UGGT1 cDNA ORF clone, Homo sapiens(human)

The following UGGT1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UGGT1 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
OHu10209 NM_020120.4
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$659.50-$923.30
$1319.00
OHu89681 XM_017004510.1
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 10-12 $391.30
$559.00
OHu89679 XM_017004507.1
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $643.30
$919.00
OHu89679 XM_017004508.1
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $643.30
$919.00
OHu89680 XM_017004509.1
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu36439 XM_006712634.3
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu36440 XM_006712635.4
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu36441 XM_006712636.3
Latest version!
Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
View Old Accession Versions >>
OHu10209 NM_020120.3 Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$659.50-$923.30
$1319.00
OHu36440 XM_006712635.3 Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OHu10209
    Clone ID Related Accession (Same CDS sequence) NM_020120.3 , NM_020120.4
    Accession Version NM_020120.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4668bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BP356698.1, DB226703.1, AF227905.1, AC108059.6, BC041098.1, AC017079.5 and AK025416.1. On May 15, 2009 this sequence version replaced NM_020120.2. Transcript Variant: This variant (1) represents the shorter transcript but encodes the functional protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. 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 :: SRR1803616.154193.1, SRR1803615.208741.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGGAAT GTCCTCCAAG GAAATCTATG ATGATTCTTT TATTAGGCCA
    GTAACTTTTT GGATTGTTGG GGATTTTGAT AGCCCTTCTG GACGGCAGTT ACTGTATGAT
    GCCATCAAAC ATCAGAAATC CAGTAACAAT GTTAGAATAA GCATGATCAA TAATCCTGCC
    AAAGAGATAA GCTATGAGAA CACTCAGATC TCCAGAGCAA TCTGGGCAGC TCTCCAAACT
    CAGACTTCCA ACGCTGCTAA GAACTTCATC ACCAAAATGG CCAAGGAGGG GGCTGCAGAG
    GCCCTGGCTG CAGGAGCTGA CATTGCGGAG TTCTCTGTTG GGGGAATGGA TTTCAGTCTT
    TTTAAAGAGG TCTTTGAGTC TTCCAAAATG GATTTCATTT TGTCTCATGC CGTGTACTGC
    AGGGATGTTC TGAAGCTGAA GAAGGGACAG AGGGCAGTGA TCAGCAATGG AAGGATCATT
    GGGCCACTGG AGGATAGTGA GCTCTTTAAT CAAGACGATT TCCACCTCCT CGAAAATATC
    ATCTTAAAAA CCTCAGGACA GAAAATAAAA TCTCATATTC AACAGCTTCG GGTAGAAGAA
    GATGTGGCAA GCGACTTGGT AATGAAGGTG GATGCTCTTC TGTCAGCGCA ACCAAAAGGA
    GATCCAAGAA TCGAGTACCA GTTTTTTGAA GACAGACACA GTGCAATCAA ACTGAGGCCG
    AAGGAAGGGG AGACATACTT TGATGTTGTG GCTGTCGTTG ACCCTGTCAC CAGAGAAGCA
    CAGAGACTTG CTCCTTTGCT CTTGGTTTTG GCTCAGCTGA TAAACATGAA TCTGAGAGTA
    TTTATGAACT GCCAATCCAA ACTTTCTGAC ATGCCTTTAA AAAGCTTTTA CCGTTATGTC
    TTAGAACCAG AGATTTCTTT CACTTCAGAC AATAGTTTTG CTAAGGGTCC AATCGCAAAA
    TTTTTGGATA TGCCTCAGTC TCCACTGTTC ACTCTGAATT TGAACACACC TGAGAGCTGG
    ATGGTAGAAT CTGTCAGAAC ACCATATGAT CTTGATAATA TTTATTTAGA AGAGGTGGAC
    AGTGTAGTGG CTGCTGAGTA TGAGCTGGAA TACCTGTTAC TGGAAGGTCA TTGCTACGAC
    ATCACCACAG GCCAGCCTCC ACGGGGACTA CAGTTTACCT TAGGAACTTC AGCCAACCCG
    GTCATTGTGG ACACCATTGT TATGGCCAAT CTGGGCTACT TTCAGCTGAA AGCCAACCCA
    GGAGCTTGGA TCCTCAGACT TAGGAAGGGA CGCTCTGAAG ATATTTATAG AATTTACAGC
    CACGATGGCA CTGATTCTCC CCCTGATGCT GATGAGGTGG TTATCGTCCT CAACAACTTC
    AAAAGCAAAA TTATTAAAGT GAAGGTTCAG AAGAAGGCAG ATATGGTGAA CGAAGACTTG
    CTGAGTGATG GAACGAGTGA GAATGAATCT GGATTTTGGG ATTCCTTCAA ATGGGGCTTT
    ACAGGACAGA AGACTGAGGA AGTGAAGCAA GATAAAGATG ACATAATTAA TATTTTCTCC
    GTTGCATCTG GTCATCTCTA CGAAAGATTT CTTCGCATAA TGATGCTATC CGTGCTGAAG
    AATACCAAGA CTCCTGTGAA ATTCTGGTTC TTGAAGAATT ACTTGTCCCC CACATTTAAG
    GAGTTTATAC CTTACATGGC AAATGAATAC AATTTCCAGT ATGAGCTTGT TCAGTACAAA
    TGGCCCCGGT GGCTTCATCA ACAAACTGAA AAACAGCGTA TCATCTGGGG TTACAAGATC
    CTCTTCCTGG ATGTACTTTT CCCACTAGTT GTTGACAAGT TCCTGTTTGT GGATGCTGAT
    CAGATTGTAC GAACAGATCT GAAAGAGTTA AGAGATTTCA ATTTGGATGG TGCTCCTTAT
    GGTTACACTC CTTTCTGTGA CAGCCGAAGA GAAATGGACG GCTACAGGTT CTGGAAGTCA
    GGGTACTGGG CCAGTCATTT AGCCGGGCGA AAGTATCATA TCAGTGCACT ATATGTTGTG
    GATCTGAAGA AGTTTAGGAA AATAGCTGCT GGTGACAGAC TCAGGGGACA GTACCAAGGT
    CTGAGTCAGG ACCCTAACAG CCTTTCAAAT CTTGATCAAG ATCTGCCCAA TAACATGATT
    CATCAGGTGC CAATTAAATC CCTCCCTCAA GAATGGCTTT GGTGTGAAAC GTGGTGTGAT
    GACGCCTCTA AGAAAAGGGC AAAAACCATT GATTTGTGTA ATAATCCGAT GACCAAAGAG
    CCGAAACTGG AAGCAGCTGT GCGGATTGTC CCGGAGTGGC AGGACTACGA CCAAGAGATC
    AAACAGCTAC AGATCCGCTT TCAGAAGGAG AAAGAAACGG GAGCACTGTA CAAAGAGAAG
    ACAAAAGAAC CAAGCCGAGA AGGTCCTCAG AAACGTGAAG AATTATGA

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

    RefSeq NP_064505.1
    CDS179..4846
    Translation

    Target ORF information:

    RefSeq Version NM_020120.3
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020120.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGGAAT GTCCTCCAAG GAAATCTATG ATGATTCTTT TATTAGGCCA
    GTAACTTTTT GGATTGTTGG GGATTTTGAT AGCCCTTCTG GACGGCAGTT ACTGTATGAT
    GCCATCAAAC ATCAGAAATC CAGTAACAAT GTTAGAATAA GCATGATCAA TAATCCTGCC
    AAAGAGATAA GCTATGAGAA CACTCAGATC TCCAGAGCAA TCTGGGCAGC TCTCCAAACT
    CAGACTTCCA ACGCTGCTAA GAACTTCATC ACCAAAATGG CCAAGGAGGG GGCTGCAGAG
    GCCCTGGCTG CAGGAGCTGA CATTGCGGAG TTCTCTGTTG GGGGAATGGA TTTCAGTCTT
    TTTAAAGAGG TCTTTGAGTC TTCCAAAATG GATTTCATTT TGTCTCATGC CGTGTACTGC
    AGGGATGTTC TGAAGCTGAA GAAGGGACAG AGGGCAGTGA TCAGCAATGG AAGGATCATT
    GGGCCACTGG AGGATAGTGA GCTCTTTAAT CAAGACGATT TCCACCTCCT CGAAAATATC
    ATCTTAAAAA CCTCAGGACA GAAAATAAAA TCTCATATTC AACAGCTTCG GGTAGAAGAA
    GATGTGGCAA GCGACTTGGT AATGAAGGTG GATGCTCTTC TGTCAGCGCA ACCAAAAGGA
    GATCCAAGAA TCGAGTACCA GTTTTTTGAA GACAGACACA GTGCAATCAA ACTGAGGCCG
    AAGGAAGGGG AGACATACTT TGATGTTGTG GCTGTCGTTG ACCCTGTCAC CAGAGAAGCA
    CAGAGACTTG CTCCTTTGCT CTTGGTTTTG GCTCAGCTGA TAAACATGAA TCTGAGAGTA
    TTTATGAACT GCCAATCCAA ACTTTCTGAC ATGCCTTTAA AAAGCTTTTA CCGTTATGTC
    TTAGAACCAG AGATTTCTTT CACTTCAGAC AATAGTTTTG CTAAGGGTCC AATCGCAAAA
    TTTTTGGATA TGCCTCAGTC TCCACTGTTC ACTCTGAATT TGAACACACC TGAGAGCTGG
    ATGGTAGAAT CTGTCAGAAC ACCATATGAT CTTGATAATA TTTATTTAGA AGAGGTGGAC
    AGTGTAGTGG CTGCTGAGTA TGAGCTGGAA TACCTGTTAC TGGAAGGTCA TTGCTACGAC
    ATCACCACAG GCCAGCCTCC ACGGGGACTA CAGTTTACCT TAGGAACTTC AGCCAACCCG
    GTCATTGTGG ACACCATTGT TATGGCCAAT CTGGGCTACT TTCAGCTGAA AGCCAACCCA
    GGAGCTTGGA TCCTCAGACT TAGGAAGGGA CGCTCTGAAG ATATTTATAG AATTTACAGC
    CACGATGGCA CTGATTCTCC CCCTGATGCT GATGAGGTGG TTATCGTCCT CAACAACTTC
    AAAAGCAAAA TTATTAAAGT GAAGGTTCAG AAGAAGGCAG ATATGGTGAA CGAAGACTTG
    CTGAGTGATG GAACGAGTGA GAATGAATCT GGATTTTGGG ATTCCTTCAA ATGGGGCTTT
    ACAGGACAGA AGACTGAGGA AGTGAAGCAA GATAAAGATG ACATAATTAA TATTTTCTCC
    GTTGCATCTG GTCATCTCTA CGAAAGATTT CTTCGCATAA TGATGCTATC CGTGCTGAAG
    AATACCAAGA CTCCTGTGAA ATTCTGGTTC TTGAAGAATT ACTTGTCCCC CACATTTAAG
    GAGTTTATAC CTTACATGGC AAATGAATAC AATTTCCAGT ATGAGCTTGT TCAGTACAAA
    TGGCCCCGGT GGCTTCATCA ACAAACTGAA AAACAGCGTA TCATCTGGGG TTACAAGATC
    CTCTTCCTGG ATGTACTTTT CCCACTAGTT GTTGACAAGT TCCTGTTTGT GGATGCTGAT
    CAGATTGTAC GAACAGATCT GAAAGAGTTA AGAGATTTCA ATTTGGATGG TGCTCCTTAT
    GGTTACACTC CTTTCTGTGA CAGCCGAAGA GAAATGGACG GCTACAGGTT CTGGAAGTCA
    GGGTACTGGG CCAGTCATTT AGCCGGGCGA AAGTATCATA TCAGTGCACT ATATGTTGTG
    GATCTGAAGA AGTTTAGGAA AATAGCTGCT GGTGACAGAC TCAGGGGACA GTACCAAGGT
    CTGAGTCAGG ACCCTAACAG CCTTTCAAAT CTTGATCAAG ATCTGCCCAA TAACATGATT
    CATCAGGTGC CAATTAAATC CCTCCCTCAA GAATGGCTTT GGTGTGAAAC GTGGTGTGAT
    GACGCCTCTA AGAAAAGGGC AAAAACCATT GATTTGTGTA ATAATCCGAT GACCAAAGAG
    CCGAAACTGG AAGCAGCTGT GCGGATTGTC CCGGAGTGGC AGGACTACGA CCAAGAGATC
    AAACAGCTAC AGATCCGCTT TCAGAAGGAG AAAGAAACGG GAGCACTGTA CAAAGAGAAG
    ACAAAAGAAC CAAGCCGAGA AGGTCCTCAG AAACGTGAAG AATTATGA

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

    CloneID OHu10209
    Clone ID Related Accession (Same CDS sequence) NM_020120.3 , NM_020120.4
    Accession Version NM_020120.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4668bp)
    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 2019-10-25
    Organism Homo sapiens(human)
    Product UDP-glucose:glycoprotein glucosyltransferase 1 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB226703.1, AF227905.1, AC108059.6, BC041098.1, AC017079.5 and AK025416.1. On May 17, 2019 this sequence version replaced NM_020120.3. Transcript Variant: This variant (1) represents the shorter transcript but encodes the functional protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. 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 :: SRR1803615.208741.1, AF227905.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000259253.11/ ENSP00000259253.6 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGGAAT GTCCTCCAAG GAAATCTATG ATGATTCTTT TATTAGGCCA
    GTAACTTTTT GGATTGTTGG GGATTTTGAT AGCCCTTCTG GACGGCAGTT ACTGTATGAT
    GCCATCAAAC ATCAGAAATC CAGTAACAAT GTTAGAATAA GCATGATCAA TAATCCTGCC
    AAAGAGATAA GCTATGAGAA CACTCAGATC TCCAGAGCAA TCTGGGCAGC TCTCCAAACT
    CAGACTTCCA ACGCTGCTAA GAACTTCATC ACCAAAATGG CCAAGGAGGG GGCTGCAGAG
    GCCCTGGCTG CAGGAGCTGA CATTGCGGAG TTCTCTGTTG GGGGAATGGA TTTCAGTCTT
    TTTAAAGAGG TCTTTGAGTC TTCCAAAATG GATTTCATTT TGTCTCATGC CGTGTACTGC
    AGGGATGTTC TGAAGCTGAA GAAGGGACAG AGGGCAGTGA TCAGCAATGG AAGGATCATT
    GGGCCACTGG AGGATAGTGA GCTCTTTAAT CAAGACGATT TCCACCTCCT CGAAAATATC
    ATCTTAAAAA CCTCAGGACA GAAAATAAAA TCTCATATTC AACAGCTTCG GGTAGAAGAA
    GATGTGGCAA GCGACTTGGT AATGAAGGTG GATGCTCTTC TGTCAGCGCA ACCAAAAGGA
    GATCCAAGAA TCGAGTACCA GTTTTTTGAA GACAGACACA GTGCAATCAA ACTGAGGCCG
    AAGGAAGGGG AGACATACTT TGATGTTGTG GCTGTCGTTG ACCCTGTCAC CAGAGAAGCA
    CAGAGACTTG CTCCTTTGCT CTTGGTTTTG GCTCAGCTGA TAAACATGAA TCTGAGAGTA
    TTTATGAACT GCCAATCCAA ACTTTCTGAC ATGCCTTTAA AAAGCTTTTA CCGTTATGTC
    TTAGAACCAG AGATTTCTTT CACTTCAGAC AATAGTTTTG CTAAGGGTCC AATCGCAAAA
    TTTTTGGATA TGCCTCAGTC TCCACTGTTC ACTCTGAATT TGAACACACC TGAGAGCTGG
    ATGGTAGAAT CTGTCAGAAC ACCATATGAT CTTGATAATA TTTATTTAGA AGAGGTGGAC
    AGTGTAGTGG CTGCTGAGTA TGAGCTGGAA TACCTGTTAC TGGAAGGTCA TTGCTACGAC
    ATCACCACAG GCCAGCCTCC ACGGGGACTA CAGTTTACCT TAGGAACTTC AGCCAACCCG
    GTCATTGTGG ACACCATTGT TATGGCCAAT CTGGGCTACT TTCAGCTGAA AGCCAACCCA
    GGAGCTTGGA TCCTCAGACT TAGGAAGGGA CGCTCTGAAG ATATTTATAG AATTTACAGC
    CACGATGGCA CTGATTCTCC CCCTGATGCT GATGAGGTGG TTATCGTCCT CAACAACTTC
    AAAAGCAAAA TTATTAAAGT GAAGGTTCAG AAGAAGGCAG ATATGGTGAA CGAAGACTTG
    CTGAGTGATG GAACGAGTGA GAATGAATCT GGATTTTGGG ATTCCTTCAA ATGGGGCTTT
    ACAGGACAGA AGACTGAGGA AGTGAAGCAA GATAAAGATG ACATAATTAA TATTTTCTCC
    GTTGCATCTG GTCATCTCTA CGAAAGATTT CTTCGCATAA TGATGCTATC CGTGCTGAAG
    AATACCAAGA CTCCTGTGAA ATTCTGGTTC TTGAAGAATT ACTTGTCCCC CACATTTAAG
    GAGTTTATAC CTTACATGGC AAATGAATAC AATTTCCAGT ATGAGCTTGT TCAGTACAAA
    TGGCCCCGGT GGCTTCATCA ACAAACTGAA AAACAGCGTA TCATCTGGGG TTACAAGATC
    CTCTTCCTGG ATGTACTTTT CCCACTAGTT GTTGACAAGT TCCTGTTTGT GGATGCTGAT
    CAGATTGTAC GAACAGATCT GAAAGAGTTA AGAGATTTCA ATTTGGATGG TGCTCCTTAT
    GGTTACACTC CTTTCTGTGA CAGCCGAAGA GAAATGGACG GCTACAGGTT CTGGAAGTCA
    GGGTACTGGG CCAGTCATTT AGCCGGGCGA AAGTATCATA TCAGTGCACT ATATGTTGTG
    GATCTGAAGA AGTTTAGGAA AATAGCTGCT GGTGACAGAC TCAGGGGACA GTACCAAGGT
    CTGAGTCAGG ACCCTAACAG CCTTTCAAAT CTTGATCAAG ATCTGCCCAA TAACATGATT
    CATCAGGTGC CAATTAAATC CCTCCCTCAA GAATGGCTTT GGTGTGAAAC GTGGTGTGAT
    GACGCCTCTA AGAAAAGGGC AAAAACCATT GATTTGTGTA ATAATCCGAT GACCAAAGAG
    CCGAAACTGG AAGCAGCTGT GCGGATTGTC CCGGAGTGGC AGGACTACGA CCAAGAGATC
    AAACAGCTAC AGATCCGCTT TCAGAAGGAG AAAGAAACGG GAGCACTGTA CAAAGAGAAG
    ACAAAAGAAC CAAGCCGAGA AGGTCCTCAG AAACGTGAAG AATTATGA

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

    RefSeq NP_064505.1
    CDS159..4826
    Translation

    Target ORF information:

