ADGRF5 cDNA ORF clone, Homo sapiens(human)

The following ADGRF5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADGRF5 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
OHu96383 XM_017010421.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu96383 XM_017010420.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu96384 XM_017010422.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu96385 XM_017010423.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu96386 XM_017010424.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu78035 XM_011514354.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu23485 NM_001098518.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu23485 NM_015234.5
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu40185 XM_005248893.3
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40185 XM_005248892.3
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40186 XM_005248894.4
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40187 XM_017010418.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40187 XM_005248895.4
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu78034 XM_017010419.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu78034 XM_011514353.3
Latest version!
Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu23485 NM_015234.4 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu96386 XM_017010424.1 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu40186 XM_005248894.3 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu78034 XM_011514353.2 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu23485 NM_001098518.1 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu40185 XM_005248892.2 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40187 XM_017010418.1 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu78034 XM_017010419.1 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40187 XM_005248895.3 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu96383 XM_017010420.1 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu96383 XM_017010421.1 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu96384 XM_017010422.1 Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
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 OHu96383
    Clone ID Related Accession (Same CDS sequence) XM_017010421.1 , XM_017010420.1 , XM_017010420.2 , XM_017010421.2
    Accession Version XM_017010421.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4023bp)
    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 adhesion G protein-coupled receptor F5 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_016865910.1
    CDS246..4268
    Translation

    Target ORF information:

    RefSeq Version XM_017010421.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010421.1

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu96383
    Clone ID Related Accession (Same CDS sequence) XM_017010421.1 , XM_017010420.1 , XM_017010420.2 , XM_017010421.2
    Accession Version XM_017010420.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4023bp)
    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 adhesion G protein-coupled receptor F5 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_016865909.1
    CDS290..4312
    Translation

    Target ORF information:

    RefSeq Version XM_017010420.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010420.1

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu96383
    Clone ID Related Accession (Same CDS sequence) XM_017010421.1 , XM_017010420.1 , XM_017010420.2 , XM_017010421.2
    Accession Version XM_017010420.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4023bp)
    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 adhesion G protein-coupled receptor F5 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_017010420.1. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_016865909.1
    CDS277..4299
    Translation

    Target ORF information:

    RefSeq Version XM_017010420.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010420.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu96383
    Clone ID Related Accession (Same CDS sequence) XM_017010421.1 , XM_017010420.1 , XM_017010420.2 , XM_017010421.2
    Accession Version XM_017010421.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4023bp)
    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 adhesion G protein-coupled receptor F5 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_017010421.1. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_016865910.1
    CDS246..4268
    Translation

    Target ORF information:

    RefSeq Version XM_017010421.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010421.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu96384
    Clone ID Related Accession (Same CDS sequence) XM_017010422.1 , XM_017010422.2
    Accession Version XM_017010422.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3957bp)
    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 adhesion G protein-coupled receptor F5 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGAAC CCCTGAGACA GACATAGATT CTAGCTGCAG CAGATACACC
    CTCAAGGCTG ATGGAACCCA GTGCCCAAGC GGGTCGTCTG GAACAACAGT CATCTACACT
    TGTGAGTTCA TCAGTGCCTA TGGAGCCAGA GGCAGTGCAA ACATAAAAGT GACATTCATC
    TCTGTGGGAG ATAATTCCAG CCACAAAAGT GAAGTGCACG AGGTCCTAAG GCATGTGATG
    GAAATGAGTA CAGTGCAGAG CACCACCAGG AACAGCCTAG AAACGAGTAA AGCCCAGGAG
    CAGCAAGCCA ATCTAACAAT AACCCCGGAC CCAATTTCTG TTTCTGAGGG ACAAAACTTT
    TCTATAAAAT GCATCAGTGA TGTGAGTAAC TATGATGAGG TTTATTGGAA CACTTCTGCT
    GGAATTAAAA TATACCAAAG ATTTTATACC ACGAGGAGGT ATCTTGATGG AGCAGAATCA
    GTACTGACAG TCAAGACCTC GACCAGGGAG TGGAATGGAA CCTATCACTG CATATTTAGA
    TATAAGAATT CATACAGTAT TGCAACCAAA GACGTCATTG TTCACCCGCT GCCTCTAAAG
    CTGAACATCA TGGTTGATCC TTTGGAAGCT ACTGTTTCAT GCAGTGGTTC CCATCACATC
    AAGTGCTGCA TAGAGGAGGA TGGAGACTAC AAAGTTACTT TCCATACGGG TTCCTCATCC
    CTTCCTGCTG CAAAAGAAGT TAACAAAAAA CAAGTGTGCT ACAAACACAA TTTCAATGCA
    AGCTCAGTTT CCTGGTGTTC AAAAACTGTT GATGTGTGTT GTCACTTTAC CAATGCTGCT
    AATAATTCAG TCTGGAGCCC ATCTATGAAG CTGAATCTGG TTCCTGGGGA AAACATCACA
    TGCCAGGATC CCGTAATAGG TGTCGGAGAG CCGGGGAAAG TCATCCAGAA GCTATGCCGG
    TTCTCAAACG TTCCCAGCAG CCCTGAGAGT CCCATTGGCG GGACCATCAC TTACAAATGT
    GTAGGCTCCC AGTGGGAGGA GAAGAGAAAT GACTGCATCT CTGCCCCAAT AAACAGTCTG
    CTCCAGATGG CTAAGGCTTT GATCAAGAGC CCCTCTCAGG ATGAGATGCT CCCTACATAC
    CTGAAGGATC TTTCTATTAG CATAGACAAA GCGGAACATG AAATCAGCTC TTCTCCTGGG
    AGTCTGGGAG CCATTATTAA CATCCTTGAT CTGCTCTCAA CAGTTCCAAC CCAAGTAAAT
    TCAGAAATGA TGACGCACGT GCTCTCTACG GTTAATGTCA TCCTTGGCAA GCCCGTCTTG
    AACACCTGGA AGGTTTTACA ACAGCAATGG ACCAATCAGA GTTCACAGCT ACTACATTCA
    GTGGAAAGAT TTTCCCAAGC ATTACAGTCG GGAGATAGCC CTCCTTTGTC CTTCTCCCAA
    ACTAATGTGC AGATGAGCAG CATGGTAATC AAGTCCAGCC ACCCAGAAAC CTATCAACAG
    AGGTTTGTTT TCCCATACTT TGACCTCTGG GGCAATGTGG TCATTGACAA GAGCTATCTA
    GAAAACTTGC AGTCGGATTC GTCTATTGTC ACCATGGCTT TCCCAACTCT CCAAGCCATC
    CTTGCCCAGG ATATCCAGGA AAATAACTTT GCAGAGAGCT TAGTGATGAC AACCACTGTC
    AGCCACAATA CAACTATGCC ATTCAGGATT TCAATGACTT TTAAGAACAA TAGCCCTTCA
    GGCGGCGAAA CGAAGTGTGT CTTCTGGAAC TTCAGGCTTG CCAACAACAC AGGGGGGTGG
    GACAGCAGTG GGTGCTATGT AGAAGAAGGT GATGGGGACA ATGTCACCTG TATCTGTGAC
    CACCTAACAT CATTCTCCAT CCTCATGTCC CCTGACTCCC CAGATCCTAG TTCTCTCCTG
    GGAATACTCC TGGATATTAT TTCTTATGTT GGGGTGGGCT TTTCCATCTT GAGCTTGGCA
    GCCTGTCTAG TTGTGGAAGC TGTGGTGTGG AAATCGGTGA CCAAGAACCG GACTTCTTAT
    ATGCGCCACA CCTGCATAGT GAATATCGCT GCCTCCCTTC TGGTCGCCAA CACCTGGTTC
    ATTGTGGTCG CTGCCATCCA GGACAATCGC TACATACTCT GCAAGACAGC CTGTGTGGCT
    GCCACCTTCT TCATCCACTT CTTCTACCTC AGCGTCTTCT TCTGGATGCT GACACTGGGC
    CTCATGCTGT TCTATCGCCT GGTTTTCATT CTGCATGAAA CAAGCAGGTC CACTCAGAAA
    GCCATTGCCT TCTGTCTTGG CTATGGCTGC CCACTTGCCA TCTCGGTCAT CACGCTGGGA
    GCCACCCAGC CCCGGGAAGT CTATACGAGG AAGAATGTCT GTTGGCTCAA CTGGGAGGAC
    ACCAAGGCCC TGCTGGCTTT CGCCATCCCA GCACTGATCA TTGTGGTGGT GAACATAACC
    ATCACTATTG TGGTCATCAC CAAGATCCTG AGGCCTTCCA TTGGAGACAA GCCATGCAAG
    CAGGAGAAGA GCAGCCTGTT TCAGATCAGC AAGAGCATTG GGGTCCTCAC ACCACTCTTG
    GGCCTCACTT GGGGTTTTGG TCTCACCACT GTGTTCCCAG GGACCAACCT TGTGTTCCAT
    ATCATATTTG CCATCCTCAA TGTCTTCCAG GGATTATTCA TTTTACTCTT TGGATGCCTC
    TGGGATCTGA AGGTACAGGA AGCTTTGCTG AATAAGTTTT CATTGTCGAG ATGGTCTTCA
    CAGCACTCAA AGTCAACATC CCTGGGTTCA TCCACACCTG TGTTTTCTAT GAGTTCTCCA
    ATATCAAGGA GATTTAACAA TTTGTTTGGT AAAACAGGAA CGTATAATGT TTCCACCCCA
    GAAGCAACCA GCTCATCCCT GGAAAACTCA TCCAGTGCTT CTTCGTTGCT CAACTAA

