IGSF10 cDNA ORF clone, Homo sapiens(human)

The following IGSF10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IGSF10 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
OHu11062 NM_001178146.2
Latest version!
Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $349.30
$499.00
OHu11597 NM_001178145.2
Latest version!
Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $384.30
$549.00
OHu00901 NM_178822.4
Latest version!
Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $923.30
$1319.00
OHu00901 XM_011512709.2
Latest version!
Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $923.30
$1319.00
OHu37896 XM_011512708.2
Latest version!
Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
View Old Accession Versions >>
OHu00901 XM_011512709.1 Homo sapiens immunoglobulin superfamily, member 10 (IGSF10), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $923.30
$1319.00
OHu11062 NM_001178146.1 Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $349.30
$499.00
OHu11597 NM_001178145.1 Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $384.30
$549.00
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 OHu11062
    Clone ID Related Accession (Same CDS sequence) NM_001178146.2 , NM_001178146.1
    Accession Version NM_001178146.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1809bp)
    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 2019-06-01
    Organism Homo sapiens(human)
    Product immunoglobulin superfamily member 10 isoform 3
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB051634.1 and AC024886.20. On Jun 2, 2019 this sequence version replaced NM_001178146.1. Transcript Variant: This variant (3) differs in the 5' UTR and coding sequence compared to variant 1. The resulting isoform (3) is shorter at the N-terminus compared to isoform 1. 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. ##Evidence-Data-START## Transcript exon combination :: BC031063.1, SRR5189667.325000.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [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
    ATGGGGGATG ATCTGATACT GATGCATGTT AGCCTAAGAC TGAAACCTGC CAAAATTGAC 
    CACAAGCAGT ATTTTAGAAA GCAAGTGCTC CATGGGAAAG ATTTCCAAGT AGATTGCAAA
    GCTTCCGGCT CCCCAGTGCC AGAGATATCT TGGAGTTTGC CTGATGGAAC CATGATCAAC
    AATGCAATGC AAGCCGATGA CAGTGGCCAC AGGACTAGGA GATATACCCT TTTCAACAAT
    GGAACTTTAT ACTTCAACAA AGTTGGGGTA GCGGAGGAAG GAGATTATAC TTGCTATGCC
    CAGAACACCC TAGGGAAAGA TGAAATGAAG GTCCACTTAA CAGTTATAAC AGCTGCTCCC
    CGGATAAGGC AGAGTAACAA AACCAACAAG AGAATCAAAG CTGGAGACAC AGCTGTCCTT
    GACTGTGAGG TCACTGGGGA TCCCAAACCA AAAATATTTT GGTTGCTGCC TTCCAATGAC
    ATGATTTCCT TCTCCATTGA TAGGTACACA TTTCATGCCA ATGGGTCTTT GACCATCAAC
    AAAGTGAAAC TGCTCGATTC TGGAGAGTAC GTATGTGTAG CCCGAAATCC CAGTGGGGAT
    GACACCAAAA TGTACAAACT GGATGTGGTC TCTAAACCTC CATTAATCAA TGGTCTGTAT
    ACAAACAGAA CTGTTATTAA AGCCACAGCT GTGAGACATT CCAAAAAACA CTTTGACTGC
    AGAGCTGAAG GGACACCATC TCCTGAAGTC ATGTGGATCA TGCCAGACAA TATTTTCCTC
    ACAGCCCCAT ACTATGGAAG CAGAATCACA GTCCATAAAA ATGGAACCTT GGAAATTAGG
    AATGTGAGGC TTTCAGATTC AGCCGACTTT ATCTGTGTGG CCCGAAATGA AGGTGGAGAG
    AGCGTGTTGG TAGTACAGTT AGAAGTACTG GAAATGCTGA GAAGACCGAC ATTTAGAAAT
    CCATTTAATG AAAAAATAGT TGCCCAGCTG GGAAAGTCCA CAGCATTGAA TTGCTCTGTT
    GATGGTAACC CACCACCTGA AATAATCTGG ATTTTACCAA ATGGCACACG ATTTTCCAAT
    GGACCACAAA GTTATCAGTA TCTGATAGCA AGCAATGGTT CTTTTATCAT TTCTAAAACA
    ACTCGGGAGG ATGCAGGAAA ATATCGCTGT GCAGCTAGGA ATAAAGTTGG CTATATTGAG
    AAATTAGTCA TATTAGAAAT TGGCCAGAAG CCAGTTATTC TTACCTATGC ACCAGGGACA
    GTAAAAGGCA TCAGTGGAGA ATCTCTATCA CTGCATTGTG TGTCTGATGG AATCCCTAAG
    CCAAATATCA AATGGACTAT GCCAAGTGGT TATGTAGTAG ACAGGCCTCA AATTAATGGG
    AAATACATAT TGCATGACAA TGGCACCTTA GTCATTAAAG AAGCAACAGC TTATGACAGA
    GGAAACTATA TCTGTAAGGC TCAAAATAGT GTTGGTCATA CACTGATTAC TGTTCCAGTA
    ATGATTGTAG CCTACCCTCC CCGAATTACA AATCGTCCAC CCAGGAGTAT TGTCACCAGG
    ACAGGGGCAG CCTTTCAGCT CCACTGTGTG GCCTTGGGAG TTCCCAAGCC AGAAATCACA
    TGGGAGATGC CTGACCACTC CCTTCTCTCA ACGGCAAGTA AAGAGAGGAC ACATGGAAGT
    GAGCAGCTTC ACTTACAAGG TACCCTAGTC ATTCAGAATC CCCAAACCTC CGATTCTGGG
    ATATACAAAT GCACAGCAAA GAACCCACTT GGTAGTGATT ATGCAGCAAC GTATATTCAA
    GTAATCTGA

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

    RefSeq NP_001171617.1
    CDS154..1962
    Translation

    Target ORF information:

    RefSeq Version NM_001178146.2
    Organism Homo sapiens(human)
    Definition Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001178146.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGGGGGATG ATCTGATACT GATGCATGTT AGCCTAAGAC TGAAACCTGC CAAAATTGAC 
    CACAAGCAGT ATTTTAGAAA GCAAGTGCTC CATGGGAAAG ATTTCCAAGT AGATTGCAAA
    GCTTCCGGCT CCCCAGTGCC AGAGATATCT TGGAGTTTGC CTGATGGAAC CATGATCAAC
    AATGCAATGC AAGCCGATGA CAGTGGCCAC AGGACTAGGA GATATACCCT TTTCAACAAT
    GGAACTTTAT ACTTCAACAA AGTTGGGGTA GCGGAGGAAG GAGATTATAC TTGCTATGCC
    CAGAACACCC TAGGGAAAGA TGAAATGAAG GTCCACTTAA CAGTTATAAC AGCTGCTCCC
    CGGATAAGGC AGAGTAACAA AACCAACAAG AGAATCAAAG CTGGAGACAC AGCTGTCCTT
    GACTGTGAGG TCACTGGGGA TCCCAAACCA AAAATATTTT GGTTGCTGCC TTCCAATGAC
    ATGATTTCCT TCTCCATTGA TAGGTACACA TTTCATGCCA ATGGGTCTTT GACCATCAAC
    AAAGTGAAAC TGCTCGATTC TGGAGAGTAC GTATGTGTAG CCCGAAATCC CAGTGGGGAT
    GACACCAAAA TGTACAAACT GGATGTGGTC TCTAAACCTC CATTAATCAA TGGTCTGTAT
    ACAAACAGAA CTGTTATTAA AGCCACAGCT GTGAGACATT CCAAAAAACA CTTTGACTGC
    AGAGCTGAAG GGACACCATC TCCTGAAGTC ATGTGGATCA TGCCAGACAA TATTTTCCTC
    ACAGCCCCAT ACTATGGAAG CAGAATCACA GTCCATAAAA ATGGAACCTT GGAAATTAGG
    AATGTGAGGC TTTCAGATTC AGCCGACTTT ATCTGTGTGG CCCGAAATGA AGGTGGAGAG
    AGCGTGTTGG TAGTACAGTT AGAAGTACTG GAAATGCTGA GAAGACCGAC ATTTAGAAAT
    CCATTTAATG AAAAAATAGT TGCCCAGCTG GGAAAGTCCA CAGCATTGAA TTGCTCTGTT
    GATGGTAACC CACCACCTGA AATAATCTGG ATTTTACCAA ATGGCACACG ATTTTCCAAT
    GGACCACAAA GTTATCAGTA TCTGATAGCA AGCAATGGTT CTTTTATCAT TTCTAAAACA
    ACTCGGGAGG ATGCAGGAAA ATATCGCTGT GCAGCTAGGA ATAAAGTTGG CTATATTGAG
    AAATTAGTCA TATTAGAAAT TGGCCAGAAG CCAGTTATTC TTACCTATGC ACCAGGGACA
    GTAAAAGGCA TCAGTGGAGA ATCTCTATCA CTGCATTGTG TGTCTGATGG AATCCCTAAG
    CCAAATATCA AATGGACTAT GCCAAGTGGT TATGTAGTAG ACAGGCCTCA AATTAATGGG
    AAATACATAT TGCATGACAA TGGCACCTTA GTCATTAAAG AAGCAACAGC TTATGACAGA
    GGAAACTATA TCTGTAAGGC TCAAAATAGT GTTGGTCATA CACTGATTAC TGTTCCAGTA
    ATGATTGTAG CCTACCCTCC CCGAATTACA AATCGTCCAC CCAGGAGTAT TGTCACCAGG
    ACAGGGGCAG CCTTTCAGCT CCACTGTGTG GCCTTGGGAG TTCCCAAGCC AGAAATCACA
    TGGGAGATGC CTGACCACTC CCTTCTCTCA ACGGCAAGTA AAGAGAGGAC ACATGGAAGT
    GAGCAGCTTC ACTTACAAGG TACCCTAGTC ATTCAGAATC CCCAAACCTC CGATTCTGGG
    ATATACAAAT GCACAGCAAA GAACCCACTT GGTAGTGATT ATGCAGCAAC GTATATTCAA
    GTAATCTGA

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

    CloneID OHu11062
    Clone ID Related Accession (Same CDS sequence) NM_001178146.2 , NM_001178146.1
    Accession Version NM_001178146.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1809bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-06-23
    Organism Homo sapiens(human)
    Product immunoglobulin superfamily member 10 isoform 3
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB051634.1 and AC024886.20. Transcript Variant: This variant (3) differs in the 5' UTR and coding sequence compared to variant 1. The resulting isoform (3) is shorter at the N-terminus compared to isoform 1. 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. ##Evidence-Data-START## Transcript exon combination :: DB051634.1, BC031063.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [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
    ATGGGGGATG ATCTGATACT GATGCATGTT AGCCTAAGAC TGAAACCTGC CAAAATTGAC 
    CACAAGCAGT ATTTTAGAAA GCAAGTGCTC CATGGGAAAG ATTTCCAAGT AGATTGCAAA
    GCTTCCGGCT CCCCAGTGCC AGAGATATCT TGGAGTTTGC CTGATGGAAC CATGATCAAC
    AATGCAATGC AAGCCGATGA CAGTGGCCAC AGGACTAGGA GATATACCCT TTTCAACAAT
    GGAACTTTAT ACTTCAACAA AGTTGGGGTA GCGGAGGAAG GAGATTATAC TTGCTATGCC
    CAGAACACCC TAGGGAAAGA TGAAATGAAG GTCCACTTAA CAGTTATAAC AGCTGCTCCC
    CGGATAAGGC AGAGTAACAA AACCAACAAG AGAATCAAAG CTGGAGACAC AGCTGTCCTT
    GACTGTGAGG TCACTGGGGA TCCCAAACCA AAAATATTTT GGTTGCTGCC TTCCAATGAC
    ATGATTTCCT TCTCCATTGA TAGGTACACA TTTCATGCCA ATGGGTCTTT GACCATCAAC
    AAAGTGAAAC TGCTCGATTC TGGAGAGTAC GTATGTGTAG CCCGAAATCC CAGTGGGGAT
    GACACCAAAA TGTACAAACT GGATGTGGTC TCTAAACCTC CATTAATCAA TGGTCTGTAT
    ACAAACAGAA CTGTTATTAA AGCCACAGCT GTGAGACATT CCAAAAAACA CTTTGACTGC
    AGAGCTGAAG GGACACCATC TCCTGAAGTC ATGTGGATCA TGCCAGACAA TATTTTCCTC
    ACAGCCCCAT ACTATGGAAG CAGAATCACA GTCCATAAAA ATGGAACCTT GGAAATTAGG
    AATGTGAGGC TTTCAGATTC AGCCGACTTT ATCTGTGTGG CCCGAAATGA AGGTGGAGAG
    AGCGTGTTGG TAGTACAGTT AGAAGTACTG GAAATGCTGA GAAGACCGAC ATTTAGAAAT
    CCATTTAATG AAAAAATAGT TGCCCAGCTG GGAAAGTCCA CAGCATTGAA TTGCTCTGTT
    GATGGTAACC CACCACCTGA AATAATCTGG ATTTTACCAA ATGGCACACG ATTTTCCAAT
    GGACCACAAA GTTATCAGTA TCTGATAGCA AGCAATGGTT CTTTTATCAT TTCTAAAACA
    ACTCGGGAGG ATGCAGGAAA ATATCGCTGT GCAGCTAGGA ATAAAGTTGG CTATATTGAG
    AAATTAGTCA TATTAGAAAT TGGCCAGAAG CCAGTTATTC TTACCTATGC ACCAGGGACA
    GTAAAAGGCA TCAGTGGAGA ATCTCTATCA CTGCATTGTG TGTCTGATGG AATCCCTAAG
    CCAAATATCA AATGGACTAT GCCAAGTGGT TATGTAGTAG ACAGGCCTCA AATTAATGGG
    AAATACATAT TGCATGACAA TGGCACCTTA GTCATTAAAG AAGCAACAGC TTATGACAGA
    GGAAACTATA TCTGTAAGGC TCAAAATAGT GTTGGTCATA CACTGATTAC TGTTCCAGTA
    ATGATTGTAG CCTACCCTCC CCGAATTACA AATCGTCCAC CCAGGAGTAT TGTCACCAGG
    ACAGGGGCAG CCTTTCAGCT CCACTGTGTG GCCTTGGGAG TTCCCAAGCC AGAAATCACA
    TGGGAGATGC CTGACCACTC CCTTCTCTCA ACGGCAAGTA AAGAGAGGAC ACATGGAAGT
    GAGCAGCTTC ACTTACAAGG TACCCTAGTC ATTCAGAATC CCCAAACCTC CGATTCTGGG
    ATATACAAAT GCACAGCAAA GAACCCACTT GGTAGTGATT ATGCAGCAAC GTATATTCAA
    GTAATCTGA

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

    RefSeq NP_001171617.1
    CDS164..1972
    Translation

    Target ORF information:

    RefSeq Version NM_001178146.1
    Organism Homo sapiens(human)
    Definition Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001178146.1

    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
    ATGGGGGATG ATCTGATACT GATGCATGTT AGCCTAAGAC TGAAACCTGC CAAAATTGAC 
    CACAAGCAGT ATTTTAGAAA GCAAGTGCTC CATGGGAAAG ATTTCCAAGT AGATTGCAAA
    GCTTCCGGCT CCCCAGTGCC AGAGATATCT TGGAGTTTGC CTGATGGAAC CATGATCAAC
    AATGCAATGC AAGCCGATGA CAGTGGCCAC AGGACTAGGA GATATACCCT TTTCAACAAT
    GGAACTTTAT ACTTCAACAA AGTTGGGGTA GCGGAGGAAG GAGATTATAC TTGCTATGCC
    CAGAACACCC TAGGGAAAGA TGAAATGAAG GTCCACTTAA CAGTTATAAC AGCTGCTCCC
    CGGATAAGGC AGAGTAACAA AACCAACAAG AGAATCAAAG CTGGAGACAC AGCTGTCCTT
    GACTGTGAGG TCACTGGGGA TCCCAAACCA AAAATATTTT GGTTGCTGCC TTCCAATGAC
    ATGATTTCCT TCTCCATTGA TAGGTACACA TTTCATGCCA ATGGGTCTTT GACCATCAAC
    AAAGTGAAAC TGCTCGATTC TGGAGAGTAC GTATGTGTAG CCCGAAATCC CAGTGGGGAT
    GACACCAAAA TGTACAAACT GGATGTGGTC TCTAAACCTC CATTAATCAA TGGTCTGTAT
    ACAAACAGAA CTGTTATTAA AGCCACAGCT GTGAGACATT CCAAAAAACA CTTTGACTGC
    AGAGCTGAAG GGACACCATC TCCTGAAGTC ATGTGGATCA TGCCAGACAA TATTTTCCTC
    ACAGCCCCAT ACTATGGAAG CAGAATCACA GTCCATAAAA ATGGAACCTT GGAAATTAGG
    AATGTGAGGC TTTCAGATTC AGCCGACTTT ATCTGTGTGG CCCGAAATGA AGGTGGAGAG
    AGCGTGTTGG TAGTACAGTT AGAAGTACTG GAAATGCTGA GAAGACCGAC ATTTAGAAAT
    CCATTTAATG AAAAAATAGT TGCCCAGCTG GGAAAGTCCA CAGCATTGAA TTGCTCTGTT
    GATGGTAACC CACCACCTGA AATAATCTGG ATTTTACCAA ATGGCACACG ATTTTCCAAT
    GGACCACAAA GTTATCAGTA TCTGATAGCA AGCAATGGTT CTTTTATCAT TTCTAAAACA
    ACTCGGGAGG ATGCAGGAAA ATATCGCTGT GCAGCTAGGA ATAAAGTTGG CTATATTGAG
    AAATTAGTCA TATTAGAAAT TGGCCAGAAG CCAGTTATTC TTACCTATGC ACCAGGGACA
    GTAAAAGGCA TCAGTGGAGA ATCTCTATCA CTGCATTGTG TGTCTGATGG AATCCCTAAG
    CCAAATATCA AATGGACTAT GCCAAGTGGT TATGTAGTAG ACAGGCCTCA AATTAATGGG
    AAATACATAT TGCATGACAA TGGCACCTTA GTCATTAAAG AAGCAACAGC TTATGACAGA
    GGAAACTATA TCTGTAAGGC TCAAAATAGT GTTGGTCATA CACTGATTAC TGTTCCAGTA
    ATGATTGTAG CCTACCCTCC CCGAATTACA AATCGTCCAC CCAGGAGTAT TGTCACCAGG
    ACAGGGGCAG CCTTTCAGCT CCACTGTGTG GCCTTGGGAG TTCCCAAGCC AGAAATCACA
    TGGGAGATGC CTGACCACTC CCTTCTCTCA ACGGCAAGTA AAGAGAGGAC ACATGGAAGT
    GAGCAGCTTC ACTTACAAGG TACCCTAGTC ATTCAGAATC CCCAAACCTC CGATTCTGGG
    ATATACAAAT GCACAGCAAA GAACCCACTT GGTAGTGATT ATGCAGCAAC GTATATTCAA
    GTAATCTGA