    RefSeq Version NM_020120.4
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020120.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGGAAT GTCCTCCAAG GAAATCTATG ATGATTCTTT TATTAGGCCA
    GTAACTTTTT GGATTGTTGG GGATTTTGAT AGCCCTTCTG GACGGCAGTT ACTGTATGAT
    GCCATCAAAC ATCAGAAATC CAGTAACAAT GTTAGAATAA GCATGATCAA TAATCCTGCC
    AAAGAGATAA GCTATGAGAA CACTCAGATC TCCAGAGCAA TCTGGGCAGC TCTCCAAACT
    CAGACTTCCA ACGCTGCTAA GAACTTCATC ACCAAAATGG CCAAGGAGGG GGCTGCAGAG
    GCCCTGGCTG CAGGAGCTGA CATTGCGGAG TTCTCTGTTG GGGGAATGGA TTTCAGTCTT
    TTTAAAGAGG TCTTTGAGTC TTCCAAAATG GATTTCATTT TGTCTCATGC CGTGTACTGC
    AGGGATGTTC TGAAGCTGAA GAAGGGACAG AGGGCAGTGA TCAGCAATGG AAGGATCATT
    GGGCCACTGG AGGATAGTGA GCTCTTTAAT CAAGACGATT TCCACCTCCT CGAAAATATC
    ATCTTAAAAA CCTCAGGACA GAAAATAAAA TCTCATATTC AACAGCTTCG GGTAGAAGAA
    GATGTGGCAA GCGACTTGGT AATGAAGGTG GATGCTCTTC TGTCAGCGCA ACCAAAAGGA
    GATCCAAGAA TCGAGTACCA GTTTTTTGAA GACAGACACA GTGCAATCAA ACTGAGGCCG
    AAGGAAGGGG AGACATACTT TGATGTTGTG GCTGTCGTTG ACCCTGTCAC CAGAGAAGCA
    CAGAGACTTG CTCCTTTGCT CTTGGTTTTG GCTCAGCTGA TAAACATGAA TCTGAGAGTA
    TTTATGAACT GCCAATCCAA ACTTTCTGAC ATGCCTTTAA AAAGCTTTTA CCGTTATGTC
    TTAGAACCAG AGATTTCTTT CACTTCAGAC AATAGTTTTG CTAAGGGTCC AATCGCAAAA
    TTTTTGGATA TGCCTCAGTC TCCACTGTTC ACTCTGAATT TGAACACACC TGAGAGCTGG
    ATGGTAGAAT CTGTCAGAAC ACCATATGAT CTTGATAATA TTTATTTAGA AGAGGTGGAC
    AGTGTAGTGG CTGCTGAGTA TGAGCTGGAA TACCTGTTAC TGGAAGGTCA TTGCTACGAC
    ATCACCACAG GCCAGCCTCC ACGGGGACTA CAGTTTACCT TAGGAACTTC AGCCAACCCG
    GTCATTGTGG ACACCATTGT TATGGCCAAT CTGGGCTACT TTCAGCTGAA AGCCAACCCA
    GGAGCTTGGA TCCTCAGACT TAGGAAGGGA CGCTCTGAAG ATATTTATAG AATTTACAGC
    CACGATGGCA CTGATTCTCC CCCTGATGCT GATGAGGTGG TTATCGTCCT CAACAACTTC
    AAAAGCAAAA TTATTAAAGT GAAGGTTCAG AAGAAGGCAG ATATGGTGAA CGAAGACTTG
    CTGAGTGATG GAACGAGTGA GAATGAATCT GGATTTTGGG ATTCCTTCAA ATGGGGCTTT
    ACAGGACAGA AGACTGAGGA AGTGAAGCAA GATAAAGATG ACATAATTAA TATTTTCTCC
    GTTGCATCTG GTCATCTCTA CGAAAGATTT CTTCGCATAA TGATGCTATC CGTGCTGAAG
    AATACCAAGA CTCCTGTGAA ATTCTGGTTC TTGAAGAATT ACTTGTCCCC CACATTTAAG
    GAGTTTATAC CTTACATGGC AAATGAATAC AATTTCCAGT ATGAGCTTGT TCAGTACAAA
    TGGCCCCGGT GGCTTCATCA ACAAACTGAA AAACAGCGTA TCATCTGGGG TTACAAGATC
    CTCTTCCTGG ATGTACTTTT CCCACTAGTT GTTGACAAGT TCCTGTTTGT GGATGCTGAT
    CAGATTGTAC GAACAGATCT GAAAGAGTTA AGAGATTTCA ATTTGGATGG TGCTCCTTAT
    GGTTACACTC CTTTCTGTGA CAGCCGAAGA GAAATGGACG GCTACAGGTT CTGGAAGTCA
    GGGTACTGGG CCAGTCATTT AGCCGGGCGA AAGTATCATA TCAGTGCACT ATATGTTGTG
    GATCTGAAGA AGTTTAGGAA AATAGCTGCT GGTGACAGAC TCAGGGGACA GTACCAAGGT
    CTGAGTCAGG ACCCTAACAG CCTTTCAAAT CTTGATCAAG ATCTGCCCAA TAACATGATT
    CATCAGGTGC CAATTAAATC CCTCCCTCAA GAATGGCTTT GGTGTGAAAC GTGGTGTGAT
    GACGCCTCTA AGAAAAGGGC AAAAACCATT GATTTGTGTA ATAATCCGAT GACCAAAGAG
    CCGAAACTGG AAGCAGCTGT GCGGATTGTC CCGGAGTGGC AGGACTACGA CCAAGAGATC
    AAACAGCTAC AGATCCGCTT TCAGAAGGAG AAAGAAACGG GAGCACTGTA CAAAGAGAAG
    ACAAAAGAAC CAAGCCGAGA AGGTCCTCAG AAACGTGAAG AATTATGA

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

    CloneID OHu89681
    Clone ID Related Accession (Same CDS sequence) XM_017004510.1
    Accession Version XM_017004510.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2454bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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
    ATGAACTATC TGACAAAGAA AGGAATGTCC TCCAAGGAAA TCTATGATGA TTCTTTTATT 
    AGGCCAGTAA CTTTTTGGAT TGTTGGGGAT TTTGATAGCC CTTCTGGACG GCAGTTACTG
    TATGATGCCA TCAAACATCA GAAATCCAGT AACAATGTTA GAATAAGCAT GATCAATAAT
    CCTGCCAAAG AGATAAGCTA TGAGAACACT CAGATCTCCA GAGCAATCTG GGCAGCTCTC
    CAAACTCAGA CTTCCAACGC TGCTAAGAAC TTCATCACCA AAATGGCCAA GGAGGGGGCT
    GCAGAGGCCC TGGCTGCAGG AGCTGACATT GCGGAGTTCT CTGTTGGGGG AATGGATTTC
    AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC AAAATGGATT TCATTTTGTC TCATGCCGTG
    TACTGCAGGG ATGTTCTGAA GCTGAAGAAG GGACAGAGGG CAGTGATCAG CAATGGAAGG
    ATCATTGGGC CACTGGAGGA TAGTGAGCTC TTTAATCAAG ACGATTTCCA CCTCCTCGAA
    AATATCATCT TAAAAACCTC AGGACAGAAA ATAAAATCTC ATATTCAACA GCTTCGGGTA
    GAAGAAGATG TGGCAAGCGA CTTGGTAATG AAGGTGGATG CTCTTCTGTC AGCGCAACCA
    AAAGGAGATC CAAGAATCGA GTACCAGTTT TTTGAAGACA GACACAGTGC AATCAAACTG
    AGGCCGAAGG AAGGGGAGAC ATACTTTGAT GTTGTGGCTG TCGTTGACCC TGTCACCAGA
    GAAGCACAGA GACTTGCTCC TTTGCTCTTG GTTTTGGCTC AGCTGATAAA CATGAATCTG
    AGAGTATTTA TGAACTGCCA ATCCAAACTT TCTGACATGC CTTTAAAAAG CTTTTACCGT
    TATGTCTTAG AACCAGAGAT TTCTTTCACT TCAGACAATA GTTTTGCTAA GGGTCCAATC
    GCAAAATTTT TGGATATGCC TCAGTCTCCA CTGTTCACTC TGAATTTGAA CACACCTGAG
    AGCTGGATGG TAGAATCTGT CAGAACACCA TATGATCTTG ATAATATTTA TTTAGAAGAG
    GTGGACAGTG TAGTGGCTGC TGAGTATGAG CTGGAATACC TGTTACTGGA AGGTCATTGC
    TACGACATCA CCACAGGCCA GCCTCCACGG GGACTACAGT TTACCTTAGG AACTTCAGCC
    AACCCGGTCA TTGTGGACAC CATTGTTATG GCCAATCTGG GCTACTTTCA GCTGAAAGCC
    AACCCAGGAG CTTGGATCCT CAGACTTAGG AAGGGACGCT CTGAAGATAT TTATAGAATT
    TACAGCCACG ATGGCACTGA TTCTCCCCCT GATGCTGATG AGGTGGTTAT CGTCCTCAAC
    AACTTCAAAA GCAAAATTAT TAAAGTGAAG GTTCAGAAGA AGGCAGATAT GGTGAACGAA
    GACTTGCTGA GTGATGGAAC GAGTGAGAAT GAATCTGGAT TTTGGGATTC CTTCAAATGG
    GGCTTTACAG GACAGAAGAC TGAGGAAGTG AAGCAAGATA AAGATGACAT AATTAATATT
    TTCTCCGTTG CATCTGGTCA TCTCTACGAA AGATTTCTTC GCATAATGAT GCTATCCGTG
    CTGAAGAATA CCAAGACTCC TGTGAAATTC TGGTTCTTGA AGAATTACTT GTCCCCCACA
    TTTAAGGAGT TTATACCTTA CATGGCAAAT GAATACAATT TCCAGTATGA GCTTGTTCAG
    TACAAATGGC CCCGGTGGCT TCATCAACAA ACTGAAAAAC AGCGTATCAT CTGGGGTTAC
    AAGATCCTCT TCCTGGATGT ACTTTTCCCA CTAGTTGTTG ACAAGTTCCT GTTTGTGGAT
    GCTGATCAGA TTGTACGAAC AGATCTGAAA GAGTTAAGAG ATTTCAATTT GGATGGTGCT
    CCTTATGGTT ACACTCCTTT CTGTGACAGC CGAAGAGAAA TGGACGGCTA CAGGTTCTGG
    AAGTCAGGGT ACTGGGCCAG TCATTTAGCC GGGCGAAAGT ATCATATCAG TGCACTATAT
    GTTGTGGATC TGAAGAAGTT TAGGAAAATA GCTGCTGGTG ACAGACTCAG GGGACAGTAC
    CAAGGTCTGA GTCAGGACCC TAACAGCCTT TCAAATCTTG ATCAAGATCT GCCCAATAAC
    ATGATTCATC AGGTGCCAAT TAAATCCCTC CCTCAAGAAT GGCTTTGGTG TGAAACGTGG
    TGTGATGACG CCTCTAAGAA AAGGGCAAAA ACCATTGATT TGTGTAATAA TCCGATGACC
    AAAGAGCCGA AACTGGAAGC AGCTGTGCGG ATTGTCCCGG AGTGGCAGGA CTACGACCAA
    GAGATCAAAC AGCTACAGAT CCGCTTTCAG AAGGAGAAAG AAACGGGAGC ACTGTACAAA
    GAGAAGACAA AAGAACCAAG CCGAGAAGGT CCTCAGAAAC GTGAAGAATT ATGA

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

    RefSeq XP_016859999.1
    CDS1077..3530
    Translation

    Target ORF information:

    RefSeq Version XM_017004510.1
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017004510.1

    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
    ATGAACTATC TGACAAAGAA AGGAATGTCC TCCAAGGAAA TCTATGATGA TTCTTTTATT 
    AGGCCAGTAA CTTTTTGGAT TGTTGGGGAT TTTGATAGCC CTTCTGGACG GCAGTTACTG
    TATGATGCCA TCAAACATCA GAAATCCAGT AACAATGTTA GAATAAGCAT GATCAATAAT
    CCTGCCAAAG AGATAAGCTA TGAGAACACT CAGATCTCCA GAGCAATCTG GGCAGCTCTC
    CAAACTCAGA CTTCCAACGC TGCTAAGAAC TTCATCACCA AAATGGCCAA GGAGGGGGCT
    GCAGAGGCCC TGGCTGCAGG AGCTGACATT GCGGAGTTCT CTGTTGGGGG AATGGATTTC
    AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC AAAATGGATT TCATTTTGTC TCATGCCGTG
    TACTGCAGGG ATGTTCTGAA GCTGAAGAAG GGACAGAGGG CAGTGATCAG CAATGGAAGG
    ATCATTGGGC CACTGGAGGA TAGTGAGCTC TTTAATCAAG ACGATTTCCA CCTCCTCGAA
    AATATCATCT TAAAAACCTC AGGACAGAAA ATAAAATCTC ATATTCAACA GCTTCGGGTA
    GAAGAAGATG TGGCAAGCGA CTTGGTAATG AAGGTGGATG CTCTTCTGTC AGCGCAACCA
    AAAGGAGATC CAAGAATCGA GTACCAGTTT TTTGAAGACA GACACAGTGC AATCAAACTG
    AGGCCGAAGG AAGGGGAGAC ATACTTTGAT GTTGTGGCTG TCGTTGACCC TGTCACCAGA
    GAAGCACAGA GACTTGCTCC TTTGCTCTTG GTTTTGGCTC AGCTGATAAA CATGAATCTG
    AGAGTATTTA TGAACTGCCA ATCCAAACTT TCTGACATGC CTTTAAAAAG CTTTTACCGT
    TATGTCTTAG AACCAGAGAT TTCTTTCACT TCAGACAATA GTTTTGCTAA GGGTCCAATC
    GCAAAATTTT TGGATATGCC TCAGTCTCCA CTGTTCACTC TGAATTTGAA CACACCTGAG
    AGCTGGATGG TAGAATCTGT CAGAACACCA TATGATCTTG ATAATATTTA TTTAGAAGAG
    GTGGACAGTG TAGTGGCTGC TGAGTATGAG CTGGAATACC TGTTACTGGA AGGTCATTGC
    TACGACATCA CCACAGGCCA GCCTCCACGG GGACTACAGT TTACCTTAGG AACTTCAGCC
    AACCCGGTCA TTGTGGACAC CATTGTTATG GCCAATCTGG GCTACTTTCA GCTGAAAGCC
    AACCCAGGAG CTTGGATCCT CAGACTTAGG AAGGGACGCT CTGAAGATAT TTATAGAATT
    TACAGCCACG ATGGCACTGA TTCTCCCCCT GATGCTGATG AGGTGGTTAT CGTCCTCAAC
    AACTTCAAAA GCAAAATTAT TAAAGTGAAG GTTCAGAAGA AGGCAGATAT GGTGAACGAA
    GACTTGCTGA GTGATGGAAC GAGTGAGAAT GAATCTGGAT TTTGGGATTC CTTCAAATGG
    GGCTTTACAG GACAGAAGAC TGAGGAAGTG AAGCAAGATA AAGATGACAT AATTAATATT
    TTCTCCGTTG CATCTGGTCA TCTCTACGAA AGATTTCTTC GCATAATGAT GCTATCCGTG
    CTGAAGAATA CCAAGACTCC TGTGAAATTC TGGTTCTTGA AGAATTACTT GTCCCCCACA
    TTTAAGGAGT TTATACCTTA CATGGCAAAT GAATACAATT TCCAGTATGA GCTTGTTCAG
    TACAAATGGC CCCGGTGGCT TCATCAACAA ACTGAAAAAC AGCGTATCAT CTGGGGTTAC
    AAGATCCTCT TCCTGGATGT ACTTTTCCCA CTAGTTGTTG ACAAGTTCCT GTTTGTGGAT
    GCTGATCAGA TTGTACGAAC AGATCTGAAA GAGTTAAGAG ATTTCAATTT GGATGGTGCT
    CCTTATGGTT ACACTCCTTT CTGTGACAGC CGAAGAGAAA TGGACGGCTA CAGGTTCTGG
    AAGTCAGGGT ACTGGGCCAG TCATTTAGCC GGGCGAAAGT ATCATATCAG TGCACTATAT
    GTTGTGGATC TGAAGAAGTT TAGGAAAATA GCTGCTGGTG ACAGACTCAG GGGACAGTAC
    CAAGGTCTGA GTCAGGACCC TAACAGCCTT TCAAATCTTG ATCAAGATCT GCCCAATAAC
    ATGATTCATC AGGTGCCAAT TAAATCCCTC CCTCAAGAAT GGCTTTGGTG TGAAACGTGG
    TGTGATGACG CCTCTAAGAA AAGGGCAAAA ACCATTGATT TGTGTAATAA TCCGATGACC
    AAAGAGCCGA AACTGGAAGC AGCTGTGCGG ATTGTCCCGG AGTGGCAGGA CTACGACCAA
    GAGATCAAAC AGCTACAGAT CCGCTTTCAG AAGGAGAAAG AAACGGGAGC ACTGTACAAA
    GAGAAGACAA AAGAACCAAG CCGAGAAGGT CCTCAGAAAC GTGAAGAATT ATGA