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

    RefSeq XP_016865911.1
    CDS290..4246
    Translation

    Target ORF information:

    RefSeq Version XM_017010422.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010422.1

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGAAC CCCTGAGACA GACATAGATT CTAGCTGCAG CAGATACACC
    CTCAAGGCTG ATGGAACCCA GTGCCCAAGC GGGTCGTCTG GAACAACAGT CATCTACACT
    TGTGAGTTCA TCAGTGCCTA TGGAGCCAGA GGCAGTGCAA ACATAAAAGT GACATTCATC
    TCTGTGGGAG ATAATTCCAG CCACAAAAGT GAAGTGCACG AGGTCCTAAG GCATGTGATG
    GAAATGAGTA CAGTGCAGAG CACCACCAGG AACAGCCTAG AAACGAGTAA AGCCCAGGAG
    CAGCAAGCCA ATCTAACAAT AACCCCGGAC CCAATTTCTG TTTCTGAGGG ACAAAACTTT
    TCTATAAAAT GCATCAGTGA TGTGAGTAAC TATGATGAGG TTTATTGGAA CACTTCTGCT
    GGAATTAAAA TATACCAAAG ATTTTATACC ACGAGGAGGT ATCTTGATGG AGCAGAATCA
    GTACTGACAG TCAAGACCTC GACCAGGGAG TGGAATGGAA CCTATCACTG CATATTTAGA
    TATAAGAATT CATACAGTAT TGCAACCAAA GACGTCATTG TTCACCCGCT GCCTCTAAAG
    CTGAACATCA TGGTTGATCC TTTGGAAGCT ACTGTTTCAT GCAGTGGTTC CCATCACATC
    AAGTGCTGCA TAGAGGAGGA TGGAGACTAC AAAGTTACTT TCCATACGGG TTCCTCATCC
    CTTCCTGCTG CAAAAGAAGT TAACAAAAAA CAAGTGTGCT ACAAACACAA TTTCAATGCA
    AGCTCAGTTT CCTGGTGTTC AAAAACTGTT GATGTGTGTT GTCACTTTAC CAATGCTGCT
    AATAATTCAG TCTGGAGCCC ATCTATGAAG CTGAATCTGG TTCCTGGGGA AAACATCACA
    TGCCAGGATC CCGTAATAGG TGTCGGAGAG CCGGGGAAAG TCATCCAGAA GCTATGCCGG
    TTCTCAAACG TTCCCAGCAG CCCTGAGAGT CCCATTGGCG GGACCATCAC TTACAAATGT
    GTAGGCTCCC AGTGGGAGGA GAAGAGAAAT GACTGCATCT CTGCCCCAAT AAACAGTCTG
    CTCCAGATGG CTAAGGCTTT GATCAAGAGC CCCTCTCAGG ATGAGATGCT CCCTACATAC
    CTGAAGGATC TTTCTATTAG CATAGACAAA GCGGAACATG AAATCAGCTC TTCTCCTGGG
    AGTCTGGGAG CCATTATTAA CATCCTTGAT CTGCTCTCAA CAGTTCCAAC CCAAGTAAAT
    TCAGAAATGA TGACGCACGT GCTCTCTACG GTTAATGTCA TCCTTGGCAA GCCCGTCTTG
    AACACCTGGA AGGTTTTACA ACAGCAATGG ACCAATCAGA GTTCACAGCT ACTACATTCA
    GTGGAAAGAT TTTCCCAAGC ATTACAGTCG GGAGATAGCC CTCCTTTGTC CTTCTCCCAA
    ACTAATGTGC AGATGAGCAG CATGGTAATC AAGTCCAGCC ACCCAGAAAC CTATCAACAG
    AGGTTTGTTT TCCCATACTT TGACCTCTGG GGCAATGTGG TCATTGACAA GAGCTATCTA
    GAAAACTTGC AGTCGGATTC GTCTATTGTC ACCATGGCTT TCCCAACTCT CCAAGCCATC
    CTTGCCCAGG ATATCCAGGA AAATAACTTT GCAGAGAGCT TAGTGATGAC AACCACTGTC
    AGCCACAATA CAACTATGCC ATTCAGGATT TCAATGACTT TTAAGAACAA TAGCCCTTCA
    GGCGGCGAAA CGAAGTGTGT CTTCTGGAAC TTCAGGCTTG CCAACAACAC AGGGGGGTGG
    GACAGCAGTG GGTGCTATGT AGAAGAAGGT GATGGGGACA ATGTCACCTG TATCTGTGAC
    CACCTAACAT CATTCTCCAT CCTCATGTCC CCTGACTCCC CAGATCCTAG TTCTCTCCTG
    GGAATACTCC TGGATATTAT TTCTTATGTT GGGGTGGGCT TTTCCATCTT GAGCTTGGCA
    GCCTGTCTAG TTGTGGAAGC TGTGGTGTGG AAATCGGTGA CCAAGAACCG GACTTCTTAT
    ATGCGCCACA CCTGCATAGT GAATATCGCT GCCTCCCTTC TGGTCGCCAA CACCTGGTTC
    ATTGTGGTCG CTGCCATCCA GGACAATCGC TACATACTCT GCAAGACAGC CTGTGTGGCT
    GCCACCTTCT TCATCCACTT CTTCTACCTC AGCGTCTTCT TCTGGATGCT GACACTGGGC
    CTCATGCTGT TCTATCGCCT GGTTTTCATT CTGCATGAAA CAAGCAGGTC CACTCAGAAA
    GCCATTGCCT TCTGTCTTGG CTATGGCTGC CCACTTGCCA TCTCGGTCAT CACGCTGGGA
    GCCACCCAGC CCCGGGAAGT CTATACGAGG AAGAATGTCT GTTGGCTCAA CTGGGAGGAC
    ACCAAGGCCC TGCTGGCTTT CGCCATCCCA GCACTGATCA TTGTGGTGGT GAACATAACC
    ATCACTATTG TGGTCATCAC CAAGATCCTG AGGCCTTCCA TTGGAGACAA GCCATGCAAG
    CAGGAGAAGA GCAGCCTGTT TCAGATCAGC AAGAGCATTG GGGTCCTCAC ACCACTCTTG
    GGCCTCACTT GGGGTTTTGG TCTCACCACT GTGTTCCCAG GGACCAACCT TGTGTTCCAT
    ATCATATTTG CCATCCTCAA TGTCTTCCAG GGATTATTCA TTTTACTCTT TGGATGCCTC
    TGGGATCTGA AGGTACAGGA AGCTTTGCTG AATAAGTTTT CATTGTCGAG ATGGTCTTCA
    CAGCACTCAA AGTCAACATC CCTGGGTTCA TCCACACCTG TGTTTTCTAT GAGTTCTCCA
    ATATCAAGGA GATTTAACAA TTTGTTTGGT AAAACAGGAA CGTATAATGT TTCCACCCCA
    GAAGCAACCA GCTCATCCCT GGAAAACTCA TCCAGTGCTT CTTCGTTGCT CAACTAA