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

    CloneID OHu11597
    Clone ID Related Accession (Same CDS sequence) NM_001178145.1 , NM_001178145.2
    Accession Version NM_001178145.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1953bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-06-23
    Organism Homo sapiens(human)
    Product immunoglobulin superfamily member 10 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB051634.1, DB054913.1 and AC024886.20. Transcript Variant: This variant (2) differs in the 5' UTR and coding sequence compared to variant 1. The resulting isoform (2) has a shorter and distinct N-terminus compared to isoform 1. 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. ##Evidence-Data-START## Transcript exon combination :: AK093069.1, BI561617.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [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
    ATGGTGGAAA GCGTAAGGCT TGAGAACCAG CCCTGTGACC TAAGAGTGGG CAGCTGGATC 
    CACGTCTACC CTAATGGATC CCTGTTTATT GGATCAGTAA CAGAAAAAGA CAGTGGTGTC
    TACTTGTGTG TGGCAAGAAA CAAAATGGGG GATGATCTGA TACTGATGCA TGTTAGCCTA
    AGACTGAAAC CTGCCAAAAT TGACCACAAG CAGTATTTTA GAAAGCAAGT GCTCCATGGG
    AAAGATTTCC AAGTAGATTG CAAAGCTTCC GGCTCCCCAG TGCCAGAGAT ATCTTGGAGT
    TTGCCTGATG GAACCATGAT CAACAATGCA ATGCAAGCCG ATGACAGTGG CCACAGGACT
    AGGAGATATA CCCTTTTCAA CAATGGAACT TTATACTTCA ACAAAGTTGG GGTAGCGGAG
    GAAGGAGATT ATACTTGCTA TGCCCAGAAC ACCCTAGGGA AAGATGAAAT GAAGGTCCAC
    TTAACAGTTA TAACAGCTGC TCCCCGGATA AGGCAGAGTA ACAAAACCAA CAAGAGAATC
    AAAGCTGGAG ACACAGCTGT CCTTGACTGT GAGGTCACTG GGGATCCCAA ACCAAAAATA
    TTTTGGTTGC TGCCTTCCAA TGACATGATT TCCTTCTCCA TTGATAGGTA CACATTTCAT
    GCCAATGGGT CTTTGACCAT CAACAAAGTG AAACTGCTCG ATTCTGGAGA GTACGTATGT
    GTAGCCCGAA ATCCCAGTGG GGATGACACC AAAATGTACA AACTGGATGT GGTCTCTAAA
    CCTCCATTAA TCAATGGTCT GTATACAAAC AGAACTGTTA TTAAAGCCAC AGCTGTGAGA
    CATTCCAAAA AACACTTTGA CTGCAGAGCT GAAGGGACAC CATCTCCTGA AGTCATGTGG
    ATCATGCCAG ACAATATTTT CCTCACAGCC CCATACTATG GAAGCAGAAT CACAGTCCAT
    AAAAATGGAA CCTTGGAAAT TAGGAATGTG AGGCTTTCAG ATTCAGCCGA CTTTATCTGT
    GTGGCCCGAA ATGAAGGTGG AGAGAGCGTG TTGGTAGTAC AGTTAGAAGT ACTGGAAATG
    CTGAGAAGAC CGACATTTAG AAATCCATTT AATGAAAAAA TAGTTGCCCA GCTGGGAAAG
    TCCACAGCAT TGAATTGCTC TGTTGATGGT AACCCACCAC CTGAAATAAT CTGGATTTTA
    CCAAATGGCA CACGATTTTC CAATGGACCA CAAAGTTATC AGTATCTGAT AGCAAGCAAT
    GGTTCTTTTA TCATTTCTAA AACAACTCGG GAGGATGCAG GAAAATATCG CTGTGCAGCT
    AGGAATAAAG TTGGCTATAT TGAGAAATTA GTCATATTAG AAATTGGCCA GAAGCCAGTT
    ATTCTTACCT ATGCACCAGG GACAGTAAAA GGCATCAGTG GAGAATCTCT ATCACTGCAT
    TGTGTGTCTG ATGGAATCCC TAAGCCAAAT ATCAAATGGA CTATGCCAAG TGGTTATGTA
    GTAGACAGGC CTCAAATTAA TGGGAAATAC ATATTGCATG ACAATGGCAC CTTAGTCATT
    AAAGAAGCAA CAGCTTATGA CAGAGGAAAC TATATCTGTA AGGCTCAAAA TAGTGTTGGT
    CATACACTGA TTACTGTTCC AGTAATGATT GTAGCCTACC CTCCCCGAAT TACAAATCGT
    CCACCCAGGA GTATTGTCAC CAGGACAGGG GCAGCCTTTC AGCTCCACTG TGTGGCCTTG
    GGAGTTCCCA AGCCAGAAAT CACATGGGAG ATGCCTGACC ACTCCCTTCT CTCAACGGCA
    AGTAAAGAGA GGACACATGG AAGTGAGCAG CTTCACTTAC AAGGTACCCT AGTCATTCAG
    AATCCCCAAA CCTCCGATTC TGGGATATAC AAATGCACAG CAAAGAACCC ACTTGGTAGT
    GATTATGCAG CAACGTATAT TCAAGTAATC TGA

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

    RefSeq NP_001171616.1
    CDS173..2125
    Translation

    Target ORF information:

    RefSeq Version NM_001178145.1
    Organism Homo sapiens(human)
    Definition Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001178145.1

    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
    ATGGTGGAAA GCGTAAGGCT TGAGAACCAG CCCTGTGACC TAAGAGTGGG CAGCTGGATC 
    CACGTCTACC CTAATGGATC CCTGTTTATT GGATCAGTAA CAGAAAAAGA CAGTGGTGTC
    TACTTGTGTG TGGCAAGAAA CAAAATGGGG GATGATCTGA TACTGATGCA TGTTAGCCTA
    AGACTGAAAC CTGCCAAAAT TGACCACAAG CAGTATTTTA GAAAGCAAGT GCTCCATGGG
    AAAGATTTCC AAGTAGATTG CAAAGCTTCC GGCTCCCCAG TGCCAGAGAT ATCTTGGAGT
    TTGCCTGATG GAACCATGAT CAACAATGCA ATGCAAGCCG ATGACAGTGG CCACAGGACT
    AGGAGATATA CCCTTTTCAA CAATGGAACT TTATACTTCA ACAAAGTTGG GGTAGCGGAG
    GAAGGAGATT ATACTTGCTA TGCCCAGAAC ACCCTAGGGA AAGATGAAAT GAAGGTCCAC
    TTAACAGTTA TAACAGCTGC TCCCCGGATA AGGCAGAGTA ACAAAACCAA CAAGAGAATC
    AAAGCTGGAG ACACAGCTGT CCTTGACTGT GAGGTCACTG GGGATCCCAA ACCAAAAATA
    TTTTGGTTGC TGCCTTCCAA TGACATGATT TCCTTCTCCA TTGATAGGTA CACATTTCAT
    GCCAATGGGT CTTTGACCAT CAACAAAGTG AAACTGCTCG ATTCTGGAGA GTACGTATGT
    GTAGCCCGAA ATCCCAGTGG GGATGACACC AAAATGTACA AACTGGATGT GGTCTCTAAA
    CCTCCATTAA TCAATGGTCT GTATACAAAC AGAACTGTTA TTAAAGCCAC AGCTGTGAGA
    CATTCCAAAA AACACTTTGA CTGCAGAGCT GAAGGGACAC CATCTCCTGA AGTCATGTGG
    ATCATGCCAG ACAATATTTT CCTCACAGCC CCATACTATG GAAGCAGAAT CACAGTCCAT
    AAAAATGGAA CCTTGGAAAT TAGGAATGTG AGGCTTTCAG ATTCAGCCGA CTTTATCTGT
    GTGGCCCGAA ATGAAGGTGG AGAGAGCGTG TTGGTAGTAC AGTTAGAAGT ACTGGAAATG
    CTGAGAAGAC CGACATTTAG AAATCCATTT AATGAAAAAA TAGTTGCCCA GCTGGGAAAG
    TCCACAGCAT TGAATTGCTC TGTTGATGGT AACCCACCAC CTGAAATAAT CTGGATTTTA
    CCAAATGGCA CACGATTTTC CAATGGACCA CAAAGTTATC AGTATCTGAT AGCAAGCAAT
    GGTTCTTTTA TCATTTCTAA AACAACTCGG GAGGATGCAG GAAAATATCG CTGTGCAGCT
    AGGAATAAAG TTGGCTATAT TGAGAAATTA GTCATATTAG AAATTGGCCA GAAGCCAGTT
    ATTCTTACCT ATGCACCAGG GACAGTAAAA GGCATCAGTG GAGAATCTCT ATCACTGCAT
    TGTGTGTCTG ATGGAATCCC TAAGCCAAAT ATCAAATGGA CTATGCCAAG TGGTTATGTA
    GTAGACAGGC CTCAAATTAA TGGGAAATAC ATATTGCATG ACAATGGCAC CTTAGTCATT
    AAAGAAGCAA CAGCTTATGA CAGAGGAAAC TATATCTGTA AGGCTCAAAA TAGTGTTGGT
    CATACACTGA TTACTGTTCC AGTAATGATT GTAGCCTACC CTCCCCGAAT TACAAATCGT
    CCACCCAGGA GTATTGTCAC CAGGACAGGG GCAGCCTTTC AGCTCCACTG TGTGGCCTTG
    GGAGTTCCCA AGCCAGAAAT CACATGGGAG ATGCCTGACC ACTCCCTTCT CTCAACGGCA
    AGTAAAGAGA GGACACATGG AAGTGAGCAG CTTCACTTAC AAGGTACCCT AGTCATTCAG
    AATCCCCAAA CCTCCGATTC TGGGATATAC AAATGCACAG CAAAGAACCC ACTTGGTAGT
    GATTATGCAG CAACGTATAT TCAAGTAATC TGA

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

    CloneID OHu11597
    Clone ID Related Accession (Same CDS sequence) NM_001178145.1 , NM_001178145.2
    Accession Version NM_001178145.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1953bp)
    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 2019-06-01
    Organism Homo sapiens(human)
    Product immunoglobulin superfamily member 10 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB051634.1, DB054913.1 and AC024886.20. On Jun 2, 2019 this sequence version replaced NM_001178145.1. Transcript Variant: This variant (2) differs in the 5' UTR and coding sequence compared to variant 1. The resulting isoform (2) has a shorter and distinct N-terminus compared to isoform 1. 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. ##Evidence-Data-START## Transcript exon combination :: AK093069.1, DB054913.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [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
    ATGGTGGAAA GCGTAAGGCT TGAGAACCAG CCCTGTGACC TAAGAGTGGG CAGCTGGATC 
    CACGTCTACC CTAATGGATC CCTGTTTATT GGATCAGTAA CAGAAAAAGA CAGTGGTGTC
    TACTTGTGTG TGGCAAGAAA CAAAATGGGG GATGATCTGA TACTGATGCA TGTTAGCCTA
    AGACTGAAAC CTGCCAAAAT TGACCACAAG CAGTATTTTA GAAAGCAAGT GCTCCATGGG
    AAAGATTTCC AAGTAGATTG CAAAGCTTCC GGCTCCCCAG TGCCAGAGAT ATCTTGGAGT
    TTGCCTGATG GAACCATGAT CAACAATGCA ATGCAAGCCG ATGACAGTGG CCACAGGACT
    AGGAGATATA CCCTTTTCAA CAATGGAACT TTATACTTCA ACAAAGTTGG GGTAGCGGAG
    GAAGGAGATT ATACTTGCTA TGCCCAGAAC ACCCTAGGGA AAGATGAAAT GAAGGTCCAC
    TTAACAGTTA TAACAGCTGC TCCCCGGATA AGGCAGAGTA ACAAAACCAA CAAGAGAATC
    AAAGCTGGAG ACACAGCTGT CCTTGACTGT GAGGTCACTG GGGATCCCAA ACCAAAAATA
    TTTTGGTTGC TGCCTTCCAA TGACATGATT TCCTTCTCCA TTGATAGGTA CACATTTCAT
    GCCAATGGGT CTTTGACCAT CAACAAAGTG AAACTGCTCG ATTCTGGAGA GTACGTATGT
    GTAGCCCGAA ATCCCAGTGG GGATGACACC AAAATGTACA AACTGGATGT GGTCTCTAAA
    CCTCCATTAA TCAATGGTCT GTATACAAAC AGAACTGTTA TTAAAGCCAC AGCTGTGAGA
    CATTCCAAAA AACACTTTGA CTGCAGAGCT GAAGGGACAC CATCTCCTGA AGTCATGTGG
    ATCATGCCAG ACAATATTTT CCTCACAGCC CCATACTATG GAAGCAGAAT CACAGTCCAT
    AAAAATGGAA CCTTGGAAAT TAGGAATGTG AGGCTTTCAG ATTCAGCCGA CTTTATCTGT
    GTGGCCCGAA ATGAAGGTGG AGAGAGCGTG TTGGTAGTAC AGTTAGAAGT ACTGGAAATG
    CTGAGAAGAC CGACATTTAG AAATCCATTT AATGAAAAAA TAGTTGCCCA GCTGGGAAAG
    TCCACAGCAT TGAATTGCTC TGTTGATGGT AACCCACCAC CTGAAATAAT CTGGATTTTA
    CCAAATGGCA CACGATTTTC CAATGGACCA CAAAGTTATC AGTATCTGAT AGCAAGCAAT
    GGTTCTTTTA TCATTTCTAA AACAACTCGG GAGGATGCAG GAAAATATCG CTGTGCAGCT
    AGGAATAAAG TTGGCTATAT TGAGAAATTA GTCATATTAG AAATTGGCCA GAAGCCAGTT
    ATTCTTACCT ATGCACCAGG GACAGTAAAA GGCATCAGTG GAGAATCTCT ATCACTGCAT
    TGTGTGTCTG ATGGAATCCC TAAGCCAAAT ATCAAATGGA CTATGCCAAG TGGTTATGTA
    GTAGACAGGC CTCAAATTAA TGGGAAATAC ATATTGCATG ACAATGGCAC CTTAGTCATT
    AAAGAAGCAA CAGCTTATGA CAGAGGAAAC TATATCTGTA AGGCTCAAAA TAGTGTTGGT
    CATACACTGA TTACTGTTCC AGTAATGATT GTAGCCTACC CTCCCCGAAT TACAAATCGT
    CCACCCAGGA GTATTGTCAC CAGGACAGGG GCAGCCTTTC AGCTCCACTG TGTGGCCTTG
    GGAGTTCCCA AGCCAGAAAT CACATGGGAG ATGCCTGACC ACTCCCTTCT CTCAACGGCA
    AGTAAAGAGA GGACACATGG AAGTGAGCAG CTTCACTTAC AAGGTACCCT AGTCATTCAG
    AATCCCCAAA CCTCCGATTC TGGGATATAC AAATGCACAG CAAAGAACCC ACTTGGTAGT
    GATTATGCAG CAACGTATAT TCAAGTAATC TGA

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

    RefSeq NP_001171616.1
    CDS163..2115
    Translation

    Target ORF information:

    RefSeq Version NM_001178145.2
    Organism Homo sapiens(human)
    Definition Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001178145.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    ATGGTGGAAA GCGTAAGGCT TGAGAACCAG CCCTGTGACC TAAGAGTGGG CAGCTGGATC 
    CACGTCTACC CTAATGGATC CCTGTTTATT GGATCAGTAA CAGAAAAAGA CAGTGGTGTC
    TACTTGTGTG TGGCAAGAAA CAAAATGGGG GATGATCTGA TACTGATGCA TGTTAGCCTA
    AGACTGAAAC CTGCCAAAAT TGACCACAAG CAGTATTTTA GAAAGCAAGT GCTCCATGGG
    AAAGATTTCC AAGTAGATTG CAAAGCTTCC GGCTCCCCAG TGCCAGAGAT ATCTTGGAGT
    TTGCCTGATG GAACCATGAT CAACAATGCA ATGCAAGCCG ATGACAGTGG CCACAGGACT
    AGGAGATATA CCCTTTTCAA CAATGGAACT TTATACTTCA ACAAAGTTGG GGTAGCGGAG
    GAAGGAGATT ATACTTGCTA TGCCCAGAAC ACCCTAGGGA AAGATGAAAT GAAGGTCCAC
    TTAACAGTTA TAACAGCTGC TCCCCGGATA AGGCAGAGTA ACAAAACCAA CAAGAGAATC
    AAAGCTGGAG ACACAGCTGT CCTTGACTGT GAGGTCACTG GGGATCCCAA ACCAAAAATA
    TTTTGGTTGC TGCCTTCCAA TGACATGATT TCCTTCTCCA TTGATAGGTA CACATTTCAT
    GCCAATGGGT CTTTGACCAT CAACAAAGTG AAACTGCTCG ATTCTGGAGA GTACGTATGT
    GTAGCCCGAA ATCCCAGTGG GGATGACACC AAAATGTACA AACTGGATGT GGTCTCTAAA
    CCTCCATTAA TCAATGGTCT GTATACAAAC AGAACTGTTA TTAAAGCCAC AGCTGTGAGA
    CATTCCAAAA AACACTTTGA CTGCAGAGCT GAAGGGACAC CATCTCCTGA AGTCATGTGG
    ATCATGCCAG ACAATATTTT CCTCACAGCC CCATACTATG GAAGCAGAAT CACAGTCCAT
    AAAAATGGAA CCTTGGAAAT TAGGAATGTG AGGCTTTCAG ATTCAGCCGA CTTTATCTGT
    GTGGCCCGAA ATGAAGGTGG AGAGAGCGTG TTGGTAGTAC AGTTAGAAGT ACTGGAAATG
    CTGAGAAGAC CGACATTTAG AAATCCATTT AATGAAAAAA TAGTTGCCCA GCTGGGAAAG
    TCCACAGCAT TGAATTGCTC TGTTGATGGT AACCCACCAC CTGAAATAAT CTGGATTTTA
    CCAAATGGCA CACGATTTTC CAATGGACCA CAAAGTTATC AGTATCTGAT AGCAAGCAAT
    GGTTCTTTTA TCATTTCTAA AACAACTCGG GAGGATGCAG GAAAATATCG CTGTGCAGCT
    AGGAATAAAG TTGGCTATAT TGAGAAATTA GTCATATTAG AAATTGGCCA GAAGCCAGTT
    ATTCTTACCT ATGCACCAGG GACAGTAAAA GGCATCAGTG GAGAATCTCT ATCACTGCAT
    TGTGTGTCTG ATGGAATCCC TAAGCCAAAT ATCAAATGGA CTATGCCAAG TGGTTATGTA
    GTAGACAGGC CTCAAATTAA TGGGAAATAC ATATTGCATG ACAATGGCAC CTTAGTCATT
    AAAGAAGCAA CAGCTTATGA CAGAGGAAAC TATATCTGTA AGGCTCAAAA TAGTGTTGGT
    CATACACTGA TTACTGTTCC AGTAATGATT GTAGCCTACC CTCCCCGAAT TACAAATCGT
    CCACCCAGGA GTATTGTCAC CAGGACAGGG GCAGCCTTTC AGCTCCACTG TGTGGCCTTG
    GGAGTTCCCA AGCCAGAAAT CACATGGGAG ATGCCTGACC ACTCCCTTCT CTCAACGGCA
    AGTAAAGAGA GGACACATGG AAGTGAGCAG CTTCACTTAC AAGGTACCCT AGTCATTCAG
    AATCCCCAAA CCTCCGATTC TGGGATATAC AAATGCACAG CAAAGAACCC ACTTGGTAGT
    GATTATGCAG CAACGTATAT TCAAGTAATC TGA