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

    CloneID OHu89679
    Clone ID Related Accession (Same CDS sequence) XM_017004507.1 , XM_017004508.1
    Accession Version XM_017004507.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3726bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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
    3541
    3601
    3661
    3721
    ATGGCACCTT TAAAGGTTTG GCAGTTGCAA GATCTCAGTT TCCAGACTGC TGCTCGAATC 
    TTGGCTTCTC CTGTTGAGTT GGCTTTGGTT GTCATGAAGG ATCTTAGTCA GAATTTTCCT
    ACCAAAGCCA GAGCAATAAC AAAAACAGCT GTGAGCTCAG AACTTAGAAC CGAAGTGGAA
    GAGAATCAGA AGTATTTCAA GGGAACTTTA GGATTACAAC CTGGAGATTC AGCCCTCTTC
    ATCAATGGAC TTCACATGGA TTTAGATACA CAGGATATAT TCAGTCTGTT TGATGTGTTG
    AGGAATGAAG CTCGGGTAAT GGAGGGTCTG CATAGATTGG GAATAGAAGG CCTTTCTCTG
    CATAATGTTT TGAAGCTGAA CATCCAGCCC TCTGAGGCAG ACTATGCCGT AGACATCCGG
    AGTCCTGCTA TTTCATGGGT CAACAACCTG GAGGTTGATA GCAGATATAA TTCGTGGCCT
    TCTAGTTTAC AAGAGTTGCT TCGACCCACC TTTCCTGGTG TTATTCGGCA GATCAGGAAA
    AACTTACATA ATATGGTTTT CATAGTTGAT CCTGCACATG AGACCACAGC AGAGTTGATG
    AACACAGCTG AGATGTTCCT TAGTAATCAT ATACCACTAA GAATTGGTTT TATCTTTGTG
    GTTAATGACT CTGAAGATGT TGATGGGATG CAAGATGCTG GAGTGGCTGT TCTTAGAGCA
    TATAATTATG TTGCCCAAGA AGTGGATGAT TATCATGCCT TCCAGACTCT GACACATATC
    TATAACAAGG TGAGGACTGG AGAAAAAGTG AAAGTTGAAC ATGTGGTCAG TGTCCTGGAG
    AAGAAATATC CGTATGTAGA AGTGAATAGC ATTTTGGGGA TTGATTCTGC TTATGATCGG
    AATCGGAAGG AAGCAAGAGG CTACTATGAG CAGACTGGAG TTGGACCTCT GCCCGTTGTG
    CTGTTCAATG GAATGCCCTT TGAAAGGGAA CAGCTAGACC CTGATGAGTT AGAAACCATC
    ACAATGCATA AAATCCTGGA GACCACCACC TTCTTCCAAA GAGCGGTGTA CTTGGGTGAA
    CTGCCCCATG ATCAAGATGT GGTAGAGTAT ATCATGAATC AGCCAAATGT TGTTCCACGA
    ATCAATTCTA GGATTTTGAC AGCTGAACGA GACTACCTGG ATTTAACAGC GAGTAATAAC
    TTCTTTGTGG ATGATTATGC TAGATTTACT ATCTTGGATT CCCAAGGCAA GACTGCTGCT
    GTAGCCAATA GTATGAACTA TCTGACAAAG AAAGGAATGT CCTCCAAGGA AATCTATGAT
    GATTCTTTTA TTAGGCCAGT AACTTTTTGG ATTGTTGGGG ATTTTGATAG CCCTTCTGGA
    CGGCAGTTAC TGTATGATGC CATCAAACAT CAGAAATCCA GTAACAATGT TAGAATAAGC
    ATGATCAATA ATCCTGCCAA AGAGATAAGC TATGAGAACA CTCAGATCTC CAGAGCAATC
    TGGGCAGCTC TCCAAACTCA GACTTCCAAC GCTGCTAAGA ACTTCATCAC CAAAATGGCC
    AAGGAGGGGG CTGCAGAGGC CCTGGCTGCA GGAGCTGACA TTGCGGAGTT CTCTGTTGGG
    GGAATGGATT TCAGTCTTTT TAAAGAGGTC TTTGAGTCTT CCAAAATGGA TTTCATTTTG
    TCTCATGCCG TGTACTGCAG GGATGTTCTG AAGCTGAAGA AGGGACAGAG GGCAGTGATC
    AGCAATGGAA GGATCATTGG GCCACTGGAG GATAGTGAGC TCTTTAATCA AGACGATTTC
    CACCTCCTCG AAAATATCAT CTTAAAAACC TCAGGACAGA AAATAAAATC TCATATTCAA
    CAGCTTCGGG TAGAAGAAGA TGTGGCAAGC GACTTGGTAA TGAAGGTGGA TGCTCTTCTG
    TCAGCGCAAC CAAAAGGAGA TCCAAGAATC GAGTACCAGT TTTTTGAAGA CAGACACAGT
    GCAATCAAAC TGAGGCCGAA GGAAGGGGAG ACATACTTTG ATGTTGTGGC TGTCGTTGAC
    CCTGTCACCA GAGAAGCACA GAGACTTGCT CCTTTGCTCT TGGTTTTGGC TCAGCTGATA
    AACATGAATC TGAGAGTATT TATGAACTGC CAATCCAAAC TTTCTGACAT GCCTTTAAAA
    AGCTTTTACC GTTATGTCTT AGAACCAGAG ATTTCTTTCA CTTCAGACAA TAGTTTTGCT
    AAGGGTCCAA TCGCAAAATT TTTGGATATG CCTCAGTCTC CACTGTTCAC TCTGAATTTG
    AACACACCTG AGAGCTGGAT GGTAGAATCT GTCAGAACAC CATATGATCT TGATAATATT
    TATTTAGAAG AGGTGGACAG TGTAGTGGCT GCTGAGTATG AGCTGGAATA CCTGTTACTG
    GAAGGTCATT GCTACGACAT CACCACAGGC CAGCCTCCAC GGGGACTACA GTTTACCTTA
    GGAACTTCAG CCAACCCGGT CATTGTGGAC ACCATTGTTA TGGCCAATCT GGGCTACTTT
    CAGCTGAAAG CCAACCCAGG AGCTTGGATC CTCAGACTTA GGAAGGGACG CTCTGAAGAT
    ATTTATAGAA TTTACAGCCA CGATGGCACT GATTCTCCCC CTGATGCTGA TGAGGTGGTT
    ATCGTCCTCA ACAACTTCAA AAGCAAAATT ATTAAAGTGA AGGTTCAGAA GAAGGCAGAT
    ATGGTGAACG AAGACTTGCT GAGTGATGGA ACGAGTGAGA ATGAATCTGG ATTTTGGGAT
    TCCTTCAAAT GGGGCTTTAC AGGACAGAAG ACTGAGGAAG TGAAGCAAGA TAAAGATGAC
    ATAATTAATA TTTTCTCCGT TGCATCTGGT CATCTCTACG AAAGATTTCT TCGCATAATG
    ATGCTATCCG TGCTGAAGAA TACCAAGACT CCTGTGAAAT TCTGGTTCTT GAAGAATTAC
    TTGTCCCCCA CATTTAAGGA GTTTATACCT TACATGGCAA ATGAATACAA TTTCCAGTAT
    GAGCTTGTTC AGTACAAATG GCCCCGGTGG CTTCATCAAC AAACTGAAAA ACAGCGTATC
    ATCTGGGGTT ACAAGATCCT CTTCCTGGAT GTACTTTTCC CACTAGTTGT TGACAAGTTC
    CTGTTTGTGG ATGCTGATCA GATTGTACGA ACAGATCTGA AAGAGTTAAG AGATTTCAAT
    TTGGATGGTG CTCCTTATGG TTACACTCCT TTCTGTGACA GCCGAAGAGA AATGGACGGC
    TACAGGTTCT GGAAGTCAGG GTACTGGGCC AGTCATTTAG CCGGGCGAAA GTATCATATC
    AGTGCACTAT ATGTTGTGGA TCTGAAGAAG TTTAGGAAAA TAGCTGCTGG TGACAGACTC
    AGGGGACAGT ACCAAGGTCT GAGTCAGGAC CCTAACAGCC TTTCAAATCT TGATCAAGAT
    CTGCCCAATA ACATGATTCA TCAGGTGCCA ATTAAATCCC TCCCTCAAGA ATGGCTTTGG
    TGTGAAACGT GGTGTGATGA CGCCTCTAAG AAAAGGGCAA AAACCATTGA TTTGTGTAAT
    AATCCGATGA CCAAAGAGCC GAAACTGGAA GCAGCTGTGC GGATTGTCCC GGAGTGGCAG
    GACTACGACC AAGAGATCAA ACAGCTACAG ATCCGCTTTC AGAAGGAGAA AGAAACGGGA
    GCACTGTACA AAGAGAAGAC AAAAGAACCA AGCCGAGAAG GTCCTCAGAA ACGTGAAGAA
    TTATGA

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

    RefSeq XP_016859996.1
    CDS1180..4905
    Translation

    Target ORF information:

    RefSeq Version XM_017004507.1
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017004507.1

    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
    ATGGCACCTT TAAAGGTTTG GCAGTTGCAA GATCTCAGTT TCCAGACTGC TGCTCGAATC 
    TTGGCTTCTC CTGTTGAGTT GGCTTTGGTT GTCATGAAGG ATCTTAGTCA GAATTTTCCT
    ACCAAAGCCA GAGCAATAAC AAAAACAGCT GTGAGCTCAG AACTTAGAAC CGAAGTGGAA
    GAGAATCAGA AGTATTTCAA GGGAACTTTA GGATTACAAC CTGGAGATTC AGCCCTCTTC
    ATCAATGGAC TTCACATGGA TTTAGATACA CAGGATATAT TCAGTCTGTT TGATGTGTTG
    AGGAATGAAG CTCGGGTAAT GGAGGGTCTG CATAGATTGG GAATAGAAGG CCTTTCTCTG
    CATAATGTTT TGAAGCTGAA CATCCAGCCC TCTGAGGCAG ACTATGCCGT AGACATCCGG
    AGTCCTGCTA TTTCATGGGT CAACAACCTG GAGGTTGATA GCAGATATAA TTCGTGGCCT
    TCTAGTTTAC AAGAGTTGCT TCGACCCACC TTTCCTGGTG TTATTCGGCA GATCAGGAAA
    AACTTACATA ATATGGTTTT CATAGTTGAT CCTGCACATG AGACCACAGC AGAGTTGATG
    AACACAGCTG AGATGTTCCT TAGTAATCAT ATACCACTAA GAATTGGTTT TATCTTTGTG
    GTTAATGACT CTGAAGATGT TGATGGGATG CAAGATGCTG GAGTGGCTGT TCTTAGAGCA
    TATAATTATG TTGCCCAAGA AGTGGATGAT TATCATGCCT TCCAGACTCT GACACATATC
    TATAACAAGG TGAGGACTGG AGAAAAAGTG AAAGTTGAAC ATGTGGTCAG TGTCCTGGAG
    AAGAAATATC CGTATGTAGA AGTGAATAGC ATTTTGGGGA TTGATTCTGC TTATGATCGG
    AATCGGAAGG AAGCAAGAGG CTACTATGAG CAGACTGGAG TTGGACCTCT GCCCGTTGTG
    CTGTTCAATG GAATGCCCTT TGAAAGGGAA CAGCTAGACC CTGATGAGTT AGAAACCATC
    ACAATGCATA AAATCCTGGA GACCACCACC TTCTTCCAAA GAGCGGTGTA CTTGGGTGAA
    CTGCCCCATG ATCAAGATGT GGTAGAGTAT ATCATGAATC AGCCAAATGT TGTTCCACGA
    ATCAATTCTA GGATTTTGAC AGCTGAACGA GACTACCTGG ATTTAACAGC GAGTAATAAC
    TTCTTTGTGG ATGATTATGC TAGATTTACT ATCTTGGATT CCCAAGGCAA GACTGCTGCT
    GTAGCCAATA GTATGAACTA TCTGACAAAG AAAGGAATGT CCTCCAAGGA AATCTATGAT
    GATTCTTTTA TTAGGCCAGT AACTTTTTGG ATTGTTGGGG ATTTTGATAG CCCTTCTGGA
    CGGCAGTTAC TGTATGATGC CATCAAACAT CAGAAATCCA GTAACAATGT TAGAATAAGC
    ATGATCAATA ATCCTGCCAA AGAGATAAGC TATGAGAACA CTCAGATCTC CAGAGCAATC
    TGGGCAGCTC TCCAAACTCA GACTTCCAAC GCTGCTAAGA ACTTCATCAC CAAAATGGCC
    AAGGAGGGGG CTGCAGAGGC CCTGGCTGCA GGAGCTGACA TTGCGGAGTT CTCTGTTGGG
    GGAATGGATT TCAGTCTTTT TAAAGAGGTC TTTGAGTCTT CCAAAATGGA TTTCATTTTG
    TCTCATGCCG TGTACTGCAG GGATGTTCTG AAGCTGAAGA AGGGACAGAG GGCAGTGATC
    AGCAATGGAA GGATCATTGG GCCACTGGAG GATAGTGAGC TCTTTAATCA AGACGATTTC
    CACCTCCTCG AAAATATCAT CTTAAAAACC TCAGGACAGA AAATAAAATC TCATATTCAA
    CAGCTTCGGG TAGAAGAAGA TGTGGCAAGC GACTTGGTAA TGAAGGTGGA TGCTCTTCTG
    TCAGCGCAAC CAAAAGGAGA TCCAAGAATC GAGTACCAGT TTTTTGAAGA CAGACACAGT
    GCAATCAAAC TGAGGCCGAA GGAAGGGGAG ACATACTTTG ATGTTGTGGC TGTCGTTGAC
    CCTGTCACCA GAGAAGCACA GAGACTTGCT CCTTTGCTCT TGGTTTTGGC TCAGCTGATA
    AACATGAATC TGAGAGTATT TATGAACTGC CAATCCAAAC TTTCTGACAT GCCTTTAAAA
    AGCTTTTACC GTTATGTCTT AGAACCAGAG ATTTCTTTCA CTTCAGACAA TAGTTTTGCT
    AAGGGTCCAA TCGCAAAATT TTTGGATATG CCTCAGTCTC CACTGTTCAC TCTGAATTTG
    AACACACCTG AGAGCTGGAT GGTAGAATCT GTCAGAACAC CATATGATCT TGATAATATT
    TATTTAGAAG AGGTGGACAG TGTAGTGGCT GCTGAGTATG AGCTGGAATA CCTGTTACTG
    GAAGGTCATT GCTACGACAT CACCACAGGC CAGCCTCCAC GGGGACTACA GTTTACCTTA
    GGAACTTCAG CCAACCCGGT CATTGTGGAC ACCATTGTTA TGGCCAATCT GGGCTACTTT
    CAGCTGAAAG CCAACCCAGG AGCTTGGATC CTCAGACTTA GGAAGGGACG CTCTGAAGAT
    ATTTATAGAA TTTACAGCCA CGATGGCACT GATTCTCCCC CTGATGCTGA TGAGGTGGTT
    ATCGTCCTCA ACAACTTCAA AAGCAAAATT ATTAAAGTGA AGGTTCAGAA GAAGGCAGAT
    ATGGTGAACG AAGACTTGCT GAGTGATGGA ACGAGTGAGA ATGAATCTGG ATTTTGGGAT
    TCCTTCAAAT GGGGCTTTAC AGGACAGAAG ACTGAGGAAG TGAAGCAAGA TAAAGATGAC
    ATAATTAATA TTTTCTCCGT TGCATCTGGT CATCTCTACG AAAGATTTCT TCGCATAATG
    ATGCTATCCG TGCTGAAGAA TACCAAGACT CCTGTGAAAT TCTGGTTCTT GAAGAATTAC
    TTGTCCCCCA CATTTAAGGA GTTTATACCT TACATGGCAA ATGAATACAA TTTCCAGTAT
    GAGCTTGTTC AGTACAAATG GCCCCGGTGG CTTCATCAAC AAACTGAAAA ACAGCGTATC
    ATCTGGGGTT ACAAGATCCT CTTCCTGGAT GTACTTTTCC CACTAGTTGT TGACAAGTTC
    CTGTTTGTGG ATGCTGATCA GATTGTACGA ACAGATCTGA AAGAGTTAAG AGATTTCAAT
    TTGGATGGTG CTCCTTATGG TTACACTCCT TTCTGTGACA GCCGAAGAGA AATGGACGGC
    TACAGGTTCT GGAAGTCAGG GTACTGGGCC AGTCATTTAG CCGGGCGAAA GTATCATATC
    AGTGCACTAT ATGTTGTGGA TCTGAAGAAG TTTAGGAAAA TAGCTGCTGG TGACAGACTC
    AGGGGACAGT ACCAAGGTCT GAGTCAGGAC CCTAACAGCC TTTCAAATCT TGATCAAGAT
    CTGCCCAATA ACATGATTCA TCAGGTGCCA ATTAAATCCC TCCCTCAAGA ATGGCTTTGG
    TGTGAAACGT GGTGTGATGA CGCCTCTAAG AAAAGGGCAA AAACCATTGA TTTGTGTAAT
    AATCCGATGA CCAAAGAGCC GAAACTGGAA GCAGCTGTGC GGATTGTCCC GGAGTGGCAG
    GACTACGACC AAGAGATCAA ACAGCTACAG ATCCGCTTTC AGAAGGAGAA AGAAACGGGA
    GCACTGTACA AAGAGAAGAC AAAAGAACCA AGCCGAGAAG GTCCTCAGAA ACGTGAAGAA
    TTATGA

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

    CloneID OHu89679
    Clone ID Related Accession (Same CDS sequence) XM_017004507.1 , XM_017004508.1
    Accession Version XM_017004508.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3726bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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
    3541
    3601
    3661
    3721
    ATGGCACCTT TAAAGGTTTG GCAGTTGCAA GATCTCAGTT TCCAGACTGC TGCTCGAATC 
    TTGGCTTCTC CTGTTGAGTT GGCTTTGGTT GTCATGAAGG ATCTTAGTCA GAATTTTCCT
    ACCAAAGCCA GAGCAATAAC AAAAACAGCT GTGAGCTCAG AACTTAGAAC CGAAGTGGAA
    GAGAATCAGA AGTATTTCAA GGGAACTTTA GGATTACAAC CTGGAGATTC AGCCCTCTTC
    ATCAATGGAC TTCACATGGA TTTAGATACA CAGGATATAT TCAGTCTGTT TGATGTGTTG
    AGGAATGAAG CTCGGGTAAT GGAGGGTCTG CATAGATTGG GAATAGAAGG CCTTTCTCTG
    CATAATGTTT TGAAGCTGAA CATCCAGCCC TCTGAGGCAG ACTATGCCGT AGACATCCGG
    AGTCCTGCTA TTTCATGGGT CAACAACCTG GAGGTTGATA GCAGATATAA TTCGTGGCCT
    TCTAGTTTAC AAGAGTTGCT TCGACCCACC TTTCCTGGTG TTATTCGGCA GATCAGGAAA
    AACTTACATA ATATGGTTTT CATAGTTGAT CCTGCACATG AGACCACAGC AGAGTTGATG
    AACACAGCTG AGATGTTCCT TAGTAATCAT ATACCACTAA GAATTGGTTT TATCTTTGTG
    GTTAATGACT CTGAAGATGT TGATGGGATG CAAGATGCTG GAGTGGCTGT TCTTAGAGCA
    TATAATTATG TTGCCCAAGA AGTGGATGAT TATCATGCCT TCCAGACTCT GACACATATC
    TATAACAAGG TGAGGACTGG AGAAAAAGTG AAAGTTGAAC ATGTGGTCAG TGTCCTGGAG
    AAGAAATATC CGTATGTAGA AGTGAATAGC ATTTTGGGGA TTGATTCTGC TTATGATCGG
    AATCGGAAGG AAGCAAGAGG CTACTATGAG CAGACTGGAG TTGGACCTCT GCCCGTTGTG
    CTGTTCAATG GAATGCCCTT TGAAAGGGAA CAGCTAGACC CTGATGAGTT AGAAACCATC
    ACAATGCATA AAATCCTGGA GACCACCACC TTCTTCCAAA GAGCGGTGTA CTTGGGTGAA
    CTGCCCCATG ATCAAGATGT GGTAGAGTAT ATCATGAATC AGCCAAATGT TGTTCCACGA
    ATCAATTCTA GGATTTTGAC AGCTGAACGA GACTACCTGG ATTTAACAGC GAGTAATAAC
    TTCTTTGTGG ATGATTATGC TAGATTTACT ATCTTGGATT CCCAAGGCAA GACTGCTGCT
    GTAGCCAATA GTATGAACTA TCTGACAAAG AAAGGAATGT CCTCCAAGGA AATCTATGAT
    GATTCTTTTA TTAGGCCAGT AACTTTTTGG ATTGTTGGGG ATTTTGATAG CCCTTCTGGA
    CGGCAGTTAC TGTATGATGC CATCAAACAT CAGAAATCCA GTAACAATGT TAGAATAAGC
    ATGATCAATA ATCCTGCCAA AGAGATAAGC TATGAGAACA CTCAGATCTC CAGAGCAATC
    TGGGCAGCTC TCCAAACTCA GACTTCCAAC GCTGCTAAGA ACTTCATCAC CAAAATGGCC
    AAGGAGGGGG CTGCAGAGGC CCTGGCTGCA GGAGCTGACA TTGCGGAGTT CTCTGTTGGG
    GGAATGGATT TCAGTCTTTT TAAAGAGGTC TTTGAGTCTT CCAAAATGGA TTTCATTTTG
    TCTCATGCCG TGTACTGCAG GGATGTTCTG AAGCTGAAGA AGGGACAGAG GGCAGTGATC
    AGCAATGGAA GGATCATTGG GCCACTGGAG GATAGTGAGC TCTTTAATCA AGACGATTTC
    CACCTCCTCG AAAATATCAT CTTAAAAACC TCAGGACAGA AAATAAAATC TCATATTCAA
    CAGCTTCGGG TAGAAGAAGA TGTGGCAAGC GACTTGGTAA TGAAGGTGGA TGCTCTTCTG
    TCAGCGCAAC CAAAAGGAGA TCCAAGAATC GAGTACCAGT TTTTTGAAGA CAGACACAGT
    GCAATCAAAC TGAGGCCGAA GGAAGGGGAG ACATACTTTG ATGTTGTGGC TGTCGTTGAC
    CCTGTCACCA GAGAAGCACA GAGACTTGCT CCTTTGCTCT TGGTTTTGGC TCAGCTGATA
    AACATGAATC TGAGAGTATT TATGAACTGC CAATCCAAAC TTTCTGACAT GCCTTTAAAA
    AGCTTTTACC GTTATGTCTT AGAACCAGAG ATTTCTTTCA CTTCAGACAA TAGTTTTGCT
    AAGGGTCCAA TCGCAAAATT TTTGGATATG CCTCAGTCTC CACTGTTCAC TCTGAATTTG
    AACACACCTG AGAGCTGGAT GGTAGAATCT GTCAGAACAC CATATGATCT TGATAATATT
    TATTTAGAAG AGGTGGACAG TGTAGTGGCT GCTGAGTATG AGCTGGAATA CCTGTTACTG
    GAAGGTCATT GCTACGACAT CACCACAGGC CAGCCTCCAC GGGGACTACA GTTTACCTTA
    GGAACTTCAG CCAACCCGGT CATTGTGGAC ACCATTGTTA TGGCCAATCT GGGCTACTTT
    CAGCTGAAAG CCAACCCAGG AGCTTGGATC CTCAGACTTA GGAAGGGACG CTCTGAAGAT
    ATTTATAGAA TTTACAGCCA CGATGGCACT GATTCTCCCC CTGATGCTGA TGAGGTGGTT
    ATCGTCCTCA ACAACTTCAA AAGCAAAATT ATTAAAGTGA AGGTTCAGAA GAAGGCAGAT
    ATGGTGAACG AAGACTTGCT GAGTGATGGA ACGAGTGAGA ATGAATCTGG ATTTTGGGAT
    TCCTTCAAAT GGGGCTTTAC AGGACAGAAG ACTGAGGAAG TGAAGCAAGA TAAAGATGAC
    ATAATTAATA TTTTCTCCGT TGCATCTGGT CATCTCTACG AAAGATTTCT TCGCATAATG
    ATGCTATCCG TGCTGAAGAA TACCAAGACT CCTGTGAAAT TCTGGTTCTT GAAGAATTAC
    TTGTCCCCCA CATTTAAGGA GTTTATACCT TACATGGCAA ATGAATACAA TTTCCAGTAT
    GAGCTTGTTC AGTACAAATG GCCCCGGTGG CTTCATCAAC AAACTGAAAA ACAGCGTATC
    ATCTGGGGTT ACAAGATCCT CTTCCTGGAT GTACTTTTCC CACTAGTTGT TGACAAGTTC
    CTGTTTGTGG ATGCTGATCA GATTGTACGA ACAGATCTGA AAGAGTTAAG AGATTTCAAT
    TTGGATGGTG CTCCTTATGG TTACACTCCT TTCTGTGACA GCCGAAGAGA AATGGACGGC
    TACAGGTTCT GGAAGTCAGG GTACTGGGCC AGTCATTTAG CCGGGCGAAA GTATCATATC
    AGTGCACTAT ATGTTGTGGA TCTGAAGAAG TTTAGGAAAA TAGCTGCTGG TGACAGACTC
    AGGGGACAGT ACCAAGGTCT GAGTCAGGAC CCTAACAGCC TTTCAAATCT TGATCAAGAT
    CTGCCCAATA ACATGATTCA TCAGGTGCCA ATTAAATCCC TCCCTCAAGA ATGGCTTTGG
    TGTGAAACGT GGTGTGATGA CGCCTCTAAG AAAAGGGCAA AAACCATTGA TTTGTGTAAT
    AATCCGATGA CCAAAGAGCC GAAACTGGAA GCAGCTGTGC GGATTGTCCC GGAGTGGCAG
    GACTACGACC AAGAGATCAA ACAGCTACAG ATCCGCTTTC AGAAGGAGAA AGAAACGGGA
    GCACTGTACA AAGAGAAGAC AAAAGAACCA AGCCGAGAAG GTCCTCAGAA ACGTGAAGAA
    TTATGA