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

    CloneID OHu96384
    Clone ID Related Accession (Same CDS sequence) XM_017010422.1 , XM_017010422.2
    Accession Version XM_017010422.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3957bp)
    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 adhesion G protein-coupled receptor F5 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_017010422.1. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGAAC CCCTGAGACA GACATAGATT CTAGCTGCAG CAGATACACC
    CTCAAGGCTG ATGGAACCCA GTGCCCAAGC GGGTCGTCTG GAACAACAGT CATCTACACT
    TGTGAGTTCA TCAGTGCCTA TGGAGCCAGA GGCAGTGCAA ACATAAAAGT GACATTCATC
    TCTGTGGGAG ATAATTCCAG CCACAAAAGT GAAGTGCACG AGGTCCTAAG GCATGTGATG
    GAAATGAGTA CAGTGCAGAG CACCACCAGG AACAGCCTAG AAACGAGTAA AGCCCAGGAG
    CAGCAAGCCA ATCTAACAAT AACCCCGGAC CCAATTTCTG TTTCTGAGGG ACAAAACTTT
    TCTATAAAAT GCATCAGTGA TGTGAGTAAC TATGATGAGG TTTATTGGAA CACTTCTGCT
    GGAATTAAAA TATACCAAAG ATTTTATACC ACGAGGAGGT ATCTTGATGG AGCAGAATCA
    GTACTGACAG TCAAGACCTC GACCAGGGAG TGGAATGGAA CCTATCACTG CATATTTAGA
    TATAAGAATT CATACAGTAT TGCAACCAAA GACGTCATTG TTCACCCGCT GCCTCTAAAG
    CTGAACATCA TGGTTGATCC TTTGGAAGCT ACTGTTTCAT GCAGTGGTTC CCATCACATC
    AAGTGCTGCA TAGAGGAGGA TGGAGACTAC AAAGTTACTT TCCATACGGG TTCCTCATCC
    CTTCCTGCTG CAAAAGAAGT TAACAAAAAA CAAGTGTGCT ACAAACACAA TTTCAATGCA
    AGCTCAGTTT CCTGGTGTTC AAAAACTGTT GATGTGTGTT GTCACTTTAC CAATGCTGCT
    AATAATTCAG TCTGGAGCCC ATCTATGAAG CTGAATCTGG TTCCTGGGGA AAACATCACA
    TGCCAGGATC CCGTAATAGG TGTCGGAGAG CCGGGGAAAG TCATCCAGAA GCTATGCCGG
    TTCTCAAACG TTCCCAGCAG CCCTGAGAGT CCCATTGGCG GGACCATCAC TTACAAATGT
    GTAGGCTCCC AGTGGGAGGA GAAGAGAAAT GACTGCATCT CTGCCCCAAT AAACAGTCTG
    CTCCAGATGG CTAAGGCTTT GATCAAGAGC CCCTCTCAGG ATGAGATGCT CCCTACATAC
    CTGAAGGATC TTTCTATTAG CATAGACAAA GCGGAACATG AAATCAGCTC TTCTCCTGGG
    AGTCTGGGAG CCATTATTAA CATCCTTGAT CTGCTCTCAA CAGTTCCAAC CCAAGTAAAT
    TCAGAAATGA TGACGCACGT GCTCTCTACG GTTAATGTCA TCCTTGGCAA GCCCGTCTTG
    AACACCTGGA AGGTTTTACA ACAGCAATGG ACCAATCAGA GTTCACAGCT ACTACATTCA
    GTGGAAAGAT TTTCCCAAGC ATTACAGTCG GGAGATAGCC CTCCTTTGTC CTTCTCCCAA
    ACTAATGTGC AGATGAGCAG CATGGTAATC AAGTCCAGCC ACCCAGAAAC CTATCAACAG
    AGGTTTGTTT TCCCATACTT TGACCTCTGG GGCAATGTGG TCATTGACAA GAGCTATCTA
    GAAAACTTGC AGTCGGATTC GTCTATTGTC ACCATGGCTT TCCCAACTCT CCAAGCCATC
    CTTGCCCAGG ATATCCAGGA AAATAACTTT GCAGAGAGCT TAGTGATGAC AACCACTGTC
    AGCCACAATA CAACTATGCC ATTCAGGATT TCAATGACTT TTAAGAACAA TAGCCCTTCA
    GGCGGCGAAA CGAAGTGTGT CTTCTGGAAC TTCAGGCTTG CCAACAACAC AGGGGGGTGG
    GACAGCAGTG GGTGCTATGT AGAAGAAGGT GATGGGGACA ATGTCACCTG TATCTGTGAC
    CACCTAACAT CATTCTCCAT CCTCATGTCC CCTGACTCCC CAGATCCTAG TTCTCTCCTG
    GGAATACTCC TGGATATTAT TTCTTATGTT GGGGTGGGCT TTTCCATCTT GAGCTTGGCA
    GCCTGTCTAG TTGTGGAAGC TGTGGTGTGG AAATCGGTGA CCAAGAACCG GACTTCTTAT
    ATGCGCCACA CCTGCATAGT GAATATCGCT GCCTCCCTTC TGGTCGCCAA CACCTGGTTC
    ATTGTGGTCG CTGCCATCCA GGACAATCGC TACATACTCT GCAAGACAGC CTGTGTGGCT
    GCCACCTTCT TCATCCACTT CTTCTACCTC AGCGTCTTCT TCTGGATGCT GACACTGGGC
    CTCATGCTGT TCTATCGCCT GGTTTTCATT CTGCATGAAA CAAGCAGGTC CACTCAGAAA
    GCCATTGCCT TCTGTCTTGG CTATGGCTGC CCACTTGCCA TCTCGGTCAT CACGCTGGGA
    GCCACCCAGC CCCGGGAAGT CTATACGAGG AAGAATGTCT GTTGGCTCAA CTGGGAGGAC
    ACCAAGGCCC TGCTGGCTTT CGCCATCCCA GCACTGATCA TTGTGGTGGT GAACATAACC
    ATCACTATTG TGGTCATCAC CAAGATCCTG AGGCCTTCCA TTGGAGACAA GCCATGCAAG
    CAGGAGAAGA GCAGCCTGTT TCAGATCAGC AAGAGCATTG GGGTCCTCAC ACCACTCTTG
    GGCCTCACTT GGGGTTTTGG TCTCACCACT GTGTTCCCAG GGACCAACCT TGTGTTCCAT
    ATCATATTTG CCATCCTCAA TGTCTTCCAG GGATTATTCA TTTTACTCTT TGGATGCCTC
    TGGGATCTGA AGGTACAGGA AGCTTTGCTG AATAAGTTTT CATTGTCGAG ATGGTCTTCA
    CAGCACTCAA AGTCAACATC CCTGGGTTCA TCCACACCTG TGTTTTCTAT GAGTTCTCCA
    ATATCAAGGA GATTTAACAA TTTGTTTGGT AAAACAGGAA CGTATAATGT TTCCACCCCA
    GAAGCAACCA GCTCATCCCT GGAAAACTCA TCCAGTGCTT CTTCGTTGCT CAACTAA