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

    CloneID OHu00901
    Clone ID Related Accession (Same CDS sequence) XM_011512709.1 , NM_178822.4 , XM_011512709.2
    Accession Version NM_178822.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 7872bp)
    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 2019-12-27
    Organism Homo sapiens(human)
    Product immunoglobulin superfamily member 10 isoform 1 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AY273815.1 and AC024886.20. On May 13, 2010 this sequence version replaced NM_178822.3. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). 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. ##Evidence-Data-START## Transcript exon combination :: AY273815.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##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
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    ATGAAGGTAA AAGGCAGAGG AATCACCTGC TTGCTGGTCT CCTTTGCTGT GATCTGCCTG 
    GTCGCCACCC CTGGGGGCAA GGCCTGTCCT CGCCGCTGTG CCTGTTATAT GCCTACGGAG
    GTACACTGCA CATTTCGGTA CCTGACTTCC ATCCCAGACA GCATCCCGCC CAATGTGGAA
    CGCATCAATT TAGGATACAA CAGCTTGGTT AGATTGATGG AAACAGATTT TTCTGGCCTG
    ACCAAACTGG AGTTACTCAT GCTTCACAGC AATGGCATTC ACACAATCCC TGACAAGACC
    TTCTCAGATT TGCAGGCCTT GCAGGTCTTA AAAATGAGCT ATAATAAAGT CCGAAAACTT
    CAGAAAGATA CTTTTTATGG CCTCAGGAGC TTGACACGAT TGCACATGGA CCACAACAAT
    ATTGAGTTTA TAAACCCAGA GGTTTTTTAT GGGCTCAACT TTCTCCGCCT GGTGCACTTG
    GAAGGAAATC AGCTCACTAA GCTCCACCCA GATACATTTG TCTCTTTGAG CTACCTCCAG
    ATATTTAAAA TCTCTTTCAT TAAGTTCCTA TACTTGTCTG ATAACTTCCT GACCTCCCTC
    CCTCAAGAGA TGGTCTCCTA TATGCCTGAC CTAGACAGCC TTTACCTGCA TGGAAACCCA
    TGGACCTGTG ATTGCCATTT AAAGTGGTTG TCTGACTGGA TACAGGAGAA GCCAGATGTA
    ATAAAATGCA AAAAAGATAG AAGTCCCTCT AGTGCTCAGC AGTGTCCACT TTGCATGAAC
    CCTAGGACTT CTAAAGGCAA GCCGTTAGCT ATGGTCTCAG CTGCAGCTTT CCAGTGTGCC
    AAGCCAACCA TTGACTCATC CCTGAAATCA AAGAGCCTGA CTATTCTGGA AGACAGTAGT
    TCTGCTTTCA TCTCTCCCCA AGGTTTCATG GCACCCTTTG GCTCCCTCAC TTTGAATATG
    ACAGATCAGT CTGGAAATGA AGCTAACATG GTCTGCAGTA TTCAAAAGCC CTCAAGGACA
    TCACCCATTG CATTCACTGA AGAAAATGAC TACATCGTGC TAAATACTTC ATTTTCAACA
    TTTTTGGTGT GCAACATAGA TTACGGTCAC ATTCAGCCAG TGTGGCAAAT TTTGGCTTTG
    TACAGTGATT CTCCTCTGAT ACTAGAAAGG AGCCACTTGC TTAGTGAAAC ACCGCAGCTC
    TATTACAAAT ATAAACAGGT GGCTCCTAAG CCTGAAGACA TTTTTACCAA CATAGAGGCA
    GATCTCAGAG CAGATCCCTC TTGGTTAATG CAAGACCAAA TTTCCTTGCA GCTGAACAGA
    ACTGCCACCA CATTCAGTAC ATTACAGATC CAGTACTCCA GTGATGCTCA AATCACTTTA
    CCAAGAGCAG AGATGAGGCC AGTGAAACAC AAATGGACTA TGATTTCAAG GGATAACAAT
    ACTAAGCTGG AACATACTGT CTTGGTAGGT GGAACCGTTG GCCTGAACTG CCCAGGCCAA
    GGAGACCCCA CCCCACACGT GGATTGGCTT CTAGCTGATG GAAGTAAAGT GAGAGCCCCT
    TATGTCAGTG AGGATGGACG GATCCTAATA GACAAAAGTG GAAAATTGGA ACTCCAGATG
    GCTGATAGTT TTGACACAGG CGTATATCAC TGTATAAGCA GCAATTATGA TGATGCAGAT
    ATTCTCACCT ATAGGATAAC TGTGGTAGAA CCTTTGGTCG AAGCCTATCA GGAAAATGGG
    ATTCATCACA CAGTTTTCAT TGGTGAAACA CTTGATCTTC CATGCCATTC TACTGGTATC
    CCAGATGCCT CTATTAGCTG GGTTATTCCA GGAAACAATG TGCTCTATCA GTCATCAAGA
    GACAAGAAAG TTCTAAACAA TGGCACATTA AGAATATTAC AGGTCACCCC GAAAGACCAA
    GGTTATTATC GCTGTGTGGC AGCCAACCCA TCAGGGGTTG ATTTTTTGAT TTTCCAAGTT
    TCAGTCAAGA TGAAAGGACA AAGGCCCTTG GAGCATGATG GAGAAACAGA GGGATCTGGA
    CTTGATGAGT CCAATCCTAT TGCTCATCTT AAGGAGCCAC CAGGTGCACA ACTCCGTACA
    TCTGCTCTGA TGGAGGCTGA GGTTGGAAAA CACACCTCAA GCACAAGTAA GAGGCACAAC
    TATCGGGAAT TAACACTCCA GCGACGTGGA GATTCAACAC ATCGACGTTT TAGGGAGAAT
    AGGAGGCATT TCCCTCCCTC TGCTAGGAGA ATTGACCCAC AACATTGGGC GGCACTGTTG
    GAGAAAGCTA AAAAGAATGC TATGCCAGAC AAGCGAGAAA ATACCACAGT GAGCCCACCC
    CCAGTGGTCA CCCAACTCCC AAACATACCT GGTGAAGAAG ACGATTCCTC AGGCATGCTC
    GCTCTACATG AGGAATTTAT GGTCCCGGCC ACTAAAGCTT TGAACCTTCC AGCAAGGACA
    GTGACTGCTG ACTCCAGAAC AATATCTGAT AGTCCTATGA CAAACATAAA TTATGGCACA
    GAATTCTCTC CTGTTGTGAA TTCACAAATA CTACCACCTG AAGAACCCAC AGATTTCAAA
    CTGTCTACTG CTATTAAAAC TACAGCCATG TCAAAGAATA TAAACCCAAC CATGTCAAGC
    CAAATACAAG GCACAACCAA TCAACATTCA TCCACTGTCT TTCCACTGCT ACTTGGAGCA
    ACTGAATTTC AGGACTCTGA CCAGATGGGA AGAGGAAGAG AGCATTTCCA AAGTAGACCC
    CCAATAACAG TAAGGACTAT GATCAAAGAT GTCAATGTCA AAATGCTTAG TAGCACCACC
    AACAAACTAT TATTAGAGTC AGTAAATACC ACAAATAGTC ATCAGACATC TGTAAGAGAA
    GTGAGTGAAC CCAGGCACAA TCACTTCTAT TCTCACACTA CTCAAATACT TAGCACCTCC
    ACGTTCCCTT CAGATCCACA CACAGCTGCT CATTCTCAGT TTCCGATCCC TAGAAATAGT
    ACAGTTAACA TCCCGCTGTT CAGACGCTTT GGGAGGCAGA GGAAAATTGG CGGAAGGGGG
    CGGATTATCA GCCCATATAG AACTCCAGTT CTGCGACGGC ATAGATACAG CATTTTCAGG
    TCAACAACCA GAGGTTCTTC TGAAAAAAGC ACTACTGCAT TCTCAGCCAC AGTGCTCAAT
    GTGACATGTC TGTCCTGTCT TCCCAGGGAG AGGCTCACCA CTGCCACAGC AGCATTGTCT
    TTTCCAAGTG CTGCTCCCAT CACCTTCCCC AAAGCTGACA TTGCTAGAGT CCCATCAGAA
    GAGTCTACAA CTCTAGTCCA GAATCCACTA TTACTACTTG AGAACAAACC CAGTGTAGAG
    AAAACAACAC CCACAATAAA ATATTTCAGG ACTGAAATTT CCCAAGTGAC TCCAACTGGT
    GCAGTCATGA CATATGCTCC AACATCCATA CCCATGGAAA AAACTCACAA AGTAAACGCC
    AGTTACCCAC GTGTGTCTAG CACCAATGAA GCTAAAAGAG ATTCAGTGAT TACATCGTCA
    CTTTCAGGTG CTATCACCAA GCCACCAATG ACTATTATAG CCATTACAAG GTTTTCAAGA
    AGGAAAATTC CCTGGCAACA GAACTTTGTA AATAACCATA ACCCAAAAGG CAGATTAAGG
    AATCAACATA AAGTTAGTTT ACAAAAAAGC ACAGCTGTGA TGCTTCCTAA AACATCTCCT
    GCTTTACCCA GAGACAAAGT CTCCCCTTTC CATTTCACCA CACTTTCAAC AAGTGTGATG
    CAAATTCCAT CTAATACCTT GACTACCGCT CACCACACTA CGACCAAAAC ACACAATCCT
    GGAAGTCTTC CAACAAAGAA GGAGCTTCCC TTCCCACCCC TTAACCCTAT GCTTCCTAGT
    ATTATAAGCA AAGACTCAAG TACAAAAAGC ATCATATCAA CGCAAACAGC AATACCAGCA
    ACAACTCCTA CCTTCCCTGC ATCTGTCATC ACTTATGAAA CCCAAACAGA GAGATCTAGA
    GCACAAACAA TACAAAGAGA ACAGGAGCCT CAAAAGAAGA ACAGGACTGA CCCAAACATC
    TCTCCAGACC AGAGTTCTGG CTTCACTACA CCCACTGCTA TGACACCTCC TGTTCTAACC
    ACAGCCGAAA CTTCAGTCAA GCCCAGTGTC TCTGCATTCA CTCATTCCCC ACCAGAAAAC
    ACAACTGGGA TTTCAAGCAC AATCAGTTTT CATTCAAGAA CTCTTAATCT GACAGATGTG
    ATTGAAGAAC TAGCCCAAGC AAGTACTCAG ACTTTGAAGA GCACAATTGC TTCTGAAACA
    ACTTTGTCCA GCAAATCACA CCAGAGTACC ACAACTAGGA AAGCAATCAT TAGACACTCA
    ACCATACCAC CATTCTTGAG CAGCAGTGCT ACTCTAATGC CAGTTCCCAT CTCCCCTCCC
    TTTACTCAGA GAGCAGTTAC TGACAACGTG GCGACTCCCA TTTCCGGGCT TATGACAAAT
    ACAGTGGTCA AGCTGCACGA ATCCTCAAGG CACAATGCTA AACCACAGCA ATTAGTAGCA
    GAGGTTGCAA CATCCCCCAA GGTTCACCCA AATGCCAAGT TCACAATTGG AACCACTCAC
    TTCATCTACT CTAATCTGTT ACATTCTACT CCCATGCCAG CACTAACAAC AGTTAAATCA
    CAGAATTCTA AATTAACTCC ATCTCCCTGG GCAGAAAACC AATTTTGGCA CAAACCATAC
    TCAGAAATTG CTGAAAAAGG CAAAAAGCCA GAAGTAAGCA TGTTGGCTAC TACAGGCCTG
    TCCGAGGCCA CCACTCTTGT TTCAGATTGG GATGGACAGA AGAACACAAA GAAGAGTGAC
    TTTGATAAGA AACCAGTTCA AGAAGCAACA ACTTCCAAAC TCCTTCCCTT TGACTCTTTG
    TCTAGGTATA TATTTGAAAA GCCCAGGATA GTTGGAGGAA AAGCTGCAAG TTTTACTATT
    CCAGCTAACT CAGATGCCTT TCTTCCCTGT GAAGCTGTTG GAAATCCCCT GCCCACCATT
    CATTGGACCA GAGTCCCATC AGGACTTGAT TTATCTAAGA GGAAACAGAA TAGCAGGGTC
    CAGGTTCTCC CCAATGGTAC CCTGTCCATC CAGAGGGTGG AAATTCAGGA CCGCGGACAG
    TACTTGTGTT CCGCATCCAA TCTGTTTGGC ACAGACCACC TTCATGTCAC CTTGTCTGTG
    GTTTCCTATC CTCCCAGGAT CCTGGAGAGA CGTACCAAAG AGATCACAGT TCATTCCGGA
    AGCACTGTGG AACTGAAGTG CAGAGCAGAA GGTAGGCCAA GCCCTACAGT TACCTGGATT
    CTTGCAAACC AAACAGTTGT CTCAGAATCA TCCCAGGGAA GTAGGCAGGC TGTGGTGACG
    GTTGACGGAA CATTGGTCCT CCACAATCTC AGTATTTATG ACCGTGGCTT TTACAAATGT
    GTGGCCAGCA ACCCAGGTGG CCAGGATTCA CTGCTGGTTA AAATACAAGT CATTGCAGCA
    CCACCTGTTA TTCTAGAGCA AAGGAGGCAA GTCATTGTAG GCACTTGGGG TGAAAGTTTA
    AAACTGCCCT GTACTGCAAA AGGAACTCCT CAGCCCAGCG TTTACTGGGT CCTCTCTGAT
    GGCACTGAAG TGAAACCATT ACAGTTTACC AATTCCAAGT TGTTCTTATT TTCAAATGGG
    ACTTTGTATA TAAGAAACCT AGCCTCTTCA GACAGGGGCA CTTATGAATG CATTGCTACC
    AGTTCCACTG GTTCGGAGCG AAGAGTAGTA ATGCTTACAA TGGAAGAGCG AGTGACCAGC
    CCCAGGATAG AAGCTGCATC CCAGAAAAGG ACTGAAGTGA ATTTTGGGGA CAAATTACTA
    CTGAACTGCT CAGCCACTGG GGAGCCCAAA CCCCAAATAA TGTGGAGGTT ACCATCCAAG
    GCTGTGGTCG ACCAGCAGCA TAGAGTGGGC AGCTGGATCC ACGTCTACCC TAATGGATCC
    CTGTTTATTG GATCAGTAAC AGAAAAAGAC AGTGGTGTCT ACTTGTGTGT GGCAAGAAAC
    AAAATGGGGG ATGATCTGAT ACTGATGCAT GTTAGCCTAA GACTGAAACC TGCCAAAATT
    GACCACAAGC AGTATTTTAG AAAGCAAGTG CTCCATGGGA AAGATTTCCA AGTAGATTGC
    AAAGCTTCCG GCTCCCCAGT GCCAGAGATA TCTTGGAGTT TGCCTGATGG AACCATGATC
    AACAATGCAA TGCAAGCCGA TGACAGTGGC CACAGGACTA GGAGATATAC CCTTTTCAAC
    AATGGAACTT TATACTTCAA CAAAGTTGGG GTAGCGGAGG AAGGAGATTA TACTTGCTAT
    GCCCAGAACA CCCTAGGGAA AGATGAAATG AAGGTCCACT TAACAGTTAT AACAGCTGCT
    CCCCGGATAA GGCAGAGTAA CAAAACCAAC AAGAGAATCA AAGCTGGAGA CACAGCTGTC
    CTTGACTGTG AGGTCACTGG GGATCCCAAA CCAAAAATAT TTTGGTTGCT GCCTTCCAAT
    GACATGATTT CCTTCTCCAT TGATAGGTAC ACATTTCATG CCAATGGGTC TTTGACCATC
    AACAAAGTGA AACTGCTCGA TTCTGGAGAG TACGTATGTG TAGCCCGAAA TCCCAGTGGG
    GATGACACCA AAATGTACAA ACTGGATGTG GTCTCTAAAC CTCCATTAAT CAATGGTCTG
    TATACAAACA GAACTGTTAT TAAAGCCACA GCTGTGAGAC ATTCCAAAAA ACACTTTGAC
    TGCAGAGCTG AAGGGACACC ATCTCCTGAA GTCATGTGGA TCATGCCAGA CAATATTTTC
    CTCACAGCCC CATACTATGG AAGCAGAATC ACAGTCCATA AAAATGGAAC CTTGGAAATT
    AGGAATGTGA GGCTTTCAGA TTCAGCCGAC TTTATCTGTG TGGCCCGAAA TGAAGGTGGA
    GAGAGCGTGT TGGTAGTACA GTTAGAAGTA CTGGAAATGC TGAGAAGACC GACATTTAGA
    AATCCATTTA ATGAAAAAAT AGTTGCCCAG CTGGGAAAGT CCACAGCATT GAATTGCTCT
    GTTGATGGTA ACCCACCACC TGAAATAATC TGGATTTTAC CAAATGGCAC ACGATTTTCC
    AATGGACCAC AAAGTTATCA GTATCTGATA GCAAGCAATG GTTCTTTTAT CATTTCTAAA
    ACAACTCGGG AGGATGCAGG AAAATATCGC TGTGCAGCTA GGAATAAAGT TGGCTATATT
    GAGAAATTAG TCATATTAGA AATTGGCCAG AAGCCAGTTA TTCTTACCTA TGCACCAGGG
    ACAGTAAAAG GCATCAGTGG AGAATCTCTA TCACTGCATT GTGTGTCTGA TGGAATCCCT
    AAGCCAAATA TCAAATGGAC TATGCCAAGT GGTTATGTAG TAGACAGGCC TCAAATTAAT
    GGGAAATACA TATTGCATGA CAATGGCACC TTAGTCATTA AAGAAGCAAC AGCTTATGAC
    AGAGGAAACT ATATCTGTAA GGCTCAAAAT AGTGTTGGTC ATACACTGAT TACTGTTCCA
    GTAATGATTG TAGCCTACCC TCCCCGAATT ACAAATCGTC CACCCAGGAG TATTGTCACC
    AGGACAGGGG CAGCCTTTCA GCTCCACTGT GTGGCCTTGG GAGTTCCCAA GCCAGAAATC
    ACATGGGAGA TGCCTGACCA CTCCCTTCTC TCAACGGCAA GTAAAGAGAG GACACATGGA
    AGTGAGCAGC TTCACTTACA AGGTACCCTA GTCATTCAGA ATCCCCAAAC CTCCGATTCT
    GGGATATACA AATGCACAGC AAAGAACCCA CTTGGTAGTG ATTATGCAGC AACGTATATT
    CAAGTAATCT GA