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

    RefSeq XP_016859997.1
    CDS1135..4860
    Translation

    Target ORF information:

    RefSeq Version XM_017004508.1
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017004508.1

    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
    ATGGCACCTT TAAAGGTTTG GCAGTTGCAA GATCTCAGTT TCCAGACTGC TGCTCGAATC 
    TTGGCTTCTC CTGTTGAGTT GGCTTTGGTT GTCATGAAGG ATCTTAGTCA GAATTTTCCT
    ACCAAAGCCA GAGCAATAAC AAAAACAGCT GTGAGCTCAG AACTTAGAAC CGAAGTGGAA
    GAGAATCAGA AGTATTTCAA GGGAACTTTA GGATTACAAC CTGGAGATTC AGCCCTCTTC
    ATCAATGGAC TTCACATGGA TTTAGATACA CAGGATATAT TCAGTCTGTT TGATGTGTTG
    AGGAATGAAG CTCGGGTAAT GGAGGGTCTG CATAGATTGG GAATAGAAGG CCTTTCTCTG
    CATAATGTTT TGAAGCTGAA CATCCAGCCC TCTGAGGCAG ACTATGCCGT AGACATCCGG
    AGTCCTGCTA TTTCATGGGT CAACAACCTG GAGGTTGATA GCAGATATAA TTCGTGGCCT
    TCTAGTTTAC AAGAGTTGCT TCGACCCACC TTTCCTGGTG TTATTCGGCA GATCAGGAAA
    AACTTACATA ATATGGTTTT CATAGTTGAT CCTGCACATG AGACCACAGC AGAGTTGATG
    AACACAGCTG AGATGTTCCT TAGTAATCAT ATACCACTAA GAATTGGTTT TATCTTTGTG
    GTTAATGACT CTGAAGATGT TGATGGGATG CAAGATGCTG GAGTGGCTGT TCTTAGAGCA
    TATAATTATG TTGCCCAAGA AGTGGATGAT TATCATGCCT TCCAGACTCT GACACATATC
    TATAACAAGG TGAGGACTGG AGAAAAAGTG AAAGTTGAAC ATGTGGTCAG TGTCCTGGAG
    AAGAAATATC CGTATGTAGA AGTGAATAGC ATTTTGGGGA TTGATTCTGC TTATGATCGG
    AATCGGAAGG AAGCAAGAGG CTACTATGAG CAGACTGGAG TTGGACCTCT GCCCGTTGTG
    CTGTTCAATG GAATGCCCTT TGAAAGGGAA CAGCTAGACC CTGATGAGTT AGAAACCATC
    ACAATGCATA AAATCCTGGA GACCACCACC TTCTTCCAAA GAGCGGTGTA CTTGGGTGAA
    CTGCCCCATG ATCAAGATGT GGTAGAGTAT ATCATGAATC AGCCAAATGT TGTTCCACGA
    ATCAATTCTA GGATTTTGAC AGCTGAACGA GACTACCTGG ATTTAACAGC GAGTAATAAC
    TTCTTTGTGG ATGATTATGC TAGATTTACT ATCTTGGATT CCCAAGGCAA GACTGCTGCT
    GTAGCCAATA GTATGAACTA TCTGACAAAG AAAGGAATGT CCTCCAAGGA AATCTATGAT
    GATTCTTTTA TTAGGCCAGT AACTTTTTGG ATTGTTGGGG ATTTTGATAG CCCTTCTGGA
    CGGCAGTTAC TGTATGATGC CATCAAACAT CAGAAATCCA GTAACAATGT TAGAATAAGC
    ATGATCAATA ATCCTGCCAA AGAGATAAGC TATGAGAACA CTCAGATCTC CAGAGCAATC
    TGGGCAGCTC TCCAAACTCA GACTTCCAAC GCTGCTAAGA ACTTCATCAC CAAAATGGCC
    AAGGAGGGGG CTGCAGAGGC CCTGGCTGCA GGAGCTGACA TTGCGGAGTT CTCTGTTGGG
    GGAATGGATT TCAGTCTTTT TAAAGAGGTC TTTGAGTCTT CCAAAATGGA TTTCATTTTG
    TCTCATGCCG TGTACTGCAG GGATGTTCTG AAGCTGAAGA AGGGACAGAG GGCAGTGATC
    AGCAATGGAA GGATCATTGG GCCACTGGAG GATAGTGAGC TCTTTAATCA AGACGATTTC
    CACCTCCTCG AAAATATCAT CTTAAAAACC TCAGGACAGA AAATAAAATC TCATATTCAA
    CAGCTTCGGG TAGAAGAAGA TGTGGCAAGC GACTTGGTAA TGAAGGTGGA TGCTCTTCTG
    TCAGCGCAAC CAAAAGGAGA TCCAAGAATC GAGTACCAGT TTTTTGAAGA CAGACACAGT
    GCAATCAAAC TGAGGCCGAA GGAAGGGGAG ACATACTTTG ATGTTGTGGC TGTCGTTGAC
    CCTGTCACCA GAGAAGCACA GAGACTTGCT CCTTTGCTCT TGGTTTTGGC TCAGCTGATA
    AACATGAATC TGAGAGTATT TATGAACTGC CAATCCAAAC TTTCTGACAT GCCTTTAAAA
    AGCTTTTACC GTTATGTCTT AGAACCAGAG ATTTCTTTCA CTTCAGACAA TAGTTTTGCT
    AAGGGTCCAA TCGCAAAATT TTTGGATATG CCTCAGTCTC CACTGTTCAC TCTGAATTTG
    AACACACCTG AGAGCTGGAT GGTAGAATCT GTCAGAACAC CATATGATCT TGATAATATT
    TATTTAGAAG AGGTGGACAG TGTAGTGGCT GCTGAGTATG AGCTGGAATA CCTGTTACTG
    GAAGGTCATT GCTACGACAT CACCACAGGC CAGCCTCCAC GGGGACTACA GTTTACCTTA
    GGAACTTCAG CCAACCCGGT CATTGTGGAC ACCATTGTTA TGGCCAATCT GGGCTACTTT
    CAGCTGAAAG CCAACCCAGG AGCTTGGATC CTCAGACTTA GGAAGGGACG CTCTGAAGAT
    ATTTATAGAA TTTACAGCCA CGATGGCACT GATTCTCCCC CTGATGCTGA TGAGGTGGTT
    ATCGTCCTCA ACAACTTCAA AAGCAAAATT ATTAAAGTGA AGGTTCAGAA GAAGGCAGAT
    ATGGTGAACG AAGACTTGCT GAGTGATGGA ACGAGTGAGA ATGAATCTGG ATTTTGGGAT
    TCCTTCAAAT GGGGCTTTAC AGGACAGAAG ACTGAGGAAG TGAAGCAAGA TAAAGATGAC
    ATAATTAATA TTTTCTCCGT TGCATCTGGT CATCTCTACG AAAGATTTCT TCGCATAATG
    ATGCTATCCG TGCTGAAGAA TACCAAGACT CCTGTGAAAT TCTGGTTCTT GAAGAATTAC
    TTGTCCCCCA CATTTAAGGA GTTTATACCT TACATGGCAA ATGAATACAA TTTCCAGTAT
    GAGCTTGTTC AGTACAAATG GCCCCGGTGG CTTCATCAAC AAACTGAAAA ACAGCGTATC
    ATCTGGGGTT ACAAGATCCT CTTCCTGGAT GTACTTTTCC CACTAGTTGT TGACAAGTTC
    CTGTTTGTGG ATGCTGATCA GATTGTACGA ACAGATCTGA AAGAGTTAAG AGATTTCAAT
    TTGGATGGTG CTCCTTATGG TTACACTCCT TTCTGTGACA GCCGAAGAGA AATGGACGGC
    TACAGGTTCT GGAAGTCAGG GTACTGGGCC AGTCATTTAG CCGGGCGAAA GTATCATATC
    AGTGCACTAT ATGTTGTGGA TCTGAAGAAG TTTAGGAAAA TAGCTGCTGG TGACAGACTC
    AGGGGACAGT ACCAAGGTCT GAGTCAGGAC CCTAACAGCC TTTCAAATCT TGATCAAGAT
    CTGCCCAATA ACATGATTCA TCAGGTGCCA ATTAAATCCC TCCCTCAAGA ATGGCTTTGG
    TGTGAAACGT GGTGTGATGA CGCCTCTAAG AAAAGGGCAA AAACCATTGA TTTGTGTAAT
    AATCCGATGA CCAAAGAGCC GAAACTGGAA GCAGCTGTGC GGATTGTCCC GGAGTGGCAG
    GACTACGACC AAGAGATCAA ACAGCTACAG ATCCGCTTTC AGAAGGAGAA AGAAACGGGA
    GCACTGTACA AAGAGAAGAC AAAAGAACCA AGCCGAGAAG GTCCTCAGAA ACGTGAAGAA
    TTATGA

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

    CloneID OHu89680
    Clone ID Related Accession (Same CDS sequence) XM_017004509.1
    Accession Version XM_017004509.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3105bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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
    ATGGAAGGGA ATTTTCCTAG AATTGGTTTT ATCTTTGTGG TTAATGACTC TGAAGATGTT 
    GATGGGATGC AAGATGCTGG AGTGGCTGTT CTTAGAGCAT ATAATTATGT TGCCCAAGAA
    GTGGATGATT ATCATGCCTT CCAGACTCTG ACACATATCT ATAACAAGGT GAGGACTGGA
    GAAAAAGTGA AAGTTGAACA TGTGGTCAGT GTCCTGGAGA AGAAATATCC GTATGTAGAA
    GTGAATAGCA TTTTGGGGAT TGATTCTGCT TATGATCGGA ATCGGAAGGA AGCAAGAGGC
    TACTATGAGC AGACTGGAGT TGGACCTCTG CCCGTTGTGC TGTTCAATGG AATGCCCTTT
    GAAAGGGAAC AGCTAGACCC TGATGAGTTA GAAACCATCA CAATGCATAA AATCCTGGAG
    ACCACCACCT TCTTCCAAAG AGCGGTGTAC TTGGGTGAAC TGCCCCATGA TCAAGATGTG
    GTAGAGTATA TCATGAATCA GCCAAATGTT GTTCCACGAA TCAATTCTAG GATTTTGACA
    GCTGAACGAG ACTACCTGGA TTTAACAGCG AGTAATAACT TCTTTGTGGA TGATTATGCT
    AGATTTACTA TCTTGGATTC CCAAGGCAAG ACTGCTGCTG TAGCCAATAG TATGAACTAT
    CTGACAAAGA AAGGAATGTC CTCCAAGGAA ATCTATGATG ATTCTTTTAT TAGGCCAGTA
    ACTTTTTGGA TTGTTGGGGA TTTTGATAGC CCTTCTGGAC GGCAGTTACT GTATGATGCC
    ATCAAACATC AGAAATCCAG TAACAATGTT AGAATAAGCA TGATCAATAA TCCTGCCAAA
    GAGATAAGCT ATGAGAACAC TCAGATCTCC AGAGCAATCT GGGCAGCTCT CCAAACTCAG
    ACTTCCAACG CTGCTAAGAA CTTCATCACC AAAATGGCCA AGGAGGGGGC TGCAGAGGCC
    CTGGCTGCAG GAGCTGACAT TGCGGAGTTC TCTGTTGGGG GAATGGATTT CAGTCTTTTT
    AAAGAGGTCT TTGAGTCTTC CAAAATGGAT TTCATTTTGT CTCATGCCGT GTACTGCAGG
    GATGTTCTGA AGCTGAAGAA GGGACAGAGG GCAGTGATCA GCAATGGAAG GATCATTGGG
    CCACTGGAGG ATAGTGAGCT CTTTAATCAA GACGATTTCC ACCTCCTCGA AAATATCATC
    TTAAAAACCT CAGGACAGAA AATAAAATCT CATATTCAAC AGCTTCGGGT AGAAGAAGAT
    GTGGCAAGCG ACTTGGTAAT GAAGGTGGAT GCTCTTCTGT CAGCGCAACC AAAAGGAGAT
    CCAAGAATCG AGTACCAGTT TTTTGAAGAC AGACACAGTG CAATCAAACT GAGGCCGAAG
    GAAGGGGAGA CATACTTTGA TGTTGTGGCT GTCGTTGACC CTGTCACCAG AGAAGCACAG
    AGACTTGCTC CTTTGCTCTT GGTTTTGGCT CAGCTGATAA ACATGAATCT GAGAGTATTT
    ATGAACTGCC AATCCAAACT TTCTGACATG CCTTTAAAAA GCTTTTACCG TTATGTCTTA
    GAACCAGAGA TTTCTTTCAC TTCAGACAAT AGTTTTGCTA AGGGTCCAAT CGCAAAATTT
    TTGGATATGC CTCAGTCTCC ACTGTTCACT CTGAATTTGA ACACACCTGA GAGCTGGATG
    GTAGAATCTG TCAGAACACC ATATGATCTT GATAATATTT ATTTAGAAGA GGTGGACAGT
    GTAGTGGCTG CTGAGTATGA GCTGGAATAC CTGTTACTGG AAGGTCATTG CTACGACATC
    ACCACAGGCC AGCCTCCACG GGGACTACAG TTTACCTTAG GAACTTCAGC CAACCCGGTC
    ATTGTGGACA CCATTGTTAT GGCCAATCTG GGCTACTTTC AGCTGAAAGC CAACCCAGGA
    GCTTGGATCC TCAGACTTAG GAAGGGACGC TCTGAAGATA TTTATAGAAT TTACAGCCAC
    GATGGCACTG ATTCTCCCCC TGATGCTGAT GAGGTGGTTA TCGTCCTCAA CAACTTCAAA
    AGCAAAATTA TTAAAGTGAA GGTTCAGAAG AAGGCAGATA TGGTGAACGA AGACTTGCTG
    AGTGATGGAA CGAGTGAGAA TGAATCTGGA TTTTGGGATT CCTTCAAATG GGGCTTTACA
    GGACAGAAGA CTGAGGAAGT GAAGCAAGAT AAAGATGACA TAATTAATAT TTTCTCCGTT
    GCATCTGGTC ATCTCTACGA AAGATTTCTT CGCATAATGA TGCTATCCGT GCTGAAGAAT
    ACCAAGACTC CTGTGAAATT CTGGTTCTTG AAGAATTACT TGTCCCCCAC ATTTAAGGAG
    TTTATACCTT ACATGGCAAA TGAATACAAT TTCCAGTATG AGCTTGTTCA GTACAAATGG
    CCCCGGTGGC TTCATCAACA AACTGAAAAA CAGCGTATCA TCTGGGGTTA CAAGATCCTC
    TTCCTGGATG TACTTTTCCC ACTAGTTGTT GACAAGTTCC TGTTTGTGGA TGCTGATCAG
    ATTGTACGAA CAGATCTGAA AGAGTTAAGA GATTTCAATT TGGATGGTGC TCCTTATGGT
    TACACTCCTT TCTGTGACAG CCGAAGAGAA ATGGACGGCT ACAGGTTCTG GAAGTCAGGG
    TACTGGGCCA GTCATTTAGC CGGGCGAAAG TATCATATCA GTGCACTATA TGTTGTGGAT
    CTGAAGAAGT TTAGGAAAAT AGCTGCTGGT GACAGACTCA GGGGACAGTA CCAAGGTCTG
    AGTCAGGACC CTAACAGCCT TTCAAATCTT GATCAAGATC TGCCCAATAA CATGATTCAT
    CAGGTGCCAA TTAAATCCCT CCCTCAAGAA TGGCTTTGGT GTGAAACGTG GTGTGATGAC
    GCCTCTAAGA AAAGGGCAAA AACCATTGAT TTGTGTAATA ATCCGATGAC CAAAGAGCCG
    AAACTGGAAG CAGCTGTGCG GATTGTCCCG GAGTGGCAGG ACTACGACCA AGAGATCAAA
    CAGCTACAGA TCCGCTTTCA GAAGGAGAAA GAAACGGGAG CACTGTACAA AGAGAAGACA
    AAAGAACCAA GCCGAGAAGG TCCTCAGAAA CGTGAAGAAT TATGA