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

    RefSeq XP_016865911.1
    CDS277..4233
    Translation

    Target ORF information:

    RefSeq Version XM_017010422.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010422.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGAAC CCCTGAGACA GACATAGATT CTAGCTGCAG CAGATACACC
    CTCAAGGCTG ATGGAACCCA GTGCCCAAGC GGGTCGTCTG GAACAACAGT CATCTACACT
    TGTGAGTTCA TCAGTGCCTA TGGAGCCAGA GGCAGTGCAA ACATAAAAGT GACATTCATC
    TCTGTGGGAG ATAATTCCAG CCACAAAAGT GAAGTGCACG AGGTCCTAAG GCATGTGATG
    GAAATGAGTA CAGTGCAGAG CACCACCAGG AACAGCCTAG AAACGAGTAA AGCCCAGGAG
    CAGCAAGCCA ATCTAACAAT AACCCCGGAC CCAATTTCTG TTTCTGAGGG ACAAAACTTT
    TCTATAAAAT GCATCAGTGA TGTGAGTAAC TATGATGAGG TTTATTGGAA CACTTCTGCT
    GGAATTAAAA TATACCAAAG ATTTTATACC ACGAGGAGGT ATCTTGATGG AGCAGAATCA
    GTACTGACAG TCAAGACCTC GACCAGGGAG TGGAATGGAA CCTATCACTG CATATTTAGA
    TATAAGAATT CATACAGTAT TGCAACCAAA GACGTCATTG TTCACCCGCT GCCTCTAAAG
    CTGAACATCA TGGTTGATCC TTTGGAAGCT ACTGTTTCAT GCAGTGGTTC CCATCACATC
    AAGTGCTGCA TAGAGGAGGA TGGAGACTAC AAAGTTACTT TCCATACGGG TTCCTCATCC
    CTTCCTGCTG CAAAAGAAGT TAACAAAAAA CAAGTGTGCT ACAAACACAA TTTCAATGCA
    AGCTCAGTTT CCTGGTGTTC AAAAACTGTT GATGTGTGTT GTCACTTTAC CAATGCTGCT
    AATAATTCAG TCTGGAGCCC ATCTATGAAG CTGAATCTGG TTCCTGGGGA AAACATCACA
    TGCCAGGATC CCGTAATAGG TGTCGGAGAG CCGGGGAAAG TCATCCAGAA GCTATGCCGG
    TTCTCAAACG TTCCCAGCAG CCCTGAGAGT CCCATTGGCG GGACCATCAC TTACAAATGT
    GTAGGCTCCC AGTGGGAGGA GAAGAGAAAT GACTGCATCT CTGCCCCAAT AAACAGTCTG
    CTCCAGATGG CTAAGGCTTT GATCAAGAGC CCCTCTCAGG ATGAGATGCT CCCTACATAC
    CTGAAGGATC TTTCTATTAG CATAGACAAA GCGGAACATG AAATCAGCTC TTCTCCTGGG
    AGTCTGGGAG CCATTATTAA CATCCTTGAT CTGCTCTCAA CAGTTCCAAC CCAAGTAAAT
    TCAGAAATGA TGACGCACGT GCTCTCTACG GTTAATGTCA TCCTTGGCAA GCCCGTCTTG
    AACACCTGGA AGGTTTTACA ACAGCAATGG ACCAATCAGA GTTCACAGCT ACTACATTCA
    GTGGAAAGAT TTTCCCAAGC ATTACAGTCG GGAGATAGCC CTCCTTTGTC CTTCTCCCAA
    ACTAATGTGC AGATGAGCAG CATGGTAATC AAGTCCAGCC ACCCAGAAAC CTATCAACAG
    AGGTTTGTTT TCCCATACTT TGACCTCTGG GGCAATGTGG TCATTGACAA GAGCTATCTA
    GAAAACTTGC AGTCGGATTC GTCTATTGTC ACCATGGCTT TCCCAACTCT CCAAGCCATC
    CTTGCCCAGG ATATCCAGGA AAATAACTTT GCAGAGAGCT TAGTGATGAC AACCACTGTC
    AGCCACAATA CAACTATGCC ATTCAGGATT TCAATGACTT TTAAGAACAA TAGCCCTTCA
    GGCGGCGAAA CGAAGTGTGT CTTCTGGAAC TTCAGGCTTG CCAACAACAC AGGGGGGTGG
    GACAGCAGTG GGTGCTATGT AGAAGAAGGT GATGGGGACA ATGTCACCTG TATCTGTGAC
    CACCTAACAT CATTCTCCAT CCTCATGTCC CCTGACTCCC CAGATCCTAG TTCTCTCCTG
    GGAATACTCC TGGATATTAT TTCTTATGTT GGGGTGGGCT TTTCCATCTT GAGCTTGGCA
    GCCTGTCTAG TTGTGGAAGC TGTGGTGTGG AAATCGGTGA CCAAGAACCG GACTTCTTAT
    ATGCGCCACA CCTGCATAGT GAATATCGCT GCCTCCCTTC TGGTCGCCAA CACCTGGTTC
    ATTGTGGTCG CTGCCATCCA GGACAATCGC TACATACTCT GCAAGACAGC CTGTGTGGCT
    GCCACCTTCT TCATCCACTT CTTCTACCTC AGCGTCTTCT TCTGGATGCT GACACTGGGC
    CTCATGCTGT TCTATCGCCT GGTTTTCATT CTGCATGAAA CAAGCAGGTC CACTCAGAAA
    GCCATTGCCT TCTGTCTTGG CTATGGCTGC CCACTTGCCA TCTCGGTCAT CACGCTGGGA
    GCCACCCAGC CCCGGGAAGT CTATACGAGG AAGAATGTCT GTTGGCTCAA CTGGGAGGAC
    ACCAAGGCCC TGCTGGCTTT CGCCATCCCA GCACTGATCA TTGTGGTGGT GAACATAACC
    ATCACTATTG TGGTCATCAC CAAGATCCTG AGGCCTTCCA TTGGAGACAA GCCATGCAAG
    CAGGAGAAGA GCAGCCTGTT TCAGATCAGC AAGAGCATTG GGGTCCTCAC ACCACTCTTG
    GGCCTCACTT GGGGTTTTGG TCTCACCACT GTGTTCCCAG GGACCAACCT TGTGTTCCAT
    ATCATATTTG CCATCCTCAA TGTCTTCCAG GGATTATTCA TTTTACTCTT TGGATGCCTC
    TGGGATCTGA AGGTACAGGA AGCTTTGCTG AATAAGTTTT CATTGTCGAG ATGGTCTTCA
    CAGCACTCAA AGTCAACATC CCTGGGTTCA TCCACACCTG TGTTTTCTAT GAGTTCTCCA
    ATATCAAGGA GATTTAACAA TTTGTTTGGT AAAACAGGAA CGTATAATGT TTCCACCCCA
    GAAGCAACCA GCTCATCCCT GGAAAACTCA TCCAGTGCTT CTTCGTTGCT CAACTAA

