TTGACAAGCC TATAGAATCG
    GATAATATTG GACACCGCTT ACTCCAGAAA CATGGGTGGA AGCTGGGCCA GGGATTGGGA
    AAATCTCTTC AGGGGAGAAC AGATCCCATT CCAATCGTTG TCAAGTATGA TGTCATGGGC
    ATGGGTCGCA TGGAAATGGA GCTTGATTAT GCTGAAGATG CTACCGAACG GCGCCGTGTC
    CTAGAAGTAG AAAAAGAAGA CACAGAAGAG CTGAGACAAA AGTACAAGGA TTATGTTGAC
    AAAGAGAAGG CAATTGCCAA AGCCTTGGAA GACCTCAGAG CCAACTTTTA TTGTGAACTG
    TGTGATAAGC AATATCAGAA ACATCAGGAA TTTGATAACC ATATCAACTC CTATGATCAT
    GCACACAAGC AGAGATTAAA AGATCTGAAG CAGAGAGAGT TTGCTCGAAA TGTCTCTTCA
    AGATCCCGCA AGGATGAGAA AAAACAGGAA AAAGCCCTTC GGCGGCTCCA TGAGTTGGCA
    GAGCAAAGAA AACAAGCTGA ATGTGCACCT GGAAGTGGTC CCATGTTCAA ACCAACCACA
    GTGGCTGTAG ATGAAGAAGG TGGAGAAGAT GATAAAGATG AATCAGCTAC AAATAGTGGC
    ACAGGTGCCA CTGCTTCTTG TGGCCTGGGA TCTGAATTCT CCACAGATAA AGGAGGCCCT
    TTCACTGCAG TACAAATCAC TAATACCACT GGACTGGCCC AGGCTCCTGG GTTAGCCTCC
    CAAGGCATCA GCTTTGGCAT TAAGAATAAT CTGGGGACCC CATTGCAAAA ATTGGGAGTG
    TCATTTTCTT TTGCCAAAAA GGCTCCTGTC AAACTCGAAT CAATAGCATC AGTTTTCAAG
    GACCATGCGG AGGAAGGGAC CTCTGAAGAT GGAACAAAAC CCGATGAGAA GAGTTCTGAC
    CAAGGACTGC AGAAGGTAGG AGACTCTGAT GGGAGCAGTA ATCTTGATGG TAAAAAAGAG
    GATGAAGACC CTCAGGATGG AGGGTCCCTT GCCTCAACAT TATCCAAATT AAAAAGGATG
    AAACGAGAAG AAGGAGCTGG GGCTACAGAG CCTGAGTATT ACCACTACAT CCCCCCAGCA
    CACTGCAAAG TAAAACCTAA TTTTCCCTTT CTACTTTTTA TGAGAGCCAG TGAACAAATG
    GATGGTGATA ATACTACACA CCCAAAGAAT GCCCCAGAGA GTAAAAAAGG CAGTTCTCCC
    AAGCCTAAAA GCTGCATCAA GGCGGCAGCA AGCCAAGGAG CAGAAAAGAC AGTTAGTGAA
    GTCTCTGAGC AGCCGAAGGA AACCAGCATG ACCGAGCCCT CAGAACCAGG AAGCAAAGCT
    GAGGCAAAGA AGGCCTTAGG AGGGGATGTA AGTGATCAGA GTTTAGAAAG TCATAGTCAG
    AAGGTTTCAG AGACCCAAAT GTGTGAGTCC AACTCTTCTA AAGAAACCTC TCTGGCCACC
    CCAGCAGGGA AAGAAAGCCA AGAAGGACCC AAACATCCTA CTGGTCCCTT CTTCCCAGTT
    TTGAGCAAAG ATGAAAGCAC TGCCCTCCAG TGGCCATCAG AACTATTAAT TTTCACCAAG
    GCAGAACCCT CCATTTCATA CAGTTGTAAC CCTTTATATT TTGACTTTAA ACTTTCAAGG
    AACAAAGATG CCAGAACTAA AGGAACAGAA AAACCAAAGG ATATAGGAAG CTCCTCAAAG
    GACCATCTCC AAGGCCTAGA TCCTGGTGAG CCAAATAAAA GCAAGGAAGT GGGCGGAGAG
    AAAATAGTAC GTTCCTCAGG AGGCAGAATG GACGCACCTG CTTCAGGGTC TGCCTGTAGC
    GGCCTGAACA AGCAGGAGCC TGGGGGTAGC CATGGGTCTG AGACAGAAGA CACAGGGAGA
    AGCCTTCCCA GCAAGAAAGA ACGATCTGGG AAGTCCCACC GGCACAAAAA GAAAAAGAAG
    CACAAAAAAT CCAGCAAACA CAAACGTAAA CACAAGGCTG ACACAGAAGA GAAAAGCTCT
    AAGGCAGAGT CAGGGGAGAA ATCTAAGAAG CGCAAGAAAC GAAAACGAAA GAAGAATAAG
    TCATCAGCCC CAGCAGATTC TGAACGAGGA CCCAAACCAG AACCCCCTGG GAGTGGCAGT
    CCCGCACCAC CAAGAAGAAG GCGGAGAGCT CAAGATGACT CCCAGCGGAG ATCCCTCCCA
    GCTGAAGAGG GGAGCAGTGG CAAAAAGGAT GAAGGTGGGG GTGGTAGCAG CTCCCAAGAC
    CATGGTGGGA GGAAACACAA AGGTGAACTT CCACCTTCAT CCTGCCAGCG AAGAGCAGGC
    ACCAAACGGA GCAGCCGGTC TAGCCATCGG AGCCAACCCA GTAGTGGAGA TGAGGATAGT
    GATGATGCTT CCTCACACCG GCTGCACCAG AAGTCTCCAT CCCAGTACAG TGAGGAAGAA
    GAAGAGGAAG ATTCAGGCAG TGAGCATTCC CGCAGCCGCT CAAGGTCTGG CCGGCGCCAT
    TCCTCGCATC GTTCCTCCCG GCGTTCTTAC TCAAGTAGCT CAGATGCCTC TTCAGACCAG
    AGCTGCTATA GTAGACAGCG CAGTTACTCT GATGACAGCT ACAGTGACTA CAGTGACAGA
    TCACGAAGGC ACTCCAAGCG CTCCCATGAC TCAGATGACT CAGACTATGC CAGCTCCAAA
    CACCGATCAA AACGGCACAA ATATTCATCT TCTGATGATG ACTATAGCCT CAGTTGCAGC
    CAGTCCCGAA GCCGATCTCG GAGTCATACC AGAGAGCGCT CAAGATCCCG GGGCCGCAGC
    CGCAGCAGCA GTTGTAGTCG TAGTCGAAGC AAGCGGAGAA GCCGTAGCAC CACAGCCCAC
    AGCTGGCAAC GGAGCCGGAG CTATAGCCGG GACCGCAGCC GCAGCACCAG GAGCCCTTCC
    CAGAGATCAG GCTCCAGGAA GAGATCATGG GGTCACGAGA GCCCTGAGGA GAGGCATTCT
    GGGCGTCGGG ACTTCATTCG TTCTAAGATC TACCGCTCCC AGTCCCCCCA CTATTTCCGA
    TCAGGCCGGG GAGAAGGTCC TGGGAAGAAA GATGATGGCA GAGGAGATGA CAGTAAAGCA
    ACAGGTCCAC CTTCCCAGAA CAGCAACATT GGCACAGGAA GAGGGTCAGA AGGTGACTGC
    AGTCCTGAAG ACAAGAACTC TGTCACTGCC AAACTGCTAC TGGAGAAGAT CCAGTCAAGG
    AAAGTGGAGA GGAAACCTAG TGTGAGTGAG GAGGTGCAGG CCACCCCTAA TAAAGCTGGG
    CCCAAGCTCA AGGACCCCCC ACAAGGTTAC TTTGGGCCCA AGCTCCCCCC ATCTCTTGGC
    AATAAGCCTG TCCTTCCACT GATAGGGAAG CTCCCAGCTA CCCGAAAGCC CAATAAGAAG
    TGTGAAGAGT CTGGCTTGGA AAGGGGGGAA GAGCAAGAAC AGTCAGAGAC AGAAGAGGGG
    CCCCCAGGGA GTAGTGATGC CCTATTTGGG CATCAGTTCC CTTCAGAGGA AACAACTGGC
    CCCTTATTAG ACCCACCCCC AGAAGAGTCA AAGTCTGGAG AAGCTACTGC TGATCACCCT
    GTGGCTCCAC TAGGCACCCC AGCACATTCT GACTGCTACC CTGGGGACCC AACCATCTCC
    CATAACTACC TCCCCGACCC CAGTGATGGG GACACCCTGG AGTCCCTGGA TAGCAGCAGT
    CAGCCAGGCC CTGTGGAGTC CAGCTTGCTG CCTATAGCAC CAGACCTTGA GCATTTCCCC
    AGTTATGCAC CTCCCAGTGG GGATCCTAGT ATTGAGTCAA CAGATGGGGC TGAGGATGCT
    TCACTGGCCC CCCTGGAAAG CCAGCCCATC ACCTTCACCC CTGAGGAGAT GGAGAAGTAC
    AGCAAGCTCC AGCAGGCTGC TCAGCAACAC ATCCAGCAGC AGCTTCTGGC CAAGCAAGTA
    AAGGCCTTTC CAGCCTCAGC TGCCCTGGCC CCAGCCACAC CAGCCCTGCA ACCCATCCAC
    ATTCAGCAGC CAGCTACAGC CTCTGCCACC TCCATCACAA CTGTTCAGCA TGCCATCCTA
    CAACATCATG CTGCCGCAGC TGCTGCCGCC ATCGGCATTC ACCCTCACCC CCATCCCCAA
    CCACTTGCCC AGGTGCATCA TATTCCCCAG CCCCATCTGA CCCCCATTTC TTTGTCCCAC
    CTCACTCACT CAATCATCCC TGGCCACCCT GCCACCTTTC TCGCTAGCCA TCCCATCCAC
    ATCATTCCCG CCTCAGCCAT CCATCCTGGG CCCTTCACCT TTCACCCTGT CCCACATGCT
    GCCCTCTACC CCACCCTACT TGCTCCACGG CCTGCTGCAG CAGCTGCCAC TGCACTTCAC
    CTTCACCCAC TACTTCACCC CATCTTCTCA GGTCAGGACC TGCAACATCC CCCCAGCCAT
    GGCACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001002909.1
    CDS37..4545
    Translation

    Target ORF information:

    RefSeq Version NM_001002909.4
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001002909.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGGTAA TCACTTTGAT 
    CAGTATGAGG AAGGACACTT GGAAATTGAA CAAGCGTCAC TTGACAAGCC TATAGAATCG
    GATAATATTG GACACCGCTT ACTCCAGAAA CATGGGTGGA AGCTGGGCCA GGGATTGGGA
    AAATCTCTTC AGGGGAGAAC AGATCCCATT CCAATCGTTG TCAAGTATGA TGTCATGGGC
    ATGGGTCGCA TGGAAATGGA GCTTGATTAT GCTGAAGATG CTACCGAACG GCGCCGTGTC
    CTAGAAGTAG AAAAAGAAGA CACAGAAGAG CTGAGACAAA AGTACAAGGA TTATGTTGAC
    AAAGAGAAGG CAATTGCCAA AGCCTTGGAA GACCTCAGAG CCAACTTTTA TTGTGAACTG
    TGTGATAAGC AATATCAGAA ACATCAGGAA TTTGATAACC ATATCAACTC CTATGATCAT
    GCACACAAGC AGAGATTAAA AGATCTGAAG CAGAGAGAGT TTGCTCGAAA TGTCTCTTCA
    AGATCCCGCA AGGATGAGAA AAAACAGGAA AAAGCCCTTC GGCGGCTCCA TGAGTTGGCA
    GAGCAAAGAA AACAAGCTGA ATGTGCACCT GGAAGTGGTC CCATGTTCAA ACCAACCACA
    GTGGCTGTAG ATGAAGAAGG TGGAGAAGAT GATAAAGATG AATCAGCTAC AAATAGTGGC
    ACAGGTGCCA CTGCTTCTTG TGGCCTGGGA TCTGAATTCT CCACAGATAA AGGAGGCCCT
    TTCACTGCAG TACAAATCAC TAATACCACT GGACTGGCCC AGGCTCCTGG GTTAGCCTCC
    CAAGGCATCA GCTTTGGCAT TAAGAATAAT CTGGGGACCC CATTGCAAAA ATTGGGAGTG
    TCATTTTCTT TTGCCAAAAA GGCTCCTGTC AAACTCGAAT CAATAGCATC AGTTTTCAAG
    GACCATGCGG AGGAAGGGAC CTCTGAAGAT GGAACAAAAC CCGATGAGAA GAGTTCTGAC
    CAAGGACTGC AGAAGGTAGG AGACTCTGAT GGGAGCAGTA ATCTTGATGG TAAAAAAGAG
    GATGAAGACC CTCAGGATGG AGGGTCCCTT GCCTCAACAT TATCCAAATT AAAAAGGATG
    AAACGAGAAG AAGGAGCTGG GGCTACAGAG CCTGAGTATT ACCACTACAT CCCCCCAGCA
    CACTGCAAAG TAAAACCTAA TTTTCCCTTT CTACTTTTTA TGAGAGCCAG TGAACAAATG
    GATGGTGATA ATACTACACA CCCAAAGAAT GCCCCAGAGA GTAAAAAAGG CAGTTCTCCC
    AAGCCTAAAA GCTGCATCAA GGCGGCAGCA AGCCAAGGAG CAGAAAAGAC AGTTAGTGAA
    GTCTCTGAGC AGCCGAAGGA AACCAGCATG ACCGAGCCCT CAGAACCAGG AAGCAAAGCT
    GAGGCAAAGA AGGCCTTAGG AGGGGATGTA AGTGATCAGA GTTTAGAAAG TCATAGTCAG
    AAGGTTTCAG AGACCCAAAT GTGTGAGTCC AACTCTTCTA AAGAAACCTC TCTGGCCACC
    CCAGCAGGGA AAGAAAGCCA AGAAGGACCC AAACATCCTA CTGGTCCCTT CTTCCCAGTT
    TTGAGCAAAG ATGAAAGCAC TGCCCTCCAG TGGCCATCAG AACTATTAAT TTTCACCAAG
    GCAGAACCCT CCATTTCATA CAGTTGTAAC CCTTTATATT TTGACTTTAA ACTTTCAAGG
    AACAAAGATG CCAGAACTAA AGGAACAGAA AAACCAAAGG ATATAGGAAG CTCCTCAAAG
    GACCATCTCC AAGGCCTAGA TCCTGGTGAG CCAAATAAAA GCAAGGAAGT GGGCGGAGAG
    AAAATAGTAC GTTCCTCAGG AGGCAGAATG GACGCACCTG CTTCAGGGTC TGCCTGTAGC
    GGCCTGAACA AGCAGGAGCC TGGGGGTAGC CATGGGTCTG AGACAGAAGA CACAGGGAGA
    AGCCTTCCCA GCAAGAAAGA ACGATCTGGG AAGTCCCACC GGCACAAAAA GAAAAAGAAG
    CACAAAAAAT CCAGCAAACA CAAACGTAAA CACAAGGCTG ACACAGAAGA GAAAAGCTCT
    AAGGCAGAGT CAGGGGAGAA ATCTAAGAAG CGCAAGAAAC GAAAACGAAA GAAGAATAAG
    TCATCAGCCC CAGCAGATTC TGAACGAGGA CCCAAACCAG AACCCCCTGG GAGTGGCAGT
    CCCGCACCAC CAAGAAGAAG GCGGAGAGCT CAAGATGACT CCCAGCGGAG ATCCCTCCCA
    GCTGAAGAGG GGAGCAGTGG CAAAAAGGAT GAAGGTGGGG GTGGTAGCAG CTCCCAAGAC
    CATGGTGGGA GGAAACACAA AGGTGAACTT CCACCTTCAT CCTGCCAGCG AAGAGCAGGC
    ACCAAACGGA GCAGCCGGTC TAGCCATCGG AGCCAACCCA GTAGTGGAGA TGAGGATAGT
    GATGATGCTT CCTCACACCG GCTGCACCAG AAGTCTCCAT CCCAGTACAG TGAGGAAGAA
    GAAGAGGAAG ATTCAGGCAG TGAGCATTCC CGCAGCCGCT CAAGGTCTGG CCGGCGCCAT
    TCCTCGCATC GTTCCTCCCG GCGTTCTTAC TCAAGTAGCT CAGATGCCTC TTCAGACCAG
    AGCTGCTATA GTAGACAGCG CAGTTACTCT GATGACAGCT ACAGTGACTA CAGTGACAGA
    TCACGAAGGC ACTCCAAGCG CTCCCATGAC TCAGATGACT CAGACTATGC CAGCTCCAAA
    CACCGATCAA AACGGCACAA ATATTCATCT TCTGATGATG ACTATAGCCT CAGTTGCAGC
    CAGTCCCGAA GCCGATCTCG GAGTCATACC AGAGAGCGCT CAAGATCCCG GGGCCGCAGC
    CGCAGCAGCA GTTGTAGTCG TAGTCGAAGC AAGCGGAGAA GCCGTAGCAC CACAGCCCAC
    AGCTGGCAAC GGAGCCGGAG CTATAGCCGG GACCGCAGCC GCAGCACCAG GAGCCCTTCC
    CAGAGATCAG GCTCCAGGAA GAGATCATGG GGTCACGAGA GCCCTGAGGA GAGGCATTCT
    GGGCGTCGGG ACTTCATTCG TTCTAAGATC TACCGCTCCC AGTCCCCCCA CTATTTCCGA
    TCAGGCCGGG GAGAAGGTCC TGGGAAGAAA GATGATGGCA GAGGAGATGA CAGTAAAGCA
    ACAGGTCCAC CTTCCCAGAA CAGCAACATT GGCACAGGAA GAGGGTCAGA AGGTGACTGC
    AGTCCTGAAG ACAAGAACTC TGTCACTGCC AAACTGCTAC TGGAGAAGAT CCAGTCAAGG
    AAAGTGGAGA GGAAACCTAG TGTGAGTGAG GAGGTGCAGG CCACCCCTAA TAAAGCTGGG
    CCCAAGCTCA AGGACCCCCC ACAAGGTTAC TTTGGGCCCA AGCTCCCCCC ATCTCTTGGC
    AATAAGCCTG TCCTTCCACT GATAGGGAAG CTCCCAGCTA CCCGAAAGCC CAATAAGAAG
    TGTGAAGAGT CTGGCTTGGA AAGGGGGGAA GAGCAAGAAC AGTCAGAGAC AGAAGAGGGG
    CCCCCAGGGA GTAGTGATGC CCTATTTGGG CATCAGTTCC CTTCAGAGGA AACAACTGGC
    CCCTTATTAG ACCCACCCCC AGAAGAGTCA AAGTCTGGAG AAGCTACTGC TGATCACCCT
    GTGGCTCCAC TAGGCACCCC AGCACATTCT GACTGCTACC CTGGGGACCC AACCATCTCC
    CATAACTACC TCCCCGACCC CAGTGATGGG GACACCCTGG AGTCCCTGGA TAGCAGCAGT
    CAGCCAGGCC CTGTGGAGTC CAGCTTGCTG CCTATAGCAC CAGACCTTGA GCATTTCCCC
    AGTTATGCAC CTCCCAGTGG GGATCCTAGT ATTGAGTCAA CAGATGGGGC TGAGGATGCT
    TCACTGGCCC CCCTGGAAAG CCAGCCCATC ACCTTCACCC CTGAGGAGAT GGAGAAGTAC
    AGCAAGCTCC AGCAGGCTGC TCAGCAACAC ATCCAGCAGC AGCTTCTGGC CAAGCAAGTA
    AAGGCCTTTC CAGCCTCAGC TGCCCTGGCC CCAGCCACAC CAGCCCTGCA ACCCATCCAC
    ATTCAGCAGC CAGCTACAGC CTCTGCCACC TCCATCACAA CTGTTCAGCA TGCCATCCTA
    CAACATCATG CTGCCGCAGC TGCTGCCGCC ATCGGCATTC ACCCTCACCC CCATCCCCAA
    CCACTTGCCC AGGTGCATCA TATTCCCCAG CCCCATCTGA CCCCCATTTC TTTGTCCCAC
    CTCACTCACT CAATCATCCC TGGCCACCCT GCCACCTTTC TCGCTAGCCA TCCCATCCAC
    ATCATTCCCG CCTCAGCCAT CCATCCTGGG CCCTTCACCT TTCACCCTGT CCCACATGCT
    GCCCTCTACC CCACCCTACT TGCTCCACGG CCTGCTGCAG CAGCTGCCAC TGCACTTCAC
    CTTCACCCAC TACTTCACCC CATCTTCTCA GGTCAGGACC TGCAACATCC CCCCAGCCAT
    GGCACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu03428
    Clone ID Related Accession (Same CDS sequence) NM_001002909.4 , NM_001002909.3
    Accession Version NM_001002909.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-10-02
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, AK025600.1, BC136629.1, BC024147.2 and CA443965.1. This sequence is a reference standard in the RefSeqGene project. On Feb 12, 2015 this sequence version replaced NM_001002909.2. Transcript Variant: This variant (1) encodes the longest isoform (1). ##Evidence-Data-START## Transcript exon combination :: SRR1660803.12881.1, SRR1660805.222318.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2467148 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGGTAA TCACTTTGAT 
    CAGTATGAGG AAGGACACTT GGAAATTGAA CAAGCGTCAC TTGACAAGCC TATAGAATCG
    GATAATATTG GACACCGCTT ACTCCAGAAA CATGGGTGGA AGCTGGGCCA GGGATTGGGA
    AAATCTCTTC AGGGGAGAAC AGATCCCATT CCAATCGTTG TCAAGTATGA TGTCATGGGC
    ATGGGTCGCA TGGAAATGGA GCTTGATTAT GCTGAAGATG CTACCGAACG GCGCCGTGTC
    CTAGAAGTAG AAAAAGAAGA CACAGAAGAG CTGAGACAAA AGTACAAGGA TTATGTTGAC
    AAAGAGAAGG CAATTGCCAA AGCCTTGGAA GACCTCAGAG CCAACTTTTA TTGTGAACTG
    TGTGATAAGC AATATCAGAA ACATCAGGAA TTTGATAACC ATATCAACTC CTATGATCAT
    GCACACAAGC AGAGATTAAA AGATCTGAAG CAGAGAGAGT TTGCTCGAAA TGTCTCTTCA
    AGATCCCGCA AGGATGAGAA AAAACAGGAA AAAGCCCTTC GGCGGCTCCA TGAGTTGGCA
    GAGCAAAGAA AACAAGCTGA ATGTGCACCT GGAAGTGGTC CCATGTTCAA ACCAACCACA
    GTGGCTGTAG ATGAAGAAGG TGGAGAAGAT GATAAAGATG AATCAGCTAC AAATAGTGGC
    ACAGGTGCCA CTGCTTCTTG TGGCCTGGGA TCTGAATTCT CCACAGATAA AGGAGGCCCT
    TTCACTGCAG TACAAATCAC TAATACCACT GGACTGGCCC AGGCTCCTGG GTTAGCCTCC
    CAAGGCATCA GCTTTGGCAT TAAGAATAAT CTGGGGACCC CATTGCAAAA ATTGGGAGTG
    TCATTTTCTT TTGCCAAAAA GGCTCCTGTC AAACTCGAAT CAATAGCATC AGTTTTCAAG
    GACCATGCGG AGGAAGGGAC CTCTGAAGAT GGAACAAAAC CCGATGAGAA GAGTTCTGAC
    CAAGGACTGC AGAAGGTAGG AGACTCTGAT GGGAGCAGTA ATCTTGATGG TAAAAAAGAG
    GATGAAGACC CTCAGGATGG AGGGTCCCTT GCCTCAACAT TATCCAAATT AAAAAGGATG
    AAACGAGAAG AAGGAGCTGG GGCTACAGAG CCTGAGTATT ACCACTACAT CCCCCCAGCA
    CACTGCAAAG TAAAACCTAA TTTTCCCTTT CTACTTTTTA TGAGAGCCAG TGAACAAATG
    GATGGTGATA ATACTACACA CCCAAAGAAT GCCCCAGAGA GTAAAAAAGG CAGTTCTCCC
    AAGCCTAAAA GCTGCATCAA GGCGGCAGCA AGCCAAGGAG CAGAAAAGAC AGTTAGTGAA
    GTCTCTGAGC AGCCGAAGGA AACCAGCATG ACCGAGCCCT CAGAACCAGG AAGCAAAGCT
    GAGGCAAAGA AGGCCTTAGG AGGGGATGTA AGTGATCAGA GTTTAGAAAG TCATAGTCAG
    AAGGTTTCAG AGACCCAAAT GTGTGAGTCC AACTCTTCTA AAGAAACCTC TCTGGCCACC
    CCAGCAGGGA AAGAAAGCCA AGAAGGACCC AAACATCCTA CTGGTCCCTT CTTCCCAGTT
    TTGAGCAAAG ATGAAAGCAC TGCCCTCCAG TGGCCATCAG AACTATTAAT TTTCACCAAG
    GCAGAACCCT CCATTTCATA CAGTTGTAAC CCTTTATATT TTGACTTTAA ACTTTCAAGG
    AACAAAGATG CCAGAACTAA AGGAACAGAA AAACCAAAGG ATATAGGAAG CTCCTCAAAG
    GACCATCTCC AAGGCCTAGA TCCTGGTGAG CCAAATAAAA GCAAGGAAGT GGGCGGAGAG
    AAAATAGTAC GTTCCTCAGG AGGCAGAATG GACGCACCTG CTTCAGGGTC TGCCTGTAGC
    GGCCTGAACA AGCAGGAGCC TGGGGGTAGC CATGGGTCTG AGACAGAAGA CACAGGGAGA
    AGCCTTCCCA GCAAGAAAGA ACGATCTGGG AAGTCCCACC GGCACAAAAA GAAAAAGAAG
    CACAAAAAAT CCAGCAAACA CAAACGTAAA CACAAGGCTG ACACAGAAGA GAAAAGCTCT
    AAGGCAGAGT CAGGGGAGAA ATCTAAGAAG CGCAAGAAAC GAAAACGAAA GAAGAATAAG
    TCATCAGCCC CAGCAGATTC TGAACGAGGA CCCAAACCAG AACCCCCTGG GAGTGGCAGT
    CCCGCACCAC CAAGAAGAAG GCGGAGAGCT CAAGATGACT CCCAGCGGAG ATCCCTCCCA
    GCTGAAGAGG GGAGCAGTGG CAAAAAGGAT GAAGGTGGGG GTGGTAGCAG CTCCCAAGAC
    CATGGTGGGA GGAAACACAA AGGTGAACTT CCACCTTCAT CCTGCCAGCG AAGAGCAGGC
    ACCAAACGGA GCAGCCGGTC TAGCCATCGG AGCCAACCCA GTAGTGGAGA TGAGGATAGT
    GATGATGCTT CCTCACACCG GCTGCACCAG AAGTCTCCAT CCCAGTACAG TGAGGAAGAA
    GAAGAGGAAG ATTCAGGCAG TGAGCATTCC CGCAGCCGCT CAAGGTCTGG CCGGCGCCAT
    TCCTCGCATC GTTCCTCCCG GCGTTCTTAC TCAAGTAGCT CAGATGCCTC TTCAGACCAG
    AGCTGCTATA GTAGACAGCG CAGTTACTCT GATGACAGCT ACAGTGACTA CAGTGACAGA
    TCACGAAGGC ACTCCAAGCG CTCCCATGAC TCAGATGACT CAGACTATGC CAGCTCCAAA
    CACCGATCAA AACGGCACAA ATATTCATCT TCTGATGATG ACTATAGCCT CAGTTGCAGC
    CAGTCCCGAA GCCGATCTCG GAGTCATACC AGAGAGCGCT CAAGATCCCG GGGCCGCAGC
    CGCAGCAGCA GTTGTAGTCG TAGTCGAAGC AAGCGGAGAA GCCGTAGCAC CACAGCCCAC
    AGCTGGCAAC GGAGCCGGAG CTATAGCCGG GACCGCAGCC GCAGCACCAG GAGCCCTTCC
    CAGAGATCAG GCTCCAGGAA GAGATCATGG GGTCACGAGA GCCCTGAGGA GAGGCATTCT
    GGGCGTCGGG ACTTCATTCG TTCTAAGATC TACCGCTCCC AGTCCCCCCA CTATTTCCGA
    TCAGGCCGGG GAGAAGGTCC TGGGAAGAAA GATGATGGCA GAGGAGATGA CAGTAAAGCA
    ACAGGTCCAC CTTCCCAGAA CAGCAACATT GGCACAGGAA GAGGGTCAGA AGGTGACTGC
    AGTCCTGAAG ACAAGAACTC TGTCACTGCC AAACTGCTAC TGGAGAAGAT CCAGTCAAGG
    AAAGTGGAGA GGAAACCTAG TGTGAGTGAG GAGGTGCAGG CCACCCCTAA TAAAGCTGGG
    CCCAAGCTCA AGGACCCCCC ACAAGGTTAC TTTGGGCCCA AGCTCCCCCC ATCTCTTGGC
    AATAAGCCTG TCCTTCCACT GATAGGGAAG CTCCCAGCTA CCCGAAAGCC CAATAAGAAG
    TGTGAAGAGT CTGGCTTGGA AAGGGGGGAA GAGCAAGAAC AGTCAGAGAC AGAAGAGGGG
    CCCCCAGGGA GTAGTGATGC CCTATTTGGG CATCAGTTCC CTTCAGAGGA AACAACTGGC
    CCCTTATTAG ACCCACCCCC AGAAGAGTCA AAGTCTGGAG AAGCTACTGC TGATCACCCT
    GTGGCTCCAC TAGGCACCCC AGCACATTCT GACTGCTACC CTGGGGACCC AACCATCTCC
    CATAACTACC TCCCCGACCC CAGTGATGGG GACACCCTGG AGTCCCTGGA TAGCAGCAGT
    CAGCCAGGCC CTGTGGAGTC CAGCTTGCTG CCTATAGCAC CAGACCTTGA GCATTTCCCC
    AGTTATGCAC CTCCCAGTGG GGATCCTAGT ATTGAGTCAA CAGATGGGGC TGAGGATGCT
    TCACTGGCCC CCCTGGAAAG CCAGCCCATC ACCTTCACCC CTGAGGAGAT GGAGAAGTAC
    AGCAAGCTCC AGCAGGCTGC TCAGCAACAC ATCCAGCAGC AGCTTCTGGC CAAGCAAGTA
    AAGGCCTTTC CAGCCTCAGC TGCCCTGGCC CCAGCCACAC CAGCCCTGCA ACCCATCCAC
    ATTCAGCAGC CAGCTACAGC CTCTGCCACC TCCATCACAA CTGTTCAGCA TGCCATCCTA
    CAACATCATG CTGCCGCAGC TGCTGCCGCC ATCGGCATTC ACCCTCACCC CCATCCCCAA
    CCACTTGCCC AGGTGCATCA TATTCCCCAG CCCCATCTGA CCCCCATTTC TTTGTCCCAC
    CTCACTCACT CAATCATCCC TGGCCACCCT GCCACCTTTC TCGCTAGCCA TCCCATCCAC
    ATCATTCCCG CCTCAGCCAT CCATCCTGGG CCCTTCACCT TTCACCCTGT CCCACATGCT
    GCCCTCTACC CCACCCTACT TGCTCCACGG CCTGCTGCAG CAGCTGCCAC TGCACTTCAC
    CTTCACCCAC TACTTCACCC CATCTTCTCA GGTCAGGACC TGCAACATCC CCCCAGCCAT
    GGCACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001002909.1
    CDS233..4741
    Translation

    Target ORF information:

    RefSeq Version NM_001002909.3
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001002909.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGGTAA TCACTTTGAT 
    CAGTATGAGG AAGGACACTT GGAAATTGAA CAAGCGTCAC TTGACAAGCC TATAGAATCG
    GATAATATTG GACACCGCTT ACTCCAGAAA CATGGGTGGA AGCTGGGCCA GGGATTGGGA
    AAATCTCTTC AGGGGAGAAC AGATCCCATT CCAATCGTTG TCAAGTATGA TGTCATGGGC
    ATGGGTCGCA TGGAAATGGA GCTTGATTAT GCTGAAGATG CTACCGAACG GCGCCGTGTC
    CTAGAAGTAG AAAAAGAAGA CACAGAAGAG CTGAGACAAA AGTACAAGGA TTATGTTGAC
    AAAGAGAAGG CAATTGCCAA AGCCTTGGAA GACCTCAGAG CCAACTTTTA TTGTGAACTG
    TGTGATAAGC AATATCAGAA ACATCAGGAA TTTGATAACC ATATCAACTC CTATGATCAT
    GCACACAAGC AGAGATTAAA AGATCTGAAG CAGAGAGAGT TTGCTCGAAA TGTCTCTTCA
    AGATCCCGCA AGGATGAGAA AAAACAGGAA AAAGCCCTTC GGCGGCTCCA TGAGTTGGCA
    GAGCAAAGAA AACAAGCTGA ATGTGCACCT GGAAGTGGTC CCATGTTCAA ACCAACCACA
    GTGGCTGTAG ATGAAGAAGG TGGAGAAGAT GATAAAGATG AATCAGCTAC AAATAGTGGC
    ACAGGTGCCA CTGCTTCTTG TGGCCTGGGA TCTGAATTCT CCACAGATAA AGGAGGCCCT
    TTCACTGCAG TACAAATCAC TAATACCACT GGACTGGCCC AGGCTCCTGG GTTAGCCTCC
    CAAGGCATCA GCTTTGGCAT TAAGAATAAT CTGGGGACCC CATTGCAAAA ATTGGGAGTG
    TCATTTTCTT TTGCCAAAAA GGCTCCTGTC AAACTCGAAT CAATAGCATC AGTTTTCAAG
    GACCATGCGG AGGAAGGGAC CTCTGAAGAT GGAACAAAAC CCGATGAGAA GAGTTCTGAC
    CAAGGACTGC AGAAGGTAGG AGACTCTGAT GGGAGCAGTA ATCTTGATGG TAAAAAAGAG
    GATGAAGACC CTCAGGATGG AGGGTCCCTT GCCTCAACAT TATCCAAATT AAAAAGGATG
    AAACGAGAAG AAGGAGCTGG GGCTACAGAG CCTGAGTATT ACCACTACAT CCCCCCAGCA
    CACTGCAAAG TAAAACCTAA TTTTCCCTTT CTACTTTTTA TGAGAGCCAG TGAACAAATG
    GATGGTGATA ATACTACACA CCCAAAGAAT GCCCCAGAGA GTAAAAAAGG CAGTTCTCCC
    AAGCCTAAAA GCTGCATCAA GGCGGCAGCA AGCCAAGGAG CAGAAAAGAC AGTTAGTGAA
    GTCTCTGAGC AGCCGAAGGA AACCAGCATG ACCGAGCCCT CAGAACCAGG AAGCAAAGCT
    GAGGCAAAGA AGGCCTTAGG AGGGGATGTA AGTGATCAGA GTTTAGAAAG TCATAGTCAG
    AAGGTTTCAG AGACCCAAAT GTGTGAGTCC AACTCTTCTA AAGAAACCTC TCTGGCCACC
    CCAGCAGGGA AAGAAAGCCA AGAAGGACCC AAACATCCTA CTGGTCCCTT CTTCCCAGTT
    TTGAGCAAAG ATGAAAGCAC TGCCCTCCAG TGGCCATCAG AACTATTAAT TTTCACCAAG
    GCAGAACCCT CCATTTCATA CAGTTGTAAC CCTTTATATT TTGACTTTAA ACTTTCAAGG
    AACAAAGATG CCAGAACTAA AGGAACAGAA AAACCAAAGG ATATAGGAAG CTCCTCAAAG
    GACCATCTCC AAGGCCTAGA TCCTGGTGAG CCAAATAAAA GCAAGGAAGT GGGCGGAGAG
    AAAATAGTAC GTTCCTCAGG AGGCAGAATG GACGCACCTG CTTCAGGGTC TGCCTGTAGC
    GGCCTGAACA AGCAGGAGCC TGGGGGTAGC CATGGGTCTG AGACAGAAGA CACAGGGAGA
    AGCCTTCCCA GCAAGAAAGA ACGATCTGGG AAGTCCCACC GGCACAAAAA GAAAAAGAAG
    CACAAAAAAT CCAGCAAACA CAAACGTAAA CACAAGGCTG ACACAGAAGA GAAAAGCTCT
    AAGGCAGAGT CAGGGGAGAA ATCTAAGAAG CGCAAGAAAC GAAAACGAAA GAAGAATAAG
    TCATCAGCCC CAGCAGATTC TGAACGAGGA CCCAAACCAG AACCCCCTGG GAGTGGCAGT
    CCCGCACCAC CAAGAAGAAG GCGGAGAGCT CAAGATGACT CCCAGCGGAG ATCCCTCCCA
    GCTGAAGAGG GGAGCAGTGG CAAAAAGGAT GAAGGTGGGG GTGGTAGCAG CTCCCAAGAC
    CATGGTGGGA GGAAACACAA AGGTGAACTT CCACCTTCAT CCTGCCAGCG AAGAGCAGGC
    ACCAAACGGA GCAGCCGGTC TAGCCATCGG AGCCAACCCA GTAGTGGAGA TGAGGATAGT
    GATGATGCTT CCTCACACCG GCTGCACCAG AAGTCTCCAT CCCAGTACAG TGAGGAAGAA
    GAAGAGGAAG ATTCAGGCAG TGAGCATTCC CGCAGCCGCT CAAGGTCTGG CCGGCGCCAT
    TCCTCGCATC GTTCCTCCCG GCGTTCTTAC TCAAGTAGCT CAGATGCCTC TTCAGACCAG
    AGCTGCTATA GTAGACAGCG CAGTTACTCT GATGACAGCT ACAGTGACTA CAGTGACAGA
    TCACGAAGGC ACTCCAAGCG CTCCCATGAC TCAGATGACT CAGACTATGC CAGCTCCAAA
    CACCGATCAA AACGGCACAA ATATTCATCT TCTGATGATG ACTATAGCCT CAGTTGCAGC
    CAGTCCCGAA GCCGATCTCG GAGTCATACC AGAGAGCGCT CAAGATCCCG GGGCCGCAGC
    CGCAGCAGCA GTTGTAGTCG TAGTCGAAGC AAGCGGAGAA GCCGTAGCAC CACAGCCCAC
    AGCTGGCAAC GGAGCCGGAG CTATAGCCGG GACCGCAGCC GCAGCACCAG GAGCCCTTCC
    CAGAGATCAG GCTCCAGGAA GAGATCATGG GGTCACGAGA GCCCTGAGGA GAGGCATTCT
    GGGCGTCGGG ACTTCATTCG TTCTAAGATC TACCGCTCCC AGTCCCCCCA CTATTTCCGA
    TCAGGCCGGG GAGAAGGTCC TGGGAAGAAA GATGATGGCA GAGGAGATGA CAGTAAAGCA
    ACAGGTCCAC CTTCCCAGAA CAGCAACATT GGCACAGGAA GAGGGTCAGA AGGTGACTGC
    AGTCCTGAAG ACAAGAACTC TGTCACTGCC AAACTGCTAC TGGAGAAGAT CCAGTCAAGG
    AAAGTGGAGA GGAAACCTAG TGTGAGTGAG GAGGTGCAGG CCACCCCTAA TAAAGCTGGG
    CCCAAGCTCA AGGACCCCCC ACAAGGTTAC TTTGGGCCCA AGCTCCCCCC ATCTCTTGGC
    AATAAGCCTG TCCTTCCACT GATAGGGAAG CTCCCAGCTA CCCGAAAGCC CAATAAGAAG
    TGTGAAGAGT CTGGCTTGGA AAGGGGGGAA GAGCAAGAAC AGTCAGAGAC AGAAGAGGGG
    CCCCCAGGGA GTAGTGATGC CCTATTTGGG CATCAGTTCC CTTCAGAGGA AACAACTGGC
    CCCTTATTAG ACCCACCCCC AGAAGAGTCA AAGTCTGGAG AAGCTACTGC TGATCACCCT
    GTGGCTCCAC TAGGCACCCC AGCACATTCT GACTGCTACC CTGGGGACCC AACCATCTCC
    CATAACTACC TCCCCGACCC CAGTGATGGG GACACCCTGG AGTCCCTGGA TAGCAGCAGT
    CAGCCAGGCC CTGTGGAGTC CAGCTTGCTG CCTATAGCAC CAGACCTTGA GCATTTCCCC
    AGTTATGCAC CTCCCAGTGG GGATCCTAGT ATTGAGTCAA CAGATGGGGC TGAGGATGCT
    TCACTGGCCC CCCTGGAAAG CCAGCCCATC ACCTTCACCC CTGAGGAGAT GGAGAAGTAC
    AGCAAGCTCC AGCAGGCTGC TCAGCAACAC ATCCAGCAGC AGCTTCTGGC CAAGCAAGTA
    AAGGCCTTTC CAGCCTCAGC TGCCCTGGCC CCAGCCACAC CAGCCCTGCA ACCCATCCAC
    ATTCAGCAGC CAGCTACAGC CTCTGCCACC TCCATCACAA CTGTTCAGCA TGCCATCCTA
    CAACATCATG CTGCCGCAGC TGCTGCCGCC ATCGGCATTC ACCCTCACCC CCATCCCCAA
    CCACTTGCCC AGGTGCATCA TATTCCCCAG CCCCATCTGA CCCCCATTTC TTTGTCCCAC
    CTCACTCACT CAATCATCCC TGGCCACCCT GCCACCTTTC TCGCTAGCCA TCCCATCCAC
    ATCATTCCCG CCTCAGCCAT CCATCCTGGG CCCTTCACCT TTCACCCTGT CCCACATGCT
    GCCCTCTACC CCACCCTACT TGCTCCACGG CCTGCTGCAG CAGCTGCCAC TGCACTTCAC
    CTTCACCCAC TACTTCACCC CATCTTCTCA GGTCAGGACC TGCAACATCC CCCCAGCCAT
    GGCACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version NM_001304941.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-05-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, BC136629.1 and BC024147.2. On May 31, 2019 this sequence version replaced NM_001304941.1. Transcript Variant: This variant (4) contains an alternate exon in the 5' region compared to variant 1. This variant represents translation initiation at an in-frame downstream start codon compared to variant 1; the 5'-most initiation codon, as used in variant 1, is associated with a truncated ORF that would render the transcript a candidate for nonsense-mediated decay (NMD). Leaky scanning may allow translation initiation at the downstream start codon to encode an isoform (3) that has a shorter N-terminus, compared to isoform 1. Variants 3, 4, 5 and 6 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: BC144323.1, SRR1803613.16566.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291870.1
    CDS289..4563
    Translation

    Target ORF information:

    RefSeq Version NM_001304941.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304941.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version NM_001304940.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-06-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, DA736259.1, AK025600.1, BC136629.1, BC024147.2 and CA443965.1. Transcript Variant: This variant (3) contains two alternate exons in the 5' region compared to variant 1. This variant represents translation initiation at an in-frame downstream start codon compared to variant 1; the 5'-most initiation codon, as used in variant 1, is associated with a truncated ORF that would render the transcript a candidate for nonsense-mediated decay (NMD). Leaky scanning may allow translation initiation at the downstream start codon to encode an isoform (3) that has a shorter N-terminus, compared to isoform 1. Variants 3, 4, 5 and 6 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: DA736259.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291869.1
    CDS608..4882
    Translation

    Target ORF information:

    RefSeq Version NM_001304940.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304940.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version NM_001304942.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-06-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, CN388517.1, BC136629.1, BC024147.2 and CA443965.1. On Feb 12, 2015 this sequence version replaced XM_006721783.1. Transcript Variant: This variant (5) lacks an alternate 5' exon compared to variant 1. This variant represents translation initiation at an in-frame downstream start codon compared to variant 1; the 5'-most initiation codon, as used in variant 1, is associated with a truncated ORF that would render the transcript a candidate for nonsense-mediated decay (NMD). Leaky scanning may allow translation initiation at the downstream start codon to encode an isoform (3) that has a shorter N-terminus, compared to isoform 1. Variants 3, 4, 5 and 6 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.134955.1, CN388517.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2467148 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291871.1
    CDS394..4668
    Translation

    Target ORF information:

    RefSeq Version NM_001304942.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304942.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version NM_001304941.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-06-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, BC136629.1, BC024147.2 and CA443965.1. On Feb 12, 2015 this sequence version replaced NR_036474.1. Transcript Variant: This variant (4) contains an alternate exon in the 5' region compared to variant 1. This variant represents translation initiation at an in-frame downstream start codon compared to variant 1; the 5'-most initiation codon, as used in variant 1, is associated with a truncated ORF that would render the transcript a candidate for nonsense-mediated decay (NMD). Leaky scanning may allow translation initiation at the downstream start codon to encode an isoform (3) that has a shorter N-terminus, compared to isoform 1. Variants 3, 4, 5 and 6 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: BC144323.1, SRR1803613.16566.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291870.1
    CDS485..4759
    Translation

    Target ORF information:

    RefSeq Version NM_001304941.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304941.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version NM_001304942.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-05-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, CN388517.1, BC136629.1 and BC024147.2. On May 31, 2019 this sequence version replaced NM_001304942.1. Transcript Variant: This variant (5) lacks an alternate 5' exon compared to variant 1. This variant represents translation initiation at an in-frame downstream start codon compared to variant 1; the 5'-most initiation codon, as used in variant 1, is associated with a truncated ORF that would render the transcript a candidate for nonsense-mediated decay (NMD). Leaky scanning may allow translation initiation at the downstream start codon to encode an isoform (3) that has a shorter N-terminus, compared to isoform 1. Variants 3, 4, 5 and 6 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.134955.1, CN388517.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2467148 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291871.1
    CDS198..4472
    Translation

    Target ORF information:

    RefSeq Version NM_001304942.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304942.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version NM_001304940.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-05-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, DA736259.1, AK025600.1, BC136629.1 and BC024147.2. On May 31, 2019 this sequence version replaced NM_001304940.1. Transcript Variant: This variant (3) contains two alternate exons in the 5' region compared to variant 1. This variant represents translation initiation at an in-frame downstream start codon compared to variant 1; the 5'-most initiation codon, as used in variant 1, is associated with a truncated ORF that would render the transcript a candidate for nonsense-mediated decay (NMD). Leaky scanning may allow translation initiation at the downstream start codon to encode an isoform (3) that has a shorter N-terminus, compared to isoform 1. Variants 3, 4, 5 and 6 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: DA736259.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291869.1
    CDS412..4686
    Translation

    Target ORF information:

    RefSeq Version NM_001304940.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304940.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version NM_001304943.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-06-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BM722954.1, AK025600.1, BC136629.1, BC024147.2 and CA443965.1. Transcript Variant: This variant (6) lacks several exons in the 5' coding region, its 5' terminal exon extends upstream of a splice site that is used in variant 1, and it represents use of an alternate promoter. These differences result in a distinct 5' UTR and cause translation initiation at a downstream start codon, compared to variant 1.The encoded isoform (3) is shorter than isoform 1. Variants 3, 4, 5 and 6 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.118005.1, SRR1803615.198509.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2467148 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291872.1
    CDS348..4622
    Translation

    Target ORF information:

    RefSeq Version NM_001304943.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304943.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65527
    Clone ID Related Accession (Same CDS sequence) NM_001304939.2 , NM_001304939.1
    Accession Version NM_001304939.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4434bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-05-30
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, CN388519.1, BC136629.1 and BC024147.2. On May 31, 2019 this sequence version replaced NM_001304939.1. Transcript Variant: This variant (2) lacks an alternate in-frame exon in the 5' coding region compared to variant 1. The encoded isoform (2) is shorter than isoform 1. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.177818.1, SRR1803611.98650.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGATAA TATTGGACAC 
    CGCTTACTCC AGAAACATGG GTGGAAGCTG GGCCAGGGAT TGGGAAAATC TCTTCAGGGG
    AGAACAGATC CCATTCCAAT CGTTGTCAAG TATGATGTCA TGGGCATGGG TCGCATGGAA
    ATGGAGCTTG ATTATGCTGA AGATGCTACC GAACGGCGCC GTGTCCTAGA AGTAGAAAAA
    GAAGACACAG AAGAGCTGAG ACAAAAGTAC AAGGATTATG TTGACAAAGA GAAGGCAATT
    GCCAAAGCCT TGGAAGACCT CAGAGCCAAC TTTTATTGTG AACTGTGTGA TAAGCAATAT
    CAGAAACATC AGGAATTTGA TAACCATATC AACTCCTATG ATCATGCACA CAAGCAGAGA
    TTAAAAGATC TGAAGCAGAG AGAGTTTGCT CGAAATGTCT CTTCAAGATC CCGCAAGGAT
    GAGAAAAAAC AGGAAAAAGC CCTTCGGCGG CTCCATGAGT TGGCAGAGCA AAGAAAACAA
    GCTGAATGTG CACCTGGAAG TGGTCCCATG TTCAAACCAA CCACAGTGGC TGTAGATGAA
    GAAGGTGGAG AAGATGATAA AGATGAATCA GCTACAAATA GTGGCACAGG TGCCACTGCT
    TCTTGTGGCC TGGGATCTGA ATTCTCCACA GATAAAGGAG GCCCTTTCAC TGCAGTACAA
    ATCACTAATA CCACTGGACT GGCCCAGGCT CCTGGGTTAG CCTCCCAAGG CATCAGCTTT
    GGCATTAAGA ATAATCTGGG GACCCCATTG CAAAAATTGG GAGTGTCATT TTCTTTTGCC
    AAAAAGGCTC CTGTCAAACT CGAATCAATA GCATCAGTTT TCAAGGACCA TGCGGAGGAA
    GGGACCTCTG AAGATGGAAC AAAACCCGAT GAGAAGAGTT CTGACCAAGG ACTGCAGAAG
    GTAGGAGACT CTGATGGGAG CAGTAATCTT GATGGTAAAA AAGAGGATGA AGACCCTCAG
    GATGGAGGGT CCCTTGCCTC AACATTATCC AAATTAAAAA GGATGAAACG AGAAGAAGGA
    GCTGGGGCTA CAGAGCCTGA GTATTACCAC TACATCCCCC CAGCACACTG CAAAGTAAAA
    CCTAATTTTC CCTTTCTACT TTTTATGAGA GCCAGTGAAC AAATGGATGG TGATAATACT
    ACACACCCAA AGAATGCCCC AGAGAGTAAA AAAGGCAGTT CTCCCAAGCC TAAAAGCTGC
    ATCAAGGCGG CAGCAAGCCA AGGAGCAGAA AAGACAGTTA GTGAAGTCTC TGAGCAGCCG
    AAGGAAACCA GCATGACCGA GCCCTCAGAA CCAGGAAGCA AAGCTGAGGC AAAGAAGGCC
    TTAGGAGGGG ATGTAAGTGA TCAGAGTTTA GAAAGTCATA GTCAGAAGGT TTCAGAGACC
    CAAATGTGTG AGTCCAACTC TTCTAAAGAA ACCTCTCTGG CCACCCCAGC AGGGAAAGAA
    AGCCAAGAAG GACCCAAACA TCCTACTGGT CCCTTCTTCC CAGTTTTGAG CAAAGATGAA
    AGCACTGCCC TCCAGTGGCC ATCAGAACTA TTAATTTTCA CCAAGGCAGA ACCCTCCATT
    TCATACAGTT GTAACCCTTT ATATTTTGAC TTTAAACTTT CAAGGAACAA AGATGCCAGA
    ACTAAAGGAA CAGAAAAACC AAAGGATATA GGAAGCTCCT CAAAGGACCA TCTCCAAGGC
    CTAGATCCTG GTGAGCCAAA TAAAAGCAAG GAAGTGGGCG GAGAGAAAAT AGTACGTTCC
    TCAGGAGGCA GAATGGACGC ACCTGCTTCA GGGTCTGCCT GTAGCGGCCT GAACAAGCAG
    GAGCCTGGGG GTAGCCATGG GTCTGAGACA GAAGACACAG GGAGAAGCCT TCCCAGCAAG
    AAAGAACGAT CTGGGAAGTC CCACCGGCAC AAAAAGAAAA AGAAGCACAA AAAATCCAGC
    AAACACAAAC GTAAACACAA GGCTGACACA GAAGAGAAAA GCTCTAAGGC AGAGTCAGGG
    GAGAAATCTA AGAAGCGCAA GAAACGAAAA CGAAAGAAGA ATAAGTCATC AGCCCCAGCA
    GATTCTGAAC GAGGACCCAA ACCAGAACCC CCTGGGAGTG GCAGTCCCGC ACCACCAAGA
    AGAAGGCGGA GAGCTCAAGA TGACTCCCAG CGGAGATCCC TCCCAGCTGA AGAGGGGAGC
    AGTGGCAAAA AGGATGAAGG TGGGGGTGGT AGCAGCTCCC AAGACCATGG TGGGAGGAAA
    CACAAAGGTG AACTTCCACC TTCATCCTGC CAGCGAAGAG CAGGCACCAA ACGGAGCAGC
    CGGTCTAGCC ATCGGAGCCA ACCCAGTAGT GGAGATGAGG ATAGTGATGA TGCTTCCTCA
    CACCGGCTGC ACCAGAAGTC TCCATCCCAG TACAGTGAGG AAGAAGAAGA GGAAGATTCA
    GGCAGTGAGC ATTCCCGCAG CCGCTCAAGG TCTGGCCGGC GCCATTCCTC GCATCGTTCC
    TCCCGGCGTT CTTACTCAAG TAGCTCAGAT GCCTCTTCAG ACCAGAGCTG CTATAGTAGA
    CAGCGCAGTT ACTCTGATGA CAGCTACAGT GACTACAGTG ACAGATCACG AAGGCACTCC
    AAGCGCTCCC ATGACTCAGA TGACTCAGAC TATGCCAGCT CCAAACACCG ATCAAAACGG
    CACAAATATT CATCTTCTGA TGATGACTAT AGCCTCAGTT GCAGCCAGTC CCGAAGCCGA
    TCTCGGAGTC ATACCAGAGA GCGCTCAAGA TCCCGGGGCC GCAGCCGCAG CAGCAGTTGT
    AGTCGTAGTC GAAGCAAGCG GAGAAGCCGT AGCACCACAG CCCACAGCTG GCAACGGAGC
    CGGAGCTATA GCCGGGACCG CAGCCGCAGC ACCAGGAGCC CTTCCCAGAG ATCAGGCTCC
    AGGAAGAGAT CATGGGGTCA CGAGAGCCCT GAGGAGAGGC ATTCTGGGCG TCGGGACTTC
    ATTCGTTCTA AGATCTACCG CTCCCAGTCC CCCCACTATT TCCGATCAGG CCGGGGAGAA
    GGTCCTGGGA AGAAAGATGA TGGCAGAGGA GATGACAGTA AAGCAACAGG TCCACCTTCC
    CAGAACAGCA ACATTGGCAC AGGAAGAGGG TCAGAAGGTG ACTGCAGTCC TGAAGACAAG
    AACTCTGTCA CTGCCAAACT GCTACTGGAG AAGATCCAGT CAAGGAAAGT GGAGAGGAAA
    CCTAGTGTGA GTGAGGAGGT GCAGGCCACC CCTAATAAAG CTGGGCCCAA GCTCAAGGAC
    CCCCCACAAG GTTACTTTGG GCCCAAGCTC CCCCCATCTC TTGGCAATAA GCCTGTCCTT
    CCACTGATAG GGAAGCTCCC AGCTACCCGA AAGCCCAATA AGAAGTGTGA AGAGTCTGGC
    TTGGAAAGGG GGGAAGAGCA AGAACAGTCA GAGACAGAAG AGGGGCCCCC AGGGAGTAGT
    GATGCCCTAT TTGGGCATCA GTTCCCTTCA GAGGAAACAA CTGGCCCCTT ATTAGACCCA
    CCCCCAGAAG AGTCAAAGTC TGGAGAAGCT ACTGCTGATC ACCCTGTGGC TCCACTAGGC
    ACCCCAGCAC ATTCTGACTG CTACCCTGGG GACCCAACCA TCTCCCATAA CTACCTCCCC
    GACCCCAGTG ATGGGGACAC CCTGGAGTCC CTGGATAGCA GCAGTCAGCC AGGCCCTGTG
    GAGTCCAGCT TGCTGCCTAT AGCACCAGAC CTTGAGCATT TCCCCAGTTA TGCACCTCCC
    AGTGGGGATC CTAGTATTGA GTCAACAGAT GGGGCTGAGG ATGCTTCACT GGCCCCCCTG
    GAAAGCCAGC CCATCACCTT CACCCCTGAG GAGATGGAGA AGTACAGCAA GCTCCAGCAG
    GCTGCTCAGC AACACATCCA GCAGCAGCTT CTGGCCAAGC AAGTAAAGGC CTTTCCAGCC
    TCAGCTGCCC TGGCCCCAGC CACACCAGCC CTGCAACCCA TCCACATTCA GCAGCCAGCT
    ACAGCCTCTG CCACCTCCAT CACAACTGTT CAGCATGCCA TCCTACAACA TCATGCTGCC
    GCAGCTGCTG CCGCCATCGG CATTCACCCT CACCCCCATC CCCAACCACT TGCCCAGGTG
    CATCATATTC CCCAGCCCCA TCTGACCCCC ATTTCTTTGT CCCACCTCAC TCACTCAATC
    ATCCCTGGCC ACCCTGCCAC CTTTCTCGCT AGCCATCCCA TCCACATCAT TCCCGCCTCA
    GCCATCCATC CTGGGCCCTT CACCTTTCAC CCTGTCCCAC ATGCTGCCCT CTACCCCACC
    CTACTTGCTC CACGGCCTGC TGCAGCAGCT GCCACTGCAC TTCACCTTCA CCCACTACTT
    CACCCCATCT TCTCAGGTCA GGACCTGCAA CATCCCCCCA GCCATGGCAC GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291868.1
    CDS37..4470
    Translation

    Target ORF information:

    RefSeq Version NM_001304939.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304939.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGATAA TATTGGACAC 
    CGCTTACTCC AGAAACATGG GTGGAAGCTG GGCCAGGGAT TGGGAAAATC TCTTCAGGGG
    AGAACAGATC CCATTCCAAT CGTTGTCAAG TATGATGTCA TGGGCATGGG TCGCATGGAA
    ATGGAGCTTG ATTATGCTGA AGATGCTACC GAACGGCGCC GTGTCCTAGA AGTAGAAAAA
    GAAGACACAG AAGAGCTGAG ACAAAAGTAC AAGGATTATG TTGACAAAGA GAAGGCAATT
    GCCAAAGCCT TGGAAGACCT CAGAGCCAAC TTTTATTGTG AACTGTGTGA TAAGCAATAT
    CAGAAACATC AGGAATTTGA TAACCATATC AACTCCTATG ATCATGCACA CAAGCAGAGA
    TTAAAAGATC TGAAGCAGAG AGAGTTTGCT CGAAATGTCT CTTCAAGATC CCGCAAGGAT
    GAGAAAAAAC AGGAAAAAGC CCTTCGGCGG CTCCATGAGT TGGCAGAGCA AAGAAAACAA
    GCTGAATGTG CACCTGGAAG TGGTCCCATG TTCAAACCAA CCACAGTGGC TGTAGATGAA
    GAAGGTGGAG AAGATGATAA AGATGAATCA GCTACAAATA GTGGCACAGG TGCCACTGCT
    TCTTGTGGCC TGGGATCTGA ATTCTCCACA GATAAAGGAG GCCCTTTCAC TGCAGTACAA
    ATCACTAATA CCACTGGACT GGCCCAGGCT CCTGGGTTAG CCTCCCAAGG CATCAGCTTT
    GGCATTAAGA ATAATCTGGG GACCCCATTG CAAAAATTGG GAGTGTCATT TTCTTTTGCC
    AAAAAGGCTC CTGTCAAACT CGAATCAATA GCATCAGTTT TCAAGGACCA TGCGGAGGAA
    GGGACCTCTG AAGATGGAAC AAAACCCGAT GAGAAGAGTT CTGACCAAGG ACTGCAGAAG
    GTAGGAGACT CTGATGGGAG CAGTAATCTT GATGGTAAAA AAGAGGATGA AGACCCTCAG
    GATGGAGGGT CCCTTGCCTC AACATTATCC AAATTAAAAA GGATGAAACG AGAAGAAGGA
    GCTGGGGCTA CAGAGCCTGA GTATTACCAC TACATCCCCC CAGCACACTG CAAAGTAAAA
    CCTAATTTTC CCTTTCTACT TTTTATGAGA GCCAGTGAAC AAATGGATGG TGATAATACT
    ACACACCCAA AGAATGCCCC AGAGAGTAAA AAAGGCAGTT CTCCCAAGCC TAAAAGCTGC
    ATCAAGGCGG CAGCAAGCCA AGGAGCAGAA AAGACAGTTA GTGAAGTCTC TGAGCAGCCG
    AAGGAAACCA GCATGACCGA GCCCTCAGAA CCAGGAAGCA AAGCTGAGGC AAAGAAGGCC
    TTAGGAGGGG ATGTAAGTGA TCAGAGTTTA GAAAGTCATA GTCAGAAGGT TTCAGAGACC
    CAAATGTGTG AGTCCAACTC TTCTAAAGAA ACCTCTCTGG CCACCCCAGC AGGGAAAGAA
    AGCCAAGAAG GACCCAAACA TCCTACTGGT CCCTTCTTCC CAGTTTTGAG CAAAGATGAA
    AGCACTGCCC TCCAGTGGCC ATCAGAACTA TTAATTTTCA CCAAGGCAGA ACCCTCCATT
    TCATACAGTT GTAACCCTTT ATATTTTGAC TTTAAACTTT CAAGGAACAA AGATGCCAGA
    ACTAAAGGAA CAGAAAAACC AAAGGATATA GGAAGCTCCT CAAAGGACCA TCTCCAAGGC
    CTAGATCCTG GTGAGCCAAA TAAAAGCAAG GAAGTGGGCG GAGAGAAAAT AGTACGTTCC
    TCAGGAGGCA GAATGGACGC ACCTGCTTCA GGGTCTGCCT GTAGCGGCCT GAACAAGCAG
    GAGCCTGGGG GTAGCCATGG GTCTGAGACA GAAGACACAG GGAGAAGCCT TCCCAGCAAG
    AAAGAACGAT CTGGGAAGTC CCACCGGCAC AAAAAGAAAA AGAAGCACAA AAAATCCAGC
    AAACACAAAC GTAAACACAA GGCTGACACA GAAGAGAAAA GCTCTAAGGC AGAGTCAGGG
    GAGAAATCTA AGAAGCGCAA GAAACGAAAA CGAAAGAAGA ATAAGTCATC AGCCCCAGCA
    GATTCTGAAC GAGGACCCAA ACCAGAACCC CCTGGGAGTG GCAGTCCCGC ACCACCAAGA
    AGAAGGCGGA GAGCTCAAGA TGACTCCCAG CGGAGATCCC TCCCAGCTGA AGAGGGGAGC
    AGTGGCAAAA AGGATGAAGG TGGGGGTGGT AGCAGCTCCC AAGACCATGG TGGGAGGAAA
    CACAAAGGTG AACTTCCACC TTCATCCTGC CAGCGAAGAG CAGGCACCAA ACGGAGCAGC
    CGGTCTAGCC ATCGGAGCCA ACCCAGTAGT GGAGATGAGG ATAGTGATGA TGCTTCCTCA
    CACCGGCTGC ACCAGAAGTC TCCATCCCAG TACAGTGAGG AAGAAGAAGA GGAAGATTCA
    GGCAGTGAGC ATTCCCGCAG CCGCTCAAGG TCTGGCCGGC GCCATTCCTC GCATCGTTCC
    TCCCGGCGTT CTTACTCAAG TAGCTCAGAT GCCTCTTCAG ACCAGAGCTG CTATAGTAGA
    CAGCGCAGTT ACTCTGATGA CAGCTACAGT GACTACAGTG ACAGATCACG AAGGCACTCC
    AAGCGCTCCC ATGACTCAGA TGACTCAGAC TATGCCAGCT CCAAACACCG ATCAAAACGG
    CACAAATATT CATCTTCTGA TGATGACTAT AGCCTCAGTT GCAGCCAGTC CCGAAGCCGA
    TCTCGGAGTC ATACCAGAGA GCGCTCAAGA TCCCGGGGCC GCAGCCGCAG CAGCAGTTGT
    AGTCGTAGTC GAAGCAAGCG GAGAAGCCGT AGCACCACAG CCCACAGCTG GCAACGGAGC
    CGGAGCTATA GCCGGGACCG CAGCCGCAGC ACCAGGAGCC CTTCCCAGAG ATCAGGCTCC
    AGGAAGAGAT CATGGGGTCA CGAGAGCCCT GAGGAGAGGC ATTCTGGGCG TCGGGACTTC
    ATTCGTTCTA AGATCTACCG CTCCCAGTCC CCCCACTATT TCCGATCAGG CCGGGGAGAA
    GGTCCTGGGA AGAAAGATGA TGGCAGAGGA GATGACAGTA AAGCAACAGG TCCACCTTCC
    CAGAACAGCA ACATTGGCAC AGGAAGAGGG TCAGAAGGTG ACTGCAGTCC TGAAGACAAG
    AACTCTGTCA CTGCCAAACT GCTACTGGAG AAGATCCAGT CAAGGAAAGT GGAGAGGAAA
    CCTAGTGTGA GTGAGGAGGT GCAGGCCACC CCTAATAAAG CTGGGCCCAA GCTCAAGGAC
    CCCCCACAAG GTTACTTTGG GCCCAAGCTC CCCCCATCTC TTGGCAATAA GCCTGTCCTT
    CCACTGATAG GGAAGCTCCC AGCTACCCGA AAGCCCAATA AGAAGTGTGA AGAGTCTGGC
    TTGGAAAGGG GGGAAGAGCA AGAACAGTCA GAGACAGAAG AGGGGCCCCC AGGGAGTAGT
    GATGCCCTAT TTGGGCATCA GTTCCCTTCA GAGGAAACAA CTGGCCCCTT ATTAGACCCA
    CCCCCAGAAG AGTCAAAGTC TGGAGAAGCT ACTGCTGATC ACCCTGTGGC TCCACTAGGC
    ACCCCAGCAC ATTCTGACTG CTACCCTGGG GACCCAACCA TCTCCCATAA CTACCTCCCC
    GACCCCAGTG ATGGGGACAC CCTGGAGTCC CTGGATAGCA GCAGTCAGCC AGGCCCTGTG
    GAGTCCAGCT TGCTGCCTAT AGCACCAGAC CTTGAGCATT TCCCCAGTTA TGCACCTCCC
    AGTGGGGATC CTAGTATTGA GTCAACAGAT GGGGCTGAGG ATGCTTCACT GGCCCCCCTG
    GAAAGCCAGC CCATCACCTT CACCCCTGAG GAGATGGAGA AGTACAGCAA GCTCCAGCAG
    GCTGCTCAGC AACACATCCA GCAGCAGCTT CTGGCCAAGC AAGTAAAGGC CTTTCCAGCC
    TCAGCTGCCC TGGCCCCAGC CACACCAGCC CTGCAACCCA TCCACATTCA GCAGCCAGCT
    ACAGCCTCTG CCACCTCCAT CACAACTGTT CAGCATGCCA TCCTACAACA TCATGCTGCC
    GCAGCTGCTG CCGCCATCGG CATTCACCCT CACCCCCATC CCCAACCACT TGCCCAGGTG
    CATCATATTC CCCAGCCCCA TCTGACCCCC ATTTCTTTGT CCCACCTCAC TCACTCAATC
    ATCCCTGGCC ACCCTGCCAC CTTTCTCGCT AGCCATCCCA TCCACATCAT TCCCGCCTCA
    GCCATCCATC CTGGGCCCTT CACCTTTCAC CCTGTCCCAC ATGCTGCCCT CTACCCCACC
    CTACTTGCTC CACGGCCTGC TGCAGCAGCT GCCACTGCAC TTCACCTTCA CCCACTACTT
    CACCCCATCT TCTCAGGTCA GGACCTGCAA CATCCCCCCA GCCATGGCAC GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65527
    Clone ID Related Accession (Same CDS sequence) NM_001304939.2 , NM_001304939.1
    Accession Version NM_001304939.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4434bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-24
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY048299.1, CN388519.1, BC136629.1, BC024147.2 and CA443965.1. Transcript Variant: This variant (2) lacks an alternate in-frame exon in the 5' coding region compared to variant 1. The encoded isoform (2) is shorter than isoform 1. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.177818.1, SRR1803611.98650.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGATAA TATTGGACAC 
    CGCTTACTCC AGAAACATGG GTGGAAGCTG GGCCAGGGAT TGGGAAAATC TCTTCAGGGG
    AGAACAGATC CCATTCCAAT CGTTGTCAAG TATGATGTCA TGGGCATGGG TCGCATGGAA
    ATGGAGCTTG ATTATGCTGA AGATGCTACC GAACGGCGCC GTGTCCTAGA AGTAGAAAAA
    GAAGACACAG AAGAGCTGAG ACAAAAGTAC AAGGATTATG TTGACAAAGA GAAGGCAATT
    GCCAAAGCCT TGGAAGACCT CAGAGCCAAC TTTTATTGTG AACTGTGTGA TAAGCAATAT
    CAGAAACATC AGGAATTTGA TAACCATATC AACTCCTATG ATCATGCACA CAAGCAGAGA
    TTAAAAGATC TGAAGCAGAG AGAGTTTGCT CGAAATGTCT CTTCAAGATC CCGCAAGGAT
    GAGAAAAAAC AGGAAAAAGC CCTTCGGCGG CTCCATGAGT TGGCAGAGCA AAGAAAACAA
    GCTGAATGTG CACCTGGAAG TGGTCCCATG TTCAAACCAA CCACAGTGGC TGTAGATGAA
    GAAGGTGGAG AAGATGATAA AGATGAATCA GCTACAAATA GTGGCACAGG TGCCACTGCT
    TCTTGTGGCC TGGGATCTGA ATTCTCCACA GATAAAGGAG GCCCTTTCAC TGCAGTACAA
    ATCACTAATA CCACTGGACT GGCCCAGGCT CCTGGGTTAG CCTCCCAAGG CATCAGCTTT
    GGCATTAAGA ATAATCTGGG GACCCCATTG CAAAAATTGG GAGTGTCATT TTCTTTTGCC
    AAAAAGGCTC CTGTCAAACT CGAATCAATA GCATCAGTTT TCAAGGACCA TGCGGAGGAA
    GGGACCTCTG AAGATGGAAC AAAACCCGAT GAGAAGAGTT CTGACCAAGG ACTGCAGAAG
    GTAGGAGACT CTGATGGGAG CAGTAATCTT GATGGTAAAA AAGAGGATGA AGACCCTCAG
    GATGGAGGGT CCCTTGCCTC AACATTATCC AAATTAAAAA GGATGAAACG AGAAGAAGGA
    GCTGGGGCTA CAGAGCCTGA GTATTACCAC TACATCCCCC CAGCACACTG CAAAGTAAAA
    CCTAATTTTC CCTTTCTACT TTTTATGAGA GCCAGTGAAC AAATGGATGG TGATAATACT
    ACACACCCAA AGAATGCCCC AGAGAGTAAA AAAGGCAGTT CTCCCAAGCC TAAAAGCTGC
    ATCAAGGCGG CAGCAAGCCA AGGAGCAGAA AAGACAGTTA GTGAAGTCTC TGAGCAGCCG
    AAGGAAACCA GCATGACCGA GCCCTCAGAA CCAGGAAGCA AAGCTGAGGC AAAGAAGGCC
    TTAGGAGGGG ATGTAAGTGA TCAGAGTTTA GAAAGTCATA GTCAGAAGGT TTCAGAGACC
    CAAATGTGTG AGTCCAACTC TTCTAAAGAA ACCTCTCTGG CCACCCCAGC AGGGAAAGAA
    AGCCAAGAAG GACCCAAACA TCCTACTGGT CCCTTCTTCC CAGTTTTGAG CAAAGATGAA
    AGCACTGCCC TCCAGTGGCC ATCAGAACTA TTAATTTTCA CCAAGGCAGA ACCCTCCATT
    TCATACAGTT GTAACCCTTT ATATTTTGAC TTTAAACTTT CAAGGAACAA AGATGCCAGA
    ACTAAAGGAA CAGAAAAACC AAAGGATATA GGAAGCTCCT CAAAGGACCA TCTCCAAGGC
    CTAGATCCTG GTGAGCCAAA TAAAAGCAAG GAAGTGGGCG GAGAGAAAAT AGTACGTTCC
    TCAGGAGGCA GAATGGACGC ACCTGCTTCA GGGTCTGCCT GTAGCGGCCT GAACAAGCAG
    GAGCCTGGGG GTAGCCATGG GTCTGAGACA GAAGACACAG GGAGAAGCCT TCCCAGCAAG
    AAAGAACGAT CTGGGAAGTC CCACCGGCAC AAAAAGAAAA AGAAGCACAA AAAATCCAGC
    AAACACAAAC GTAAACACAA GGCTGACACA GAAGAGAAAA GCTCTAAGGC AGAGTCAGGG
    GAGAAATCTA AGAAGCGCAA GAAACGAAAA CGAAAGAAGA ATAAGTCATC AGCCCCAGCA
    GATTCTGAAC GAGGACCCAA ACCAGAACCC CCTGGGAGTG GCAGTCCCGC ACCACCAAGA
    AGAAGGCGGA GAGCTCAAGA TGACTCCCAG CGGAGATCCC TCCCAGCTGA AGAGGGGAGC
    AGTGGCAAAA AGGATGAAGG TGGGGGTGGT AGCAGCTCCC AAGACCATGG TGGGAGGAAA
    CACAAAGGTG AACTTCCACC TTCATCCTGC CAGCGAAGAG CAGGCACCAA ACGGAGCAGC
    CGGTCTAGCC ATCGGAGCCA ACCCAGTAGT GGAGATGAGG ATAGTGATGA TGCTTCCTCA
    CACCGGCTGC ACCAGAAGTC TCCATCCCAG TACAGTGAGG AAGAAGAAGA GGAAGATTCA
    GGCAGTGAGC ATTCCCGCAG CCGCTCAAGG TCTGGCCGGC GCCATTCCTC GCATCGTTCC
    TCCCGGCGTT CTTACTCAAG TAGCTCAGAT GCCTCTTCAG ACCAGAGCTG CTATAGTAGA
    CAGCGCAGTT ACTCTGATGA CAGCTACAGT GACTACAGTG ACAGATCACG AAGGCACTCC
    AAGCGCTCCC ATGACTCAGA TGACTCAGAC TATGCCAGCT CCAAACACCG ATCAAAACGG
    CACAAATATT CATCTTCTGA TGATGACTAT AGCCTCAGTT GCAGCCAGTC CCGAAGCCGA
    TCTCGGAGTC ATACCAGAGA GCGCTCAAGA TCCCGGGGCC GCAGCCGCAG CAGCAGTTGT
    AGTCGTAGTC GAAGCAAGCG GAGAAGCCGT AGCACCACAG CCCACAGCTG GCAACGGAGC
    CGGAGCTATA GCCGGGACCG CAGCCGCAGC ACCAGGAGCC CTTCCCAGAG ATCAGGCTCC
    AGGAAGAGAT CATGGGGTCA CGAGAGCCCT GAGGAGAGGC ATTCTGGGCG TCGGGACTTC
    ATTCGTTCTA AGATCTACCG CTCCCAGTCC CCCCACTATT TCCGATCAGG CCGGGGAGAA
    GGTCCTGGGA AGAAAGATGA TGGCAGAGGA GATGACAGTA AAGCAACAGG TCCACCTTCC
    CAGAACAGCA ACATTGGCAC AGGAAGAGGG TCAGAAGGTG ACTGCAGTCC TGAAGACAAG
    AACTCTGTCA CTGCCAAACT GCTACTGGAG AAGATCCAGT CAAGGAAAGT GGAGAGGAAA
    CCTAGTGTGA GTGAGGAGGT GCAGGCCACC CCTAATAAAG CTGGGCCCAA GCTCAAGGAC
    CCCCCACAAG GTTACTTTGG GCCCAAGCTC CCCCCATCTC TTGGCAATAA GCCTGTCCTT
    CCACTGATAG GGAAGCTCCC AGCTACCCGA AAGCCCAATA AGAAGTGTGA AGAGTCTGGC
    TTGGAAAGGG GGGAAGAGCA AGAACAGTCA GAGACAGAAG AGGGGCCCCC AGGGAGTAGT
    GATGCCCTAT TTGGGCATCA GTTCCCTTCA GAGGAAACAA CTGGCCCCTT ATTAGACCCA
    CCCCCAGAAG AGTCAAAGTC TGGAGAAGCT ACTGCTGATC ACCCTGTGGC TCCACTAGGC
    ACCCCAGCAC ATTCTGACTG CTACCCTGGG GACCCAACCA TCTCCCATAA CTACCTCCCC
    GACCCCAGTG ATGGGGACAC CCTGGAGTCC CTGGATAGCA GCAGTCAGCC AGGCCCTGTG
    GAGTCCAGCT TGCTGCCTAT AGCACCAGAC CTTGAGCATT TCCCCAGTTA TGCACCTCCC
    AGTGGGGATC CTAGTATTGA GTCAACAGAT GGGGCTGAGG ATGCTTCACT GGCCCCCCTG
    GAAAGCCAGC CCATCACCTT CACCCCTGAG GAGATGGAGA AGTACAGCAA GCTCCAGCAG
    GCTGCTCAGC AACACATCCA GCAGCAGCTT CTGGCCAAGC AAGTAAAGGC CTTTCCAGCC
    TCAGCTGCCC TGGCCCCAGC CACACCAGCC CTGCAACCCA TCCACATTCA GCAGCCAGCT
    ACAGCCTCTG CCACCTCCAT CACAACTGTT CAGCATGCCA TCCTACAACA TCATGCTGCC
    GCAGCTGCTG CCGCCATCGG CATTCACCCT CACCCCCATC CCCAACCACT TGCCCAGGTG
    CATCATATTC CCCAGCCCCA TCTGACCCCC ATTTCTTTGT CCCACCTCAC TCACTCAATC
    ATCCCTGGCC ACCCTGCCAC CTTTCTCGCT AGCCATCCCA TCCACATCAT TCCCGCCTCA
    GCCATCCATC CTGGGCCCTT CACCTTTCAC CCTGTCCCAC ATGCTGCCCT CTACCCCACC
    CTACTTGCTC CACGGCCTGC TGCAGCAGCT GCCACTGCAC TTCACCTTCA CCCACTACTT
    CACCCCATCT TCTCAGGTCA GGACCTGCAA CATCCCCCCA GCCATGGCAC GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001291868.1
    CDS233..4666
    Translation

    Target ORF information:

    RefSeq Version NM_001304939.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001304939.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGATAA TATTGGACAC 
    CGCTTACTCC AGAAACATGG GTGGAAGCTG GGCCAGGGAT TGGGAAAATC TCTTCAGGGG
    AGAACAGATC CCATTCCAAT CGTTGTCAAG TATGATGTCA TGGGCATGGG TCGCATGGAA
    ATGGAGCTTG ATTATGCTGA AGATGCTACC GAACGGCGCC GTGTCCTAGA AGTAGAAAAA
    GAAGACACAG AAGAGCTGAG ACAAAAGTAC AAGGATTATG TTGACAAAGA GAAGGCAATT
    GCCAAAGCCT TGGAAGACCT CAGAGCCAAC TTTTATTGTG AACTGTGTGA TAAGCAATAT
    CAGAAACATC AGGAATTTGA TAACCATATC AACTCCTATG ATCATGCACA CAAGCAGAGA
    TTAAAAGATC TGAAGCAGAG AGAGTTTGCT CGAAATGTCT CTTCAAGATC CCGCAAGGAT
    GAGAAAAAAC AGGAAAAAGC CCTTCGGCGG CTCCATGAGT TGGCAGAGCA AAGAAAACAA
    GCTGAATGTG CACCTGGAAG TGGTCCCATG TTCAAACCAA CCACAGTGGC TGTAGATGAA
    GAAGGTGGAG AAGATGATAA AGATGAATCA GCTACAAATA GTGGCACAGG TGCCACTGCT
    TCTTGTGGCC TGGGATCTGA ATTCTCCACA GATAAAGGAG GCCCTTTCAC TGCAGTACAA
    ATCACTAATA CCACTGGACT GGCCCAGGCT CCTGGGTTAG CCTCCCAAGG CATCAGCTTT
    GGCATTAAGA ATAATCTGGG GACCCCATTG CAAAAATTGG GAGTGTCATT TTCTTTTGCC
    AAAAAGGCTC CTGTCAAACT CGAATCAATA GCATCAGTTT TCAAGGACCA TGCGGAGGAA
    GGGACCTCTG AAGATGGAAC AAAACCCGAT GAGAAGAGTT CTGACCAAGG ACTGCAGAAG
    GTAGGAGACT CTGATGGGAG CAGTAATCTT GATGGTAAAA AAGAGGATGA AGACCCTCAG
    GATGGAGGGT CCCTTGCCTC AACATTATCC AAATTAAAAA GGATGAAACG AGAAGAAGGA
    GCTGGGGCTA CAGAGCCTGA GTATTACCAC TACATCCCCC CAGCACACTG CAAAGTAAAA
    CCTAATTTTC CCTTTCTACT TTTTATGAGA GCCAGTGAAC AAATGGATGG TGATAATACT
    ACACACCCAA AGAATGCCCC AGAGAGTAAA AAAGGCAGTT CTCCCAAGCC TAAAAGCTGC
    ATCAAGGCGG CAGCAAGCCA AGGAGCAGAA AAGACAGTTA GTGAAGTCTC TGAGCAGCCG
    AAGGAAACCA GCATGACCGA GCCCTCAGAA CCAGGAAGCA AAGCTGAGGC AAAGAAGGCC
    TTAGGAGGGG ATGTAAGTGA TCAGAGTTTA GAAAGTCATA GTCAGAAGGT TTCAGAGACC
    CAAATGTGTG AGTCCAACTC TTCTAAAGAA ACCTCTCTGG CCACCCCAGC AGGGAAAGAA
    AGCCAAGAAG GACCCAAACA TCCTACTGGT CCCTTCTTCC CAGTTTTGAG CAAAGATGAA
    AGCACTGCCC TCCAGTGGCC ATCAGAACTA TTAATTTTCA CCAAGGCAGA ACCCTCCATT
    TCATACAGTT GTAACCCTTT ATATTTTGAC TTTAAACTTT CAAGGAACAA AGATGCCAGA
    ACTAAAGGAA CAGAAAAACC AAAGGATATA GGAAGCTCCT CAAAGGACCA TCTCCAAGGC
    CTAGATCCTG GTGAGCCAAA TAAAAGCAAG GAAGTGGGCG GAGAGAAAAT AGTACGTTCC
    TCAGGAGGCA GAATGGACGC ACCTGCTTCA GGGTCTGCCT GTAGCGGCCT GAACAAGCAG
    GAGCCTGGGG GTAGCCATGG GTCTGAGACA GAAGACACAG GGAGAAGCCT TCCCAGCAAG
    AAAGAACGAT CTGGGAAGTC CCACCGGCAC AAAAAGAAAA AGAAGCACAA AAAATCCAGC
    AAACACAAAC GTAAACACAA GGCTGACACA GAAGAGAAAA GCTCTAAGGC AGAGTCAGGG
    GAGAAATCTA AGAAGCGCAA GAAACGAAAA CGAAAGAAGA ATAAGTCATC AGCCCCAGCA
    GATTCTGAAC GAGGACCCAA ACCAGAACCC CCTGGGAGTG GCAGTCCCGC ACCACCAAGA
    AGAAGGCGGA GAGCTCAAGA TGACTCCCAG CGGAGATCCC TCCCAGCTGA AGAGGGGAGC
    AGTGGCAAAA AGGATGAAGG TGGGGGTGGT AGCAGCTCCC AAGACCATGG TGGGAGGAAA
    CACAAAGGTG AACTTCCACC TTCATCCTGC CAGCGAAGAG CAGGCACCAA ACGGAGCAGC
    CGGTCTAGCC ATCGGAGCCA ACCCAGTAGT GGAGATGAGG ATAGTGATGA TGCTTCCTCA
    CACCGGCTGC ACCAGAAGTC TCCATCCCAG TACAGTGAGG AAGAAGAAGA GGAAGATTCA
    GGCAGTGAGC ATTCCCGCAG CCGCTCAAGG TCTGGCCGGC GCCATTCCTC GCATCGTTCC
    TCCCGGCGTT CTTACTCAAG TAGCTCAGAT GCCTCTTCAG ACCAGAGCTG CTATAGTAGA
    CAGCGCAGTT ACTCTGATGA CAGCTACAGT GACTACAGTG ACAGATCACG AAGGCACTCC
    AAGCGCTCCC ATGACTCAGA TGACTCAGAC TATGCCAGCT CCAAACACCG ATCAAAACGG
    CACAAATATT CATCTTCTGA TGATGACTAT AGCCTCAGTT GCAGCCAGTC CCGAAGCCGA
    TCTCGGAGTC ATACCAGAGA GCGCTCAAGA TCCCGGGGCC GCAGCCGCAG CAGCAGTTGT
    AGTCGTAGTC GAAGCAAGCG GAGAAGCCGT AGCACCACAG CCCACAGCTG GCAACGGAGC
    CGGAGCTATA GCCGGGACCG CAGCCGCAGC ACCAGGAGCC CTTCCCAGAG ATCAGGCTCC
    AGGAAGAGAT CATGGGGTCA CGAGAGCCCT GAGGAGAGGC ATTCTGGGCG TCGGGACTTC
    ATTCGTTCTA AGATCTACCG CTCCCAGTCC CCCCACTATT TCCGATCAGG CCGGGGAGAA
    GGTCCTGGGA AGAAAGATGA TGGCAGAGGA GATGACAGTA AAGCAACAGG TCCACCTTCC
    CAGAACAGCA ACATTGGCAC AGGAAGAGGG TCAGAAGGTG ACTGCAGTCC TGAAGACAAG
    AACTCTGTCA CTGCCAAACT GCTACTGGAG AAGATCCAGT CAAGGAAAGT GGAGAGGAAA
    CCTAGTGTGA GTGAGGAGGT GCAGGCCACC CCTAATAAAG CTGGGCCCAA GCTCAAGGAC
    CCCCCACAAG GTTACTTTGG GCCCAAGCTC CCCCCATCTC TTGGCAATAA GCCTGTCCTT
    CCACTGATAG GGAAGCTCCC AGCTACCCGA AAGCCCAATA AGAAGTGTGA AGAGTCTGGC
    TTGGAAAGGG GGGAAGAGCA AGAACAGTCA GAGACAGAAG AGGGGCCCCC AGGGAGTAGT
    GATGCCCTAT TTGGGCATCA GTTCCCTTCA GAGGAAACAA CTGGCCCCTT ATTAGACCCA
    CCCCCAGAAG AGTCAAAGTC TGGAGAAGCT ACTGCTGATC ACCCTGTGGC TCCACTAGGC
    ACCCCAGCAC ATTCTGACTG CTACCCTGGG GACCCAACCA TCTCCCATAA CTACCTCCCC
    GACCCCAGTG ATGGGGACAC CCTGGAGTCC CTGGATAGCA GCAGTCAGCC AGGCCCTGTG
    GAGTCCAGCT TGCTGCCTAT AGCACCAGAC CTTGAGCATT TCCCCAGTTA TGCACCTCCC
    AGTGGGGATC CTAGTATTGA GTCAACAGAT GGGGCTGAGG ATGCTTCACT GGCCCCCCTG
    GAAAGCCAGC CCATCACCTT CACCCCTGAG GAGATGGAGA AGTACAGCAA GCTCCAGCAG
    GCTGCTCAGC AACACATCCA GCAGCAGCTT CTGGCCAAGC AAGTAAAGGC CTTTCCAGCC
    TCAGCTGCCC TGGCCCCAGC CACACCAGCC CTGCAACCCA TCCACATTCA GCAGCCAGCT
    ACAGCCTCTG CCACCTCCAT CACAACTGTT CAGCATGCCA TCCTACAACA TCATGCTGCC
    GCAGCTGCTG CCGCCATCGG CATTCACCCT CACCCCCATC CCCAACCACT TGCCCAGGTG
    CATCATATTC CCCAGCCCCA TCTGACCCCC ATTTCTTTGT CCCACCTCAC TCACTCAATC
    ATCCCTGGCC ACCCTGCCAC CTTTCTCGCT AGCCATCCCA TCCACATCAT TCCCGCCTCA
    GCCATCCATC CTGGGCCCTT CACCTTTCAC CCTGTCCCAC ATGCTGCCCT CTACCCCACC
    CTACTTGCTC CACGGCCTGC TGCAGCAGCT GCCACTGCAC TTCACCTTCA CCCACTACTT
    CACCCCATCT TCTCAGGTCA GGACCTGCAA CATCCCCCCA GCCATGGCAC GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version XM_017024379.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879868.1
    CDS396..4670
    Translation

    Target ORF information:

    RefSeq Version XM_017024379.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024379.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version XM_017024375.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879864.1
    CDS496..4770
    Translation

    Target ORF information:

    RefSeq Version XM_017024375.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024375.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version XM_017024376.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017024376.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879865.1
    CDS504..4778
    Translation

    Target ORF information:

    RefSeq Version XM_017024376.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024376.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version XM_017024376.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879865.1
    CDS356..4630
    Translation

    Target ORF information:

    RefSeq Version XM_017024376.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024376.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version XM_017024378.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879867.1
    CDS514..4788
    Translation

    Target ORF information:

    RefSeq Version XM_017024378.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024378.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version XM_017024377.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879866.1
    CDS333..4607
    Translation

    Target ORF information:

    RefSeq Version XM_017024377.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024377.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50234
    Clone ID Related Accession (Same CDS sequence) XM_017024379.1 , NM_001304941.2 , XM_017024375.1 , XM_017024376.2 , XM_017024376.1 , NM_001304940.1 , XM_017024378.1 , NM_001304942.1 , NM_001304941.1 , NM_001304942.2 , NM_001304940.2 , XM_017024377.1 , NM_001304943.1 , XM_017024379.2
    Accession Version XM_017024379.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017024379.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879868.1
    CDS549..4823
    Translation

    Target ORF information:

    RefSeq Version XM_017024379.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024379.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGAG ATTAAAAGAT CTGAAGCAGA GAGAGTTTGC TCGAAATGTC
    TCTTCAAGAT CCCGCAAGGA TGAGAAAAAA CAGGAAAAAG CCCTTCGGCG GCTCCATGAG
    TTGGCAGAGC AAAGAAAACA AGCTGAATGT GCACCTGGAA GTGGTCCCAT GTTCAAACCA
    ACCACAGTGG CTGTAGATGA AGAAGGTGGA GAAGATGATA AAGATGAATC AGCTACAAAT
    AGTGGCACAG GTGCCACTGC TTCTTGTGGC CTGGGATCTG AATTCTCCAC AGATAAAGGA
    GGCCCTTTCA CTGCAGTACA AATCACTAAT ACCACTGGAC TGGCCCAGGC TCCTGGGTTA
    GCCTCCCAAG GCATCAGCTT TGGCATTAAG AATAATCTGG GGACCCCATT GCAAAAATTG
    GGAGTGTCAT TTTCTTTTGC CAAAAAGGCT CCTGTCAAAC TCGAATCAAT AGCATCAGTT
    TTCAAGGACC ATGCGGAGGA AGGGACCTCT GAAGATGGAA CAAAACCCGA TGAGAAGAGT
    TCTGACCAAG GACTGCAGAA GGTAGGAGAC TCTGATGGGA GCAGTAATCT TGATGGTAAA
    AAAGAGGATG AAGACCCTCA GGATGGAGGG TCCCTTGCCT CAACATTATC CAAATTAAAA
    AGGATGAAAC GAGAAGAAGG AGCTGGGGCT ACAGAGCCTG AGTATTACCA CTACATCCCC
    CCAGCACACT GCAAAGTAAA ACCTAATTTT CCCTTTCTAC TTTTTATGAG AGCCAGTGAA
    CAAATGGATG GTGATAATAC TACACACCCA AAGAATGCCC CAGAGAGTAA AAAAGGCAGT
    TCTCCCAAGC CTAAAAGCTG CATCAAGGCG GCAGCAAGCC AAGGAGCAGA AAAGACAGTT
    AGTGAAGTCT CTGAGCAGCC GAAGGAAACC AGCATGACCG AGCCCTCAGA ACCAGGAAGC
    AAAGCTGAGG CAAAGAAGGC CTTAGGAGGG GATGTAAGTG ATCAGAGTTT AGAAAGTCAT
    AGTCAGAAGG TTTCAGAGAC CCAAATGTGT GAGTCCAACT CTTCTAAAGA AACCTCTCTG
    GCCACCCCAG CAGGGAAAGA AAGCCAAGAA GGACCCAAAC ATCCTACTGG TCCCTTCTTC
    CCAGTTTTGA GCAAAGATGA AAGCACTGCC CTCCAGTGGC CATCAGAACT ATTAATTTTC
    ACCAAGGCAG AACCCTCCAT TTCATACAGT TGTAACCCTT TATATTTTGA CTTTAAACTT
    TCAAGGAACA AAGATGCCAG AACTAAAGGA ACAGAAAAAC CAAAGGATAT AGGAAGCTCC
    TCAAAGGACC ATCTCCAAGG CCTAGATCCT GGTGAGCCAA ATAAAAGCAA GGAAGTGGGC
    GGAGAGAAAA TAGTACGTTC CTCAGGAGGC AGAATGGACG CACCTGCTTC AGGGTCTGCC
    TGTAGCGGCC TGAACAAGCA GGAGCCTGGG GGTAGCCATG GGTCTGAGAC AGAAGACACA
    GGGAGAAGCC TTCCCAGCAA GAAAGAACGA TCTGGGAAGT CCCACCGGCA CAAAAAGAAA
    AAGAAGCACA AAAAATCCAG CAAACACAAA CGTAAACACA AGGCTGACAC AGAAGAGAAA
    AGCTCTAAGG CAGAGTCAGG GGAGAAATCT AAGAAGCGCA AGAAACGAAA ACGAAAGAAG
    AATAAGTCAT CAGCCCCAGC AGATTCTGAA CGAGGACCCA AACCAGAACC CCCTGGGAGT
    GGCAGTCCCG CACCACCAAG AAGAAGGCGG AGAGCTCAAG ATGACTCCCA GCGGAGATCC
    CTCCCAGCTG AAGAGGGGAG CAGTGGCAAA AAGGATGAAG GTGGGGGTGG TAGCAGCTCC
    CAAGACCATG GTGGGAGGAA ACACAAAGGT GAACTTCCAC CTTCATCCTG CCAGCGAAGA
    GCAGGCACCA AACGGAGCAG CCGGTCTAGC CATCGGAGCC AACCCAGTAG TGGAGATGAG
    GATAGTGATG ATGCTTCCTC ACACCGGCTG CACCAGAAGT CTCCATCCCA GTACAGTGAG
    GAAGAAGAAG AGGAAGATTC AGGCAGTGAG CATTCCCGCA GCCGCTCAAG GTCTGGCCGG
    CGCCATTCCT CGCATCGTTC CTCCCGGCGT TCTTACTCAA GTAGCTCAGA TGCCTCTTCA
    GACCAGAGCT GCTATAGTAG ACAGCGCAGT TACTCTGATG ACAGCTACAG TGACTACAGT
    GACAGATCAC GAAGGCACTC CAAGCGCTCC CATGACTCAG ATGACTCAGA CTATGCCAGC
    TCCAAACACC GATCAAAACG GCACAAATAT TCATCTTCTG ATGATGACTA TAGCCTCAGT
    TGCAGCCAGT CCCGAAGCCG ATCTCGGAGT CATACCAGAG AGCGCTCAAG ATCCCGGGGC
    CGCAGCCGCA GCAGCAGTTG TAGTCGTAGT CGAAGCAAGC GGAGAAGCCG TAGCACCACA
    GCCCACAGCT GGCAACGGAG CCGGAGCTAT AGCCGGGACC GCAGCCGCAG CACCAGGAGC
    CCTTCCCAGA GATCAGGCTC CAGGAAGAGA TCATGGGGTC ACGAGAGCCC TGAGGAGAGG
    CATTCTGGGC GTCGGGACTT CATTCGTTCT AAGATCTACC GCTCCCAGTC CCCCCACTAT
    TTCCGATCAG GCCGGGGAGA AGGTCCTGGG AAGAAAGATG ATGGCAGAGG AGATGACAGT
    AAAGCAACAG GTCCACCTTC CCAGAACAGC AACATTGGCA CAGGAAGAGG GTCAGAAGGT
    GACTGCAGTC CTGAAGACAA GAACTCTGTC ACTGCCAAAC TGCTACTGGA GAAGATCCAG
    TCAAGGAAAG TGGAGAGGAA ACCTAGTGTG AGTGAGGAGG TGCAGGCCAC CCCTAATAAA
    GCTGGGCCCA AGCTCAAGGA CCCCCCACAA GGTTACTTTG GGCCCAAGCT CCCCCCATCT
    CTTGGCAATA AGCCTGTCCT TCCACTGATA GGGAAGCTCC CAGCTACCCG AAAGCCCAAT
    AAGAAGTGTG AAGAGTCTGG CTTGGAAAGG GGGGAAGAGC AAGAACAGTC AGAGACAGAA
    GAGGGGCCCC CAGGGAGTAG TGATGCCCTA TTTGGGCATC AGTTCCCTTC AGAGGAAACA
    ACTGGCCCCT TATTAGACCC ACCCCCAGAA GAGTCAAAGT CTGGAGAAGC TACTGCTGAT
    CACCCTGTGG CTCCACTAGG CACCCCAGCA CATTCTGACT GCTACCCTGG GGACCCAACC
    ATCTCCCATA ACTACCTCCC CGACCCCAGT GATGGGGACA CCCTGGAGTC CCTGGATAGC
    AGCAGTCAGC CAGGCCCTGT GGAGTCCAGC TTGCTGCCTA TAGCACCAGA CCTTGAGCAT
    TTCCCCAGTT ATGCACCTCC CAGTGGGGAT CCTAGTATTG AGTCAACAGA TGGGGCTGAG
    GATGCTTCAC TGGCCCCCCT GGAAAGCCAG CCCATCACCT TCACCCCTGA GGAGATGGAG
    AAGTACAGCA AGCTCCAGCA GGCTGCTCAG CAACACATCC AGCAGCAGCT TCTGGCCAAG
    CAAGTAAAGG CCTTTCCAGC CTCAGCTGCC CTGGCCCCAG CCACACCAGC CCTGCAACCC
    ATCCACATTC AGCAGCCAGC TACAGCCTCT GCCACCTCCA TCACAACTGT TCAGCATGCC
    ATCCTACAAC ATCATGCTGC CGCAGCTGCT GCCGCCATCG GCATTCACCC TCACCCCCAT
    CCCCAACCAC TTGCCCAGGT GCATCATATT CCCCAGCCCC ATCTGACCCC CATTTCTTTG
    TCCCACCTCA CTCACTCAAT CATCCCTGGC CACCCTGCCA CCTTTCTCGC TAGCCATCCC
    ATCCACATCA TTCCCGCCTC AGCCATCCAT CCTGGGCCCT TCACCTTTCA CCCTGTCCCA
    CATGCTGCCC TCTACCCCAC CCTACTTGCT CCACGGCCTG CTGCAGCAGC TGCCACTGCA
    CTTCACCTTC ACCCACTACT TCACCCCATC TTCTCAGGTC AGGACCTGCA ACATCCCCCC
    AGCCATGGCA CGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65525
    Clone ID Related Accession (Same CDS sequence) XM_011524557.1
    Accession Version XM_011524557.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGGTAA TCACTTTGAT 
    CAGTATGAGG AAGGACACTT GGAAATTGAA CAAGCGTCAC TTGACAAGCC TATAGAATCG
    GATAATATTG GACACCGCTT ACTCCAGAAA CATGGGTGGA AGCTGGGCCA GGGATTGGGA
    AAATCTCTTC AGGGGAGAAC AGATCCCATT CCAATCGTTG TCAAGTATGA TGTCATGGGC
    ATGGGTCGCA TGGAAATGGA GCTTGATTAT GCTGAAGATG CTACCGAACG GCGCCGTGTC
    CTAGAAGTAG AAAAAGAAGA CACAGAAGAG CTGAGACAAA AGTACAAGGA TTATGTTGAC
    AAAGAGAAGG CAATTGCCAA AGCCTTGGAA GACCTCAGAG CCAACTTTTA TTGTGAACTG
    TGTGATAAGC AATATCAGAA ACATCAGGAA TTTGATAACC ATATCAACTC CTATGATCAT
    GCACACAAGC AGGAAGGCAC ACAGGATTAT TATGAATCTG AGATAATAGC TGATGTATTG
    AAAGCAAATC CTTCTAATTT GGGAGCCCAG ATCACAAGAA GATTAAAAGA TCTGAAGCAG
    AGAGAGTTTG CTCGAAATGT CTCTTCAAGA TCCCGCAAGG ATGAGAAAAA ACAGGAAAAA
    GCCCTTCGGC GGCTCCATGA GTTGGCAGAG CAAAGAAAAC AAGCTGAATG TGCACCTGGA
    AGTGGTCCCA TGTTCAAACC AACCACAGTG GCTGTAGATG AAGAAGGTGG AGAAGATGAT
    AAAGATGAAT CAGCTACAAA TAGTGGCACA GGTGCCACTG CTTCTTGTGG CCTGGGATCT
    GAATTCTCCA CAGATAAAGG AGGCCCTTTC ACTGCAGTAC AAATCACTAA TACCACTGGA
    CTGGCCCAGG CTCCTGGGTT AGCCTCCCAA GGCATCAGCT TTGGCATTAA GAATAATCTG
    GGGACCCCAT TGCAAAAATT GGGAGTGTCA TTTTCTTTTG CCAAAAAGGC TCCTGTCAAA
    CTCGAATCAA TAGCATCAGT TTTCAAGGAC CATGCGGAGG AAGGGACCTC TGAAGATGGA
    ACAAAACCCG ATGAGAAGAG TTCTGACCAA GGACTGCAGA AGGTAGGAGA CTCTGATGGG
    AGCAGTAATC TTGATGGTAA AAAAGAGGAT GAAGACCCTC AGGATGGAGG GTCCCTTGCC
    TCAACATTAT CCAAATTAAA AAGGATGAAA CGAGAAGAAG GAGCTGGGGC TACAGAGCCT
    GAGTATTACC ACTACATCCC CCCAGCACAC TGCAAAGTAA AACCTAATTT TCCCTTTCTA
    CTTTTTATGA GAGCCAGTGA ACAAATGGAT GGTGATAATA CTACACACCC AAAGAATGCC
    CCAGAGAGTA AAAAAGGCAG TTCTCCCAAG CCTAAAAGCT GCATCAAGGC GGCAGCAAGC
    CAAGGAGCAG AAAAGACAGT TAGTGAAGTC TCTGAGCAGC CGAAGGAAAC CAGCATGACC
    GAGCCCTCAG AACCAGGAAG CAAAGCTGAG GCAAAGAAGG CCTTAGGAGG GGATGTAAGT
    GATCAGAGTT TAGAAAGTCA TAGTCAGAAG GTTTCAGAGA CCCAAATGTG TGAGTCCAAC
    TCTTCTAAAG AAACCTCTCT GGCCACCCCA GCAGGGAAAG AAAGCCAAGA AGGACCCAAA
    CATCCTACTG GTCCCTTCTT CCCAGTTTTG AGCAAAGATG AAAGCACTGC CCTCCAGTGG
    CCATCAGAAC TATTAATTTT CACCAAGGCA GAACCCTCCA TTTCATACAG TTGTAACCCT
    TTATATTTTG ACTTTAAACT TTCAAGGAAC AAAGATGCCA GAACTAAAGG AACAGAAAAA
    CCAAAGGATA TAGGAAGCTC CTCAAAGGAC CATCTCCAAG GCCTAGATCC TGGTGAGCCA
    AATAAAAGCA AGGAAGTGGG CGGAGAGAAA ATAGTACGTT CCTCAGGAGG CAGAATGGAC
    GCACCTGCTT CAGGGTCTGC CTGTAGCGGC CTGAACAAGC AGGAGCCTGG GGGTAGCCAT
    GGGTCTGAGA CAGAAGACAC AGGGAGAAGC CTTCCCAGCA AGAAAGAACG ATCTGGGAAG
    TCCCACCGGC ACAAAAAGAA AAAGAAGCAC AAAAAATCCA GCAAACACAA ACGTAAACAC
    AAGGCTGACA CAGAAGAGAA AAGCTCTAAG GCAGAGTCAG GGGAGAAATC TAAGAAGCGC
    AAGAAACGAA AACGAAAGAA GAATAAGTCA TCAGCCCCAG CAGATTCTGA ACGAGGACCC
    AAACCAGAAC CCCCTGGGAG TGGCAGTCCC GCACCACCAA GAAGAAGGCG GAGAGCTCAA
    GATGACTCCC AGCGGAGATC CCTCCCAGCT GAAGAGGGGA GCAGTGGCAA AAAGGATGAA
    GGTGGGGGTG GTAGCAGCTC CCAAGACCAT GGTGGGAGGA AACACAAAGG TGAACTTCCA
    CCTTCATCCT GCCAGCGAAG AGCAGGCACC AAACGGAGCA GCCGGTCTAG CCATCGGAGC
    CAACCCAGTA GTGGAGATGA GGATAGTGAT GATGCTTCCT CACACCGGCT GCACCAGAAG
    TCTCCATCCC AGTACAGTGA GGAAGAAGAA GAGGAAGATT CAGGCAGTGA GCATTCCCGC
    AGCCGCTCAA GGTCTGGCCG GCGCCATTCC TCGCATCGTT CCTCCCGGCG TTCTTACTCA
    AGTAGCTCAG ATGCCTCTTC AGACCAGAGC TGCTATAGTA GACAGCGCAG TTACTCTGAT
    GACAGCTACA GTGACTACAG TGACAGATCA CGAAGGCACT CCAAGCGCTC CCATGACTCA
    GATGACTCAG ACTATGCCAG CTCCAAACAC CGATCAAAAC GGCACAAATA TTCATCTTCT
    GATGATGACT ATAGCCTCAG TTGCAGCCAG TCCCGAAGCC GATCTCGGAG TCATACCAGA
    GAGCGCTCAA GATCCCGGGG CCGCAGCCGC AGCAGCAGTT GTAGTCGTAG TCGAAGCAAG
    CGGAGAAGCC GTAGCACCAC AGCCCACAGC TGGCAACGGA GCCGGAGCTA TAGCCGGGAC
    CGCAGCCGCA GCACCAGGAG CCCTTCCCAG AGATCAGGCT CCAGGAAGAG ATCATGGGGT
    CACGAGAGCC CTGAGGAGAG GCATTCTGGG CGTCGGGACT TCATTCGTTC TAAGATCTAC
    CGCTCCCAGT CCCCCCACTA TTTCCGATCA GGCCGGGGAG AAGGTCCTGG GAAGAAAGAT
    GATGGCAGAG GAGATGACAG TAAAGCAACA GGTCCACCTT CCCAGAACAG CAACATTGGC
    ACAGGAAGAG GGTCAGAAGG TGACTGCAGT CCTGAAGACA AGAACTCTGT CACTGCCAAA
    CTGCTACTGG AGAAGATCCA GTCAAGGAAA GTGGAGAGGA AACCTAGTGT GAGTGAGGAG
    GTGCAGGCCA CCCCTAATAA AGCTGGGCCC AAGCTCAAGG ACCCCCCACA AGGTTACTTT
    GGGCCCAAGC TCCCCCCATC TCTTGGCAAT AAGCCTGTCC TTCCACTGAT AGGGAAGCTC
    CCAGCTACCC GAAAGCCCAA TAAGAAGTGT GAAGAGTCTG GCTTGGAAAG GGGGGAAGAG
    CAAGAACAGT CAGAGACAGA AGAGGGGCCC CCAGGGAGTA GTGATGCCCT ATTTGGGCAT
    CAGTTCCCTT CAGAGGAAAC AACTGGCCCC TTATTAGACC CACCCCCAGA AGAGTCAAAG
    TCTGGAGAAG CTACTGCTGA TCACCCTGTG GCTCCACTAG GCACCCCAGC ACATTCTGAC
    TGCTACCCTG GGGACCCAAC CATCTCCCAT AACTACCTCC CCGACCCCAG TGATGGGGAC
    ACCCTGGAGT CCCTGGATAG CAGCAGTCAG CCAGGCCCTG TGGAGTCCAG CTTGCTGCCT
    ATAGCACCAG ACCTTGAGCA TTTCCCCAGT TATGCACCTC CCAGTGGGGA TCCTAGTATT
    GAGTCAACAG ATGGGGCTGA GGATGCTTCA CTGGCCCCCC TGGAAAGCCA GCCCATCACC
    TTCACCCCTG AGGAGATGGA GAAGTACAGC AAGCTCCAGC AGGCTGCTCA GCAACACATC
    CAGCAGCAGC TTCTGGCCAA GCAAGTAAAG GCCTTTCCAG CCTCAGCTGC CCTGGCCCCA
    GCCACACCAG CCCTGCAACC CATCCACATT CAGCAGCCAG CTACAGCCTC TGCCACCTCC
    ATCACAACTG TTCAGCATGC CATCCTACAA CATCATGCTG CCGCAGCTGC TGCCGCCATC
    GGCATTCACC CTCACCCCCA TCCCCAACCA CTTGCCCAGG TGCATCATAT TCCCCAGCCC
    CATCTGACCC CCATTTCTTT GTCCCACCTC ACTCACTCAA TCATCCCTGG CCACCCTGCC
    ACCTTTCTCG CTAGCCATCC CATCCACATC ATTCCCGCCT CAGCCATCCA TCCTGGGCCC
    TTCACCTTTC ACCCTGTCCC ACATGCTGCC CTCTACCCCA CCCTACTTGC TCCACGGCCT
    GCTGCAGCAG CTGCCACTGC ACTTCACCTT CACCCACTAC TTCACCCCAT CTTCTCAGGT
    CAGGACCTGC AACATCCCCC CAGCCATGGC ACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011522859.1
    CDS220..4815
    Translation

    Target ORF information:

    RefSeq Version XM_011524557.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524557.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCGGACC GCTTCTCCCG CTTCAACGAA GACCGAGACT TTCAGGGTAA TCACTTTGAT 
    CAGTATGAGG AAGGACACTT GGAAATTGAA CAAGCGTCAC TTGACAAGCC TATAGAATCG
    GATAATATTG GACACCGCTT ACTCCAGAAA CATGGGTGGA AGCTGGGCCA GGGATTGGGA
    AAATCTCTTC AGGGGAGAAC AGATCCCATT CCAATCGTTG TCAAGTATGA TGTCATGGGC
    ATGGGTCGCA TGGAAATGGA GCTTGATTAT GCTGAAGATG CTACCGAACG GCGCCGTGTC
    CTAGAAGTAG AAAAAGAAGA CACAGAAGAG CTGAGACAAA AGTACAAGGA TTATGTTGAC
    AAAGAGAAGG CAATTGCCAA AGCCTTGGAA GACCTCAGAG CCAACTTTTA TTGTGAACTG
    TGTGATAAGC AATATCAGAA ACATCAGGAA TTTGATAACC ATATCAACTC CTATGATCAT
    GCACACAAGC AGGAAGGCAC ACAGGATTAT TATGAATCTG AGATAATAGC TGATGTATTG
    AAAGCAAATC CTTCTAATTT GGGAGCCCAG ATCACAAGAA GATTAAAAGA TCTGAAGCAG
    AGAGAGTTTG CTCGAAATGT CTCTTCAAGA TCCCGCAAGG ATGAGAAAAA ACAGGAAAAA
    GCCCTTCGGC GGCTCCATGA GTTGGCAGAG CAAAGAAAAC AAGCTGAATG TGCACCTGGA
    AGTGGTCCCA TGTTCAAACC AACCACAGTG GCTGTAGATG AAGAAGGTGG AGAAGATGAT
    AAAGATGAAT CAGCTACAAA TAGTGGCACA GGTGCCACTG CTTCTTGTGG CCTGGGATCT
    GAATTCTCCA CAGATAAAGG AGGCCCTTTC ACTGCAGTAC AAATCACTAA TACCACTGGA
    CTGGCCCAGG CTCCTGGGTT AGCCTCCCAA GGCATCAGCT TTGGCATTAA GAATAATCTG
    GGGACCCCAT TGCAAAAATT GGGAGTGTCA TTTTCTTTTG CCAAAAAGGC TCCTGTCAAA
    CTCGAATCAA TAGCATCAGT TTTCAAGGAC CATGCGGAGG AAGGGACCTC TGAAGATGGA
    ACAAAACCCG ATGAGAAGAG TTCTGACCAA GGACTGCAGA AGGTAGGAGA CTCTGATGGG
    AGCAGTAATC TTGATGGTAA AAAAGAGGAT GAAGACCCTC AGGATGGAGG GTCCCTTGCC
    TCAACATTAT CCAAATTAAA AAGGATGAAA CGAGAAGAAG GAGCTGGGGC TACAGAGCCT
    GAGTATTACC ACTACATCCC CCCAGCACAC TGCAAAGTAA AACCTAATTT TCCCTTTCTA
    CTTTTTATGA GAGCCAGTGA ACAAATGGAT GGTGATAATA CTACACACCC AAAGAATGCC
    CCAGAGAGTA AAAAAGGCAG TTCTCCCAAG CCTAAAAGCT GCATCAAGGC GGCAGCAAGC
    CAAGGAGCAG AAAAGACAGT TAGTGAAGTC TCTGAGCAGC CGAAGGAAAC CAGCATGACC
    GAGCCCTCAG AACCAGGAAG CAAAGCTGAG GCAAAGAAGG CCTTAGGAGG GGATGTAAGT
    GATCAGAGTT TAGAAAGTCA TAGTCAGAAG GTTTCAGAGA CCCAAATGTG TGAGTCCAAC
    TCTTCTAAAG AAACCTCTCT GGCCACCCCA GCAGGGAAAG AAAGCCAAGA AGGACCCAAA
    CATCCTACTG GTCCCTTCTT CCCAGTTTTG AGCAAAGATG AAAGCACTGC CCTCCAGTGG
    CCATCAGAAC TATTAATTTT CACCAAGGCA GAACCCTCCA TTTCATACAG TTGTAACCCT
    TTATATTTTG ACTTTAAACT TTCAAGGAAC AAAGATGCCA GAACTAAAGG AACAGAAAAA
    CCAAAGGATA TAGGAAGCTC CTCAAAGGAC CATCTCCAAG GCCTAGATCC TGGTGAGCCA
    AATAAAAGCA AGGAAGTGGG CGGAGAGAAA ATAGTACGTT CCTCAGGAGG CAGAATGGAC
    GCACCTGCTT CAGGGTCTGC CTGTAGCGGC CTGAACAAGC AGGAGCCTGG GGGTAGCCAT
    GGGTCTGAGA CAGAAGACAC AGGGAGAAGC CTTCCCAGCA AGAAAGAACG ATCTGGGAAG
    TCCCACCGGC ACAAAAAGAA AAAGAAGCAC AAAAAATCCA GCAAACACAA ACGTAAACAC
    AAGGCTGACA CAGAAGAGAA AAGCTCTAAG GCAGAGTCAG GGGAGAAATC TAAGAAGCGC
    AAGAAACGAA AACGAAAGAA GAATAAGTCA TCAGCCCCAG CAGATTCTGA ACGAGGACCC
    AAACCAGAAC CCCCTGGGAG TGGCAGTCCC GCACCACCAA GAAGAAGGCG GAGAGCTCAA
    GATGACTCCC AGCGGAGATC CCTCCCAGCT GAAGAGGGGA GCAGTGGCAA AAAGGATGAA
    GGTGGGGGTG GTAGCAGCTC CCAAGACCAT GGTGGGAGGA AACACAAAGG TGAACTTCCA
    CCTTCATCCT GCCAGCGAAG AGCAGGCACC AAACGGAGCA GCCGGTCTAG CCATCGGAGC
    CAACCCAGTA GTGGAGATGA GGATAGTGAT GATGCTTCCT CACACCGGCT GCACCAGAAG
    TCTCCATCCC AGTACAGTGA GGAAGAAGAA GAGGAAGATT CAGGCAGTGA GCATTCCCGC
    AGCCGCTCAA GGTCTGGCCG GCGCCATTCC TCGCATCGTT CCTCCCGGCG TTCTTACTCA
    AGTAGCTCAG ATGCCTCTTC AGACCAGAGC TGCTATAGTA GACAGCGCAG TTACTCTGAT
    GACAGCTACA GTGACTACAG TGACAGATCA CGAAGGCACT CCAAGCGCTC CCATGACTCA
    GATGACTCAG ACTATGCCAG CTCCAAACAC CGATCAAAAC GGCACAAATA TTCATCTTCT
    GATGATGACT ATAGCCTCAG TTGCAGCCAG TCCCGAAGCC GATCTCGGAG TCATACCAGA
    GAGCGCTCAA GATCCCGGGG CCGCAGCCGC AGCAGCAGTT GTAGTCGTAG TCGAAGCAAG
    CGGAGAAGCC GTAGCACCAC AGCCCACAGC TGGCAACGGA GCCGGAGCTA TAGCCGGGAC
    CGCAGCCGCA GCACCAGGAG CCCTTCCCAG AGATCAGGCT CCAGGAAGAG ATCATGGGGT
    CACGAGAGCC CTGAGGAGAG GCATTCTGGG CGTCGGGACT TCATTCGTTC TAAGATCTAC
    CGCTCCCAGT CCCCCCACTA TTTCCGATCA GGCCGGGGAG AAGGTCCTGG GAAGAAAGAT
    GATGGCAGAG GAGATGACAG TAAAGCAACA GGTCCACCTT CCCAGAACAG CAACATTGGC
    ACAGGAAGAG GGTCAGAAGG TGACTGCAGT CCTGAAGACA AGAACTCTGT CACTGCCAAA
    CTGCTACTGG AGAAGATCCA GTCAAGGAAA GTGGAGAGGA AACCTAGTGT GAGTGAGGAG
    GTGCAGGCCA CCCCTAATAA AGCTGGGCCC AAGCTCAAGG ACCCCCCACA AGGTTACTTT
    GGGCCCAAGC TCCCCCCATC TCTTGGCAAT AAGCCTGTCC TTCCACTGAT AGGGAAGCTC
    CCAGCTACCC GAAAGCCCAA TAAGAAGTGT GAAGAGTCTG GCTTGGAAAG GGGGGAAGAG
    CAAGAACAGT CAGAGACAGA AGAGGGGCCC CCAGGGAGTA GTGATGCCCT ATTTGGGCAT
    CAGTTCCCTT CAGAGGAAAC AACTGGCCCC TTATTAGACC CACCCCCAGA AGAGTCAAAG
    TCTGGAGAAG CTACTGCTGA TCACCCTGTG GCTCCACTAG GCACCCCAGC ACATTCTGAC
    TGCTACCCTG GGGACCCAAC CATCTCCCAT AACTACCTCC CCGACCCCAG TGATGGGGAC
    ACCCTGGAGT CCCTGGATAG CAGCAGTCAG CCAGGCCCTG TGGAGTCCAG CTTGCTGCCT
    ATAGCACCAG ACCTTGAGCA TTTCCCCAGT TATGCACCTC CCAGTGGGGA TCCTAGTATT
    GAGTCAACAG ATGGGGCTGA GGATGCTTCA CTGGCCCCCC TGGAAAGCCA GCCCATCACC
    TTCACCCCTG AGGAGATGGA GAAGTACAGC AAGCTCCAGC AGGCTGCTCA GCAACACATC
    CAGCAGCAGC TTCTGGCCAA GCAAGTAAAG GCCTTTCCAG CCTCAGCTGC CCTGGCCCCA
    GCCACACCAG CCCTGCAACC CATCCACATT CAGCAGCCAG CTACAGCCTC TGCCACCTCC
    ATCACAACTG TTCAGCATGC CATCCTACAA CATCATGCTG CCGCAGCTGC TGCCGCCATC
    GGCATTCACC CTCACCCCCA TCCCCAACCA CTTGCCCAGG TGCATCATAT TCCCCAGCCC
    CATCTGACCC CCATTTCTTT GTCCCACCTC ACTCACTCAA TCATCCCTGG CCACCCTGCC
    ACCTTTCTCG CTAGCCATCC CATCCACATC ATTCCCGCCT CAGCCATCCA TCCTGGGCCC
    TTCACCTTTC ACCCTGTCCC ACATGCTGCC CTCTACCCCA CCCTACTTGC TCCACGGCCT
    GCTGCAGCAG CTGCCACTGC ACTTCACCTT CACCCACTAC TTCACCCCAT CTTCTCAGGT
    CAGGACCTGC AACATCCCCC CAGCCATGGC ACGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_017024374.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879863.1
    CDS314..4675
    Translation