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

    RefSeq XP_016859998.1
    CDS47..3151
    Translation

    Target ORF information:

    RefSeq Version XM_017004509.1
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017004509.1

    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
    ATGGAAGGGA ATTTTCCTAG AATTGGTTTT ATCTTTGTGG TTAATGACTC TGAAGATGTT 
    GATGGGATGC AAGATGCTGG AGTGGCTGTT CTTAGAGCAT ATAATTATGT TGCCCAAGAA
    GTGGATGATT ATCATGCCTT CCAGACTCTG ACACATATCT ATAACAAGGT GAGGACTGGA
    GAAAAAGTGA AAGTTGAACA TGTGGTCAGT GTCCTGGAGA AGAAATATCC GTATGTAGAA
    GTGAATAGCA TTTTGGGGAT TGATTCTGCT TATGATCGGA ATCGGAAGGA AGCAAGAGGC
    TACTATGAGC AGACTGGAGT TGGACCTCTG CCCGTTGTGC TGTTCAATGG AATGCCCTTT
    GAAAGGGAAC AGCTAGACCC TGATGAGTTA GAAACCATCA CAATGCATAA AATCCTGGAG
    ACCACCACCT TCTTCCAAAG AGCGGTGTAC TTGGGTGAAC TGCCCCATGA TCAAGATGTG
    GTAGAGTATA TCATGAATCA GCCAAATGTT GTTCCACGAA TCAATTCTAG GATTTTGACA
    GCTGAACGAG ACTACCTGGA TTTAACAGCG AGTAATAACT TCTTTGTGGA TGATTATGCT
    AGATTTACTA TCTTGGATTC CCAAGGCAAG ACTGCTGCTG TAGCCAATAG TATGAACTAT
    CTGACAAAGA AAGGAATGTC CTCCAAGGAA ATCTATGATG ATTCTTTTAT TAGGCCAGTA
    ACTTTTTGGA TTGTTGGGGA TTTTGATAGC CCTTCTGGAC GGCAGTTACT GTATGATGCC
    ATCAAACATC AGAAATCCAG TAACAATGTT AGAATAAGCA TGATCAATAA TCCTGCCAAA
    GAGATAAGCT ATGAGAACAC TCAGATCTCC AGAGCAATCT GGGCAGCTCT CCAAACTCAG
    ACTTCCAACG CTGCTAAGAA CTTCATCACC AAAATGGCCA AGGAGGGGGC TGCAGAGGCC
    CTGGCTGCAG GAGCTGACAT TGCGGAGTTC TCTGTTGGGG GAATGGATTT CAGTCTTTTT
    AAAGAGGTCT TTGAGTCTTC CAAAATGGAT TTCATTTTGT CTCATGCCGT GTACTGCAGG
    GATGTTCTGA AGCTGAAGAA GGGACAGAGG GCAGTGATCA GCAATGGAAG GATCATTGGG
    CCACTGGAGG ATAGTGAGCT CTTTAATCAA GACGATTTCC ACCTCCTCGA AAATATCATC
    TTAAAAACCT CAGGACAGAA AATAAAATCT CATATTCAAC AGCTTCGGGT AGAAGAAGAT
    GTGGCAAGCG ACTTGGTAAT GAAGGTGGAT GCTCTTCTGT CAGCGCAACC AAAAGGAGAT
    CCAAGAATCG AGTACCAGTT TTTTGAAGAC AGACACAGTG CAATCAAACT GAGGCCGAAG
    GAAGGGGAGA CATACTTTGA TGTTGTGGCT GTCGTTGACC CTGTCACCAG AGAAGCACAG
    AGACTTGCTC CTTTGCTCTT GGTTTTGGCT CAGCTGATAA ACATGAATCT GAGAGTATTT
    ATGAACTGCC AATCCAAACT TTCTGACATG CCTTTAAAAA GCTTTTACCG TTATGTCTTA
    GAACCAGAGA TTTCTTTCAC TTCAGACAAT AGTTTTGCTA AGGGTCCAAT CGCAAAATTT
    TTGGATATGC CTCAGTCTCC ACTGTTCACT CTGAATTTGA ACACACCTGA GAGCTGGATG
    GTAGAATCTG TCAGAACACC ATATGATCTT GATAATATTT ATTTAGAAGA GGTGGACAGT
    GTAGTGGCTG CTGAGTATGA GCTGGAATAC CTGTTACTGG AAGGTCATTG CTACGACATC
    ACCACAGGCC AGCCTCCACG GGGACTACAG TTTACCTTAG GAACTTCAGC CAACCCGGTC
    ATTGTGGACA CCATTGTTAT GGCCAATCTG GGCTACTTTC AGCTGAAAGC CAACCCAGGA
    GCTTGGATCC TCAGACTTAG GAAGGGACGC TCTGAAGATA TTTATAGAAT TTACAGCCAC
    GATGGCACTG ATTCTCCCCC TGATGCTGAT GAGGTGGTTA TCGTCCTCAA CAACTTCAAA
    AGCAAAATTA TTAAAGTGAA GGTTCAGAAG AAGGCAGATA TGGTGAACGA AGACTTGCTG
    AGTGATGGAA CGAGTGAGAA TGAATCTGGA TTTTGGGATT CCTTCAAATG GGGCTTTACA
    GGACAGAAGA CTGAGGAAGT GAAGCAAGAT AAAGATGACA TAATTAATAT TTTCTCCGTT
    GCATCTGGTC ATCTCTACGA AAGATTTCTT CGCATAATGA TGCTATCCGT GCTGAAGAAT
    ACCAAGACTC CTGTGAAATT CTGGTTCTTG AAGAATTACT TGTCCCCCAC ATTTAAGGAG
    TTTATACCTT ACATGGCAAA TGAATACAAT TTCCAGTATG AGCTTGTTCA GTACAAATGG
    CCCCGGTGGC TTCATCAACA AACTGAAAAA CAGCGTATCA TCTGGGGTTA CAAGATCCTC
    TTCCTGGATG TACTTTTCCC ACTAGTTGTT GACAAGTTCC TGTTTGTGGA TGCTGATCAG
    ATTGTACGAA CAGATCTGAA AGAGTTAAGA GATTTCAATT TGGATGGTGC TCCTTATGGT
    TACACTCCTT TCTGTGACAG CCGAAGAGAA ATGGACGGCT ACAGGTTCTG GAAGTCAGGG
    TACTGGGCCA GTCATTTAGC CGGGCGAAAG TATCATATCA GTGCACTATA TGTTGTGGAT
    CTGAAGAAGT TTAGGAAAAT AGCTGCTGGT GACAGACTCA GGGGACAGTA CCAAGGTCTG
    AGTCAGGACC CTAACAGCCT TTCAAATCTT GATCAAGATC TGCCCAATAA CATGATTCAT
    CAGGTGCCAA TTAAATCCCT CCCTCAAGAA TGGCTTTGGT GTGAAACGTG GTGTGATGAC
    GCCTCTAAGA AAAGGGCAAA AACCATTGAT TTGTGTAATA ATCCGATGAC CAAAGAGCCG
    AAACTGGAAG CAGCTGTGCG GATTGTCCCG GAGTGGCAGG ACTACGACCA AGAGATCAAA
    CAGCTACAGA TCCGCTTTCA GAAGGAGAAA GAAACGGGAG CACTGTACAA AGAGAAGACA
    AAAGAACCAA GCCGAGAAGG TCCTCAGAAA CGTGAAGAAT TATGA

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

    CloneID OHu36439
    Clone ID Related Accession (Same CDS sequence) XM_006712634.3
    Accession Version XM_006712634.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4650bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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_006712634.2. ##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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GAGTTTGCTA TAAAATGGGA 
    GTTCTGGTTG TACTCACTGT TCTGTGGCTG TTCTCCTCAG TAAAGGCCGA CTCAAAAGCC
    ATTACAACCT CTCTTACAAC AAAATGGTTT TCCACTCCAT TGTTGTTAGA AGCCAGTGAG
    TTTTTAGCAG AAGACAGTCA AGAGAAATTT TGGAATTTTG TAGAAGCCAG TCAAAATATT
    GGATCATCAG ATCATGACGG TACCGATTAT TCCTACTATC ATGCAATATT GGAGGCTGCA
    TTTCAGTTTC TGTCACCCCT CCAGCAGAAT TTGTTTAAAT TTTGTCTGTC CCTTCGTTCT
    TACTCAGCTA CAATCCAAGC CTTCCAGCAG ATAGCAGCTG ATGAACCTCC ACCAGAAGGA
    TGTAATTCGT TTTTTTCAGT GCATGGAAAG AAGACTTGTG AATCTGATAC CCTTGAGGCT
    CTTCTACTGA CAGCCTCTGA AAGACCCAAA CCTTTATTGT TCAAAGGAGA TCACAGATAT
    CCCTCGTCTA ATCCTGAAAG CCCTGTGGTG ATTTTCTACT CTGAGATTGG CTCTGAGGAA
    TTTTCCAATT TTCACCGCCA GCTTATATCA AAAAGCAATG CAGGCAAAAT CAATTATGTA
    TTCAGACATT ATATATTTAA TCCCAGGAAG GAGCCTGTTT ACCTCTCTGG CTATGGCGTG
    GAATTGGCCA TTAAGAGCAC TGAGTACAAG GCCAAGGATG ATACTCAGGT GAAAGGAACT
    GAGGTAAACA CCACAGTGAT TGGTGAAAAT GATCCTATTG ATGAGGTTCA GGGGTTCCTC
    TTTGGAAAAT TAAGAGATCT GCACCCCGAC CTGGAGGGAC AGTTGAAAGA ACTCAGAAAG
    CATCTTGTAG AGAGCACCAA TGAAATGGCA CCTTTAAAGG TTTGGCAGTT GCAAGATCTC
    AGTTTCCAGA CTGCTGCTCG AATCTTGGCT TCTCCTGTTG AGTTGGCTTT GGTTGTCATG
    AAGGATCTTA GTCAGAATTT TCCTACCAAA GCCAGAGCAA TAACAAAAAC AGCTGTGAGC
    TCAGAACTTA GAACCGAAGT GGAAGAGAAT CAGAAGTATT TCAAGGGAAC TTTAGGATTA
    CAACCTGGAG ATTCAGCCCT CTTCATCAAT GGACTTCACA TGGATTTAGA TACACAGGAT
    ATATTCAGTC TGTTTGATGT GTTGAGGAAT GAAGCTCGGG TAATGGAGGG TCTGCATAGA
    TTGGGAATAG AAGGCCTTTC TCTGCATAAT GTTTTGAAGC TGAACATCCA GCCCTCTGAG
    GCAGACTATG CCGTAGACAT CCGGAGTCCT GCTATTTCAT GGGTCAACAA CCTGGAGGTT
    GATAGCAGAT ATAATTCGTG GCCTTCTAGT TTACAAGAGT TGCTTCGACC CACCTTTCCT
    GGTGTTATTC GGCAGATCAG GAAAAACTTA CATAATATGG TTTTCATAGT TGATCCTGCA
    CATGAGACCA CAGCAGAGTT GATGAACACA GCTGAGATGT TCCTTAGTAA TCATATACCA
    CTAAGAATTG GTTTTATCTT TGTGGTTAAT GACTCTGAAG ATGTTGATGG GATGCAAGAT
    GCTGGAGTGG CTGTTCTTAG AGCATATAAT TATGTTGCCC AAGAAGTGGA TGATTATCAT
    GCCTTCCAGA CTCTGACACA TATCTATAAC AAGGTGAGGA CTGGAGAAAA AGTGAAAGTT
    GAACATGTGG TCAGTGTCCT GGAGAAGAAA TATCCGTATG TAGAAGTGAA TAGCATTTTG
    GGGATTGATT CTGCTTATGA TCGGAATCGG AAGGAAGCAA GAGGCTACTA TGAGCAGACT
    GGAGTTGGAC CTCTGCCCGT TGTGCTGTTC AATGGAATGC CCTTTGAAAG GGAACAGCTA
    GACCCTGATG AGTTAGAAAC CATCACAATG CATAAAATCC TGGAGACCAC CACCTTCTTC
    CAAAGAGCGG TGTACTTGGG TGAACTGCCC CATGATCAAG ATGTGGTAGA GTATATCATG
    AATCAGCCAA ATGTTGTTCC ACGAATCAAT TCTAGGATTT TGACAGCTGA ACGAGACTAC
    CTGGATTTAA CAGCGAGTAA TAACTTCTTT GTGGATGATT ATGCTAGATT TACTATCTTG
    GATTCCCAAG GCAAGACTGC TGCTGTAGCC AATAGTATGA ACTATCTGAC AAAGAAAGGA
    ATGTCCTCCA AGGAAATCTA TGATGATTCT TTTATTAGGC CAGTAACTTT TTGGATTGTT
    GGGGATTTTG ATAGCCCTTC TGGACGGCAG TTACTGTATG ATGCCATCAA ACATCAGAAA
    TCCAGTAACA ATGTTAGAAT AAGCATGATC AATAATCCTG CCAAAGAGAT AAGCTATGAG
    AACACTCAGA TCTCCAGAGC AATCTGGGCA GCTCTCCAAA CTCAGACTTC CAACGCTGCT
    AAGAACTTCA TCACCAAAAT GGCCAAGGAG GGGGCTGCAG AGGCCCTGGC TGCAGGAGCT
    GACATTGCGG AGTTCTCTGT TGGGGGAATG GATTTCAGTC TTTTTAAAGA GGTCTTTGAG
    TCTTCCAAAA TGGATTTCAT TTTGTCTCAT GCCGTGTACT GCAGGGATGT TCTGAAGCTG
    AAGAAGGGAC AGAGGGCAGT GATCAGCAAT GGAAGGATCA TTGGGCCACT GGAGGATAGT
    GAGCTCTTTA ATCAAGACGA TTTCCACCTC CTCGAAAATA TCATCTTAAA AACCTCAGGA
    CAGAAAATAA AATCTCATAT TCAACAGCTT CGGGTAGAAG AAGATGTGGC AAGCGACTTG
    GTAATGAAGG TGGATGCTCT TCTGTCAGCG CAACCAAAAG GAGATCCAAG AATCGAGTAC
    CAGTTTTTTG AAGACAGACA CAGTGCAATC AAACTGAGGC CGAAGGAAGG GGAGACATAC
    TTTGATGTTG TGGCTGTCGT TGACCCTGTC ACCAGAGAAG CACAGAGACT TGCTCCTTTG
    CTCTTGGTTT TGGCTCAGCT GATAAACATG AATCTGAGAG TATTTATGAA CTGCCAATCC
    AAACTTTCTG ACATGCCTTT AAAAAGCTTT TACCGTTATG TCTTAGAACC AGAGATTTCT
    TTCACTTCAG ACAATAGTTT TGCTAAGGGT CCAATCGCAA AATTTTTGGA TATGCCTCAG
    TCTCCACTGT TCACTCTGAA TTTGAACACA CCTGAGAGCT GGATGGTAGA ATCTGTCAGA
    ACACCATATG ATCTTGATAA TATTTATTTA GAAGAGGTGG ACAGTGTAGT GGCTGCTGAG
    TATGAGCTGG AATACCTGTT ACTGGAAGGT CATTGCTACG ACATCACCAC AGGCCAGCCT
    CCACGGGGAC TACAGTTTAC CTTAGGAACT TCAGCCAACC CGGTCATTGT GGACACCATT
    GTTATGGCCA ATCTGGGCTA CTTTCAGCTG AAAGCCAACC CAGGAGCTTG GATCCTCAGA
    CTTAGGAAGG GACGCTCTGA AGATATTTAT AGAATTTACA GCCACGATGG CACTGATTCT
    CCCCCTGATG CTGATGAGGT GGTTATCGTC CTCAACAACT TCAAAAGCAA AATTATTAAA
    GTGAAGGTTC AGAAGAAGGC AGATATGGTG AACGAAGACT TGCTGAGTGA TGGAACGAGT
    GAGAATGAAT CTGGATTTTG GGATTCCTTC AAATGGGGCT TTACAGGACA GAAGACTGAG
    GAAGTGAAGC AAGATAAAGA TGACATAATT AATATTTTCT CCGTTGCATC TGGTCATCTC
    TACGAAAGAT TTCTTCGCAT AATGATGCTA TCCGTGCTGA AGAATACCAA GACTCCTGTG
    AAATTCTGGT TCTTGAAGAA TTACTTGTCC CCCACATTTA AGGAGTTTAT ACCTTACATG
    GCAAATGAAT ACAATTTCCA GTATGAGCTT GTTCAGTACA AATGGCCCCG GTGGCTTCAT
    CAACAAACTG AAAAACAGCG TATCATCTGG GGTTACAAGA TCCTCTTCCT GGATGTACTT
    TTCCCACTAG TTGTTGACAA GTTCCTGTTT GTGGATGCTG ATCAGATTGT ACGAACAGAT
    CTGAAAGAGT TAAGAGATTT CAATTTGGAT GGTGCTCCTT ATGGTTACAC TCCTTTCTGT
    GACAGCCGAA GAGAAATGGA CGGCTACAGG TTCTGGAAGT CAGGGTACTG GGCCAGTCAT
    TTAGCCGGGC GAAAGTATCA TATCAGTGCA CTATATGTTG TGGATCTGAA GAAGTTTAGG
    AAAATAGCTG CTGGTGACAG ACTCAGGGGA CAGTACCAAG GTCTGAGTCA GGACCCTAAC
    AGCCTTTCAA ATCTTGATCA AGATCTGCCC AATAACATGA TTCATCAGGT GCCAATTAAA
    TCCCTCCCTC AAGAATGGCT TTGGTGTGAA ACGTGGTGTG ATGACGCCTC TAAGAAAAGG
    GCAAAAACCA TTGATTTGTG TAATAATCCG ATGACCAAAG AGCCGAAACT GGAAGCAGCT
    GTGCGGATTG TCCCGGAGTG GCAGGACTAC GACCAAGAGA TCAAACAGCT ACAGATCCGC
    TTTCAGAAGG AGAAAGAAAC GGGAGCACTG TACAAAGAGA AGACAAAAGA ACCAAGCCGA
    GAAGGTCCTC AGAAACGTGA AGAATTATGA

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

    RefSeq XP_006712697.1
    CDS171..4820
    Translation

    Target ORF information:

    RefSeq Version XM_006712634.3
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006712634.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GAGTTTGCTA TAAAATGGGA 
    GTTCTGGTTG TACTCACTGT TCTGTGGCTG TTCTCCTCAG TAAAGGCCGA CTCAAAAGCC
    ATTACAACCT CTCTTACAAC AAAATGGTTT TCCACTCCAT TGTTGTTAGA AGCCAGTGAG
    TTTTTAGCAG AAGACAGTCA AGAGAAATTT TGGAATTTTG TAGAAGCCAG TCAAAATATT
    GGATCATCAG ATCATGACGG TACCGATTAT TCCTACTATC ATGCAATATT GGAGGCTGCA
    TTTCAGTTTC TGTCACCCCT CCAGCAGAAT TTGTTTAAAT TTTGTCTGTC CCTTCGTTCT
    TACTCAGCTA CAATCCAAGC CTTCCAGCAG ATAGCAGCTG ATGAACCTCC ACCAGAAGGA
    TGTAATTCGT TTTTTTCAGT GCATGGAAAG AAGACTTGTG AATCTGATAC CCTTGAGGCT
    CTTCTACTGA CAGCCTCTGA AAGACCCAAA CCTTTATTGT TCAAAGGAGA TCACAGATAT
    CCCTCGTCTA ATCCTGAAAG CCCTGTGGTG ATTTTCTACT CTGAGATTGG CTCTGAGGAA
    TTTTCCAATT TTCACCGCCA GCTTATATCA AAAAGCAATG CAGGCAAAAT CAATTATGTA
    TTCAGACATT ATATATTTAA TCCCAGGAAG GAGCCTGTTT ACCTCTCTGG CTATGGCGTG
    GAATTGGCCA TTAAGAGCAC TGAGTACAAG GCCAAGGATG ATACTCAGGT GAAAGGAACT
    GAGGTAAACA CCACAGTGAT TGGTGAAAAT GATCCTATTG ATGAGGTTCA GGGGTTCCTC
    TTTGGAAAAT TAAGAGATCT GCACCCCGAC CTGGAGGGAC AGTTGAAAGA ACTCAGAAAG
    CATCTTGTAG AGAGCACCAA TGAAATGGCA CCTTTAAAGG TTTGGCAGTT GCAAGATCTC
    AGTTTCCAGA CTGCTGCTCG AATCTTGGCT TCTCCTGTTG AGTTGGCTTT GGTTGTCATG
    AAGGATCTTA GTCAGAATTT TCCTACCAAA GCCAGAGCAA TAACAAAAAC AGCTGTGAGC
    TCAGAACTTA GAACCGAAGT GGAAGAGAAT CAGAAGTATT TCAAGGGAAC TTTAGGATTA
    CAACCTGGAG ATTCAGCCCT CTTCATCAAT GGACTTCACA TGGATTTAGA TACACAGGAT
    ATATTCAGTC TGTTTGATGT GTTGAGGAAT GAAGCTCGGG TAATGGAGGG TCTGCATAGA
    TTGGGAATAG AAGGCCTTTC TCTGCATAAT GTTTTGAAGC TGAACATCCA GCCCTCTGAG
    GCAGACTATG CCGTAGACAT CCGGAGTCCT GCTATTTCAT GGGTCAACAA CCTGGAGGTT
    GATAGCAGAT ATAATTCGTG GCCTTCTAGT TTACAAGAGT TGCTTCGACC CACCTTTCCT
    GGTGTTATTC GGCAGATCAG GAAAAACTTA CATAATATGG TTTTCATAGT TGATCCTGCA
    CATGAGACCA CAGCAGAGTT GATGAACACA GCTGAGATGT TCCTTAGTAA TCATATACCA
    CTAAGAATTG GTTTTATCTT TGTGGTTAAT GACTCTGAAG ATGTTGATGG GATGCAAGAT
    GCTGGAGTGG CTGTTCTTAG AGCATATAAT TATGTTGCCC AAGAAGTGGA TGATTATCAT
    GCCTTCCAGA CTCTGACACA TATCTATAAC AAGGTGAGGA CTGGAGAAAA AGTGAAAGTT
    GAACATGTGG TCAGTGTCCT GGAGAAGAAA TATCCGTATG TAGAAGTGAA TAGCATTTTG
    GGGATTGATT CTGCTTATGA TCGGAATCGG AAGGAAGCAA GAGGCTACTA TGAGCAGACT
    GGAGTTGGAC CTCTGCCCGT TGTGCTGTTC AATGGAATGC CCTTTGAAAG GGAACAGCTA
    GACCCTGATG AGTTAGAAAC CATCACAATG CATAAAATCC TGGAGACCAC CACCTTCTTC
    CAAAGAGCGG TGTACTTGGG TGAACTGCCC CATGATCAAG ATGTGGTAGA GTATATCATG
    AATCAGCCAA ATGTTGTTCC ACGAATCAAT TCTAGGATTT TGACAGCTGA ACGAGACTAC
    CTGGATTTAA CAGCGAGTAA TAACTTCTTT GTGGATGATT ATGCTAGATT TACTATCTTG
    GATTCCCAAG GCAAGACTGC TGCTGTAGCC AATAGTATGA ACTATCTGAC AAAGAAAGGA
    ATGTCCTCCA AGGAAATCTA TGATGATTCT TTTATTAGGC CAGTAACTTT TTGGATTGTT
    GGGGATTTTG ATAGCCCTTC TGGACGGCAG TTACTGTATG ATGCCATCAA ACATCAGAAA
    TCCAGTAACA ATGTTAGAAT AAGCATGATC AATAATCCTG CCAAAGAGAT AAGCTATGAG
    AACACTCAGA TCTCCAGAGC AATCTGGGCA GCTCTCCAAA CTCAGACTTC CAACGCTGCT
    AAGAACTTCA TCACCAAAAT GGCCAAGGAG GGGGCTGCAG AGGCCCTGGC TGCAGGAGCT
    GACATTGCGG AGTTCTCTGT TGGGGGAATG GATTTCAGTC TTTTTAAAGA GGTCTTTGAG
    TCTTCCAAAA TGGATTTCAT TTTGTCTCAT GCCGTGTACT GCAGGGATGT TCTGAAGCTG
    AAGAAGGGAC AGAGGGCAGT GATCAGCAAT GGAAGGATCA TTGGGCCACT GGAGGATAGT
    GAGCTCTTTA ATCAAGACGA TTTCCACCTC CTCGAAAATA TCATCTTAAA AACCTCAGGA
    CAGAAAATAA AATCTCATAT TCAACAGCTT CGGGTAGAAG AAGATGTGGC AAGCGACTTG
    GTAATGAAGG TGGATGCTCT TCTGTCAGCG CAACCAAAAG GAGATCCAAG AATCGAGTAC
    CAGTTTTTTG AAGACAGACA CAGTGCAATC AAACTGAGGC CGAAGGAAGG GGAGACATAC
    TTTGATGTTG TGGCTGTCGT TGACCCTGTC ACCAGAGAAG CACAGAGACT TGCTCCTTTG
    CTCTTGGTTT TGGCTCAGCT GATAAACATG AATCTGAGAG TATTTATGAA CTGCCAATCC
    AAACTTTCTG ACATGCCTTT AAAAAGCTTT TACCGTTATG TCTTAGAACC AGAGATTTCT
    TTCACTTCAG ACAATAGTTT TGCTAAGGGT CCAATCGCAA AATTTTTGGA TATGCCTCAG
    TCTCCACTGT TCACTCTGAA TTTGAACACA CCTGAGAGCT GGATGGTAGA ATCTGTCAGA
    ACACCATATG ATCTTGATAA TATTTATTTA GAAGAGGTGG ACAGTGTAGT GGCTGCTGAG
    TATGAGCTGG AATACCTGTT ACTGGAAGGT CATTGCTACG ACATCACCAC AGGCCAGCCT
    CCACGGGGAC TACAGTTTAC CTTAGGAACT TCAGCCAACC CGGTCATTGT GGACACCATT
    GTTATGGCCA ATCTGGGCTA CTTTCAGCTG AAAGCCAACC CAGGAGCTTG GATCCTCAGA
    CTTAGGAAGG GACGCTCTGA AGATATTTAT AGAATTTACA GCCACGATGG CACTGATTCT
    CCCCCTGATG CTGATGAGGT GGTTATCGTC CTCAACAACT TCAAAAGCAA AATTATTAAA
    GTGAAGGTTC AGAAGAAGGC AGATATGGTG AACGAAGACT TGCTGAGTGA TGGAACGAGT
    GAGAATGAAT CTGGATTTTG GGATTCCTTC AAATGGGGCT TTACAGGACA GAAGACTGAG
    GAAGTGAAGC AAGATAAAGA TGACATAATT AATATTTTCT CCGTTGCATC TGGTCATCTC
    TACGAAAGAT TTCTTCGCAT AATGATGCTA TCCGTGCTGA AGAATACCAA GACTCCTGTG
    AAATTCTGGT TCTTGAAGAA TTACTTGTCC CCCACATTTA AGGAGTTTAT ACCTTACATG
    GCAAATGAAT ACAATTTCCA GTATGAGCTT GTTCAGTACA AATGGCCCCG GTGGCTTCAT
    CAACAAACTG AAAAACAGCG TATCATCTGG GGTTACAAGA TCCTCTTCCT GGATGTACTT
    TTCCCACTAG TTGTTGACAA GTTCCTGTTT GTGGATGCTG ATCAGATTGT ACGAACAGAT
    CTGAAAGAGT TAAGAGATTT CAATTTGGAT GGTGCTCCTT ATGGTTACAC TCCTTTCTGT
    GACAGCCGAA GAGAAATGGA CGGCTACAGG TTCTGGAAGT CAGGGTACTG GGCCAGTCAT
    TTAGCCGGGC GAAAGTATCA TATCAGTGCA CTATATGTTG TGGATCTGAA GAAGTTTAGG
    AAAATAGCTG CTGGTGACAG ACTCAGGGGA CAGTACCAAG GTCTGAGTCA GGACCCTAAC
    AGCCTTTCAA ATCTTGATCA AGATCTGCCC AATAACATGA TTCATCAGGT GCCAATTAAA
    TCCCTCCCTC AAGAATGGCT TTGGTGTGAA ACGTGGTGTG ATGACGCCTC TAAGAAAAGG
    GCAAAAACCA TTGATTTGTG TAATAATCCG ATGACCAAAG AGCCGAAACT GGAAGCAGCT
    GTGCGGATTG TCCCGGAGTG GCAGGACTAC GACCAAGAGA TCAAACAGCT ACAGATCCGC
    TTTCAGAAGG AGAAAGAAAC GGGAGCACTG TACAAAGAGA AGACAAAAGA ACCAAGCCGA
    GAAGGTCCTC AGAAACGTGA AGAATTATGA

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

    CloneID OHu36440
    Clone ID Related Accession (Same CDS sequence) XM_006712635.4 , XM_006712635.3
    Accession Version XM_006712635.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4644bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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_006712635.3. ##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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGATGA TTCTTTTATT AGGCCAGTAA CTTTTTGGAT TGTTGGGGAT
    TTTGATAGCC CTTCTGGACG GCAGTTACTG TATGATGCCA TCAAACATCA GAAATCCAGT
    AACAATGTTA GAATAAGCAT GATCAATAAT CCTGCCAAAG AGATAAGCTA TGAGAACACT
    CAGATCTCCA GAGCAATCTG GGCAGCTCTC CAAACTCAGA CTTCCAACGC TGCTAAGAAC
    TTCATCACCA AAATGGCCAA GGAGGGGGCT GCAGAGGCCC TGGCTGCAGG AGCTGACATT
    GCGGAGTTCT CTGTTGGGGG AATGGATTTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC
    AAAATGGATT TCATTTTGTC TCATGCCGTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG
    GGACAGAGGG CAGTGATCAG CAATGGAAGG ATCATTGGGC CACTGGAGGA TAGTGAGCTC
    TTTAATCAAG ACGATTTCCA CCTCCTCGAA AATATCATCT TAAAAACCTC AGGACAGAAA
    ATAAAATCTC ATATTCAACA GCTTCGGGTA GAAGAAGATG TGGCAAGCGA CTTGGTAATG
    AAGGTGGATG CTCTTCTGTC AGCGCAACCA AAAGGAGATC CAAGAATCGA GTACCAGTTT
    TTTGAAGACA GACACAGTGC AATCAAACTG AGGCCGAAGG AAGGGGAGAC ATACTTTGAT
    GTTGTGGCTG TCGTTGACCC TGTCACCAGA GAAGCACAGA GACTTGCTCC TTTGCTCTTG
    GTTTTGGCTC AGCTGATAAA CATGAATCTG AGAGTATTTA TGAACTGCCA ATCCAAACTT
    TCTGACATGC CTTTAAAAAG CTTTTACCGT TATGTCTTAG AACCAGAGAT TTCTTTCACT
    TCAGACAATA GTTTTGCTAA GGGTCCAATC GCAAAATTTT TGGATATGCC TCAGTCTCCA
    CTGTTCACTC TGAATTTGAA CACACCTGAG AGCTGGATGG TAGAATCTGT CAGAACACCA
    TATGATCTTG ATAATATTTA TTTAGAAGAG GTGGACAGTG TAGTGGCTGC TGAGTATGAG
    CTGGAATACC TGTTACTGGA AGGTCATTGC TACGACATCA CCACAGGCCA GCCTCCACGG
    GGACTACAGT TTACCTTAGG AACTTCAGCC AACCCGGTCA TTGTGGACAC CATTGTTATG
    GCCAATCTGG GCTACTTTCA GCTGAAAGCC AACCCAGGAG CTTGGATCCT CAGACTTAGG
    AAGGGACGCT CTGAAGATAT TTATAGAATT TACAGCCACG ATGGCACTGA TTCTCCCCCT
    GATGCTGATG AGGTGGTTAT CGTCCTCAAC AACTTCAAAA GCAAAATTAT TAAAGTGAAG
    GTTCAGAAGA AGGCAGATAT GGTGAACGAA GACTTGCTGA GTGATGGAAC GAGTGAGAAT
    GAATCTGGAT TTTGGGATTC CTTCAAATGG GGCTTTACAG GACAGAAGAC TGAGGAAGTG
    AAGCAAGATA AAGATGACAT AATTAATATT TTCTCCGTTG CATCTGGTCA TCTCTACGAA
    AGATTTCTTC GCATAATGAT GCTATCCGTG CTGAAGAATA CCAAGACTCC TGTGAAATTC
    TGGTTCTTGA AGAATTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCAAAT
    GAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CCCGGTGGCT TCATCAACAA
    ACTGAAAAAC AGCGTATCAT CTGGGGTTAC AAGATCCTCT TCCTGGATGT ACTTTTCCCA
    CTAGTTGTTG ACAAGTTCCT GTTTGTGGAT GCTGATCAGA TTGTACGAAC AGATCTGAAA
    GAGTTAAGAG ATTTCAATTT GGATGGTGCT CCTTATGGTT ACACTCCTTT CTGTGACAGC
    CGAAGAGAAA TGGACGGCTA CAGGTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTAGCC
    GGGCGAAAGT ATCATATCAG TGCACTATAT GTTGTGGATC TGAAGAAGTT TAGGAAAATA
    GCTGCTGGTG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GTCAGGACCC TAACAGCCTT
    TCAAATCTTG ATCAAGATCT GCCCAATAAC ATGATTCATC AGGTGCCAAT TAAATCCCTC
    CCTCAAGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA AAGGGCAAAA
    ACCATTGATT TGTGTAATAA TCCGATGACC AAAGAGCCGA AACTGGAAGC AGCTGTGCGG
    ATTGTCCCGG AGTGGCAGGA CTACGACCAA GAGATCAAAC AGCTACAGAT CCGCTTTCAG
    AAGGAGAAAG AAACGGGAGC ACTGTACAAA GAGAAGACAA AAGAACCAAG CCGAGAAGGT
    CCTCAGAAAC GTGAAGAATT ATGA

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

    RefSeq XP_006712698.1
    CDS174..4817
    Translation

    Target ORF information:

    RefSeq Version XM_006712635.4
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006712635.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGATGA TTCTTTTATT AGGCCAGTAA CTTTTTGGAT TGTTGGGGAT
    TTTGATAGCC CTTCTGGACG GCAGTTACTG TATGATGCCA TCAAACATCA GAAATCCAGT
    AACAATGTTA GAATAAGCAT GATCAATAAT CCTGCCAAAG AGATAAGCTA TGAGAACACT
    CAGATCTCCA GAGCAATCTG GGCAGCTCTC CAAACTCAGA CTTCCAACGC TGCTAAGAAC
    TTCATCACCA AAATGGCCAA GGAGGGGGCT GCAGAGGCCC TGGCTGCAGG AGCTGACATT
    GCGGAGTTCT CTGTTGGGGG AATGGATTTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC
    AAAATGGATT TCATTTTGTC TCATGCCGTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG
    GGACAGAGGG CAGTGATCAG CAATGGAAGG ATCATTGGGC CACTGGAGGA TAGTGAGCTC
    TTTAATCAAG ACGATTTCCA CCTCCTCGAA AATATCATCT TAAAAACCTC AGGACAGAAA
    ATAAAATCTC ATATTCAACA GCTTCGGGTA GAAGAAGATG TGGCAAGCGA CTTGGTAATG
    AAGGTGGATG CTCTTCTGTC AGCGCAACCA AAAGGAGATC CAAGAATCGA GTACCAGTTT
    TTTGAAGACA GACACAGTGC AATCAAACTG AGGCCGAAGG AAGGGGAGAC ATACTTTGAT
    GTTGTGGCTG TCGTTGACCC TGTCACCAGA GAAGCACAGA GACTTGCTCC TTTGCTCTTG
    GTTTTGGCTC AGCTGATAAA CATGAATCTG AGAGTATTTA TGAACTGCCA ATCCAAACTT
    TCTGACATGC CTTTAAAAAG CTTTTACCGT TATGTCTTAG AACCAGAGAT TTCTTTCACT
    TCAGACAATA GTTTTGCTAA GGGTCCAATC GCAAAATTTT TGGATATGCC TCAGTCTCCA
    CTGTTCACTC TGAATTTGAA CACACCTGAG AGCTGGATGG TAGAATCTGT CAGAACACCA
    TATGATCTTG ATAATATTTA TTTAGAAGAG GTGGACAGTG TAGTGGCTGC TGAGTATGAG
    CTGGAATACC TGTTACTGGA AGGTCATTGC TACGACATCA CCACAGGCCA GCCTCCACGG
    GGACTACAGT TTACCTTAGG AACTTCAGCC AACCCGGTCA TTGTGGACAC CATTGTTATG
    GCCAATCTGG GCTACTTTCA GCTGAAAGCC AACCCAGGAG CTTGGATCCT CAGACTTAGG
    AAGGGACGCT CTGAAGATAT TTATAGAATT TACAGCCACG ATGGCACTGA TTCTCCCCCT
    GATGCTGATG AGGTGGTTAT CGTCCTCAAC AACTTCAAAA GCAAAATTAT TAAAGTGAAG
    GTTCAGAAGA AGGCAGATAT GGTGAACGAA GACTTGCTGA GTGATGGAAC GAGTGAGAAT
    GAATCTGGAT TTTGGGATTC CTTCAAATGG GGCTTTACAG GACAGAAGAC TGAGGAAGTG
    AAGCAAGATA AAGATGACAT AATTAATATT TTCTCCGTTG CATCTGGTCA TCTCTACGAA
    AGATTTCTTC GCATAATGAT GCTATCCGTG CTGAAGAATA CCAAGACTCC TGTGAAATTC
    TGGTTCTTGA AGAATTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCAAAT
    GAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CCCGGTGGCT TCATCAACAA
    ACTGAAAAAC AGCGTATCAT CTGGGGTTAC AAGATCCTCT TCCTGGATGT ACTTTTCCCA
    CTAGTTGTTG ACAAGTTCCT GTTTGTGGAT GCTGATCAGA TTGTACGAAC AGATCTGAAA
    GAGTTAAGAG ATTTCAATTT GGATGGTGCT CCTTATGGTT ACACTCCTTT CTGTGACAGC
    CGAAGAGAAA TGGACGGCTA CAGGTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTAGCC
    GGGCGAAAGT ATCATATCAG TGCACTATAT GTTGTGGATC TGAAGAAGTT TAGGAAAATA
    GCTGCTGGTG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GTCAGGACCC TAACAGCCTT
    TCAAATCTTG ATCAAGATCT GCCCAATAAC ATGATTCATC AGGTGCCAAT TAAATCCCTC
    CCTCAAGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA AAGGGCAAAA
    ACCATTGATT TGTGTAATAA TCCGATGACC AAAGAGCCGA AACTGGAAGC AGCTGTGCGG
    ATTGTCCCGG AGTGGCAGGA CTACGACCAA GAGATCAAAC AGCTACAGAT CCGCTTTCAG
    AAGGAGAAAG AAACGGGAGC ACTGTACAAA GAGAAGACAA AAGAACCAAG CCGAGAAGGT
    CCTCAGAAAC GTGAAGAATT ATGA