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

    CloneID OHu96385
    Clone ID Related Accession (Same CDS sequence) XM_017010423.1
    Accession Version XM_017010423.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3522bp)
    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 adhesion G protein-coupled receptor F5 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGGAACGTAT AATGTTTCCA CCCCAGAAGC AACCAGCTCA
    TCCCTGGAAA ACTCATCCAG TGCTTCTTCG TTGCTCAACT AA

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

    RefSeq XP_016865912.1
    CDS832..4353
    Translation

    Target ORF information:

    RefSeq Version XM_017010423.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010423.1

    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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGGAACGTAT AATGTTTCCA CCCCAGAAGC AACCAGCTCA
    TCCCTGGAAA ACTCATCCAG TGCTTCTTCG TTGCTCAACT AA

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

    CloneID OHu96386
    Clone ID Related Accession (Same CDS sequence) XM_017010424.1 , XM_017010424.2
    Accession Version XM_017010424.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3507bp)
    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 adhesion G protein-coupled receptor F5 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGCAGCCCCT AAGATCCCCC CAGGCCATGA CGGAAACCTT
    GTTAGCGGTG GCAGTTCAGC AATCTGA

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

    RefSeq XP_016865913.1
    CDS832..4338
    Translation

    Target ORF information:

    RefSeq Version XM_017010424.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010424.1

    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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGCAGCCCCT AAGATCCCCC CAGGCCATGA CGGAAACCTT
    GTTAGCGGTG GCAGTTCAGC AATCTGA

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

    CloneID OHu96386
    Clone ID Related Accession (Same CDS sequence) XM_017010424.1 , XM_017010424.2
    Accession Version XM_017010424.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3507bp)
    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 adhesion G protein-coupled receptor F5 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_017010424.1. ##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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGCAGCCCCT AAGATCCCCC CAGGCCATGA CGGAAACCTT
    GTTAGCGGTG GCAGTTCAGC AATCTGA

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

    RefSeq XP_016865913.1
    CDS832..4338
    Translation

    Target ORF information:

    RefSeq Version XM_017010424.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010424.2

    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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGCAGCCCCT AAGATCCCCC CAGGCCATGA CGGAAACCTT
    GTTAGCGGTG GCAGTTCAGC AATCTGA

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

    CloneID OHu78035
    Clone ID Related Accession (Same CDS sequence) XM_011514354.2
    Accession Version XM_011514354.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3642bp)
    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 adhesion G protein-coupled receptor F5 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_011514354.1. ##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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGGAGATAAT
    TCCAGCCACA AAAGTGAAGT GCACGAGGTC CTAAGGCATG TGATGGAAAT GAGTACAGTG
    CAGAGCACCA CCAGGAACAG CCTAGAAACG AGTAAAGCCC AGGAGCAGCA AGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGGAACGTAT AATGTTTCCA CCCCAGAAGC AACCAGCTCA
    TCCCTGGAAA ACTCATCCAG TGCTTCTTCG TTGCTCAACT AA

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

    RefSeq XP_011512656.1
    CDS832..4473
    Translation

    Target ORF information:

    RefSeq Version XM_011514354.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011514354.2