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

    RefSeq NP_849144.2
    CDS1..7872
    Translation

    Target ORF information:

    RefSeq Version NM_178822.4
    Organism Homo sapiens(human)
    Definition Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_178822.4

    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
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    ATGAAGGTAA AAGGCAGAGG AATCACCTGC TTGCTGGTCT CCTTTGCTGT GATCTGCCTG 
    GTCGCCACCC CTGGGGGCAA GGCCTGTCCT CGCCGCTGTG CCTGTTATAT GCCTACGGAG
    GTACACTGCA CATTTCGGTA CCTGACTTCC ATCCCAGACA GCATCCCGCC CAATGTGGAA
    CGCATCAATT TAGGATACAA CAGCTTGGTT AGATTGATGG AAACAGATTT TTCTGGCCTG
    ACCAAACTGG AGTTACTCAT GCTTCACAGC AATGGCATTC ACACAATCCC TGACAAGACC
    TTCTCAGATT TGCAGGCCTT GCAGGTCTTA AAAATGAGCT ATAATAAAGT CCGAAAACTT
    CAGAAAGATA CTTTTTATGG CCTCAGGAGC TTGACACGAT TGCACATGGA CCACAACAAT
    ATTGAGTTTA TAAACCCAGA GGTTTTTTAT GGGCTCAACT TTCTCCGCCT GGTGCACTTG
    GAAGGAAATC AGCTCACTAA GCTCCACCCA GATACATTTG TCTCTTTGAG CTACCTCCAG
    ATATTTAAAA TCTCTTTCAT TAAGTTCCTA TACTTGTCTG ATAACTTCCT GACCTCCCTC
    CCTCAAGAGA TGGTCTCCTA TATGCCTGAC CTAGACAGCC TTTACCTGCA TGGAAACCCA
    TGGACCTGTG ATTGCCATTT AAAGTGGTTG TCTGACTGGA TACAGGAGAA GCCAGATGTA
    ATAAAATGCA AAAAAGATAG AAGTCCCTCT AGTGCTCAGC AGTGTCCACT TTGCATGAAC
    CCTAGGACTT CTAAAGGCAA GCCGTTAGCT ATGGTCTCAG CTGCAGCTTT CCAGTGTGCC
    AAGCCAACCA TTGACTCATC CCTGAAATCA AAGAGCCTGA CTATTCTGGA AGACAGTAGT
    TCTGCTTTCA TCTCTCCCCA AGGTTTCATG GCACCCTTTG GCTCCCTCAC TTTGAATATG
    ACAGATCAGT CTGGAAATGA AGCTAACATG GTCTGCAGTA TTCAAAAGCC CTCAAGGACA
    TCACCCATTG CATTCACTGA AGAAAATGAC TACATCGTGC TAAATACTTC ATTTTCAACA
    TTTTTGGTGT GCAACATAGA TTACGGTCAC ATTCAGCCAG TGTGGCAAAT TTTGGCTTTG
    TACAGTGATT CTCCTCTGAT ACTAGAAAGG AGCCACTTGC TTAGTGAAAC ACCGCAGCTC
    TATTACAAAT ATAAACAGGT GGCTCCTAAG CCTGAAGACA TTTTTACCAA CATAGAGGCA
    GATCTCAGAG CAGATCCCTC TTGGTTAATG CAAGACCAAA TTTCCTTGCA GCTGAACAGA
    ACTGCCACCA CATTCAGTAC ATTACAGATC CAGTACTCCA GTGATGCTCA AATCACTTTA
    CCAAGAGCAG AGATGAGGCC AGTGAAACAC AAATGGACTA TGATTTCAAG GGATAACAAT
    ACTAAGCTGG AACATACTGT CTTGGTAGGT GGAACCGTTG GCCTGAACTG CCCAGGCCAA
    GGAGACCCCA CCCCACACGT GGATTGGCTT CTAGCTGATG GAAGTAAAGT GAGAGCCCCT
    TATGTCAGTG AGGATGGACG GATCCTAATA GACAAAAGTG GAAAATTGGA ACTCCAGATG
    GCTGATAGTT TTGACACAGG CGTATATCAC TGTATAAGCA GCAATTATGA TGATGCAGAT
    ATTCTCACCT ATAGGATAAC TGTGGTAGAA CCTTTGGTCG AAGCCTATCA GGAAAATGGG
    ATTCATCACA CAGTTTTCAT TGGTGAAACA CTTGATCTTC CATGCCATTC TACTGGTATC
    CCAGATGCCT CTATTAGCTG GGTTATTCCA GGAAACAATG TGCTCTATCA GTCATCAAGA
    GACAAGAAAG TTCTAAACAA TGGCACATTA AGAATATTAC AGGTCACCCC GAAAGACCAA
    GGTTATTATC GCTGTGTGGC AGCCAACCCA TCAGGGGTTG ATTTTTTGAT TTTCCAAGTT
    TCAGTCAAGA TGAAAGGACA AAGGCCCTTG GAGCATGATG GAGAAACAGA GGGATCTGGA
    CTTGATGAGT CCAATCCTAT TGCTCATCTT AAGGAGCCAC CAGGTGCACA ACTCCGTACA
    TCTGCTCTGA TGGAGGCTGA GGTTGGAAAA CACACCTCAA GCACAAGTAA GAGGCACAAC
    TATCGGGAAT TAACACTCCA GCGACGTGGA GATTCAACAC ATCGACGTTT TAGGGAGAAT
    AGGAGGCATT TCCCTCCCTC TGCTAGGAGA ATTGACCCAC AACATTGGGC GGCACTGTTG
    GAGAAAGCTA AAAAGAATGC TATGCCAGAC AAGCGAGAAA ATACCACAGT GAGCCCACCC
    CCAGTGGTCA CCCAACTCCC AAACATACCT GGTGAAGAAG ACGATTCCTC AGGCATGCTC
    GCTCTACATG AGGAATTTAT GGTCCCGGCC ACTAAAGCTT TGAACCTTCC AGCAAGGACA
    GTGACTGCTG ACTCCAGAAC AATATCTGAT AGTCCTATGA CAAACATAAA TTATGGCACA
    GAATTCTCTC CTGTTGTGAA TTCACAAATA CTACCACCTG AAGAACCCAC AGATTTCAAA
    CTGTCTACTG CTATTAAAAC TACAGCCATG TCAAAGAATA TAAACCCAAC CATGTCAAGC
    CAAATACAAG GCACAACCAA TCAACATTCA TCCACTGTCT TTCCACTGCT ACTTGGAGCA
    ACTGAATTTC AGGACTCTGA CCAGATGGGA AGAGGAAGAG AGCATTTCCA AAGTAGACCC
    CCAATAACAG TAAGGACTAT GATCAAAGAT GTCAATGTCA AAATGCTTAG TAGCACCACC
    AACAAACTAT TATTAGAGTC AGTAAATACC ACAAATAGTC ATCAGACATC TGTAAGAGAA
    GTGAGTGAAC CCAGGCACAA TCACTTCTAT TCTCACACTA CTCAAATACT TAGCACCTCC
    ACGTTCCCTT CAGATCCACA CACAGCTGCT CATTCTCAGT TTCCGATCCC TAGAAATAGT
    ACAGTTAACA TCCCGCTGTT CAGACGCTTT GGGAGGCAGA GGAAAATTGG CGGAAGGGGG
    CGGATTATCA GCCCATATAG AACTCCAGTT CTGCGACGGC ATAGATACAG CATTTTCAGG
    TCAACAACCA GAGGTTCTTC TGAAAAAAGC ACTACTGCAT TCTCAGCCAC AGTGCTCAAT
    GTGACATGTC TGTCCTGTCT TCCCAGGGAG AGGCTCACCA CTGCCACAGC AGCATTGTCT
    TTTCCAAGTG CTGCTCCCAT CACCTTCCCC AAAGCTGACA TTGCTAGAGT CCCATCAGAA
    GAGTCTACAA CTCTAGTCCA GAATCCACTA TTACTACTTG AGAACAAACC CAGTGTAGAG
    AAAACAACAC CCACAATAAA ATATTTCAGG ACTGAAATTT CCCAAGTGAC TCCAACTGGT
    GCAGTCATGA CATATGCTCC AACATCCATA CCCATGGAAA AAACTCACAA AGTAAACGCC
    AGTTACCCAC GTGTGTCTAG CACCAATGAA GCTAAAAGAG ATTCAGTGAT TACATCGTCA
    CTTTCAGGTG CTATCACCAA GCCACCAATG ACTATTATAG CCATTACAAG GTTTTCAAGA
    AGGAAAATTC CCTGGCAACA GAACTTTGTA AATAACCATA ACCCAAAAGG CAGATTAAGG
    AATCAACATA AAGTTAGTTT ACAAAAAAGC ACAGCTGTGA TGCTTCCTAA AACATCTCCT
    GCTTTACCCA GAGACAAAGT CTCCCCTTTC CATTTCACCA CACTTTCAAC AAGTGTGATG
    CAAATTCCAT CTAATACCTT GACTACCGCT CACCACACTA CGACCAAAAC ACACAATCCT
    GGAAGTCTTC CAACAAAGAA GGAGCTTCCC TTCCCACCCC TTAACCCTAT GCTTCCTAGT
    ATTATAAGCA AAGACTCAAG TACAAAAAGC ATCATATCAA CGCAAACAGC AATACCAGCA
    ACAACTCCTA CCTTCCCTGC ATCTGTCATC ACTTATGAAA CCCAAACAGA GAGATCTAGA
    GCACAAACAA TACAAAGAGA ACAGGAGCCT CAAAAGAAGA ACAGGACTGA CCCAAACATC
    TCTCCAGACC AGAGTTCTGG CTTCACTACA CCCACTGCTA TGACACCTCC TGTTCTAACC
    ACAGCCGAAA CTTCAGTCAA GCCCAGTGTC TCTGCATTCA CTCATTCCCC ACCAGAAAAC
    ACAACTGGGA TTTCAAGCAC AATCAGTTTT CATTCAAGAA CTCTTAATCT GACAGATGTG
    ATTGAAGAAC TAGCCCAAGC AAGTACTCAG ACTTTGAAGA GCACAATTGC TTCTGAAACA
    ACTTTGTCCA GCAAATCACA CCAGAGTACC ACAACTAGGA AAGCAATCAT TAGACACTCA
    ACCATACCAC CATTCTTGAG CAGCAGTGCT ACTCTAATGC CAGTTCCCAT CTCCCCTCCC
    TTTACTCAGA GAGCAGTTAC TGACAACGTG GCGACTCCCA TTTCCGGGCT TATGACAAAT
    ACAGTGGTCA AGCTGCACGA ATCCTCAAGG CACAATGCTA AACCACAGCA ATTAGTAGCA
    GAGGTTGCAA CATCCCCCAA GGTTCACCCA AATGCCAAGT TCACAATTGG AACCACTCAC
    TTCATCTACT CTAATCTGTT ACATTCTACT CCCATGCCAG CACTAACAAC AGTTAAATCA
    CAGAATTCTA AATTAACTCC ATCTCCCTGG GCAGAAAACC AATTTTGGCA CAAACCATAC
    TCAGAAATTG CTGAAAAAGG CAAAAAGCCA GAAGTAAGCA TGTTGGCTAC TACAGGCCTG
    TCCGAGGCCA CCACTCTTGT TTCAGATTGG GATGGACAGA AGAACACAAA GAAGAGTGAC
    TTTGATAAGA AACCAGTTCA AGAAGCAACA ACTTCCAAAC TCCTTCCCTT TGACTCTTTG
    TCTAGGTATA TATTTGAAAA GCCCAGGATA GTTGGAGGAA AAGCTGCAAG TTTTACTATT
    CCAGCTAACT CAGATGCCTT TCTTCCCTGT GAAGCTGTTG GAAATCCCCT GCCCACCATT
    CATTGGACCA GAGTCCCATC AGGACTTGAT TTATCTAAGA GGAAACAGAA TAGCAGGGTC
    CAGGTTCTCC CCAATGGTAC CCTGTCCATC CAGAGGGTGG AAATTCAGGA CCGCGGACAG
    TACTTGTGTT CCGCATCCAA TCTGTTTGGC ACAGACCACC TTCATGTCAC CTTGTCTGTG
    GTTTCCTATC CTCCCAGGAT CCTGGAGAGA CGTACCAAAG AGATCACAGT TCATTCCGGA
    AGCACTGTGG AACTGAAGTG CAGAGCAGAA GGTAGGCCAA GCCCTACAGT TACCTGGATT
    CTTGCAAACC AAACAGTTGT CTCAGAATCA TCCCAGGGAA GTAGGCAGGC TGTGGTGACG
    GTTGACGGAA CATTGGTCCT CCACAATCTC AGTATTTATG ACCGTGGCTT TTACAAATGT
    GTGGCCAGCA ACCCAGGTGG CCAGGATTCA CTGCTGGTTA AAATACAAGT CATTGCAGCA
    CCACCTGTTA TTCTAGAGCA AAGGAGGCAA GTCATTGTAG GCACTTGGGG TGAAAGTTTA
    AAACTGCCCT GTACTGCAAA AGGAACTCCT CAGCCCAGCG TTTACTGGGT CCTCTCTGAT
    GGCACTGAAG TGAAACCATT ACAGTTTACC AATTCCAAGT TGTTCTTATT TTCAAATGGG
    ACTTTGTATA TAAGAAACCT AGCCTCTTCA GACAGGGGCA CTTATGAATG CATTGCTACC
    AGTTCCACTG GTTCGGAGCG AAGAGTAGTA ATGCTTACAA TGGAAGAGCG AGTGACCAGC
    CCCAGGATAG AAGCTGCATC CCAGAAAAGG ACTGAAGTGA ATTTTGGGGA CAAATTACTA
    CTGAACTGCT CAGCCACTGG GGAGCCCAAA CCCCAAATAA TGTGGAGGTT ACCATCCAAG
    GCTGTGGTCG ACCAGCAGCA TAGAGTGGGC AGCTGGATCC ACGTCTACCC TAATGGATCC
    CTGTTTATTG GATCAGTAAC AGAAAAAGAC AGTGGTGTCT ACTTGTGTGT GGCAAGAAAC
    AAAATGGGGG ATGATCTGAT ACTGATGCAT GTTAGCCTAA GACTGAAACC TGCCAAAATT
    GACCACAAGC AGTATTTTAG AAAGCAAGTG CTCCATGGGA AAGATTTCCA AGTAGATTGC
    AAAGCTTCCG GCTCCCCAGT GCCAGAGATA TCTTGGAGTT TGCCTGATGG AACCATGATC
    AACAATGCAA TGCAAGCCGA TGACAGTGGC CACAGGACTA GGAGATATAC CCTTTTCAAC
    AATGGAACTT TATACTTCAA CAAAGTTGGG GTAGCGGAGG AAGGAGATTA TACTTGCTAT
    GCCCAGAACA CCCTAGGGAA AGATGAAATG AAGGTCCACT TAACAGTTAT AACAGCTGCT
    CCCCGGATAA GGCAGAGTAA CAAAACCAAC AAGAGAATCA AAGCTGGAGA CACAGCTGTC
    CTTGACTGTG AGGTCACTGG GGATCCCAAA CCAAAAATAT TTTGGTTGCT GCCTTCCAAT
    GACATGATTT CCTTCTCCAT TGATAGGTAC ACATTTCATG CCAATGGGTC TTTGACCATC
    AACAAAGTGA AACTGCTCGA TTCTGGAGAG TACGTATGTG TAGCCCGAAA TCCCAGTGGG
    GATGACACCA AAATGTACAA ACTGGATGTG GTCTCTAAAC CTCCATTAAT CAATGGTCTG
    TATACAAACA GAACTGTTAT TAAAGCCACA GCTGTGAGAC ATTCCAAAAA ACACTTTGAC
    TGCAGAGCTG AAGGGACACC ATCTCCTGAA GTCATGTGGA TCATGCCAGA CAATATTTTC
    CTCACAGCCC CATACTATGG AAGCAGAATC ACAGTCCATA AAAATGGAAC CTTGGAAATT
    AGGAATGTGA GGCTTTCAGA TTCAGCCGAC TTTATCTGTG TGGCCCGAAA TGAAGGTGGA
    GAGAGCGTGT TGGTAGTACA GTTAGAAGTA CTGGAAATGC TGAGAAGACC GACATTTAGA
    AATCCATTTA ATGAAAAAAT AGTTGCCCAG CTGGGAAAGT CCACAGCATT GAATTGCTCT
    GTTGATGGTA ACCCACCACC TGAAATAATC TGGATTTTAC CAAATGGCAC ACGATTTTCC
    AATGGACCAC AAAGTTATCA GTATCTGATA GCAAGCAATG GTTCTTTTAT CATTTCTAAA
    ACAACTCGGG AGGATGCAGG AAAATATCGC TGTGCAGCTA GGAATAAAGT TGGCTATATT
    GAGAAATTAG TCATATTAGA AATTGGCCAG AAGCCAGTTA TTCTTACCTA TGCACCAGGG
    ACAGTAAAAG GCATCAGTGG AGAATCTCTA TCACTGCATT GTGTGTCTGA TGGAATCCCT
    AAGCCAAATA TCAAATGGAC TATGCCAAGT GGTTATGTAG TAGACAGGCC TCAAATTAAT
    GGGAAATACA TATTGCATGA CAATGGCACC TTAGTCATTA AAGAAGCAAC AGCTTATGAC
    AGAGGAAACT ATATCTGTAA GGCTCAAAAT AGTGTTGGTC ATACACTGAT TACTGTTCCA
    GTAATGATTG TAGCCTACCC TCCCCGAATT ACAAATCGTC CACCCAGGAG TATTGTCACC
    AGGACAGGGG CAGCCTTTCA GCTCCACTGT GTGGCCTTGG GAGTTCCCAA GCCAGAAATC
    ACATGGGAGA TGCCTGACCA CTCCCTTCTC TCAACGGCAA GTAAAGAGAG GACACATGGA
    AGTGAGCAGC TTCACTTACA AGGTACCCTA GTCATTCAGA ATCCCCAAAC CTCCGATTCT
    GGGATATACA AATGCACAGC AAAGAACCCA CTTGGTAGTG ATTATGCAGC AACGTATATT
    CAAGTAATCT GA