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

    CloneID OHu36440
    Clone ID Related Accession (Same CDS sequence) XM_006712635.4 , XM_006712635.3
    Accession Version XM_006712635.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4644bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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_006712635.2. ##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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGATGA TTCTTTTATT AGGCCAGTAA CTTTTTGGAT TGTTGGGGAT
    TTTGATAGCC CTTCTGGACG GCAGTTACTG TATGATGCCA TCAAACATCA GAAATCCAGT
    AACAATGTTA GAATAAGCAT GATCAATAAT CCTGCCAAAG AGATAAGCTA TGAGAACACT
    CAGATCTCCA GAGCAATCTG GGCAGCTCTC CAAACTCAGA CTTCCAACGC TGCTAAGAAC
    TTCATCACCA AAATGGCCAA GGAGGGGGCT GCAGAGGCCC TGGCTGCAGG AGCTGACATT
    GCGGAGTTCT CTGTTGGGGG AATGGATTTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC
    AAAATGGATT TCATTTTGTC TCATGCCGTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG
    GGACAGAGGG CAGTGATCAG CAATGGAAGG ATCATTGGGC CACTGGAGGA TAGTGAGCTC
    TTTAATCAAG ACGATTTCCA CCTCCTCGAA AATATCATCT TAAAAACCTC AGGACAGAAA
    ATAAAATCTC ATATTCAACA GCTTCGGGTA GAAGAAGATG TGGCAAGCGA CTTGGTAATG
    AAGGTGGATG CTCTTCTGTC AGCGCAACCA AAAGGAGATC CAAGAATCGA GTACCAGTTT
    TTTGAAGACA GACACAGTGC AATCAAACTG AGGCCGAAGG AAGGGGAGAC ATACTTTGAT
    GTTGTGGCTG TCGTTGACCC TGTCACCAGA GAAGCACAGA GACTTGCTCC TTTGCTCTTG
    GTTTTGGCTC AGCTGATAAA CATGAATCTG AGAGTATTTA TGAACTGCCA ATCCAAACTT
    TCTGACATGC CTTTAAAAAG CTTTTACCGT TATGTCTTAG AACCAGAGAT TTCTTTCACT
    TCAGACAATA GTTTTGCTAA GGGTCCAATC GCAAAATTTT TGGATATGCC TCAGTCTCCA
    CTGTTCACTC TGAATTTGAA CACACCTGAG AGCTGGATGG TAGAATCTGT CAGAACACCA
    TATGATCTTG ATAATATTTA TTTAGAAGAG GTGGACAGTG TAGTGGCTGC TGAGTATGAG
    CTGGAATACC TGTTACTGGA AGGTCATTGC TACGACATCA CCACAGGCCA GCCTCCACGG
    GGACTACAGT TTACCTTAGG AACTTCAGCC AACCCGGTCA TTGTGGACAC CATTGTTATG
    GCCAATCTGG GCTACTTTCA GCTGAAAGCC AACCCAGGAG CTTGGATCCT CAGACTTAGG
    AAGGGACGCT CTGAAGATAT TTATAGAATT TACAGCCACG ATGGCACTGA TTCTCCCCCT
    GATGCTGATG AGGTGGTTAT CGTCCTCAAC AACTTCAAAA GCAAAATTAT TAAAGTGAAG
    GTTCAGAAGA AGGCAGATAT GGTGAACGAA GACTTGCTGA GTGATGGAAC GAGTGAGAAT
    GAATCTGGAT TTTGGGATTC CTTCAAATGG GGCTTTACAG GACAGAAGAC TGAGGAAGTG
    AAGCAAGATA AAGATGACAT AATTAATATT TTCTCCGTTG CATCTGGTCA TCTCTACGAA
    AGATTTCTTC GCATAATGAT GCTATCCGTG CTGAAGAATA CCAAGACTCC TGTGAAATTC
    TGGTTCTTGA AGAATTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCAAAT
    GAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CCCGGTGGCT TCATCAACAA
    ACTGAAAAAC AGCGTATCAT CTGGGGTTAC AAGATCCTCT TCCTGGATGT ACTTTTCCCA
    CTAGTTGTTG ACAAGTTCCT GTTTGTGGAT GCTGATCAGA TTGTACGAAC AGATCTGAAA
    GAGTTAAGAG ATTTCAATTT GGATGGTGCT CCTTATGGTT ACACTCCTTT CTGTGACAGC
    CGAAGAGAAA TGGACGGCTA CAGGTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTAGCC
    GGGCGAAAGT ATCATATCAG TGCACTATAT GTTGTGGATC TGAAGAAGTT TAGGAAAATA
    GCTGCTGGTG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GTCAGGACCC TAACAGCCTT
    TCAAATCTTG ATCAAGATCT GCCCAATAAC ATGATTCATC AGGTGCCAAT TAAATCCCTC
    CCTCAAGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA AAGGGCAAAA
    ACCATTGATT TGTGTAATAA TCCGATGACC AAAGAGCCGA AACTGGAAGC AGCTGTGCGG
    ATTGTCCCGG AGTGGCAGGA CTACGACCAA GAGATCAAAC AGCTACAGAT CCGCTTTCAG
    AAGGAGAAAG AAACGGGAGC ACTGTACAAA GAGAAGACAA AAGAACCAAG CCGAGAAGGT
    CCTCAGAAAC GTGAAGAATT ATGA

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

    RefSeq XP_006712698.1
    CDS147..4790
    Translation

    Target ORF information:

    RefSeq Version XM_006712635.3
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006712635.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGTGCG TGTGCCGCGG GTGCGCTGCC GGTGACAGGA 
    GTTTGCTATA AAATGGGAGT TCTGGTTGTA CTCACTGTTC TGTGGCTGTT CTCCTCAGTA
    AAGGCCGACT CAAAAGCCAT TACAACCTCT CTTACAACAA AATGGTTTTC CACTCCATTG
    TTGTTAGAAG CCAGTGAGTT TTTAGCAGAA GACAGTCAAG AGAAATTTTG GAATTTTGTA
    GAAGCCAGTC AAAATATTGG ATCATCAGAT CATGACGGTA CCGATTATTC CTACTATCAT
    GCAATATTGG AGGCTGCATT TCAGTTTCTG TCACCCCTCC AGCAGAATTT GTTTAAATTT
    TGTCTGTCCC TTCGTTCTTA CTCAGCTACA ATCCAAGCCT TCCAGCAGAT AGCAGCTGAT
    GAACCTCCAC CAGAAGGATG TAATTCGTTT TTTTCAGTGC ATGGAAAGAA GACTTGTGAA
    TCTGATACCC TTGAGGCTCT TCTACTGACA GCCTCTGAAA GACCCAAACC TTTATTGTTC
    AAAGGAGATC ACAGATATCC CTCGTCTAAT CCTGAAAGCC CTGTGGTGAT TTTCTACTCT
    GAGATTGGCT CTGAGGAATT TTCCAATTTT CACCGCCAGC TTATATCAAA AAGCAATGCA
    GGCAAAATCA ATTATGTATT CAGACATTAT ATATTTAATC CCAGGAAGGA GCCTGTTTAC
    CTCTCTGGCT ATGGCGTGGA ATTGGCCATT AAGAGCACTG AGTACAAGGC CAAGGATGAT
    ACTCAGGTGA AAGGAACTGA GGTAAACACC ACAGTGATTG GTGAAAATGA TCCTATTGAT
    GAGGTTCAGG GGTTCCTCTT TGGAAAATTA AGAGATCTGC ACCCCGACCT GGAGGGACAG
    TTGAAAGAAC TCAGAAAGCA TCTTGTAGAG AGCACCAATG AAATGGCACC TTTAAAGGTT
    TGGCAGTTGC AAGATCTCAG TTTCCAGACT GCTGCTCGAA TCTTGGCTTC TCCTGTTGAG
    TTGGCTTTGG TTGTCATGAA GGATCTTAGT CAGAATTTTC CTACCAAAGC CAGAGCAATA
    ACAAAAACAG CTGTGAGCTC AGAACTTAGA ACCGAAGTGG AAGAGAATCA GAAGTATTTC
    AAGGGAACTT TAGGATTACA ACCTGGAGAT TCAGCCCTCT TCATCAATGG ACTTCACATG
    GATTTAGATA CACAGGATAT ATTCAGTCTG TTTGATGTGT TGAGGAATGA AGCTCGGGTA
    ATGGAGGGTC TGCATAGATT GGGAATAGAA GGCCTTTCTC TGCATAATGT TTTGAAGCTG
    AACATCCAGC CCTCTGAGGC AGACTATGCC GTAGACATCC GGAGTCCTGC TATTTCATGG
    GTCAACAACC TGGAGGTTGA TAGCAGATAT AATTCGTGGC CTTCTAGTTT ACAAGAGTTG
    CTTCGACCCA CCTTTCCTGG TGTTATTCGG CAGATCAGGA AAAACTTACA TAATATGGTT
    TTCATAGTTG ATCCTGCACA TGAGACCACA GCAGAGTTGA TGAACACAGC TGAGATGTTC
    CTTAGTAATC ATATACCACT AAGAATTGGT TTTATCTTTG TGGTTAATGA CTCTGAAGAT
    GTTGATGGGA TGCAAGATGC TGGAGTGGCT GTTCTTAGAG CATATAATTA TGTTGCCCAA
    GAAGTGGATG ATTATCATGC CTTCCAGACT CTGACACATA TCTATAACAA GGTGAGGACT
    GGAGAAAAAG TGAAAGTTGA ACATGTGGTC AGTGTCCTGG AGAAGAAATA TCCGTATGTA
    GAAGTGAATA GCATTTTGGG GATTGATTCT GCTTATGATC GGAATCGGAA GGAAGCAAGA
    GGCTACTATG AGCAGACTGG AGTTGGACCT CTGCCCGTTG TGCTGTTCAA TGGAATGCCC
    TTTGAAAGGG AACAGCTAGA CCCTGATGAG TTAGAAACCA TCACAATGCA TAAAATCCTG
    GAGACCACCA CCTTCTTCCA AAGAGCGGTG TACTTGGGTG AACTGCCCCA TGATCAAGAT
    GTGGTAGAGT ATATCATGAA TCAGCCAAAT GTTGTTCCAC GAATCAATTC TAGGATTTTG
    ACAGCTGAAC GAGACTACCT GGATTTAACA GCGAGTAATA ACTTCTTTGT GGATGATTAT
    GCTAGATTTA CTATCTTGGA TTCCCAAGGC AAGACTGCTG CTGTAGCCAA TAGTATGAAC
    TATCTGACAA AGAAAGATGA TTCTTTTATT AGGCCAGTAA CTTTTTGGAT TGTTGGGGAT
    TTTGATAGCC CTTCTGGACG GCAGTTACTG TATGATGCCA TCAAACATCA GAAATCCAGT
    AACAATGTTA GAATAAGCAT GATCAATAAT CCTGCCAAAG AGATAAGCTA TGAGAACACT
    CAGATCTCCA GAGCAATCTG GGCAGCTCTC CAAACTCAGA CTTCCAACGC TGCTAAGAAC
    TTCATCACCA AAATGGCCAA GGAGGGGGCT GCAGAGGCCC TGGCTGCAGG AGCTGACATT
    GCGGAGTTCT CTGTTGGGGG AATGGATTTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC
    AAAATGGATT TCATTTTGTC TCATGCCGTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG
    GGACAGAGGG CAGTGATCAG CAATGGAAGG ATCATTGGGC CACTGGAGGA TAGTGAGCTC
    TTTAATCAAG ACGATTTCCA CCTCCTCGAA AATATCATCT TAAAAACCTC AGGACAGAAA
    ATAAAATCTC ATATTCAACA GCTTCGGGTA GAAGAAGATG TGGCAAGCGA CTTGGTAATG
    AAGGTGGATG CTCTTCTGTC AGCGCAACCA AAAGGAGATC CAAGAATCGA GTACCAGTTT
    TTTGAAGACA GACACAGTGC AATCAAACTG AGGCCGAAGG AAGGGGAGAC ATACTTTGAT
    GTTGTGGCTG TCGTTGACCC TGTCACCAGA GAAGCACAGA GACTTGCTCC TTTGCTCTTG
    GTTTTGGCTC AGCTGATAAA CATGAATCTG AGAGTATTTA TGAACTGCCA ATCCAAACTT
    TCTGACATGC CTTTAAAAAG CTTTTACCGT TATGTCTTAG AACCAGAGAT TTCTTTCACT
    TCAGACAATA GTTTTGCTAA GGGTCCAATC GCAAAATTTT TGGATATGCC TCAGTCTCCA
    CTGTTCACTC TGAATTTGAA CACACCTGAG AGCTGGATGG TAGAATCTGT CAGAACACCA
    TATGATCTTG ATAATATTTA TTTAGAAGAG GTGGACAGTG TAGTGGCTGC TGAGTATGAG
    CTGGAATACC TGTTACTGGA AGGTCATTGC TACGACATCA CCACAGGCCA GCCTCCACGG
    GGACTACAGT TTACCTTAGG AACTTCAGCC AACCCGGTCA TTGTGGACAC CATTGTTATG
    GCCAATCTGG GCTACTTTCA GCTGAAAGCC AACCCAGGAG CTTGGATCCT CAGACTTAGG
    AAGGGACGCT CTGAAGATAT TTATAGAATT TACAGCCACG ATGGCACTGA TTCTCCCCCT
    GATGCTGATG AGGTGGTTAT CGTCCTCAAC AACTTCAAAA GCAAAATTAT TAAAGTGAAG
    GTTCAGAAGA AGGCAGATAT GGTGAACGAA GACTTGCTGA GTGATGGAAC GAGTGAGAAT
    GAATCTGGAT TTTGGGATTC CTTCAAATGG GGCTTTACAG GACAGAAGAC TGAGGAAGTG
    AAGCAAGATA AAGATGACAT AATTAATATT TTCTCCGTTG CATCTGGTCA TCTCTACGAA
    AGATTTCTTC GCATAATGAT GCTATCCGTG CTGAAGAATA CCAAGACTCC TGTGAAATTC
    TGGTTCTTGA AGAATTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCAAAT
    GAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CCCGGTGGCT TCATCAACAA
    ACTGAAAAAC AGCGTATCAT CTGGGGTTAC AAGATCCTCT TCCTGGATGT ACTTTTCCCA
    CTAGTTGTTG ACAAGTTCCT GTTTGTGGAT GCTGATCAGA TTGTACGAAC AGATCTGAAA
    GAGTTAAGAG ATTTCAATTT GGATGGTGCT CCTTATGGTT ACACTCCTTT CTGTGACAGC
    CGAAGAGAAA TGGACGGCTA CAGGTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTAGCC
    GGGCGAAAGT ATCATATCAG TGCACTATAT GTTGTGGATC TGAAGAAGTT TAGGAAAATA
    GCTGCTGGTG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GTCAGGACCC TAACAGCCTT
    TCAAATCTTG ATCAAGATCT GCCCAATAAC ATGATTCATC AGGTGCCAAT TAAATCCCTC
    CCTCAAGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA AAGGGCAAAA
    ACCATTGATT TGTGTAATAA TCCGATGACC AAAGAGCCGA AACTGGAAGC AGCTGTGCGG
    ATTGTCCCGG AGTGGCAGGA CTACGACCAA GAGATCAAAC AGCTACAGAT CCGCTTTCAG
    AAGGAGAAAG AAACGGGAGC ACTGTACAAA GAGAAGACAA AAGAACCAAG CCGAGAAGGT
    CCTCAGAAAC GTGAAGAATT ATGA