    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
    ATGAGAGTCA GACTAAATGT AGGCTTTCAA GAAGACCTCA TGAACACTTC CTCCGCCCTC 
    TATAGGTCCT ACAAGACCGA CTTGGAAACA GCGTTCCGGA AGGGTTACGG AATTTTACCA
    GGCTTCAAGG GCGTGACTGT GACAGGGTTC AAGTCTGGAA GTGTGGTTGT GACATATGAA
    GTCAAGACTA CACCACCATC ACTTGAGTTA ATACATAAAG CCAATGAACA AGTTGTACAG
    AGCCTCAATC AGACCTACAA AATGGACTAC AACTCCTTTC AAGCAGTTAC TATCAATGAA
    AGCAATTTCT TTGTCACACC AGAAATCATC TTTGAAGGGG ACACAGTCAG TCTGGTGTGT
    GAAAAGGAAG TTTTGTCCTC CAATGTGTCT TGGCGCTATG AAGAACAGCA GTTGGAAATC
    CAGAACAGCA GCAGATTCTC GATTTACACC GCACTTTTCA ACAACATGAC TTCGGTGTCC
    AAGCTCACCA TCCACAACAT CACTCCAGGT GATGCAGGTG AATATGTTTG CAAACTGATA
    TTAGACATTT TTGAATATGA GTGCAAGAAG AAAATAGATG TTATGCCCAT CCAAATTTTG
    GCAAATGAAG AAATGAAGGT GATGTGCGAC AACAATCCTG TATCTTTGAA CTGCTGCAGT
    CAGGGTAATG TTAATTGGAG CAAAGTAGAA TGGAAGCAGG AAGGAAAAAT AAATATTCCA
    GGAACCCCTG AGACAGACAT AGATTCTAGC TGCAGCAGAT ACACCCTCAA GGCTGATGGA
    ACCCAGTGCC CAAGCGGGTC GTCTGGAACA ACAGTCATCT ACACTTGTGA GTTCATCAGT
    GCCTATGGAG CCAGAGGCAG TGCAAACATA AAAGTGACAT TCATCTCTGT GGGAGATAAT
    TCCAGCCACA AAAGTGAAGT GCACGAGGTC CTAAGGCATG TGATGGAAAT GAGTACAGTG
    CAGAGCACCA CCAGGAACAG CCTAGAAACG AGTAAAGCCC AGGAGCAGCA AGCCAATCTA
    ACAATAACCC CGGACCCAAT TTCTGTTTCT GAGGGACAAA ACTTTTCTAT AAAATGCATC
    AGTGATGTGA GTAACTATGA TGAGGTTTAT TGGAACACTT CTGCTGGAAT TAAAATATAC
    CAAAGATTTT ATACCACGAG GAGGTATCTT GATGGAGCAG AATCAGTACT GACAGTCAAG
    ACCTCGACCA GGGAGTGGAA TGGAACCTAT CACTGCATAT TTAGATATAA GAATTCATAC
    AGTATTGCAA CCAAAGACGT CATTGTTCAC CCGCTGCCTC TAAAGCTGAA CATCATGGTT
    GATCCTTTGG AAGCTACTGT TTCATGCAGT GGTTCCCATC ACATCAAGTG CTGCATAGAG
    GAGGATGGAG ACTACAAAGT TACTTTCCAT ACGGGTTCCT CATCCCTTCC TGCTGCAAAA
    GAAGTTAACA AAAAACAAGT GTGCTACAAA CACAATTTCA ATGCAAGCTC AGTTTCCTGG
    TGTTCAAAAA CTGTTGATGT GTGTTGTCAC TTTACCAATG CTGCTAATAA TTCAGTCTGG
    AGCCCATCTA TGAAGCTGAA TCTGGTTCCT GGGGAAAACA TCACATGCCA GGATCCCGTA
    ATAGGTGTCG GAGAGCCGGG GAAAGTCATC CAGAAGCTAT GCCGGTTCTC AAACGTTCCC
    AGCAGCCCTG AGAGTCCCAT TGGCGGGACC ATCACTTACA AATGTGTAGG CTCCCAGTGG
    GAGGAGAAGA GAAATGACTG CATCTCTGCC CCAATAAACA GTCTGCTCCA GATGGCTAAG
    GCTTTGATCA AGAGCCCCTC TCAGGATGAG ATGCTCCCTA CATACCTGAA GGATCTTTCT
    ATTAGCATAG ACAAAGCGGA ACATGAAATC AGCTCTTCTC CTGGGAGTCT GGGAGCCATT
    ATTAACATCC TTGATCTGCT CTCAACAGTT CCAACCCAAG TAAATTCAGA AATGATGACG
    CACGTGCTCT CTACGGTTAA TGTCATCCTT GGCAAGCCCG TCTTGAACAC CTGGAAGGTT
    TTACAACAGC AATGGACCAA TCAGAGTTCA CAGCTACTAC ATTCAGTGGA AAGATTTTCC
    CAAGCATTAC AGTCGGGAGA TAGCCCTCCT TTGTCCTTCT CCCAAACTAA TGTGCAGATG
    AGCAGCATGG TAATCAAGTC CAGCCACCCA GAAACCTATC AACAGAGGTT TGTTTTCCCA
    TACTTTGACC TCTGGGGCAA TGTGGTCATT GACAAGAGCT ATCTAGAAAA CTTGCAGTCG
    GATTCGTCTA TTGTCACCAT GGCTTTCCCA ACTCTCCAAG CCATCCTTGC CCAGGATATC
    CAGGAAAATA ACTTTGCAGA GAGCTTAGTG ATGACAACCA CTGTCAGCCA CAATACAACT
    ATGCCATTCA GGATTTCAAT GACTTTTAAG AACAATAGCC CTTCAGGCGG CGAAACGAAG
    TGTGTCTTCT GGAACTTCAG GCTTGCCAAC AACACAGGGG GGTGGGACAG CAGTGGGTGC
    TATGTAGAAG AAGGTGATGG GGACAATGTC ACCTGTATCT GTGACCACCT AACATCATTC
    TCCATCCTCA TGTCCCCTGA CTCCCCAGAT CCTAGTTCTC TCCTGGGAAT ACTCCTGGAT
    ATTATTTCTT ATGTTGGGGT GGGCTTTTCC ATCTTGAGCT TGGCAGCCTG TCTAGTTGTG
    GAAGCTGTGG TGTGGAAATC GGTGACCAAG AACCGGACTT CTTATATGCG CCACACCTGC
    ATAGTGAATA TCGCTGCCTC CCTTCTGGTC GCCAACACCT GGTTCATTGT GGTCGCTGCC
    ATCCAGGACA ATCGCTACAT ACTCTGCAAG ACAGCCTGTG TGGCTGCCAC CTTCTTCATC
    CACTTCTTCT ACCTCAGCGT CTTCTTCTGG ATGCTGACAC TGGGCCTCAT GCTGTTCTAT
    CGCCTGGTTT TCATTCTGCA TGAAACAAGC AGGTCCACTC AGAAAGCCAT TGCCTTCTGT
    CTTGGCTATG GCTGCCCACT TGCCATCTCG GTCATCACGC TGGGAGCCAC CCAGCCCCGG
    GAAGTCTATA CGAGGAAGAA TGTCTGTTGG CTCAACTGGG AGGACACCAA GGCCCTGCTG
    GCTTTCGCCA TCCCAGCACT GATCATTGTG GTGGTGAACA TAACCATCAC TATTGTGGTC
    ATCACCAAGA TCCTGAGGCC TTCCATTGGA GACAAGCCAT GCAAGCAGGA GAAGAGCAGC
    CTGTTTCAGA TCAGCAAGAG CATTGGGGTC CTCACACCAC TCTTGGGCCT CACTTGGGGT
    TTTGGTCTCA CCACTGTGTT CCCAGGGACC AACCTTGTGT TCCATATCAT ATTTGCCATC
    CTCAATGTCT TCCAGGGATT ATTCATTTTA CTCTTTGGAT GCCTCTGGGA TCTGAAGGTA
    CAGGAAGCTT TGCTGAATAA GTTTTCATTG TCGAGATGGT CTTCACAGCA CTCAAAGTCA
    ACATCCCTGG GTTCATCCAC ACCTGTGTTT TCTATGAGTT CTCCAATATC AAGGAGATTT
    AACAATTTGT TTGGTAAAAC AGGAACGTAT AATGTTTCCA CCCCAGAAGC AACCAGCTCA
    TCCCTGGAAA ACTCATCCAG TGCTTCTTCG TTGCTCAACT AA

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

    CloneID OHu23485
    Clone ID Related Accession (Same CDS sequence) NM_001098518.2 , NM_015234.4 , NM_015234.5 , NM_001098518.1
    Accession Version NM_001098518.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 2019-08-06
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor F5 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB230925.1, AB018301.2, AL096772.5, AY498875.1 and AY140958.1. On Nov 23, 2018 this sequence version replaced NM_001098518.1. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Variants 1 and 2 encode the same isoform. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.261933.1, SRR1660807.130135.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000283296.12/ ENSP00000283296.7 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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    RefSeq NP_001091988.1
    CDS251..4291
    Translation

    Target ORF information:

    RefSeq Version NM_001098518.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001098518.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    CloneID OHu23485
    Clone ID Related Accession (Same CDS sequence) NM_001098518.2 , NM_015234.4 , NM_015234.5 , NM_001098518.1
    Accession Version NM_015234.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 2019-02-19
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor F5 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DA588699.1, AY498875.1, AL096772.5, AY140958.1 and AI796309.1. On Jun 7, 2007 this sequence version replaced NM_015234.3. Transcript Variant: This variant (1) represents the longest transcript. Variants 1 and 2 encode the same isoform. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.71555.1, SRR1803613.23656.1 [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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    RefSeq NP_056049.4
    CDS230..4270
    Translation

    Target ORF information:

    RefSeq Version NM_015234.4
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015234.4

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    CloneID OHu23485
    Clone ID Related Accession (Same CDS sequence) NM_001098518.2 , NM_015234.4 , NM_015234.5 , NM_001098518.1
    Accession Version NM_015234.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 2019-08-07
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor F5 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL096772.5, DA588699.1, AY498875.1 and AY140958.1. On May 31, 2019 this sequence version replaced NM_015234.4. Transcript Variant: This variant (1) represents the longest transcript. Variants 1 and 2 encode the same isoform. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.71555.1, SRR1803613.23656.1 [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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    RefSeq NP_056049.4
    CDS231..4271
    Translation

    Target ORF information:

    RefSeq Version NM_015234.5
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015234.5

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    CloneID OHu23485
    Clone ID Related Accession (Same CDS sequence) NM_001098518.2 , NM_015234.4 , NM_015234.5 , NM_001098518.1
    Accession Version NM_001098518.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor F5 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB230925.1, AB018301.2, AL096772.5, AY498875.1, AY140958.1 and AI796309.1. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Variants 1 and 2 encode the same isoform. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.261933.1, SRR1660807.130135.1 [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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    RefSeq NP_001091988.1
    CDS290..4330
    Translation

    Target ORF information:

    RefSeq Version NM_001098518.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001098518.1

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    CloneID OHu40185
    Clone ID Related Accession (Same CDS sequence) XM_005248892.3 , XM_005248893.3 , XM_005248892.2
    Accession Version XM_005248892.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4161bp)
    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 adhesion G protein-coupled receptor F5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_005248892.2. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    RefSeq XP_005248949.1
    CDS277..4437
    Translation

    Target ORF information:

    RefSeq Version XM_005248892.3
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248892.3