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

    CloneID OHu00901
    Clone ID Related Accession (Same CDS sequence) XM_011512709.1 , NM_178822.4 , XM_011512709.2
    Accession Version XM_011512709.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 7872bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product immunoglobulin superfamily member 10 isoform X1
    Comment

    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
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    ATGAAGGTAA AAGGCAGAGG AATCACCTGC TTGCTGGTCT CCTTTGCTGT GATCTGCCTG 
    GTCGCCACCC CTGGGGGCAA GGCCTGTCCT CGCCGCTGTG CCTGTTATAT GCCTACGGAG
    GTACACTGCA CATTTCGGTA CCTGACTTCC ATCCCAGACA GCATCCCGCC CAATGTGGAA
    CGCATCAATT TAGGATACAA CAGCTTGGTT AGATTGATGG AAACAGATTT TTCTGGCCTG
    ACCAAACTGG AGTTACTCAT GCTTCACAGC AATGGCATTC ACACAATCCC TGACAAGACC
    TTCTCAGATT TGCAGGCCTT GCAGGTCTTA AAAATGAGCT ATAATAAAGT CCGAAAACTT
    CAGAAAGATA CTTTTTATGG CCTCAGGAGC TTGACACGAT TGCACATGGA CCACAACAAT
    ATTGAGTTTA TAAACCCAGA GGTTTTTTAT GGGCTCAACT TTCTCCGCCT GGTGCACTTG
    GAAGGAAATC AGCTCACTAA GCTCCACCCA GATACATTTG TCTCTTTGAG CTACCTCCAG
    ATATTTAAAA TCTCTTTCAT TAAGTTCCTA TACTTGTCTG ATAACTTCCT GACCTCCCTC
    CCTCAAGAGA TGGTCTCCTA TATGCCTGAC CTAGACAGCC TTTACCTGCA TGGAAACCCA
    TGGACCTGTG ATTGCCATTT AAAGTGGTTG TCTGACTGGA TACAGGAGAA GCCAGATGTA
    ATAAAATGCA AAAAAGATAG AAGTCCCTCT AGTGCTCAGC AGTGTCCACT TTGCATGAAC
    CCTAGGACTT CTAAAGGCAA GCCGTTAGCT ATGGTCTCAG CTGCAGCTTT CCAGTGTGCC
    AAGCCAACCA TTGACTCATC CCTGAAATCA AAGAGCCTGA CTATTCTGGA AGACAGTAGT
    TCTGCTTTCA TCTCTCCCCA AGGTTTCATG GCACCCTTTG GCTCCCTCAC TTTGAATATG
    ACAGATCAGT CTGGAAATGA AGCTAACATG GTCTGCAGTA TTCAAAAGCC CTCAAGGACA
    TCACCCATTG CATTCACTGA AGAAAATGAC TACATCGTGC TAAATACTTC ATTTTCAACA
    TTTTTGGTGT GCAACATAGA TTACGGTCAC ATTCAGCCAG TGTGGCAAAT TTTGGCTTTG
    TACAGTGATT CTCCTCTGAT ACTAGAAAGG AGCCACTTGC TTAGTGAAAC ACCGCAGCTC
    TATTACAAAT ATAAACAGGT GGCTCCTAAG CCTGAAGACA TTTTTACCAA CATAGAGGCA
    GATCTCAGAG CAGATCCCTC TTGGTTAATG CAAGACCAAA TTTCCTTGCA GCTGAACAGA
    ACTGCCACCA CATTCAGTAC ATTACAGATC CAGTACTCCA GTGATGCTCA AATCACTTTA
    CCAAGAGCAG AGATGAGGCC AGTGAAACAC AAATGGACTA TGATTTCAAG GGATAACAAT
    ACTAAGCTGG AACATACTGT CTTGGTAGGT GGAACCGTTG GCCTGAACTG CCCAGGCCAA
    GGAGACCCCA CCCCACACGT GGATTGGCTT CTAGCTGATG GAAGTAAAGT GAGAGCCCCT
    TATGTCAGTG AGGATGGACG GATCCTAATA GACAAAAGTG GAAAATTGGA ACTCCAGATG
    GCTGATAGTT TTGACACAGG CGTATATCAC TGTATAAGCA GCAATTATGA TGATGCAGAT
    ATTCTCACCT ATAGGATAAC TGTGGTAGAA CCTTTGGTCG AAGCCTATCA GGAAAATGGG
    ATTCATCACA CAGTTTTCAT TGGTGAAACA CTTGATCTTC CATGCCATTC TACTGGTATC
    CCAGATGCCT CTATTAGCTG GGTTATTCCA GGAAACAATG TGCTCTATCA GTCATCAAGA
    GACAAGAAAG TTCTAAACAA TGGCACATTA AGAATATTAC AGGTCACCCC GAAAGACCAA
    GGTTATTATC GCTGTGTGGC AGCCAACCCA TCAGGGGTTG ATTTTTTGAT TTTCCAAGTT
    TCAGTCAAGA TGAAAGGACA AAGGCCCTTG GAGCATGATG GAGAAACAGA GGGATCTGGA
    CTTGATGAGT CCAATCCTAT TGCTCATCTT AAGGAGCCAC CAGGTGCACA ACTCCGTACA
    TCTGCTCTGA TGGAGGCTGA GGTTGGAAAA CACACCTCAA GCACAAGTAA GAGGCACAAC
    TATCGGGAAT TAACACTCCA GCGACGTGGA GATTCAACAC ATCGACGTTT TAGGGAGAAT
    AGGAGGCATT TCCCTCCCTC TGCTAGGAGA ATTGACCCAC AACATTGGGC GGCACTGTTG
    GAGAAAGCTA AAAAGAATGC TATGCCAGAC AAGCGAGAAA ATACCACAGT GAGCCCACCC
    CCAGTGGTCA CCCAACTCCC AAACATACCT GGTGAAGAAG ACGATTCCTC AGGCATGCTC
    GCTCTACATG AGGAATTTAT GGTCCCGGCC ACTAAAGCTT TGAACCTTCC AGCAAGGACA
    GTGACTGCTG ACTCCAGAAC AATATCTGAT AGTCCTATGA CAAACATAAA TTATGGCACA
    GAATTCTCTC CTGTTGTGAA TTCACAAATA CTACCACCTG AAGAACCCAC AGATTTCAAA
    CTGTCTACTG CTATTAAAAC TACAGCCATG TCAAAGAATA TAAACCCAAC CATGTCAAGC
    CAAATACAAG GCACAACCAA TCAACATTCA TCCACTGTCT TTCCACTGCT ACTTGGAGCA
    ACTGAATTTC AGGACTCTGA CCAGATGGGA AGAGGAAGAG AGCATTTCCA AAGTAGACCC
    CCAATAACAG TAAGGACTAT GATCAAAGAT GTCAATGTCA AAATGCTTAG TAGCACCACC
    AACAAACTAT TATTAGAGTC AGTAAATACC ACAAATAGTC ATCAGACATC TGTAAGAGAA
    GTGAGTGAAC CCAGGCACAA TCACTTCTAT TCTCACACTA CTCAAATACT TAGCACCTCC
    ACGTTCCCTT CAGATCCACA CACAGCTGCT CATTCTCAGT TTCCGATCCC TAGAAATAGT
    ACAGTTAACA TCCCGCTGTT CAGACGCTTT GGGAGGCAGA GGAAAATTGG CGGAAGGGGG
    CGGATTATCA GCCCATATAG AACTCCAGTT CTGCGACGGC ATAGATACAG CATTTTCAGG
    TCAACAACCA GAGGTTCTTC TGAAAAAAGC ACTACTGCAT TCTCAGCCAC AGTGCTCAAT
    GTGACATGTC TGTCCTGTCT TCCCAGGGAG AGGCTCACCA CTGCCACAGC AGCATTGTCT
    TTTCCAAGTG CTGCTCCCAT CACCTTCCCC AAAGCTGACA TTGCTAGAGT CCCATCAGAA
    GAGTCTACAA CTCTAGTCCA GAATCCACTA TTACTACTTG AGAACAAACC CAGTGTAGAG
    AAAACAACAC CCACAATAAA ATATTTCAGG ACTGAAATTT CCCAAGTGAC TCCAACTGGT
    GCAGTCATGA CATATGCTCC AACATCCATA CCCATGGAAA AAACTCACAA AGTAAACGCC
    AGTTACCCAC GTGTGTCTAG CACCAATGAA GCTAAAAGAG ATTCAGTGAT TACATCGTCA
    CTTTCAGGTG CTATCACCAA GCCACCAATG ACTATTATAG CCATTACAAG GTTTTCAAGA
    AGGAAAATTC CCTGGCAACA GAACTTTGTA AATAACCATA ACCCAAAAGG CAGATTAAGG
    AATCAACATA AAGTTAGTTT ACAAAAAAGC ACAGCTGTGA TGCTTCCTAA AACATCTCCT
    GCTTTACCCA GAGACAAAGT CTCCCCTTTC CATTTCACCA CACTTTCAAC AAGTGTGATG
    CAAATTCCAT CTAATACCTT GACTACCGCT CACCACACTA CGACCAAAAC ACACAATCCT
    GGAAGTCTTC CAACAAAGAA GGAGCTTCCC TTCCCACCCC TTAACCCTAT GCTTCCTAGT
    ATTATAAGCA AAGACTCAAG TACAAAAAGC ATCATATCAA CGCAAACAGC AATACCAGCA
    ACAACTCCTA CCTTCCCTGC ATCTGTCATC ACTTATGAAA CCCAAACAGA GAGATCTAGA
    GCACAAACAA TACAAAGAGA ACAGGAGCCT CAAAAGAAGA ACAGGACTGA CCCAAACATC
    TCTCCAGACC AGAGTTCTGG CTTCACTACA CCCACTGCTA TGACACCTCC TGTTCTAACC
    ACAGCCGAAA CTTCAGTCAA GCCCAGTGTC TCTGCATTCA CTCATTCCCC ACCAGAAAAC
    ACAACTGGGA TTTCAAGCAC AATCAGTTTT CATTCAAGAA CTCTTAATCT GACAGATGTG
    ATTGAAGAAC TAGCCCAAGC AAGTACTCAG ACTTTGAAGA GCACAATTGC TTCTGAAACA
    ACTTTGTCCA GCAAATCACA CCAGAGTACC ACAACTAGGA AAGCAATCAT TAGACACTCA
    ACCATACCAC CATTCTTGAG CAGCAGTGCT ACTCTAATGC CAGTTCCCAT CTCCCCTCCC
    TTTACTCAGA GAGCAGTTAC TGACAACGTG GCGACTCCCA TTTCCGGGCT TATGACAAAT
    ACAGTGGTCA AGCTGCACGA ATCCTCAAGG CACAATGCTA AACCACAGCA ATTAGTAGCA
    GAGGTTGCAA CATCCCCCAA GGTTCACCCA AATGCCAAGT TCACAATTGG AACCACTCAC
    TTCATCTACT CTAATCTGTT ACATTCTACT CCCATGCCAG CACTAACAAC AGTTAAATCA
    CAGAATTCTA AATTAACTCC ATCTCCCTGG GCAGAAAACC AATTTTGGCA CAAACCATAC
    TCAGAAATTG CTGAAAAAGG CAAAAAGCCA GAAGTAAGCA TGTTGGCTAC TACAGGCCTG
    TCCGAGGCCA CCACTCTTGT TTCAGATTGG GATGGACAGA AGAACACAAA GAAGAGTGAC
    TTTGATAAGA AACCAGTTCA AGAAGCAACA ACTTCCAAAC TCCTTCCCTT TGACTCTTTG
    TCTAGGTATA TATTTGAAAA GCCCAGGATA GTTGGAGGAA AAGCTGCAAG TTTTACTATT
    CCAGCTAACT CAGATGCCTT TCTTCCCTGT GAAGCTGTTG GAAATCCCCT GCCCACCATT
    CATTGGACCA GAGTCCCATC AGGACTTGAT TTATCTAAGA GGAAACAGAA TAGCAGGGTC
    CAGGTTCTCC CCAATGGTAC CCTGTCCATC CAGAGGGTGG AAATTCAGGA CCGCGGACAG
    TACTTGTGTT CCGCATCCAA TCTGTTTGGC ACAGACCACC TTCATGTCAC CTTGTCTGTG
    GTTTCCTATC CTCCCAGGAT CCTGGAGAGA CGTACCAAAG AGATCACAGT TCATTCCGGA
    AGCACTGTGG AACTGAAGTG CAGAGCAGAA GGTAGGCCAA GCCCTACAGT TACCTGGATT
    CTTGCAAACC AAACAGTTGT CTCAGAATCA TCCCAGGGAA GTAGGCAGGC TGTGGTGACG
    GTTGACGGAA CATTGGTCCT CCACAATCTC AGTATTTATG ACCGTGGCTT TTACAAATGT
    GTGGCCAGCA ACCCAGGTGG CCAGGATTCA CTGCTGGTTA AAATACAAGT CATTGCAGCA
    CCACCTGTTA TTCTAGAGCA AAGGAGGCAA GTCATTGTAG GCACTTGGGG TGAAAGTTTA
    AAACTGCCCT GTACTGCAAA AGGAACTCCT CAGCCCAGCG TTTACTGGGT CCTCTCTGAT
    GGCACTGAAG TGAAACCATT ACAGTTTACC AATTCCAAGT TGTTCTTATT TTCAAATGGG
    ACTTTGTATA TAAGAAACCT AGCCTCTTCA GACAGGGGCA CTTATGAATG CATTGCTACC
    AGTTCCACTG GTTCGGAGCG AAGAGTAGTA ATGCTTACAA TGGAAGAGCG AGTGACCAGC
    CCCAGGATAG AAGCTGCATC CCAGAAAAGG ACTGAAGTGA ATTTTGGGGA CAAATTACTA
    CTGAACTGCT CAGCCACTGG GGAGCCCAAA CCCCAAATAA TGTGGAGGTT ACCATCCAAG
    GCTGTGGTCG ACCAGCAGCA TAGAGTGGGC AGCTGGATCC ACGTCTACCC TAATGGATCC
    CTGTTTATTG GATCAGTAAC AGAAAAAGAC AGTGGTGTCT ACTTGTGTGT GGCAAGAAAC
    AAAATGGGGG ATGATCTGAT ACTGATGCAT GTTAGCCTAA GACTGAAACC TGCCAAAATT
    GACCACAAGC AGTATTTTAG AAAGCAAGTG CTCCATGGGA AAGATTTCCA AGTAGATTGC
    AAAGCTTCCG GCTCCCCAGT GCCAGAGATA TCTTGGAGTT TGCCTGATGG AACCATGATC
    AACAATGCAA TGCAAGCCGA TGACAGTGGC CACAGGACTA GGAGATATAC CCTTTTCAAC
    AATGGAACTT TATACTTCAA CAAAGTTGGG GTAGCGGAGG AAGGAGATTA TACTTGCTAT
    GCCCAGAACA CCCTAGGGAA AGATGAAATG AAGGTCCACT TAACAGTTAT AACAGCTGCT
    CCCCGGATAA GGCAGAGTAA CAAAACCAAC AAGAGAATCA AAGCTGGAGA CACAGCTGTC
    CTTGACTGTG AGGTCACTGG GGATCCCAAA CCAAAAATAT TTTGGTTGCT GCCTTCCAAT
    GACATGATTT CCTTCTCCAT TGATAGGTAC ACATTTCATG CCAATGGGTC TTTGACCATC
    AACAAAGTGA AACTGCTCGA TTCTGGAGAG TACGTATGTG TAGCCCGAAA TCCCAGTGGG
    GATGACACCA AAATGTACAA ACTGGATGTG GTCTCTAAAC CTCCATTAAT CAATGGTCTG
    TATACAAACA GAACTGTTAT TAAAGCCACA GCTGTGAGAC ATTCCAAAAA ACACTTTGAC
    TGCAGAGCTG AAGGGACACC ATCTCCTGAA GTCATGTGGA TCATGCCAGA CAATATTTTC
    CTCACAGCCC CATACTATGG AAGCAGAATC ACAGTCCATA AAAATGGAAC CTTGGAAATT
    AGGAATGTGA GGCTTTCAGA TTCAGCCGAC TTTATCTGTG TGGCCCGAAA TGAAGGTGGA
    GAGAGCGTGT TGGTAGTACA GTTAGAAGTA CTGGAAATGC TGAGAAGACC GACATTTAGA
    AATCCATTTA ATGAAAAAAT AGTTGCCCAG CTGGGAAAGT CCACAGCATT GAATTGCTCT
    GTTGATGGTA ACCCACCACC TGAAATAATC TGGATTTTAC CAAATGGCAC ACGATTTTCC
    AATGGACCAC AAAGTTATCA GTATCTGATA GCAAGCAATG GTTCTTTTAT CATTTCTAAA
    ACAACTCGGG AGGATGCAGG AAAATATCGC TGTGCAGCTA GGAATAAAGT TGGCTATATT
    GAGAAATTAG TCATATTAGA AATTGGCCAG AAGCCAGTTA TTCTTACCTA TGCACCAGGG
    ACAGTAAAAG GCATCAGTGG AGAATCTCTA TCACTGCATT GTGTGTCTGA TGGAATCCCT
    AAGCCAAATA TCAAATGGAC TATGCCAAGT GGTTATGTAG TAGACAGGCC TCAAATTAAT
    GGGAAATACA TATTGCATGA CAATGGCACC TTAGTCATTA AAGAAGCAAC AGCTTATGAC
    AGAGGAAACT ATATCTGTAA GGCTCAAAAT AGTGTTGGTC ATACACTGAT TACTGTTCCA
    GTAATGATTG TAGCCTACCC TCCCCGAATT ACAAATCGTC CACCCAGGAG TATTGTCACC
    AGGACAGGGG CAGCCTTTCA GCTCCACTGT GTGGCCTTGG GAGTTCCCAA GCCAGAAATC
    ACATGGGAGA TGCCTGACCA CTCCCTTCTC TCAACGGCAA GTAAAGAGAG GACACATGGA
    AGTGAGCAGC TTCACTTACA AGGTACCCTA GTCATTCAGA ATCCCCAAAC CTCCGATTCT
    GGGATATACA AATGCACAGC AAAGAACCCA CTTGGTAGTG ATTATGCAGC AACGTATATT
    CAAGTAATCT GA

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

    RefSeq XP_011511011.1
    Translation

    Target ORF information:

    RefSeq Version XM_011512709.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens immunoglobulin superfamily, member 10 (IGSF10), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011512709.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    ATGAAGGTAA AAGGCAGAGG AATCACCTGC TTGCTGGTCT CCTTTGCTGT GATCTGCCTG 
    GTCGCCACCC CTGGGGGCAA GGCCTGTCCT CGCCGCTGTG CCTGTTATAT GCCTACGGAG
    GTACACTGCA CATTTCGGTA CCTGACTTCC ATCCCAGACA GCATCCCGCC CAATGTGGAA
    CGCATCAATT TAGGATACAA CAGCTTGGTT AGATTGATGG AAACAGATTT TTCTGGCCTG
    ACCAAACTGG AGTTACTCAT GCTTCACAGC AATGGCATTC ACACAATCCC TGACAAGACC
    TTCTCAGATT TGCAGGCCTT GCAGGTCTTA AAAATGAGCT ATAATAAAGT CCGAAAACTT
    CAGAAAGATA CTTTTTATGG CCTCAGGAGC TTGACACGAT TGCACATGGA CCACAACAAT
    ATTGAGTTTA TAAACCCAGA GGTTTTTTAT GGGCTCAACT TTCTCCGCCT GGTGCACTTG
    GAAGGAAATC AGCTCACTAA GCTCCACCCA GATACATTTG TCTCTTTGAG CTACCTCCAG
    ATATTTAAAA TCTCTTTCAT TAAGTTCCTA TACTTGTCTG ATAACTTCCT GACCTCCCTC
    CCTCAAGAGA TGGTCTCCTA TATGCCTGAC CTAGACAGCC TTTACCTGCA TGGAAACCCA
    TGGACCTGTG ATTGCCATTT AAAGTGGTTG TCTGACTGGA TACAGGAGAA GCCAGATGTA
    ATAAAATGCA AAAAAGATAG AAGTCCCTCT AGTGCTCAGC AGTGTCCACT TTGCATGAAC
    CCTAGGACTT CTAAAGGCAA GCCGTTAGCT ATGGTCTCAG CTGCAGCTTT CCAGTGTGCC
    AAGCCAACCA TTGACTCATC CCTGAAATCA AAGAGCCTGA CTATTCTGGA AGACAGTAGT
    TCTGCTTTCA TCTCTCCCCA AGGTTTCATG GCACCCTTTG GCTCCCTCAC TTTGAATATG
    ACAGATCAGT CTGGAAATGA AGCTAACATG GTCTGCAGTA TTCAAAAGCC CTCAAGGACA
    TCACCCATTG CATTCACTGA AGAAAATGAC TACATCGTGC TAAATACTTC ATTTTCAACA
    TTTTTGGTGT GCAACATAGA TTACGGTCAC ATTCAGCCAG TGTGGCAAAT TTTGGCTTTG
    TACAGTGATT CTCCTCTGAT ACTAGAAAGG AGCCACTTGC TTAGTGAAAC ACCGCAGCTC
    TATTACAAAT ATAAACAGGT GGCTCCTAAG CCTGAAGACA TTTTTACCAA CATAGAGGCA
    GATCTCAGAG CAGATCCCTC TTGGTTAATG CAAGACCAAA TTTCCTTGCA GCTGAACAGA
    ACTGCCACCA CATTCAGTAC ATTACAGATC CAGTACTCCA GTGATGCTCA AATCACTTTA
    CCAAGAGCAG AGATGAGGCC AGTGAAACAC AAATGGACTA TGATTTCAAG GGATAACAAT
    ACTAAGCTGG AACATACTGT CTTGGTAGGT GGAACCGTTG GCCTGAACTG CCCAGGCCAA
    GGAGACCCCA CCCCACACGT GGATTGGCTT CTAGCTGATG GAAGTAAAGT GAGAGCCCCT
    TATGTCAGTG AGGATGGACG GATCCTAATA GACAAAAGTG GAAAATTGGA ACTCCAGATG
    GCTGATAGTT TTGACACAGG CGTATATCAC TGTATAAGCA GCAATTATGA TGATGCAGAT
    ATTCTCACCT ATAGGATAAC TGTGGTAGAA CCTTTGGTCG AAGCCTATCA GGAAAATGGG
    ATTCATCACA CAGTTTTCAT TGGTGAAACA CTTGATCTTC CATGCCATTC TACTGGTATC
    CCAGATGCCT CTATTAGCTG GGTTATTCCA GGAAACAATG TGCTCTATCA GTCATCAAGA
    GACAAGAAAG TTCTAAACAA TGGCACATTA AGAATATTAC AGGTCACCCC GAAAGACCAA
    GGTTATTATC GCTGTGTGGC AGCCAACCCA TCAGGGGTTG ATTTTTTGAT TTTCCAAGTT
    TCAGTCAAGA TGAAAGGACA AAGGCCCTTG GAGCATGATG GAGAAACAGA GGGATCTGGA
    CTTGATGAGT CCAATCCTAT TGCTCATCTT AAGGAGCCAC CAGGTGCACA ACTCCGTACA
    TCTGCTCTGA TGGAGGCTGA GGTTGGAAAA CACACCTCAA GCACAAGTAA GAGGCACAAC
    TATCGGGAAT TAACACTCCA GCGACGTGGA GATTCAACAC ATCGACGTTT TAGGGAGAAT
    AGGAGGCATT TCCCTCCCTC TGCTAGGAGA ATTGACCCAC AACATTGGGC GGCACTGTTG
    GAGAAAGCTA AAAAGAATGC TATGCCAGAC AAGCGAGAAA ATACCACAGT GAGCCCACCC
    CCAGTGGTCA CCCAACTCCC AAACATACCT GGTGAAGAAG ACGATTCCTC AGGCATGCTC
    GCTCTACATG AGGAATTTAT GGTCCCGGCC ACTAAAGCTT TGAACCTTCC AGCAAGGACA
    GTGACTGCTG ACTCCAGAAC AATATCTGAT AGTCCTATGA CAAACATAAA TTATGGCACA
    GAATTCTCTC CTGTTGTGAA TTCACAAATA CTACCACCTG AAGAACCCAC AGATTTCAAA
    CTGTCTACTG CTATTAAAAC TACAGCCATG TCAAAGAATA TAAACCCAAC CATGTCAAGC
    CAAATACAAG GCACAACCAA TCAACATTCA TCCACTGTCT TTCCACTGCT ACTTGGAGCA
    ACTGAATTTC AGGACTCTGA CCAGATGGGA AGAGGAAGAG AGCATTTCCA AAGTAGACCC
    CCAATAACAG TAAGGACTAT GATCAAAGAT GTCAATGTCA AAATGCTTAG TAGCACCACC
    AACAAACTAT TATTAGAGTC AGTAAATACC ACAAATAGTC ATCAGACATC TGTAAGAGAA
    GTGAGTGAAC CCAGGCACAA TCACTTCTAT TCTCACACTA CTCAAATACT TAGCACCTCC
    ACGTTCCCTT CAGATCCACA CACAGCTGCT CATTCTCAGT TTCCGATCCC TAGAAATAGT
    ACAGTTAACA TCCCGCTGTT CAGACGCTTT GGGAGGCAGA GGAAAATTGG CGGAAGGGGG
    CGGATTATCA GCCCATATAG AACTCCAGTT CTGCGACGGC ATAGATACAG CATTTTCAGG
    TCAACAACCA GAGGTTCTTC TGAAAAAAGC ACTACTGCAT TCTCAGCCAC AGTGCTCAAT
    GTGACATGTC TGTCCTGTCT TCCCAGGGAG AGGCTCACCA CTGCCACAGC AGCATTGTCT
    TTTCCAAGTG CTGCTCCCAT CACCTTCCCC AAAGCTGACA TTGCTAGAGT CCCATCAGAA
    GAGTCTACAA CTCTAGTCCA GAATCCACTA TTACTACTTG AGAACAAACC CAGTGTAGAG
    AAAACAACAC CCACAATAAA ATATTTCAGG ACTGAAATTT CCCAAGTGAC TCCAACTGGT
    GCAGTCATGA CATATGCTCC AACATCCATA CCCATGGAAA AAACTCACAA AGTAAACGCC
    AGTTACCCAC GTGTGTCTAG CACCAATGAA GCTAAAAGAG ATTCAGTGAT TACATCGTCA
    CTTTCAGGTG CTATCACCAA GCCACCAATG ACTATTATAG CCATTACAAG GTTTTCAAGA
    AGGAAAATTC CCTGGCAACA GAACTTTGTA AATAACCATA ACCCAAAAGG CAGATTAAGG
    AATCAACATA AAGTTAGTTT ACAAAAAAGC ACAGCTGTGA TGCTTCCTAA AACATCTCCT
    GCTTTACCCA GAGACAAAGT CTCCCCTTTC CATTTCACCA CACTTTCAAC AAGTGTGATG
    CAAATTCCAT CTAATACCTT GACTACCGCT CACCACACTA CGACCAAAAC ACACAATCCT
    GGAAGTCTTC CAACAAAGAA GGAGCTTCCC TTCCCACCCC TTAACCCTAT GCTTCCTAGT
    ATTATAAGCA AAGACTCAAG TACAAAAAGC ATCATATCAA CGCAAACAGC AATACCAGCA
    ACAACTCCTA CCTTCCCTGC ATCTGTCATC ACTTATGAAA CCCAAACAGA GAGATCTAGA
    GCACAAACAA TACAAAGAGA ACAGGAGCCT CAAAAGAAGA ACAGGACTGA CCCAAACATC
    TCTCCAGACC AGAGTTCTGG CTTCACTACA CCCACTGCTA TGACACCTCC TGTTCTAACC
    ACAGCCGAAA CTTCAGTCAA GCCCAGTGTC TCTGCATTCA CTCATTCCCC ACCAGAAAAC
    ACAACTGGGA TTTCAAGCAC AATCAGTTTT CATTCAAGAA CTCTTAATCT GACAGATGTG
    ATTGAAGAAC TAGCCCAAGC AAGTACTCAG ACTTTGAAGA GCACAATTGC TTCTGAAACA
    ACTTTGTCCA GCAAATCACA CCAGAGTACC ACAACTAGGA AAGCAATCAT TAGACACTCA
    ACCATACCAC CATTCTTGAG CAGCAGTGCT ACTCTAATGC CAGTTCCCAT CTCCCCTCCC
    TTTACTCAGA GAGCAGTTAC TGACAACGTG GCGACTCCCA TTTCCGGGCT TATGACAAAT
    ACAGTGGTCA AGCTGCACGA ATCCTCAAGG CACAATGCTA AACCACAGCA ATTAGTAGCA
    GAGGTTGCAA CATCCCCCAA GGTTCACCCA AATGCCAAGT TCACAATTGG AACCACTCAC
    TTCATCTACT CTAATCTGTT ACATTCTACT CCCATGCCAG CACTAACAAC AGTTAAATCA
    CAGAATTCTA AATTAACTCC ATCTCCCTGG GCAGAAAACC AATTTTGGCA CAAACCATAC
    TCAGAAATTG CTGAAAAAGG CAAAAAGCCA GAAGTAAGCA TGTTGGCTAC TACAGGCCTG
    TCCGAGGCCA CCACTCTTGT TTCAGATTGG GATGGACAGA AGAACACAAA GAAGAGTGAC
    TTTGATAAGA AACCAGTTCA AGAAGCAACA ACTTCCAAAC TCCTTCCCTT TGACTCTTTG
    TCTAGGTATA TATTTGAAAA GCCCAGGATA GTTGGAGGAA AAGCTGCAAG TTTTACTATT
    CCAGCTAACT CAGATGCCTT TCTTCCCTGT GAAGCTGTTG GAAATCCCCT GCCCACCATT
    CATTGGACCA GAGTCCCATC AGGACTTGAT TTATCTAAGA GGAAACAGAA TAGCAGGGTC
    CAGGTTCTCC CCAATGGTAC CCTGTCCATC CAGAGGGTGG AAATTCAGGA CCGCGGACAG
    TACTTGTGTT CCGCATCCAA TCTGTTTGGC ACAGACCACC TTCATGTCAC CTTGTCTGTG
    GTTTCCTATC CTCCCAGGAT CCTGGAGAGA CGTACCAAAG AGATCACAGT TCATTCCGGA
    AGCACTGTGG AACTGAAGTG CAGAGCAGAA GGTAGGCCAA GCCCTACAGT TACCTGGATT
    CTTGCAAACC AAACAGTTGT CTCAGAATCA TCCCAGGGAA GTAGGCAGGC TGTGGTGACG
    GTTGACGGAA CATTGGTCCT CCACAATCTC AGTATTTATG ACCGTGGCTT TTACAAATGT
    GTGGCCAGCA ACCCAGGTGG CCAGGATTCA CTGCTGGTTA AAATACAAGT CATTGCAGCA
    CCACCTGTTA TTCTAGAGCA AAGGAGGCAA GTCATTGTAG GCACTTGGGG TGAAAGTTTA
    AAACTGCCCT GTACTGCAAA AGGAACTCCT CAGCCCAGCG TTTACTGGGT CCTCTCTGAT
    GGCACTGAAG TGAAACCATT ACAGTTTACC AATTCCAAGT TGTTCTTATT TTCAAATGGG
    ACTTTGTATA TAAGAAACCT AGCCTCTTCA GACAGGGGCA CTTATGAATG CATTGCTACC
    AGTTCCACTG GTTCGGAGCG AAGAGTAGTA ATGCTTACAA TGGAAGAGCG AGTGACCAGC
    CCCAGGATAG AAGCTGCATC CCAGAAAAGG ACTGAAGTGA ATTTTGGGGA CAAATTACTA
    CTGAACTGCT CAGCCACTGG GGAGCCCAAA CCCCAAATAA TGTGGAGGTT ACCATCCAAG
    GCTGTGGTCG ACCAGCAGCA TAGAGTGGGC AGCTGGATCC ACGTCTACCC TAATGGATCC
    CTGTTTATTG GATCAGTAAC AGAAAAAGAC AGTGGTGTCT ACTTGTGTGT GGCAAGAAAC
    AAAATGGGGG ATGATCTGAT ACTGATGCAT GTTAGCCTAA GACTGAAACC TGCCAAAATT
    GACCACAAGC AGTATTTTAG AAAGCAAGTG CTCCATGGGA AAGATTTCCA AGTAGATTGC
    AAAGCTTCCG GCTCCCCAGT GCCAGAGATA TCTTGGAGTT TGCCTGATGG AACCATGATC
    AACAATGCAA TGCAAGCCGA TGACAGTGGC CACAGGACTA GGAGATATAC CCTTTTCAAC
    AATGGAACTT TATACTTCAA CAAAGTTGGG GTAGCGGAGG AAGGAGATTA TACTTGCTAT
    GCCCAGAACA CCCTAGGGAA AGATGAAATG AAGGTCCACT TAACAGTTAT AACAGCTGCT
    CCCCGGATAA GGCAGAGTAA CAAAACCAAC AAGAGAATCA AAGCTGGAGA CACAGCTGTC
    CTTGACTGTG AGGTCACTGG GGATCCCAAA CCAAAAATAT TTTGGTTGCT GCCTTCCAAT
    GACATGATTT CCTTCTCCAT TGATAGGTAC ACATTTCATG CCAATGGGTC TTTGACCATC
    AACAAAGTGA AACTGCTCGA TTCTGGAGAG TACGTATGTG TAGCCCGAAA TCCCAGTGGG
    GATGACACCA AAATGTACAA ACTGGATGTG GTCTCTAAAC CTCCATTAAT CAATGGTCTG
    TATACAAACA GAACTGTTAT TAAAGCCACA GCTGTGAGAC ATTCCAAAAA ACACTTTGAC
    TGCAGAGCTG AAGGGACACC ATCTCCTGAA GTCATGTGGA TCATGCCAGA CAATATTTTC
    CTCACAGCCC CATACTATGG AAGCAGAATC ACAGTCCATA AAAATGGAAC CTTGGAAATT
    AGGAATGTGA GGCTTTCAGA TTCAGCCGAC TTTATCTGTG TGGCCCGAAA TGAAGGTGGA
    GAGAGCGTGT TGGTAGTACA GTTAGAAGTA CTGGAAATGC TGAGAAGACC GACATTTAGA
    AATCCATTTA ATGAAAAAAT AGTTGCCCAG CTGGGAAAGT CCACAGCATT GAATTGCTCT
    GTTGATGGTA ACCCACCACC TGAAATAATC TGGATTTTAC CAAATGGCAC ACGATTTTCC
    AATGGACCAC AAAGTTATCA GTATCTGATA GCAAGCAATG GTTCTTTTAT CATTTCTAAA
    ACAACTCGGG AGGATGCAGG AAAATATCGC TGTGCAGCTA GGAATAAAGT TGGCTATATT
    GAGAAATTAG TCATATTAGA AATTGGCCAG AAGCCAGTTA TTCTTACCTA TGCACCAGGG
    ACAGTAAAAG GCATCAGTGG AGAATCTCTA TCACTGCATT GTGTGTCTGA TGGAATCCCT
    AAGCCAAATA TCAAATGGAC TATGCCAAGT GGTTATGTAG TAGACAGGCC TCAAATTAAT
    GGGAAATACA TATTGCATGA CAATGGCACC TTAGTCATTA AAGAAGCAAC AGCTTATGAC
    AGAGGAAACT ATATCTGTAA GGCTCAAAAT AGTGTTGGTC ATACACTGAT TACTGTTCCA
    GTAATGATTG TAGCCTACCC TCCCCGAATT ACAAATCGTC CACCCAGGAG TATTGTCACC
    AGGACAGGGG CAGCCTTTCA GCTCCACTGT GTGGCCTTGG GAGTTCCCAA GCCAGAAATC
    ACATGGGAGA TGCCTGACCA CTCCCTTCTC TCAACGGCAA GTAAAGAGAG GACACATGGA
    AGTGAGCAGC TTCACTTACA AGGTACCCTA GTCATTCAGA ATCCCCAAAC CTCCGATTCT
    GGGATATACA AATGCACAGC AAAGAACCCA CTTGGTAGTG ATTATGCAGC AACGTATATT
    CAAGTAATCT GA