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

    CloneID OHu36441
    Clone ID Related Accession (Same CDS sequence) XM_006712636.3
    Accession Version XM_006712636.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4635bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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_006712636.2. ##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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGAGTT TGCTATAAAA TGGGAGTTCT GGTTGTACTC 
    ACTGTTCTGT GGCTGTTCTC CTCAGTAAAG GCCGACTCAA AAGCCATTAC AACCTCTCTT
    ACAACAAAAT GGTTTTCCAC TCCATTGTTG TTAGAAGCCA GTGAGTTTTT AGCAGAAGAC
    AGTCAAGAGA AATTTTGGAA TTTTGTAGAA GCCAGTCAAA ATATTGGATC ATCAGATCAT
    GACGGTACCG ATTATTCCTA CTATCATGCA ATATTGGAGG CTGCATTTCA GTTTCTGTCA
    CCCCTCCAGC AGAATTTGTT TAAATTTTGT CTGTCCCTTC GTTCTTACTC AGCTACAATC
    CAAGCCTTCC AGCAGATAGC AGCTGATGAA CCTCCACCAG AAGGATGTAA TTCGTTTTTT
    TCAGTGCATG GAAAGAAGAC TTGTGAATCT GATACCCTTG AGGCTCTTCT ACTGACAGCC
    TCTGAAAGAC CCAAACCTTT ATTGTTCAAA GGAGATCACA GATATCCCTC GTCTAATCCT
    GAAAGCCCTG TGGTGATTTT CTACTCTGAG ATTGGCTCTG AGGAATTTTC CAATTTTCAC
    CGCCAGCTTA TATCAAAAAG CAATGCAGGC AAAATCAATT ATGTATTCAG ACATTATATA
    TTTAATCCCA GGAAGGAGCC TGTTTACCTC TCTGGCTATG GCGTGGAATT GGCCATTAAG
    AGCACTGAGT ACAAGGCCAA GGATGATACT CAGGTGAAAG GAACTGAGGT AAACACCACA
    GTGATTGGTG AAAATGATCC TATTGATGAG GTTCAGGGGT TCCTCTTTGG AAAATTAAGA
    GATCTGCACC CCGACCTGGA GGGACAGTTG AAAGAACTCA GAAAGCATCT TGTAGAGAGC
    ACCAATGAAA TGGCACCTTT AAAGGTTTGG CAGTTGCAAG ATCTCAGTTT CCAGACTGCT
    GCTCGAATCT TGGCTTCTCC TGTTGAGTTG GCTTTGGTTG TCATGAAGGA TCTTAGTCAG
    AATTTTCCTA CCAAAGCCAG AGCAATAACA AAAACAGCTG TGAGCTCAGA ACTTAGAACC
    GAAGTGGAAG AGAATCAGAA GTATTTCAAG GGAACTTTAG GATTACAACC TGGAGATTCA
    GCCCTCTTCA TCAATGGACT TCACATGGAT TTAGATACAC AGGATATATT CAGTCTGTTT
    GATGTGTTGA GGAATGAAGC TCGGGTAATG GAGGGTCTGC ATAGATTGGG AATAGAAGGC
    CTTTCTCTGC ATAATGTTTT GAAGCTGAAC ATCCAGCCCT CTGAGGCAGA CTATGCCGTA
    GACATCCGGA GTCCTGCTAT TTCATGGGTC AACAACCTGG AGGTTGATAG CAGATATAAT
    TCGTGGCCTT CTAGTTTACA AGAGTTGCTT CGACCCACCT TTCCTGGTGT TATTCGGCAG
    ATCAGGAAAA ACTTACATAA TATGGTTTTC ATAGTTGATC CTGCACATGA GACCACAGCA
    GAGTTGATGA ACACAGCTGA GATGTTCCTT AGTAATCATA TACCACTAAG AATTGGTTTT
    ATCTTTGTGG TTAATGACTC TGAAGATGTT GATGGGATGC AAGATGCTGG AGTGGCTGTT
    CTTAGAGCAT ATAATTATGT TGCCCAAGAA GTGGATGATT ATCATGCCTT CCAGACTCTG
    ACACATATCT ATAACAAGGT GAGGACTGGA GAAAAAGTGA AAGTTGAACA TGTGGTCAGT
    GTCCTGGAGA AGAAATATCC GTATGTAGAA GTGAATAGCA TTTTGGGGAT TGATTCTGCT
    TATGATCGGA ATCGGAAGGA AGCAAGAGGC TACTATGAGC AGACTGGAGT TGGACCTCTG
    CCCGTTGTGC TGTTCAATGG AATGCCCTTT GAAAGGGAAC AGCTAGACCC TGATGAGTTA
    GAAACCATCA CAATGCATAA AATCCTGGAG ACCACCACCT TCTTCCAAAG AGCGGTGTAC
    TTGGGTGAAC TGCCCCATGA TCAAGATGTG GTAGAGTATA TCATGAATCA GCCAAATGTT
    GTTCCACGAA TCAATTCTAG GATTTTGACA GCTGAACGAG ACTACCTGGA TTTAACAGCG
    AGTAATAACT TCTTTGTGGA TGATTATGCT AGATTTACTA TCTTGGATTC CCAAGGCAAG
    ACTGCTGCTG TAGCCAATAG TATGAACTAT CTGACAAAGA AAGGAATGTC CTCCAAGGAA
    ATCTATGATG ATTCTTTTAT TAGGCCAGTA ACTTTTTGGA TTGTTGGGGA TTTTGATAGC
    CCTTCTGGAC GGCAGTTACT GTATGATGCC ATCAAACATC AGAAATCCAG TAACAATGTT
    AGAATAAGCA TGATCAATAA TCCTGCCAAA GAGATAAGCT ATGAGAACAC TCAGATCTCC
    AGAGCAATCT GGGCAGCTCT CCAAACTCAG ACTTCCAACG CTGCTAAGAA CTTCATCACC
    AAAATGGCCA AGGAGGGGGC TGCAGAGGCC CTGGCTGCAG GAGCTGACAT TGCGGAGTTC
    TCTGTTGGGG GAATGGATTT CAGTCTTTTT AAAGAGGTCT TTGAGTCTTC CAAAATGGAT
    TTCATTTTGT CTCATGCCGT GTACTGCAGG GATGTTCTGA AGCTGAAGAA GGGACAGAGG
    GCAGTGATCA GCAATGGAAG GATCATTGGG CCACTGGAGG ATAGTGAGCT CTTTAATCAA
    GACGATTTCC ACCTCCTCGA AAATATCATC TTAAAAACCT CAGGACAGAA AATAAAATCT
    CATATTCAAC AGCTTCGGGT AGAAGAAGAT GTGGCAAGCG ACTTGGTAAT GAAGGTGGAT
    GCTCTTCTGT CAGCGCAACC AAAAGGAGAT CCAAGAATCG AGTACCAGTT TTTTGAAGAC
    AGACACAGTG CAATCAAACT GAGGCCGAAG GAAGGGGAGA CATACTTTGA TGTTGTGGCT
    GTCGTTGACC CTGTCACCAG AGAAGCACAG AGACTTGCTC CTTTGCTCTT GGTTTTGGCT
    CAGCTGATAA ACATGAATCT GAGAGTATTT ATGAACTGCC AATCCAAACT TTCTGACATG
    CCTTTAAAAA GCTTTTACCG TTATGTCTTA GAACCAGAGA TTTCTTTCAC TTCAGACAAT
    AGTTTTGCTA AGGGTCCAAT CGCAAAATTT TTGGATATGC CTCAGTCTCC ACTGTTCACT
    CTGAATTTGA ACACACCTGA GAGCTGGATG GTAGAATCTG TCAGAACACC ATATGATCTT
    GATAATATTT ATTTAGAAGA GGTGGACAGT GTAGTGGCTG CTGAGTATGA GCTGGAATAC
    CTGTTACTGG AAGGTCATTG CTACGACATC ACCACAGGCC AGCCTCCACG GGGACTACAG
    TTTACCTTAG GAACTTCAGC CAACCCGGTC ATTGTGGACA CCATTGTTAT GGCCAATCTG
    GGCTACTTTC AGCTGAAAGC CAACCCAGGA GCTTGGATCC TCAGACTTAG GAAGGGACGC
    TCTGAAGATA TTTATAGAAT TTACAGCCAC GATGGCACTG ATTCTCCCCC TGATGCTGAT
    GAGGTGGTTA TCGTCCTCAA CAACTTCAAA AGCAAAATTA TTAAAGTGAA GGTTCAGAAG
    AAGGCAGATA TGGTGAACGA AGACTTGCTG AGTGATGGAA CGAGTGAGAA TGAATCTGGA
    TTTTGGGATT CCTTCAAATG GGGCTTTACA GGACAGAAGA CTGAGGAAGT GAAGCAAGAT
    AAAGATGACA TAATTAATAT TTTCTCCGTT GCATCTGGTC ATCTCTACGA AAGATTTCTT
    CGCATAATGA TGCTATCCGT GCTGAAGAAT ACCAAGACTC CTGTGAAATT CTGGTTCTTG
    AAGAATTACT TGTCCCCCAC ATTTAAGGAG TTTATACCTT ACATGGCAAA TGAATACAAT
    TTCCAGTATG AGCTTGTTCA GTACAAATGG CCCCGGTGGC TTCATCAACA AACTGAAAAA
    CAGCGTATCA TCTGGGGTTA CAAGATCCTC TTCCTGGATG TACTTTTCCC ACTAGTTGTT
    GACAAGTTCC TGTTTGTGGA TGCTGATCAG ATTGTACGAA CAGATCTGAA AGAGTTAAGA
    GATTTCAATT TGGATGGTGC TCCTTATGGT TACACTCCTT TCTGTGACAG CCGAAGAGAA
    ATGGACGGCT ACAGGTTCTG GAAGTCAGGG TACTGGGCCA GTCATTTAGC CGGGCGAAAG
    TATCATATCA GTGCACTATA TGTTGTGGAT CTGAAGAAGT TTAGGAAAAT AGCTGCTGGT
    GACAGACTCA GGGGACAGTA CCAAGGTCTG AGTCAGGACC CTAACAGCCT TTCAAATCTT
    GATCAAGATC TGCCCAATAA CATGATTCAT CAGGTGCCAA TTAAATCCCT CCCTCAAGAA
    TGGCTTTGGT GTGAAACGTG GTGTGATGAC GCCTCTAAGA AAAGGGCAAA AACCATTGAT
    TTGTGTAATA ATCCGATGAC CAAAGAGCCG AAACTGGAAG CAGCTGTGCG GATTGTCCCG
    GAGTGGCAGG ACTACGACCA AGAGATCAAA CAGCTACAGA TCCGCTTTCA GAAGGAGAAA
    GAAACGGGAG CACTGTACAA AGAGAAGACA AAAGAACCAA GCCGAGAAGG TCCTCAGAAA
    CGTGAAGAAT TATGA

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

    RefSeq XP_006712699.1
    CDS175..4809
    Translation

    Target ORF information:

    RefSeq Version XM_006712636.3
    Organism Homo sapiens(human)
    Definition Homo sapiens UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006712636.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTGCA AGGGAGACGC GAGCGGAGTT TGCTATAAAA TGGGAGTTCT GGTTGTACTC 
    ACTGTTCTGT GGCTGTTCTC CTCAGTAAAG GCCGACTCAA AAGCCATTAC AACCTCTCTT
    ACAACAAAAT GGTTTTCCAC TCCATTGTTG TTAGAAGCCA GTGAGTTTTT AGCAGAAGAC
    AGTCAAGAGA AATTTTGGAA TTTTGTAGAA GCCAGTCAAA ATATTGGATC ATCAGATCAT
    GACGGTACCG ATTATTCCTA CTATCATGCA ATATTGGAGG CTGCATTTCA GTTTCTGTCA
    CCCCTCCAGC AGAATTTGTT TAAATTTTGT CTGTCCCTTC GTTCTTACTC AGCTACAATC
    CAAGCCTTCC AGCAGATAGC AGCTGATGAA CCTCCACCAG AAGGATGTAA TTCGTTTTTT
    TCAGTGCATG GAAAGAAGAC TTGTGAATCT GATACCCTTG AGGCTCTTCT ACTGACAGCC
    TCTGAAAGAC CCAAACCTTT ATTGTTCAAA GGAGATCACA GATATCCCTC GTCTAATCCT
    GAAAGCCCTG TGGTGATTTT CTACTCTGAG ATTGGCTCTG AGGAATTTTC CAATTTTCAC
    CGCCAGCTTA TATCAAAAAG CAATGCAGGC AAAATCAATT ATGTATTCAG ACATTATATA
    TTTAATCCCA GGAAGGAGCC TGTTTACCTC TCTGGCTATG GCGTGGAATT GGCCATTAAG
    AGCACTGAGT ACAAGGCCAA GGATGATACT CAGGTGAAAG GAACTGAGGT AAACACCACA
    GTGATTGGTG AAAATGATCC TATTGATGAG GTTCAGGGGT TCCTCTTTGG AAAATTAAGA
    GATCTGCACC CCGACCTGGA GGGACAGTTG AAAGAACTCA GAAAGCATCT TGTAGAGAGC
    ACCAATGAAA TGGCACCTTT AAAGGTTTGG CAGTTGCAAG ATCTCAGTTT CCAGACTGCT
    GCTCGAATCT TGGCTTCTCC TGTTGAGTTG GCTTTGGTTG TCATGAAGGA TCTTAGTCAG
    AATTTTCCTA CCAAAGCCAG AGCAATAACA AAAACAGCTG TGAGCTCAGA ACTTAGAACC
    GAAGTGGAAG AGAATCAGAA GTATTTCAAG GGAACTTTAG GATTACAACC TGGAGATTCA
    GCCCTCTTCA TCAATGGACT TCACATGGAT TTAGATACAC AGGATATATT CAGTCTGTTT
    GATGTGTTGA GGAATGAAGC TCGGGTAATG GAGGGTCTGC ATAGATTGGG AATAGAAGGC
    CTTTCTCTGC ATAATGTTTT GAAGCTGAAC ATCCAGCCCT CTGAGGCAGA CTATGCCGTA
    GACATCCGGA GTCCTGCTAT TTCATGGGTC AACAACCTGG AGGTTGATAG CAGATATAAT
    TCGTGGCCTT CTAGTTTACA AGAGTTGCTT CGACCCACCT TTCCTGGTGT TATTCGGCAG
    ATCAGGAAAA ACTTACATAA TATGGTTTTC ATAGTTGATC CTGCACATGA GACCACAGCA
    GAGTTGATGA ACACAGCTGA GATGTTCCTT AGTAATCATA TACCACTAAG AATTGGTTTT
    ATCTTTGTGG TTAATGACTC TGAAGATGTT GATGGGATGC AAGATGCTGG AGTGGCTGTT
    CTTAGAGCAT ATAATTATGT TGCCCAAGAA GTGGATGATT ATCATGCCTT CCAGACTCTG
    ACACATATCT ATAACAAGGT GAGGACTGGA GAAAAAGTGA AAGTTGAACA TGTGGTCAGT
    GTCCTGGAGA AGAAATATCC GTATGTAGAA GTGAATAGCA TTTTGGGGAT TGATTCTGCT
    TATGATCGGA ATCGGAAGGA AGCAAGAGGC TACTATGAGC AGACTGGAGT TGGACCTCTG
    CCCGTTGTGC TGTTCAATGG AATGCCCTTT GAAAGGGAAC AGCTAGACCC TGATGAGTTA
    GAAACCATCA CAATGCATAA AATCCTGGAG ACCACCACCT TCTTCCAAAG AGCGGTGTAC
    TTGGGTGAAC TGCCCCATGA TCAAGATGTG GTAGAGTATA TCATGAATCA GCCAAATGTT
    GTTCCACGAA TCAATTCTAG GATTTTGACA GCTGAACGAG ACTACCTGGA TTTAACAGCG
    AGTAATAACT TCTTTGTGGA TGATTATGCT AGATTTACTA TCTTGGATTC CCAAGGCAAG
    ACTGCTGCTG TAGCCAATAG TATGAACTAT CTGACAAAGA AAGGAATGTC CTCCAAGGAA
    ATCTATGATG ATTCTTTTAT TAGGCCAGTA ACTTTTTGGA TTGTTGGGGA TTTTGATAGC
    CCTTCTGGAC GGCAGTTACT GTATGATGCC ATCAAACATC AGAAATCCAG TAACAATGTT
    AGAATAAGCA TGATCAATAA TCCTGCCAAA GAGATAAGCT ATGAGAACAC TCAGATCTCC
    AGAGCAATCT GGGCAGCTCT CCAAACTCAG ACTTCCAACG CTGCTAAGAA CTTCATCACC
    AAAATGGCCA AGGAGGGGGC TGCAGAGGCC CTGGCTGCAG GAGCTGACAT TGCGGAGTTC
    TCTGTTGGGG GAATGGATTT CAGTCTTTTT AAAGAGGTCT TTGAGTCTTC CAAAATGGAT
    TTCATTTTGT CTCATGCCGT GTACTGCAGG GATGTTCTGA AGCTGAAGAA GGGACAGAGG
    GCAGTGATCA GCAATGGAAG GATCATTGGG CCACTGGAGG ATAGTGAGCT CTTTAATCAA
    GACGATTTCC ACCTCCTCGA AAATATCATC TTAAAAACCT CAGGACAGAA AATAAAATCT
    CATATTCAAC AGCTTCGGGT AGAAGAAGAT GTGGCAAGCG ACTTGGTAAT GAAGGTGGAT
    GCTCTTCTGT CAGCGCAACC AAAAGGAGAT CCAAGAATCG AGTACCAGTT TTTTGAAGAC
    AGACACAGTG CAATCAAACT GAGGCCGAAG GAAGGGGAGA CATACTTTGA TGTTGTGGCT
    GTCGTTGACC CTGTCACCAG AGAAGCACAG AGACTTGCTC CTTTGCTCTT GGTTTTGGCT
    CAGCTGATAA ACATGAATCT GAGAGTATTT ATGAACTGCC AATCCAAACT TTCTGACATG
    CCTTTAAAAA GCTTTTACCG TTATGTCTTA GAACCAGAGA TTTCTTTCAC TTCAGACAAT
    AGTTTTGCTA AGGGTCCAAT CGCAAAATTT TTGGATATGC CTCAGTCTCC ACTGTTCACT
    CTGAATTTGA ACACACCTGA GAGCTGGATG GTAGAATCTG TCAGAACACC ATATGATCTT
    GATAATATTT ATTTAGAAGA GGTGGACAGT GTAGTGGCTG CTGAGTATGA GCTGGAATAC
    CTGTTACTGG AAGGTCATTG CTACGACATC ACCACAGGCC AGCCTCCACG GGGACTACAG
    TTTACCTTAG GAACTTCAGC CAACCCGGTC ATTGTGGACA CCATTGTTAT GGCCAATCTG
    GGCTACTTTC AGCTGAAAGC CAACCCAGGA GCTTGGATCC TCAGACTTAG GAAGGGACGC
    TCTGAAGATA TTTATAGAAT TTACAGCCAC GATGGCACTG ATTCTCCCCC TGATGCTGAT
    GAGGTGGTTA TCGTCCTCAA CAACTTCAAA AGCAAAATTA TTAAAGTGAA GGTTCAGAAG
    AAGGCAGATA TGGTGAACGA AGACTTGCTG AGTGATGGAA CGAGTGAGAA TGAATCTGGA
    TTTTGGGATT CCTTCAAATG GGGCTTTACA GGACAGAAGA CTGAGGAAGT GAAGCAAGAT
    AAAGATGACA TAATTAATAT TTTCTCCGTT GCATCTGGTC ATCTCTACGA AAGATTTCTT
    CGCATAATGA TGCTATCCGT GCTGAAGAAT ACCAAGACTC CTGTGAAATT CTGGTTCTTG
    AAGAATTACT TGTCCCCCAC ATTTAAGGAG TTTATACCTT ACATGGCAAA TGAATACAAT
    TTCCAGTATG AGCTTGTTCA GTACAAATGG CCCCGGTGGC TTCATCAACA AACTGAAAAA
    CAGCGTATCA TCTGGGGTTA CAAGATCCTC TTCCTGGATG TACTTTTCCC ACTAGTTGTT
    GACAAGTTCC TGTTTGTGGA TGCTGATCAG ATTGTACGAA CAGATCTGAA AGAGTTAAGA
    GATTTCAATT TGGATGGTGC TCCTTATGGT TACACTCCTT TCTGTGACAG CCGAAGAGAA
    ATGGACGGCT ACAGGTTCTG GAAGTCAGGG TACTGGGCCA GTCATTTAGC CGGGCGAAAG
    TATCATATCA GTGCACTATA TGTTGTGGAT CTGAAGAAGT TTAGGAAAAT AGCTGCTGGT
    GACAGACTCA GGGGACAGTA CCAAGGTCTG AGTCAGGACC CTAACAGCCT TTCAAATCTT
    GATCAAGATC TGCCCAATAA CATGATTCAT CAGGTGCCAA TTAAATCCCT CCCTCAAGAA
    TGGCTTTGGT GTGAAACGTG GTGTGATGAC GCCTCTAAGA AAAGGGCAAA AACCATTGAT
    TTGTGTAATA ATCCGATGAC CAAAGAGCCG AAACTGGAAG CAGCTGTGCG GATTGTCCCG
    GAGTGGCAGG ACTACGACCA AGAGATCAAA CAGCTACAGA TCCGCTTTCA GAAGGAGAAA
    GAAACGGGAG CACTGTACAA AGAGAAGACA AAAGAACCAA GCCGAGAAGG TCCTCAGAAA
    CGTGAAGAAT TATGA

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