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    CloneID OHu40185
    Clone ID Related Accession (Same CDS sequence) XM_005248892.3 , XM_005248893.3 , XM_005248892.2
    Accession Version XM_005248893.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4161bp)
    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 adhesion G protein-coupled receptor F5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_005248893.2. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    RefSeq XP_005248950.1
    CDS246..4406
    Translation

    Target ORF information:

    RefSeq Version XM_005248893.3
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248893.3

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    CloneID OHu40185
    Clone ID Related Accession (Same CDS sequence) XM_005248892.3 , XM_005248893.3 , XM_005248892.2
    Accession Version XM_005248892.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4161bp)
    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 adhesion G protein-coupled receptor F5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_005248892.1. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    RefSeq XP_005248949.1
    CDS290..4450
    Translation

    Target ORF information:

    RefSeq Version XM_005248892.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248892.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GGAACGTATA ATGTTTCCAC CCCAGAAGCA ACCAGCTCAT CCCTGGAAAA CTCATCCAGT
    GCTTCTTCGT TGCTCAACTA A

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

    CloneID OHu40186
    Clone ID Related Accession (Same CDS sequence) XM_005248894.4 , XM_005248894.3
    Accession Version XM_005248894.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4146bp)
    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 adhesion G protein-coupled receptor F5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_005248894.3. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    RefSeq XP_005248951.1
    CDS277..4422
    Translation

    Target ORF information:

    RefSeq Version XM_005248894.4
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248894.4

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    CloneID OHu40186
    Clone ID Related Accession (Same CDS sequence) XM_005248894.4 , XM_005248894.3
    Accession Version XM_005248894.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4146bp)
    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 adhesion G protein-coupled receptor F5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_005248894.2. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    RefSeq XP_005248951.1
    CDS290..4435
    Translation

    Target ORF information:

    RefSeq Version XM_005248894.3
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248894.3

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    CloneID OHu40187
    Clone ID Related Accession (Same CDS sequence) XM_005248895.3 , XM_017010418.2 , XM_017010418.1 , XM_005248895.4
    Accession Version XM_005248895.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4143bp)
    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 adhesion G protein-coupled receptor F5 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_005248895.2. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_005248952.1
    CDS290..4432
    Translation

    Target ORF information:

    RefSeq Version XM_005248895.3
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248895.3

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu40187
    Clone ID Related Accession (Same CDS sequence) XM_005248895.3 , XM_017010418.2 , XM_017010418.1 , XM_005248895.4
    Accession Version XM_017010418.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4143bp)
    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 adhesion G protein-coupled receptor F5 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_017010418.1. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_016865907.1
    CDS246..4388
    Translation

    Target ORF information:

    RefSeq Version XM_017010418.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010418.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu40187
    Clone ID Related Accession (Same CDS sequence) XM_005248895.3 , XM_017010418.2 , XM_017010418.1 , XM_005248895.4
    Accession Version XM_017010418.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4143bp)
    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 adhesion G protein-coupled receptor F5 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_016865907.1
    CDS246..4388
    Translation

    Target ORF information:

    RefSeq Version XM_017010418.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010418.1

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu40187
    Clone ID Related Accession (Same CDS sequence) XM_005248895.3 , XM_017010418.2 , XM_017010418.1 , XM_005248895.4
    Accession Version XM_005248895.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4143bp)
    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 adhesion G protein-coupled receptor F5 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_005248895.3. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    RefSeq XP_005248952.1
    CDS277..4419
    Translation

    Target ORF information:

    RefSeq Version XM_005248895.4
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248895.4

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GGAGATAATT CCAGCCACAA AAGTGAAGTG
    CACGAGGTCC TAAGGCATGT GATGGAAATG AGTACAGTGC AGAGCACCAC CAGGAACAGC
    CTAGAAACGA GTAAAGCCCA GGAGCAGCAA GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCCCCTAAGA TCCCCCCAGG CCATGACGGA AACCTTGTTA GCGGTGGCAG TTCAGCAATC
    TGA

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

    CloneID OHu78034
    Clone ID Related Accession (Same CDS sequence) XM_017010419.2 , XM_011514353.3 , XM_011514353.2 , XM_017010419.1
    Accession Version XM_017010419.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4026bp)
    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 adhesion G protein-coupled receptor F5 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_017010419.1. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    RefSeq XP_016865908.1
    CDS246..4271
    Translation

    Target ORF information:

    RefSeq Version XM_017010419.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010419.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    CloneID OHu78034
    Clone ID Related Accession (Same CDS sequence) XM_017010419.2 , XM_011514353.3 , XM_011514353.2 , XM_017010419.1
    Accession Version XM_011514353.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4026bp)
    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 adhesion G protein-coupled receptor F5 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_011514353.2. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    RefSeq XP_011512655.1
    CDS277..4302
    Translation

    Target ORF information:

    RefSeq Version XM_011514353.3
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011514353.3

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    CloneID OHu78034
    Clone ID Related Accession (Same CDS sequence) XM_017010419.2 , XM_011514353.3 , XM_011514353.2 , XM_017010419.1
    Accession Version XM_011514353.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4026bp)
    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 adhesion G protein-coupled receptor F5 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_011514353.1. ##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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    RefSeq XP_011512655.1
    CDS290..4315
    Translation

    Target ORF information:

    RefSeq Version XM_011514353.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011514353.2

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    CloneID OHu78034
    Clone ID Related Accession (Same CDS sequence) XM_017010419.2 , XM_011514353.3 , XM_011514353.2 , XM_017010419.1
    Accession Version XM_017010419.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4026bp)
    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 adhesion G protein-coupled receptor F5 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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

    RefSeq XP_016865908.1
    CDS246..4271
    Translation

    Target ORF information:

    RefSeq Version XM_017010419.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor F5 (ADGRF5), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010419.1