    Target ORF information:

    RefSeq Version XM_017024374.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024374.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_017024372.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879861.1
    CDS396..4757
    Translation

    Target ORF information:

    RefSeq Version XM_017024372.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024372.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_011524559.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524559.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011522861.1
    CDS351..4712
    Translation

    Target ORF information:

    RefSeq Version XM_011524559.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524559.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_024450662.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024306430.1
    CDS7159..11520
    Translation

    Target ORF information:

    RefSeq Version XM_024450662.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450662.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_011524561.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524561.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011522863.1
    CDS112..4473
    Translation

    Target ORF information:

    RefSeq Version XM_011524561.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524561.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_024450661.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024306429.1
    CDS7114..11475
    Translation

    Target ORF information:

    RefSeq Version XM_024450661.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450661.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_024450663.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024306431.1
    CDS2439..6800
    Translation

    Target ORF information:

    RefSeq Version XM_024450663.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450663.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_017024373.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016879862.1
    CDS1231..5592
    Translation

    Target ORF information:

    RefSeq Version XM_017024373.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024373.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_024450660.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024306428.1
    CDS2622..6983
    Translation

    Target ORF information:

    RefSeq Version XM_024450660.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450660.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_011524558.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011522860.1
    CDS273..4634
    Translation

    Target ORF information:

    RefSeq Version XM_011524558.1
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524558.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65526
    Clone ID Related Accession (Same CDS sequence) XM_017024374.1 , XM_017024372.1 , XM_011524559.2 , XM_024450662.1 , XM_011524561.2 , XM_024450661.1 , XM_024450663.1 , XM_017024373.1 , XM_024450660.1 , XM_011524558.1 , XM_011524558.2
    Accession Version XM_011524558.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product G patch domain-containing protein 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524558.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011522860.1
    CDS469..4830
    Translation

    Target ORF information:

    RefSeq Version XM_011524558.2
    Organism Homo sapiens(human)
    Definition Homo sapiens G-patch domain containing 8 (GPATCH8), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524558.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGGCATGG GTCGCATGGA AATGGAGCTT GATTATGCTG AAGATGCTAC CGAACGGCGC 
    CGTGTCCTAG AAGTAGAAAA AGAAGACACA GAAGAGCTGA GACAAAAGTA CAAGGATTAT
    GTTGACAAAG AGAAGGCAAT TGCCAAAGCC TTGGAAGACC TCAGAGCCAA CTTTTATTGT
    GAACTGTGTG ATAAGCAATA TCAGAAACAT CAGGAATTTG ATAACCATAT CAACTCCTAT
    GATCATGCAC ACAAGCAGGA AGGCACACAG GATTATTATG AATCTGAGAT AATAGCTGAT
    GTATTGAAAG CAAATCCTTC TAATTTGGGA GCCCAGATCA CAAGAAGATT AAAAGATCTG
    AAGCAGAGAG AGTTTGCTCG AAATGTCTCT TCAAGATCCC GCAAGGATGA GAAAAAACAG
    GAAAAAGCCC TTCGGCGGCT CCATGAGTTG GCAGAGCAAA GAAAACAAGC TGAATGTGCA
    CCTGGAAGTG GTCCCATGTT CAAACCAACC ACAGTGGCTG TAGATGAAGA AGGTGGAGAA
    GATGATAAAG ATGAATCAGC TACAAATAGT GGCACAGGTG CCACTGCTTC TTGTGGCCTG
    GGATCTGAAT TCTCCACAGA TAAAGGAGGC CCTTTCACTG CAGTACAAAT CACTAATACC
    ACTGGACTGG CCCAGGCTCC TGGGTTAGCC TCCCAAGGCA TCAGCTTTGG CATTAAGAAT
    AATCTGGGGA CCCCATTGCA AAAATTGGGA GTGTCATTTT CTTTTGCCAA AAAGGCTCCT
    GTCAAACTCG AATCAATAGC ATCAGTTTTC AAGGACCATG CGGAGGAAGG GACCTCTGAA
    GATGGAACAA AACCCGATGA GAAGAGTTCT GACCAAGGAC TGCAGAAGGT AGGAGACTCT
    GATGGGAGCA GTAATCTTGA TGGTAAAAAA GAGGATGAAG ACCCTCAGGA TGGAGGGTCC
    CTTGCCTCAA CATTATCCAA ATTAAAAAGG ATGAAACGAG AAGAAGGAGC TGGGGCTACA
    GAGCCTGAGT ATTACCACTA CATCCCCCCA GCACACTGCA AAGTAAAACC TAATTTTCCC
    TTTCTACTTT TTATGAGAGC CAGTGAACAA ATGGATGGTG ATAATACTAC ACACCCAAAG
    AATGCCCCAG AGAGTAAAAA AGGCAGTTCT CCCAAGCCTA AAAGCTGCAT CAAGGCGGCA
    GCAAGCCAAG GAGCAGAAAA GACAGTTAGT GAAGTCTCTG AGCAGCCGAA GGAAACCAGC
    ATGACCGAGC CCTCAGAACC AGGAAGCAAA GCTGAGGCAA AGAAGGCCTT AGGAGGGGAT
    GTAAGTGATC AGAGTTTAGA AAGTCATAGT CAGAAGGTTT CAGAGACCCA AATGTGTGAG
    TCCAACTCTT CTAAAGAAAC CTCTCTGGCC ACCCCAGCAG GGAAAGAAAG CCAAGAAGGA
    CCCAAACATC CTACTGGTCC CTTCTTCCCA GTTTTGAGCA AAGATGAAAG CACTGCCCTC
    CAGTGGCCAT CAGAACTATT AATTTTCACC AAGGCAGAAC CCTCCATTTC ATACAGTTGT
    AACCCTTTAT ATTTTGACTT TAAACTTTCA AGGAACAAAG ATGCCAGAAC TAAAGGAACA
    GAAAAACCAA AGGATATAGG AAGCTCCTCA AAGGACCATC TCCAAGGCCT AGATCCTGGT
    GAGCCAAATA AAAGCAAGGA AGTGGGCGGA GAGAAAATAG TACGTTCCTC AGGAGGCAGA
    ATGGACGCAC CTGCTTCAGG GTCTGCCTGT AGCGGCCTGA ACAAGCAGGA GCCTGGGGGT
    AGCCATGGGT CTGAGACAGA AGACACAGGG AGAAGCCTTC CCAGCAAGAA AGAACGATCT
    GGGAAGTCCC ACCGGCACAA AAAGAAAAAG AAGCACAAAA AATCCAGCAA ACACAAACGT
    AAACACAAGG CTGACACAGA AGAGAAAAGC TCTAAGGCAG AGTCAGGGGA GAAATCTAAG
    AAGCGCAAGA AACGAAAACG AAAGAAGAAT AAGTCATCAG CCCCAGCAGA TTCTGAACGA
    GGACCCAAAC CAGAACCCCC TGGGAGTGGC AGTCCCGCAC CACCAAGAAG AAGGCGGAGA
    GCTCAAGATG ACTCCCAGCG GAGATCCCTC CCAGCTGAAG AGGGGAGCAG TGGCAAAAAG
    GATGAAGGTG GGGGTGGTAG CAGCTCCCAA GACCATGGTG GGAGGAAACA CAAAGGTGAA
    CTTCCACCTT CATCCTGCCA GCGAAGAGCA GGCACCAAAC GGAGCAGCCG GTCTAGCCAT
    CGGAGCCAAC CCAGTAGTGG AGATGAGGAT AGTGATGATG CTTCCTCACA CCGGCTGCAC
    CAGAAGTCTC CATCCCAGTA CAGTGAGGAA GAAGAAGAGG AAGATTCAGG CAGTGAGCAT
    TCCCGCAGCC GCTCAAGGTC TGGCCGGCGC CATTCCTCGC ATCGTTCCTC CCGGCGTTCT
    TACTCAAGTA GCTCAGATGC CTCTTCAGAC CAGAGCTGCT ATAGTAGACA GCGCAGTTAC
    TCTGATGACA GCTACAGTGA CTACAGTGAC AGATCACGAA GGCACTCCAA GCGCTCCCAT
    GACTCAGATG ACTCAGACTA TGCCAGCTCC AAACACCGAT CAAAACGGCA CAAATATTCA
    TCTTCTGATG ATGACTATAG CCTCAGTTGC AGCCAGTCCC GAAGCCGATC TCGGAGTCAT
    ACCAGAGAGC GCTCAAGATC CCGGGGCCGC AGCCGCAGCA GCAGTTGTAG TCGTAGTCGA
    AGCAAGCGGA GAAGCCGTAG CACCACAGCC CACAGCTGGC AACGGAGCCG GAGCTATAGC
    CGGGACCGCA GCCGCAGCAC CAGGAGCCCT TCCCAGAGAT CAGGCTCCAG GAAGAGATCA
    TGGGGTCACG AGAGCCCTGA GGAGAGGCAT TCTGGGCGTC GGGACTTCAT TCGTTCTAAG
    ATCTACCGCT CCCAGTCCCC CCACTATTTC CGATCAGGCC GGGGAGAAGG TCCTGGGAAG
    AAAGATGATG GCAGAGGAGA TGACAGTAAA GCAACAGGTC CACCTTCCCA GAACAGCAAC
    ATTGGCACAG GAAGAGGGTC AGAAGGTGAC TGCAGTCCTG AAGACAAGAA CTCTGTCACT
    GCCAAACTGC TACTGGAGAA GATCCAGTCA AGGAAAGTGG AGAGGAAACC TAGTGTGAGT
    GAGGAGGTGC AGGCCACCCC TAATAAAGCT GGGCCCAAGC TCAAGGACCC CCCACAAGGT
    TACTTTGGGC CCAAGCTCCC CCCATCTCTT GGCAATAAGC CTGTCCTTCC ACTGATAGGG
    AAGCTCCCAG CTACCCGAAA GCCCAATAAG AAGTGTGAAG AGTCTGGCTT GGAAAGGGGG
    GAAGAGCAAG AACAGTCAGA GACAGAAGAG GGGCCCCCAG GGAGTAGTGA TGCCCTATTT
    GGGCATCAGT TCCCTTCAGA GGAAACAACT GGCCCCTTAT TAGACCCACC CCCAGAAGAG
    TCAAAGTCTG GAGAAGCTAC TGCTGATCAC CCTGTGGCTC CACTAGGCAC CCCAGCACAT
    TCTGACTGCT ACCCTGGGGA CCCAACCATC TCCCATAACT ACCTCCCCGA CCCCAGTGAT
    GGGGACACCC TGGAGTCCCT GGATAGCAGC AGTCAGCCAG GCCCTGTGGA GTCCAGCTTG
    CTGCCTATAG CACCAGACCT TGAGCATTTC CCCAGTTATG CACCTCCCAG TGGGGATCCT
    AGTATTGAGT CAACAGATGG GGCTGAGGAT GCTTCACTGG CCCCCCTGGA AAGCCAGCCC
    ATCACCTTCA CCCCTGAGGA GATGGAGAAG TACAGCAAGC TCCAGCAGGC TGCTCAGCAA
    CACATCCAGC AGCAGCTTCT GGCCAAGCAA GTAAAGGCCT TTCCAGCCTC AGCTGCCCTG
    GCCCCAGCCA CACCAGCCCT GCAACCCATC CACATTCAGC AGCCAGCTAC AGCCTCTGCC
    ACCTCCATCA CAACTGTTCA GCATGCCATC CTACAACATC ATGCTGCCGC AGCTGCTGCC
    GCCATCGGCA TTCACCCTCA CCCCCATCCC CAACCACTTG CCCAGGTGCA TCATATTCCC
    CAGCCCCATC TGACCCCCAT TTCTTTGTCC CACCTCACTC ACTCAATCAT CCCTGGCCAC
    CCTGCCACCT TTCTCGCTAG CCATCCCATC CACATCATTC CCGCCTCAGC CATCCATCCT
    GGGCCCTTCA CCTTTCACCC TGTCCCACAT GCTGCCCTCT ACCCCACCCT ACTTGCTCCA
    CGGCCTGCTG CAGCAGCTGC CACTGCACTT CACCTTCACC CACTACTTCA CCCCATCTTC
    TCAGGTCAGG ACCTGCAACA TCCCCCCAGC CATGGCACGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.