    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
    ATGAAATCCC CAAGGAGAAC CACTTTGTGC CTCATGTTTA TTGTGATTTA TTCTTCCAAA 
    GCTGCACTGA ACTGGAATTA CGAGTCTACT ATTCATCCTT TGAGTCTTCA TGAACATGAA
    CCAGCTGGTG AAGAGGCACT GAGGCAAAAA CGAGCCGTTG CCACAAAAAG TCCTACGGCT
    GAAGAATACA CTGTTAATAT TGAGATCAGT TTTGAAAATG CATCCTTCCT GGATCCTATC
    AAAGCCTACT TGAACAGCCT CAGTTTTCCA ATTCATGGGA ATAACACTGA CCAAATTACC
    GACATTTTGA GCATAAATGT GACAACAGTC TGCAGACCTG CTGGAAATGA AATCTGGTGC
    TCCTGCGAGA CAGGTTATGG GTGGCCTCGG GAAAGGTGTC TTCACAATCT CATTTGTCAA
    GAGCGTGACG TCTTCCTCCC AGGGCACCAT TGCAGTTGCC TTAAAGAACT GCCTCCCAAT
    GGACCTTTTT GCCTGCTTCA GGAAGATGTT ACCCTGAACA TGAGAGTCAG ACTAAATGTA
    GGCTTTCAAG AAGACCTCAT GAACACTTCC TCCGCCCTCT ATAGGTCCTA CAAGACCGAC
    TTGGAAACAG CGTTCCGGAA GGGTTACGGA ATTTTACCAG GCTTCAAGGG CGTGACTGTG
    ACAGGGTTCA AGTCTGGAAG TGTGGTTGTG ACATATGAAG TCAAGACTAC ACCACCATCA
    CTTGAGTTAA TACATAAAGC CAATGAACAA GTTGTACAGA GCCTCAATCA GACCTACAAA
    ATGGACTACA ACTCCTTTCA AGCAGTTACT ATCAATGAAA GCAATTTCTT TGTCACACCA
    GAAATCATCT TTGAAGGGGA CACAGTCAGT CTGGTGTGTG AAAAGGAAGT TTTGTCCTCC
    AATGTGTCTT GGCGCTATGA AGAACAGCAG TTGGAAATCC AGAACAGCAG CAGATTCTCG
    ATTTACACCG CACTTTTCAA CAACATGACT TCGGTGTCCA AGCTCACCAT CCACAACATC
    ACTCCAGGTG ATGCAGGTGA ATATGTTTGC AAACTGATAT TAGACATTTT TGAATATGAG
    TGCAAGAAGA AAATAGATGT TATGCCCATC CAAATTTTGG CAAATGAAGA AATGAAGGTG
    ATGTGCGACA ACAATCCTGT ATCTTTGAAC TGCTGCAGTC AGGGTAATGT TAATTGGAGC
    AAAGTAGAAT GGAAGCAGGA AGGAAAAATA AATATTCCAG GAACCCCTGA GACAGACATA
    GATTCTAGCT GCAGCAGATA CACCCTCAAG GCTGATGGAA CCCAGTGCCC AAGCGGGTCG
    TCTGGAACAA CAGTCATCTA CACTTGTGAG TTCATCAGTG CCTATGGAGC CAGAGGCAGT
    GCAAACATAA AAGTGACATT CATCTCTGTG GCCAATCTAA CAATAACCCC GGACCCAATT
    TCTGTTTCTG AGGGACAAAA CTTTTCTATA AAATGCATCA GTGATGTGAG TAACTATGAT
    GAGGTTTATT GGAACACTTC TGCTGGAATT AAAATATACC AAAGATTTTA TACCACGAGG
    AGGTATCTTG ATGGAGCAGA ATCAGTACTG ACAGTCAAGA CCTCGACCAG GGAGTGGAAT
    GGAACCTATC ACTGCATATT TAGATATAAG AATTCATACA GTATTGCAAC CAAAGACGTC
    ATTGTTCACC CGCTGCCTCT AAAGCTGAAC ATCATGGTTG ATCCTTTGGA AGCTACTGTT
    TCATGCAGTG GTTCCCATCA CATCAAGTGC TGCATAGAGG AGGATGGAGA CTACAAAGTT
    ACTTTCCATA CGGGTTCCTC ATCCCTTCCT GCTGCAAAAG AAGTTAACAA AAAACAAGTG
    TGCTACAAAC ACAATTTCAA TGCAAGCTCA GTTTCCTGGT GTTCAAAAAC TGTTGATGTG
    TGTTGTCACT TTACCAATGC TGCTAATAAT TCAGTCTGGA GCCCATCTAT GAAGCTGAAT
    CTGGTTCCTG GGGAAAACAT CACATGCCAG GATCCCGTAA TAGGTGTCGG AGAGCCGGGG
    AAAGTCATCC AGAAGCTATG CCGGTTCTCA AACGTTCCCA GCAGCCCTGA GAGTCCCATT
    GGCGGGACCA TCACTTACAA ATGTGTAGGC TCCCAGTGGG AGGAGAAGAG AAATGACTGC
    ATCTCTGCCC CAATAAACAG TCTGCTCCAG ATGGCTAAGG CTTTGATCAA GAGCCCCTCT
    CAGGATGAGA TGCTCCCTAC ATACCTGAAG GATCTTTCTA TTAGCATAGA CAAAGCGGAA
    CATGAAATCA GCTCTTCTCC TGGGAGTCTG GGAGCCATTA TTAACATCCT TGATCTGCTC
    TCAACAGTTC CAACCCAAGT AAATTCAGAA ATGATGACGC ACGTGCTCTC TACGGTTAAT
    GTCATCCTTG GCAAGCCCGT CTTGAACACC TGGAAGGTTT TACAACAGCA ATGGACCAAT
    CAGAGTTCAC AGCTACTACA TTCAGTGGAA AGATTTTCCC AAGCATTACA GTCGGGAGAT
    AGCCCTCCTT TGTCCTTCTC CCAAACTAAT GTGCAGATGA GCAGCATGGT AATCAAGTCC
    AGCCACCCAG AAACCTATCA ACAGAGGTTT GTTTTCCCAT ACTTTGACCT CTGGGGCAAT
    GTGGTCATTG ACAAGAGCTA TCTAGAAAAC TTGCAGTCGG ATTCGTCTAT TGTCACCATG
    GCTTTCCCAA CTCTCCAAGC CATCCTTGCC CAGGATATCC AGGAAAATAA CTTTGCAGAG
    AGCTTAGTGA TGACAACCAC TGTCAGCCAC AATACAACTA TGCCATTCAG GATTTCAATG
    ACTTTTAAGA ACAATAGCCC TTCAGGCGGC GAAACGAAGT GTGTCTTCTG GAACTTCAGG
    CTTGCCAACA ACACAGGGGG GTGGGACAGC AGTGGGTGCT ATGTAGAAGA AGGTGATGGG
    GACAATGTCA CCTGTATCTG TGACCACCTA ACATCATTCT CCATCCTCAT GTCCCCTGAC
    TCCCCAGATC CTAGTTCTCT CCTGGGAATA CTCCTGGATA TTATTTCTTA TGTTGGGGTG
    GGCTTTTCCA TCTTGAGCTT GGCAGCCTGT CTAGTTGTGG AAGCTGTGGT GTGGAAATCG
    GTGACCAAGA ACCGGACTTC TTATATGCGC CACACCTGCA TAGTGAATAT CGCTGCCTCC
    CTTCTGGTCG CCAACACCTG GTTCATTGTG GTCGCTGCCA TCCAGGACAA TCGCTACATA
    CTCTGCAAGA CAGCCTGTGT GGCTGCCACC TTCTTCATCC ACTTCTTCTA CCTCAGCGTC
    TTCTTCTGGA TGCTGACACT GGGCCTCATG CTGTTCTATC GCCTGGTTTT CATTCTGCAT
    GAAACAAGCA GGTCCACTCA GAAAGCCATT GCCTTCTGTC TTGGCTATGG CTGCCCACTT
    GCCATCTCGG TCATCACGCT GGGAGCCACC CAGCCCCGGG AAGTCTATAC GAGGAAGAAT
    GTCTGTTGGC TCAACTGGGA GGACACCAAG GCCCTGCTGG CTTTCGCCAT CCCAGCACTG
    ATCATTGTGG TGGTGAACAT AACCATCACT ATTGTGGTCA TCACCAAGAT CCTGAGGCCT
    TCCATTGGAG ACAAGCCATG CAAGCAGGAG AAGAGCAGCC TGTTTCAGAT CAGCAAGAGC
    ATTGGGGTCC TCACACCACT CTTGGGCCTC ACTTGGGGTT TTGGTCTCAC CACTGTGTTC
    CCAGGGACCA ACCTTGTGTT CCATATCATA TTTGCCATCC TCAATGTCTT CCAGGGATTA
    TTCATTTTAC TCTTTGGATG CCTCTGGGAT CTGAAGGTAC AGGAAGCTTT GCTGAATAAG
    TTTTCATTGT CGAGATGGTC TTCACAGCAC TCAAAGTCAA CATCCCTGGG TTCATCCACA
    CCTGTGTTTT CTATGAGTTC TCCAATATCA AGGAGATTTA ACAATTTGTT TGGTAAAACA
    GCAGCCCCTA AGATCCCCCC AGGCCATGAC GGAAACCTTG TTAGCGGTGG CAGTTCAGCA
    ATCTGA

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