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

    CloneID OHu00901
    Clone ID Related Accession (Same CDS sequence) XM_011512709.1 , NM_178822.4 , XM_011512709.2
    Accession Version XM_011512709.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 7872bp)
    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 immunoglobulin superfamily member 10 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) 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_011512709.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    ATGAAGGTAA AAGGCAGAGG AATCACCTGC TTGCTGGTCT CCTTTGCTGT GATCTGCCTG 
    GTCGCCACCC CTGGGGGCAA GGCCTGTCCT CGCCGCTGTG CCTGTTATAT GCCTACGGAG
    GTACACTGCA CATTTCGGTA CCTGACTTCC ATCCCAGACA GCATCCCGCC CAATGTGGAA
    CGCATCAATT TAGGATACAA CAGCTTGGTT AGATTGATGG AAACAGATTT TTCTGGCCTG
    ACCAAACTGG AGTTACTCAT GCTTCACAGC AATGGCATTC ACACAATCCC TGACAAGACC
    TTCTCAGATT TGCAGGCCTT GCAGGTCTTA AAAATGAGCT ATAATAAAGT CCGAAAACTT
    CAGAAAGATA CTTTTTATGG CCTCAGGAGC TTGACACGAT TGCACATGGA CCACAACAAT
    ATTGAGTTTA TAAACCCAGA GGTTTTTTAT GGGCTCAACT TTCTCCGCCT GGTGCACTTG
    GAAGGAAATC AGCTCACTAA GCTCCACCCA GATACATTTG TCTCTTTGAG CTACCTCCAG
    ATATTTAAAA TCTCTTTCAT TAAGTTCCTA TACTTGTCTG ATAACTTCCT GACCTCCCTC
    CCTCAAGAGA TGGTCTCCTA TATGCCTGAC CTAGACAGCC TTTACCTGCA TGGAAACCCA
    TGGACCTGTG ATTGCCATTT AAAGTGGTTG TCTGACTGGA TACAGGAGAA GCCAGATGTA
    ATAAAATGCA AAAAAGATAG AAGTCCCTCT AGTGCTCAGC AGTGTCCACT TTGCATGAAC
    CCTAGGACTT CTAAAGGCAA GCCGTTAGCT ATGGTCTCAG CTGCAGCTTT CCAGTGTGCC
    AAGCCAACCA TTGACTCATC CCTGAAATCA AAGAGCCTGA CTATTCTGGA AGACAGTAGT
    TCTGCTTTCA TCTCTCCCCA AGGTTTCATG GCACCCTTTG GCTCCCTCAC TTTGAATATG
    ACAGATCAGT CTGGAAATGA AGCTAACATG GTCTGCAGTA TTCAAAAGCC CTCAAGGACA
    TCACCCATTG CATTCACTGA AGAAAATGAC TACATCGTGC TAAATACTTC ATTTTCAACA
    TTTTTGGTGT GCAACATAGA TTACGGTCAC ATTCAGCCAG TGTGGCAAAT TTTGGCTTTG
    TACAGTGATT CTCCTCTGAT ACTAGAAAGG AGCCACTTGC TTAGTGAAAC ACCGCAGCTC
    TATTACAAAT ATAAACAGGT GGCTCCTAAG CCTGAAGACA TTTTTACCAA CATAGAGGCA
    GATCTCAGAG CAGATCCCTC TTGGTTAATG CAAGACCAAA TTTCCTTGCA GCTGAACAGA
    ACTGCCACCA CATTCAGTAC ATTACAGATC CAGTACTCCA GTGATGCTCA AATCACTTTA
    CCAAGAGCAG AGATGAGGCC AGTGAAACAC AAATGGACTA TGATTTCAAG GGATAACAAT
    ACTAAGCTGG AACATACTGT CTTGGTAGGT GGAACCGTTG GCCTGAACTG CCCAGGCCAA
    GGAGACCCCA CCCCACACGT GGATTGGCTT CTAGCTGATG GAAGTAAAGT GAGAGCCCCT
    TATGTCAGTG AGGATGGACG GATCCTAATA GACAAAAGTG GAAAATTGGA ACTCCAGATG
    GCTGATAGTT TTGACACAGG CGTATATCAC TGTATAAGCA GCAATTATGA TGATGCAGAT
    ATTCTCACCT ATAGGATAAC TGTGGTAGAA CCTTTGGTCG AAGCCTATCA GGAAAATGGG
    ATTCATCACA CAGTTTTCAT TGGTGAAACA CTTGATCTTC CATGCCATTC TACTGGTATC
    CCAGATGCCT CTATTAGCTG GGTTATTCCA GGAAACAATG TGCTCTATCA GTCATCAAGA
    GACAAGAAAG TTCTAAACAA TGGCACATTA AGAATATTAC AGGTCACCCC GAAAGACCAA
    GGTTATTATC GCTGTGTGGC AGCCAACCCA TCAGGGGTTG ATTTTTTGAT TTTCCAAGTT
    TCAGTCAAGA TGAAAGGACA AAGGCCCTTG GAGCATGATG GAGAAACAGA GGGATCTGGA
    CTTGATGAGT CCAATCCTAT TGCTCATCTT AAGGAGCCAC CAGGTGCACA ACTCCGTACA
    TCTGCTCTGA TGGAGGCTGA GGTTGGAAAA CACACCTCAA GCACAAGTAA GAGGCACAAC
    TATCGGGAAT TAACACTCCA GCGACGTGGA GATTCAACAC ATCGACGTTT TAGGGAGAAT
    AGGAGGCATT TCCCTCCCTC TGCTAGGAGA ATTGACCCAC AACATTGGGC GGCACTGTTG
    GAGAAAGCTA AAAAGAATGC TATGCCAGAC AAGCGAGAAA ATACCACAGT GAGCCCACCC
    CCAGTGGTCA CCCAACTCCC AAACATACCT GGTGAAGAAG ACGATTCCTC AGGCATGCTC
    GCTCTACATG AGGAATTTAT GGTCCCGGCC ACTAAAGCTT TGAACCTTCC AGCAAGGACA
    GTGACTGCTG ACTCCAGAAC AATATCTGAT AGTCCTATGA CAAACATAAA TTATGGCACA
    GAATTCTCTC CTGTTGTGAA TTCACAAATA CTACCACCTG AAGAACCCAC AGATTTCAAA
    CTGTCTACTG CTATTAAAAC TACAGCCATG TCAAAGAATA TAAACCCAAC CATGTCAAGC
    CAAATACAAG GCACAACCAA TCAACATTCA TCCACTGTCT TTCCACTGCT ACTTGGAGCA
    ACTGAATTTC AGGACTCTGA CCAGATGGGA AGAGGAAGAG AGCATTTCCA AAGTAGACCC
    CCAATAACAG TAAGGACTAT GATCAAAGAT GTCAATGTCA AAATGCTTAG TAGCACCACC
    AACAAACTAT TATTAGAGTC AGTAAATACC ACAAATAGTC ATCAGACATC TGTAAGAGAA
    GTGAGTGAAC CCAGGCACAA TCACTTCTAT TCTCACACTA CTCAAATACT TAGCACCTCC
    ACGTTCCCTT CAGATCCACA CACAGCTGCT CATTCTCAGT TTCCGATCCC TAGAAATAGT
    ACAGTTAACA TCCCGCTGTT CAGACGCTTT GGGAGGCAGA GGAAAATTGG CGGAAGGGGG
    CGGATTATCA GCCCATATAG AACTCCAGTT CTGCGACGGC ATAGATACAG CATTTTCAGG
    TCAACAACCA GAGGTTCTTC TGAAAAAAGC ACTACTGCAT TCTCAGCCAC AGTGCTCAAT
    GTGACATGTC TGTCCTGTCT TCCCAGGGAG AGGCTCACCA CTGCCACAGC AGCATTGTCT
    TTTCCAAGTG CTGCTCCCAT CACCTTCCCC AAAGCTGACA TTGCTAGAGT CCCATCAGAA
    GAGTCTACAA CTCTAGTCCA GAATCCACTA TTACTACTTG AGAACAAACC CAGTGTAGAG
    AAAACAACAC CCACAATAAA ATATTTCAGG ACTGAAATTT CCCAAGTGAC TCCAACTGGT
    GCAGTCATGA CATATGCTCC AACATCCATA CCCATGGAAA AAACTCACAA AGTAAACGCC
    AGTTACCCAC GTGTGTCTAG CACCAATGAA GCTAAAAGAG ATTCAGTGAT TACATCGTCA
    CTTTCAGGTG CTATCACCAA GCCACCAATG ACTATTATAG CCATTACAAG GTTTTCAAGA
    AGGAAAATTC CCTGGCAACA GAACTTTGTA AATAACCATA ACCCAAAAGG CAGATTAAGG
    AATCAACATA AAGTTAGTTT ACAAAAAAGC ACAGCTGTGA TGCTTCCTAA AACATCTCCT
    GCTTTACCCA GAGACAAAGT CTCCCCTTTC CATTTCACCA CACTTTCAAC AAGTGTGATG
    CAAATTCCAT CTAATACCTT GACTACCGCT CACCACACTA CGACCAAAAC ACACAATCCT
    GGAAGTCTTC CAACAAAGAA GGAGCTTCCC TTCCCACCCC TTAACCCTAT GCTTCCTAGT
    ATTATAAGCA AAGACTCAAG TACAAAAAGC ATCATATCAA CGCAAACAGC AATACCAGCA
    ACAACTCCTA CCTTCCCTGC ATCTGTCATC ACTTATGAAA CCCAAACAGA GAGATCTAGA
    GCACAAACAA TACAAAGAGA ACAGGAGCCT CAAAAGAAGA ACAGGACTGA CCCAAACATC
    TCTCCAGACC AGAGTTCTGG CTTCACTACA CCCACTGCTA TGACACCTCC TGTTCTAACC
    ACAGCCGAAA CTTCAGTCAA GCCCAGTGTC TCTGCATTCA CTCATTCCCC ACCAGAAAAC
    ACAACTGGGA TTTCAAGCAC AATCAGTTTT CATTCAAGAA CTCTTAATCT GACAGATGTG
    ATTGAAGAAC TAGCCCAAGC AAGTACTCAG ACTTTGAAGA GCACAATTGC TTCTGAAACA
    ACTTTGTCCA GCAAATCACA CCAGAGTACC ACAACTAGGA AAGCAATCAT TAGACACTCA
    ACCATACCAC CATTCTTGAG CAGCAGTGCT ACTCTAATGC CAGTTCCCAT CTCCCCTCCC
    TTTACTCAGA GAGCAGTTAC TGACAACGTG GCGACTCCCA TTTCCGGGCT TATGACAAAT
    ACAGTGGTCA AGCTGCACGA ATCCTCAAGG CACAATGCTA AACCACAGCA ATTAGTAGCA
    GAGGTTGCAA CATCCCCCAA GGTTCACCCA AATGCCAAGT TCACAATTGG AACCACTCAC
    TTCATCTACT CTAATCTGTT ACATTCTACT CCCATGCCAG CACTAACAAC AGTTAAATCA
    CAGAATTCTA AATTAACTCC ATCTCCCTGG GCAGAAAACC AATTTTGGCA CAAACCATAC
    TCAGAAATTG CTGAAAAAGG CAAAAAGCCA GAAGTAAGCA TGTTGGCTAC TACAGGCCTG
    TCCGAGGCCA CCACTCTTGT TTCAGATTGG GATGGACAGA AGAACACAAA GAAGAGTGAC
    TTTGATAAGA AACCAGTTCA AGAAGCAACA ACTTCCAAAC TCCTTCCCTT TGACTCTTTG
    TCTAGGTATA TATTTGAAAA GCCCAGGATA GTTGGAGGAA AAGCTGCAAG TTTTACTATT
    CCAGCTAACT CAGATGCCTT TCTTCCCTGT GAAGCTGTTG GAAATCCCCT GCCCACCATT
    CATTGGACCA GAGTCCCATC AGGACTTGAT TTATCTAAGA GGAAACAGAA TAGCAGGGTC
    CAGGTTCTCC CCAATGGTAC CCTGTCCATC CAGAGGGTGG AAATTCAGGA CCGCGGACAG
    TACTTGTGTT CCGCATCCAA TCTGTTTGGC ACAGACCACC TTCATGTCAC CTTGTCTGTG
    GTTTCCTATC CTCCCAGGAT CCTGGAGAGA CGTACCAAAG AGATCACAGT TCATTCCGGA
    AGCACTGTGG AACTGAAGTG CAGAGCAGAA GGTAGGCCAA GCCCTACAGT TACCTGGATT
    CTTGCAAACC AAACAGTTGT CTCAGAATCA TCCCAGGGAA GTAGGCAGGC TGTGGTGACG
    GTTGACGGAA CATTGGTCCT CCACAATCTC AGTATTTATG ACCGTGGCTT TTACAAATGT
    GTGGCCAGCA ACCCAGGTGG CCAGGATTCA CTGCTGGTTA AAATACAAGT CATTGCAGCA
    CCACCTGTTA TTCTAGAGCA AAGGAGGCAA GTCATTGTAG GCACTTGGGG TGAAAGTTTA
    AAACTGCCCT GTACTGCAAA AGGAACTCCT CAGCCCAGCG TTTACTGGGT CCTCTCTGAT
    GGCACTGAAG TGAAACCATT ACAGTTTACC AATTCCAAGT TGTTCTTATT TTCAAATGGG
    ACTTTGTATA TAAGAAACCT AGCCTCTTCA GACAGGGGCA CTTATGAATG CATTGCTACC
    AGTTCCACTG GTTCGGAGCG AAGAGTAGTA ATGCTTACAA TGGAAGAGCG AGTGACCAGC
    CCCAGGATAG AAGCTGCATC CCAGAAAAGG ACTGAAGTGA ATTTTGGGGA CAAATTACTA
    CTGAACTGCT CAGCCACTGG GGAGCCCAAA CCCCAAATAA TGTGGAGGTT ACCATCCAAG
    GCTGTGGTCG ACCAGCAGCA TAGAGTGGGC AGCTGGATCC ACGTCTACCC TAATGGATCC
    CTGTTTATTG GATCAGTAAC AGAAAAAGAC AGTGGTGTCT ACTTGTGTGT GGCAAGAAAC
    AAAATGGGGG ATGATCTGAT ACTGATGCAT GTTAGCCTAA GACTGAAACC TGCCAAAATT
    GACCACAAGC AGTATTTTAG AAAGCAAGTG CTCCATGGGA AAGATTTCCA AGTAGATTGC
    AAAGCTTCCG GCTCCCCAGT GCCAGAGATA TCTTGGAGTT TGCCTGATGG AACCATGATC
    AACAATGCAA TGCAAGCCGA TGACAGTGGC CACAGGACTA GGAGATATAC CCTTTTCAAC
    AATGGAACTT TATACTTCAA CAAAGTTGGG GTAGCGGAGG AAGGAGATTA TACTTGCTAT
    GCCCAGAACA CCCTAGGGAA AGATGAAATG AAGGTCCACT TAACAGTTAT AACAGCTGCT
    CCCCGGATAA GGCAGAGTAA CAAAACCAAC AAGAGAATCA AAGCTGGAGA CACAGCTGTC
    CTTGACTGTG AGGTCACTGG GGATCCCAAA CCAAAAATAT TTTGGTTGCT GCCTTCCAAT
    GACATGATTT CCTTCTCCAT TGATAGGTAC ACATTTCATG CCAATGGGTC TTTGACCATC
    AACAAAGTGA AACTGCTCGA TTCTGGAGAG TACGTATGTG TAGCCCGAAA TCCCAGTGGG
    GATGACACCA AAATGTACAA ACTGGATGTG GTCTCTAAAC CTCCATTAAT CAATGGTCTG
    TATACAAACA GAACTGTTAT TAAAGCCACA GCTGTGAGAC ATTCCAAAAA ACACTTTGAC
    TGCAGAGCTG AAGGGACACC ATCTCCTGAA GTCATGTGGA TCATGCCAGA CAATATTTTC
    CTCACAGCCC CATACTATGG AAGCAGAATC ACAGTCCATA AAAATGGAAC CTTGGAAATT
    AGGAATGTGA GGCTTTCAGA TTCAGCCGAC TTTATCTGTG TGGCCCGAAA TGAAGGTGGA
    GAGAGCGTGT TGGTAGTACA GTTAGAAGTA CTGGAAATGC TGAGAAGACC GACATTTAGA
    AATCCATTTA ATGAAAAAAT AGTTGCCCAG CTGGGAAAGT CCACAGCATT GAATTGCTCT
    GTTGATGGTA ACCCACCACC TGAAATAATC TGGATTTTAC CAAATGGCAC ACGATTTTCC
    AATGGACCAC AAAGTTATCA GTATCTGATA GCAAGCAATG GTTCTTTTAT CATTTCTAAA
    ACAACTCGGG AGGATGCAGG AAAATATCGC TGTGCAGCTA GGAATAAAGT TGGCTATATT
    GAGAAATTAG TCATATTAGA AATTGGCCAG AAGCCAGTTA TTCTTACCTA TGCACCAGGG
    ACAGTAAAAG GCATCAGTGG AGAATCTCTA TCACTGCATT GTGTGTCTGA TGGAATCCCT
    AAGCCAAATA TCAAATGGAC TATGCCAAGT GGTTATGTAG TAGACAGGCC TCAAATTAAT
    GGGAAATACA TATTGCATGA CAATGGCACC TTAGTCATTA AAGAAGCAAC AGCTTATGAC
    AGAGGAAACT ATATCTGTAA GGCTCAAAAT AGTGTTGGTC ATACACTGAT TACTGTTCCA
    GTAATGATTG TAGCCTACCC TCCCCGAATT ACAAATCGTC CACCCAGGAG TATTGTCACC
    AGGACAGGGG CAGCCTTTCA GCTCCACTGT GTGGCCTTGG GAGTTCCCAA GCCAGAAATC
    ACATGGGAGA TGCCTGACCA CTCCCTTCTC TCAACGGCAA GTAAAGAGAG GACACATGGA
    AGTGAGCAGC TTCACTTACA AGGTACCCTA GTCATTCAGA ATCCCCAAAC CTCCGATTCT
    GGGATATACA AATGCACAGC AAAGAACCCA CTTGGTAGTG ATTATGCAGC AACGTATATT
    CAAGTAATCT GA

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

    RefSeq XP_011511011.1
    CDS541..8412
    Translation

    Target ORF information:

    RefSeq Version XM_011512709.2
    Organism Homo sapiens(human)
    Definition Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011512709.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    ATGAAGGTAA AAGGCAGAGG AATCACCTGC TTGCTGGTCT CCTTTGCTGT GATCTGCCTG 
    GTCGCCACCC CTGGGGGCAA GGCCTGTCCT CGCCGCTGTG CCTGTTATAT GCCTACGGAG
    GTACACTGCA CATTTCGGTA CCTGACTTCC ATCCCAGACA GCATCCCGCC CAATGTGGAA
    CGCATCAATT TAGGATACAA CAGCTTGGTT AGATTGATGG AAACAGATTT TTCTGGCCTG
    ACCAAACTGG AGTTACTCAT GCTTCACAGC AATGGCATTC ACACAATCCC TGACAAGACC
    TTCTCAGATT TGCAGGCCTT GCAGGTCTTA AAAATGAGCT ATAATAAAGT CCGAAAACTT
    CAGAAAGATA CTTTTTATGG CCTCAGGAGC TTGACACGAT TGCACATGGA CCACAACAAT
    ATTGAGTTTA TAAACCCAGA GGTTTTTTAT GGGCTCAACT TTCTCCGCCT GGTGCACTTG
    GAAGGAAATC AGCTCACTAA GCTCCACCCA GATACATTTG TCTCTTTGAG CTACCTCCAG
    ATATTTAAAA TCTCTTTCAT TAAGTTCCTA TACTTGTCTG ATAACTTCCT GACCTCCCTC
    CCTCAAGAGA TGGTCTCCTA TATGCCTGAC CTAGACAGCC TTTACCTGCA TGGAAACCCA
    TGGACCTGTG ATTGCCATTT AAAGTGGTTG TCTGACTGGA TACAGGAGAA GCCAGATGTA
    ATAAAATGCA AAAAAGATAG AAGTCCCTCT AGTGCTCAGC AGTGTCCACT TTGCATGAAC
    CCTAGGACTT CTAAAGGCAA GCCGTTAGCT ATGGTCTCAG CTGCAGCTTT CCAGTGTGCC
    AAGCCAACCA TTGACTCATC CCTGAAATCA AAGAGCCTGA CTATTCTGGA AGACAGTAGT
    TCTGCTTTCA TCTCTCCCCA AGGTTTCATG GCACCCTTTG GCTCCCTCAC TTTGAATATG
    ACAGATCAGT CTGGAAATGA AGCTAACATG GTCTGCAGTA TTCAAAAGCC CTCAAGGACA
    TCACCCATTG CATTCACTGA AGAAAATGAC TACATCGTGC TAAATACTTC ATTTTCAACA
    TTTTTGGTGT GCAACATAGA TTACGGTCAC ATTCAGCCAG TGTGGCAAAT TTTGGCTTTG
    TACAGTGATT CTCCTCTGAT ACTAGAAAGG AGCCACTTGC TTAGTGAAAC ACCGCAGCTC
    TATTACAAAT ATAAACAGGT GGCTCCTAAG CCTGAAGACA TTTTTACCAA CATAGAGGCA
    GATCTCAGAG CAGATCCCTC TTGGTTAATG CAAGACCAAA TTTCCTTGCA GCTGAACAGA
    ACTGCCACCA CATTCAGTAC ATTACAGATC CAGTACTCCA GTGATGCTCA AATCACTTTA
    CCAAGAGCAG AGATGAGGCC AGTGAAACAC AAATGGACTA TGATTTCAAG GGATAACAAT
    ACTAAGCTGG AACATACTGT CTTGGTAGGT GGAACCGTTG GCCTGAACTG CCCAGGCCAA
    GGAGACCCCA CCCCACACGT GGATTGGCTT CTAGCTGATG GAAGTAAAGT GAGAGCCCCT
    TATGTCAGTG AGGATGGACG GATCCTAATA GACAAAAGTG GAAAATTGGA ACTCCAGATG
    GCTGATAGTT TTGACACAGG CGTATATCAC TGTATAAGCA GCAATTATGA TGATGCAGAT
    ATTCTCACCT ATAGGATAAC TGTGGTAGAA CCTTTGGTCG AAGCCTATCA GGAAAATGGG
    ATTCATCACA CAGTTTTCAT TGGTGAAACA CTTGATCTTC CATGCCATTC TACTGGTATC
    CCAGATGCCT CTATTAGCTG GGTTATTCCA GGAAACAATG TGCTCTATCA GTCATCAAGA
    GACAAGAAAG TTCTAAACAA TGGCACATTA AGAATATTAC AGGTCACCCC GAAAGACCAA
    GGTTATTATC GCTGTGTGGC AGCCAACCCA TCAGGGGTTG ATTTTTTGAT TTTCCAAGTT
    TCAGTCAAGA TGAAAGGACA AAGGCCCTTG GAGCATGATG GAGAAACAGA GGGATCTGGA
    CTTGATGAGT CCAATCCTAT TGCTCATCTT AAGGAGCCAC CAGGTGCACA ACTCCGTACA
    TCTGCTCTGA TGGAGGCTGA GGTTGGAAAA CACACCTCAA GCACAAGTAA GAGGCACAAC
    TATCGGGAAT TAACACTCCA GCGACGTGGA GATTCAACAC ATCGACGTTT TAGGGAGAAT
    AGGAGGCATT TCCCTCCCTC TGCTAGGAGA ATTGACCCAC AACATTGGGC GGCACTGTTG
    GAGAAAGCTA AAAAGAATGC TATGCCAGAC AAGCGAGAAA ATACCACAGT GAGCCCACCC
    CCAGTGGTCA CCCAACTCCC AAACATACCT GGTGAAGAAG ACGATTCCTC AGGCATGCTC
    GCTCTACATG AGGAATTTAT GGTCCCGGCC ACTAAAGCTT TGAACCTTCC AGCAAGGACA
    GTGACTGCTG ACTCCAGAAC AATATCTGAT AGTCCTATGA CAAACATAAA TTATGGCACA
    GAATTCTCTC CTGTTGTGAA TTCACAAATA CTACCACCTG AAGAACCCAC AGATTTCAAA
    CTGTCTACTG CTATTAAAAC TACAGCCATG TCAAAGAATA TAAACCCAAC CATGTCAAGC
    CAAATACAAG GCACAACCAA TCAACATTCA TCCACTGTCT TTCCACTGCT ACTTGGAGCA
    ACTGAATTTC AGGACTCTGA CCAGATGGGA AGAGGAAGAG AGCATTTCCA AAGTAGACCC
    CCAATAACAG TAAGGACTAT GATCAAAGAT GTCAATGTCA AAATGCTTAG TAGCACCACC
    AACAAACTAT TATTAGAGTC AGTAAATACC ACAAATAGTC ATCAGACATC TGTAAGAGAA
    GTGAGTGAAC CCAGGCACAA TCACTTCTAT TCTCACACTA CTCAAATACT TAGCACCTCC
    ACGTTCCCTT CAGATCCACA CACAGCTGCT CATTCTCAGT TTCCGATCCC TAGAAATAGT
    ACAGTTAACA TCCCGCTGTT CAGACGCTTT GGGAGGCAGA GGAAAATTGG CGGAAGGGGG
    CGGATTATCA GCCCATATAG AACTCCAGTT CTGCGACGGC ATAGATACAG CATTTTCAGG
    TCAACAACCA GAGGTTCTTC TGAAAAAAGC ACTACTGCAT TCTCAGCCAC AGTGCTCAAT
    GTGACATGTC TGTCCTGTCT TCCCAGGGAG AGGCTCACCA CTGCCACAGC AGCATTGTCT
    TTTCCAAGTG CTGCTCCCAT CACCTTCCCC AAAGCTGACA TTGCTAGAGT CCCATCAGAA
    GAGTCTACAA CTCTAGTCCA GAATCCACTA TTACTACTTG AGAACAAACC CAGTGTAGAG
    AAAACAACAC CCACAATAAA ATATTTCAGG ACTGAAATTT CCCAAGTGAC TCCAACTGGT
    GCAGTCATGA CATATGCTCC AACATCCATA CCCATGGAAA AAACTCACAA AGTAAACGCC
    AGTTACCCAC GTGTGTCTAG CACCAATGAA GCTAAAAGAG ATTCAGTGAT TACATCGTCA
    CTTTCAGGTG CTATCACCAA GCCACCAATG ACTATTATAG CCATTACAAG GTTTTCAAGA
    AGGAAAATTC CCTGGCAACA GAACTTTGTA AATAACCATA ACCCAAAAGG CAGATTAAGG
    AATCAACATA AAGTTAGTTT ACAAAAAAGC ACAGCTGTGA TGCTTCCTAA AACATCTCCT
    GCTTTACCCA GAGACAAAGT CTCCCCTTTC CATTTCACCA CACTTTCAAC AAGTGTGATG
    CAAATTCCAT CTAATACCTT GACTACCGCT CACCACACTA CGACCAAAAC ACACAATCCT
    GGAAGTCTTC CAACAAAGAA GGAGCTTCCC TTCCCACCCC TTAACCCTAT GCTTCCTAGT
    ATTATAAGCA AAGACTCAAG TACAAAAAGC ATCATATCAA CGCAAACAGC AATACCAGCA
    ACAACTCCTA CCTTCCCTGC ATCTGTCATC ACTTATGAAA CCCAAACAGA GAGATCTAGA
    GCACAAACAA TACAAAGAGA ACAGGAGCCT CAAAAGAAGA ACAGGACTGA CCCAAACATC
    TCTCCAGACC AGAGTTCTGG CTTCACTACA CCCACTGCTA TGACACCTCC TGTTCTAACC
    ACAGCCGAAA CTTCAGTCAA GCCCAGTGTC TCTGCATTCA CTCATTCCCC ACCAGAAAAC
    ACAACTGGGA TTTCAAGCAC AATCAGTTTT CATTCAAGAA CTCTTAATCT GACAGATGTG
    ATTGAAGAAC TAGCCCAAGC AAGTACTCAG ACTTTGAAGA GCACAATTGC TTCTGAAACA
    ACTTTGTCCA GCAAATCACA CCAGAGTACC ACAACTAGGA AAGCAATCAT TAGACACTCA
    ACCATACCAC CATTCTTGAG CAGCAGTGCT ACTCTAATGC CAGTTCCCAT CTCCCCTCCC
    TTTACTCAGA GAGCAGTTAC TGACAACGTG GCGACTCCCA TTTCCGGGCT TATGACAAAT
    ACAGTGGTCA AGCTGCACGA ATCCTCAAGG CACAATGCTA AACCACAGCA ATTAGTAGCA
    GAGGTTGCAA CATCCCCCAA GGTTCACCCA AATGCCAAGT TCACAATTGG AACCACTCAC
    TTCATCTACT CTAATCTGTT ACATTCTACT CCCATGCCAG CACTAACAAC AGTTAAATCA
    CAGAATTCTA AATTAACTCC ATCTCCCTGG GCAGAAAACC AATTTTGGCA CAAACCATAC
    TCAGAAATTG CTGAAAAAGG CAAAAAGCCA GAAGTAAGCA TGTTGGCTAC TACAGGCCTG
    TCCGAGGCCA CCACTCTTGT TTCAGATTGG GATGGACAGA AGAACACAAA GAAGAGTGAC
    TTTGATAAGA AACCAGTTCA AGAAGCAACA ACTTCCAAAC TCCTTCCCTT TGACTCTTTG
    TCTAGGTATA TATTTGAAAA GCCCAGGATA GTTGGAGGAA AAGCTGCAAG TTTTACTATT
    CCAGCTAACT CAGATGCCTT TCTTCCCTGT GAAGCTGTTG GAAATCCCCT GCCCACCATT
    CATTGGACCA GAGTCCCATC AGGACTTGAT TTATCTAAGA GGAAACAGAA TAGCAGGGTC
    CAGGTTCTCC CCAATGGTAC CCTGTCCATC CAGAGGGTGG AAATTCAGGA CCGCGGACAG
    TACTTGTGTT CCGCATCCAA TCTGTTTGGC ACAGACCACC TTCATGTCAC CTTGTCTGTG
    GTTTCCTATC CTCCCAGGAT CCTGGAGAGA CGTACCAAAG AGATCACAGT TCATTCCGGA
    AGCACTGTGG AACTGAAGTG CAGAGCAGAA GGTAGGCCAA GCCCTACAGT TACCTGGATT
    CTTGCAAACC AAACAGTTGT CTCAGAATCA TCCCAGGGAA GTAGGCAGGC TGTGGTGACG
    GTTGACGGAA CATTGGTCCT CCACAATCTC AGTATTTATG ACCGTGGCTT TTACAAATGT
    GTGGCCAGCA ACCCAGGTGG CCAGGATTCA CTGCTGGTTA AAATACAAGT CATTGCAGCA
    CCACCTGTTA TTCTAGAGCA AAGGAGGCAA GTCATTGTAG GCACTTGGGG TGAAAGTTTA
    AAACTGCCCT GTACTGCAAA AGGAACTCCT CAGCCCAGCG TTTACTGGGT CCTCTCTGAT
    GGCACTGAAG TGAAACCATT ACAGTTTACC AATTCCAAGT TGTTCTTATT TTCAAATGGG
    ACTTTGTATA TAAGAAACCT AGCCTCTTCA GACAGGGGCA CTTATGAATG CATTGCTACC
    AGTTCCACTG GTTCGGAGCG AAGAGTAGTA ATGCTTACAA TGGAAGAGCG AGTGACCAGC
    CCCAGGATAG AAGCTGCATC CCAGAAAAGG ACTGAAGTGA ATTTTGGGGA CAAATTACTA
    CTGAACTGCT CAGCCACTGG GGAGCCCAAA CCCCAAATAA TGTGGAGGTT ACCATCCAAG
    GCTGTGGTCG ACCAGCAGCA TAGAGTGGGC AGCTGGATCC ACGTCTACCC TAATGGATCC
    CTGTTTATTG GATCAGTAAC AGAAAAAGAC AGTGGTGTCT ACTTGTGTGT GGCAAGAAAC
    AAAATGGGGG ATGATCTGAT ACTGATGCAT GTTAGCCTAA GACTGAAACC TGCCAAAATT
    GACCACAAGC AGTATTTTAG AAAGCAAGTG CTCCATGGGA AAGATTTCCA AGTAGATTGC
    AAAGCTTCCG GCTCCCCAGT GCCAGAGATA TCTTGGAGTT TGCCTGATGG AACCATGATC
    AACAATGCAA TGCAAGCCGA TGACAGTGGC CACAGGACTA GGAGATATAC CCTTTTCAAC
    AATGGAACTT TATACTTCAA CAAAGTTGGG GTAGCGGAGG AAGGAGATTA TACTTGCTAT
    GCCCAGAACA CCCTAGGGAA AGATGAAATG AAGGTCCACT TAACAGTTAT AACAGCTGCT
    CCCCGGATAA GGCAGAGTAA CAAAACCAAC AAGAGAATCA AAGCTGGAGA CACAGCTGTC
    CTTGACTGTG AGGTCACTGG GGATCCCAAA CCAAAAATAT TTTGGTTGCT GCCTTCCAAT
    GACATGATTT CCTTCTCCAT TGATAGGTAC ACATTTCATG CCAATGGGTC TTTGACCATC
    AACAAAGTGA AACTGCTCGA TTCTGGAGAG TACGTATGTG TAGCCCGAAA TCCCAGTGGG
    GATGACACCA AAATGTACAA ACTGGATGTG GTCTCTAAAC CTCCATTAAT CAATGGTCTG
    TATACAAACA GAACTGTTAT TAAAGCCACA GCTGTGAGAC ATTCCAAAAA ACACTTTGAC
    TGCAGAGCTG AAGGGACACC ATCTCCTGAA GTCATGTGGA TCATGCCAGA CAATATTTTC
    CTCACAGCCC CATACTATGG AAGCAGAATC ACAGTCCATA AAAATGGAAC CTTGGAAATT
    AGGAATGTGA GGCTTTCAGA TTCAGCCGAC TTTATCTGTG TGGCCCGAAA TGAAGGTGGA
    GAGAGCGTGT TGGTAGTACA GTTAGAAGTA CTGGAAATGC TGAGAAGACC GACATTTAGA
    AATCCATTTA ATGAAAAAAT AGTTGCCCAG CTGGGAAAGT CCACAGCATT GAATTGCTCT
    GTTGATGGTA ACCCACCACC TGAAATAATC TGGATTTTAC CAAATGGCAC ACGATTTTCC
    AATGGACCAC AAAGTTATCA GTATCTGATA GCAAGCAATG GTTCTTTTAT CATTTCTAAA
    ACAACTCGGG AGGATGCAGG AAAATATCGC TGTGCAGCTA GGAATAAAGT TGGCTATATT
    GAGAAATTAG TCATATTAGA AATTGGCCAG AAGCCAGTTA TTCTTACCTA TGCACCAGGG
    ACAGTAAAAG GCATCAGTGG AGAATCTCTA TCACTGCATT GTGTGTCTGA TGGAATCCCT
    AAGCCAAATA TCAAATGGAC TATGCCAAGT GGTTATGTAG TAGACAGGCC TCAAATTAAT
    GGGAAATACA TATTGCATGA CAATGGCACC TTAGTCATTA AAGAAGCAAC AGCTTATGAC
    AGAGGAAACT ATATCTGTAA GGCTCAAAAT AGTGTTGGTC ATACACTGAT TACTGTTCCA
    GTAATGATTG TAGCCTACCC TCCCCGAATT ACAAATCGTC CACCCAGGAG TATTGTCACC
    AGGACAGGGG CAGCCTTTCA GCTCCACTGT GTGGCCTTGG GAGTTCCCAA GCCAGAAATC
    ACATGGGAGA TGCCTGACCA CTCCCTTCTC TCAACGGCAA GTAAAGAGAG GACACATGGA
    AGTGAGCAGC TTCACTTACA AGGTACCCTA GTCATTCAGA ATCCCCAAAC CTCCGATTCT
    GGGATATACA AATGCACAGC AAAGAACCCA CTTGGTAGTG ATTATGCAGC AACGTATATT
    CAAGTAATCT GA

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

    CloneID OHu37896
    Clone ID Related Accession (Same CDS sequence) XM_011512708.2
    Accession Version XM_011512708.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 8088bp)
    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 immunoglobulin superfamily member 10 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) 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_011512708.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    ATGAGTTATA GAACTTTGAA GCTGTGGAAG CGGCTCCAGG TCTCCCTGAA GAGCATTACT 
    CCTGGCTGTA AGCCAAAAAG AATAAGGCTT TTTGCTCACT TTGGAGCAGA GAACTTTTCC
    TCCCTCAGGT TTGGACACAA TTTTCCATTT CCTGGGAAGA TTTTCTGTCT CTGCCTATGT
    CACAAGAGGA CTCAGGACCT GAAAGAAGAG CTCAGGATGA AGGTAAAAGG CAGAGGAATC
    ACCTGCTTGC TGGTCTCCTT TGCTGTGATC TGCCTGGTCG CCACCCCTGG GGGCAAGGCC
    TGTCCTCGCC GCTGTGCCTG TTATATGCCT ACGGAGGTAC ACTGCACATT TCGGTACCTG
    ACTTCCATCC CAGACAGCAT CCCGCCCAAT GTGGAACGCA TCAATTTAGG ATACAACAGC
    TTGGTTAGAT TGATGGAAAC AGATTTTTCT GGCCTGACCA AACTGGAGTT ACTCATGCTT
    CACAGCAATG GCATTCACAC AATCCCTGAC AAGACCTTCT CAGATTTGCA GGCCTTGCAG
    GTCTTAAAAA TGAGCTATAA TAAAGTCCGA AAACTTCAGA AAGATACTTT TTATGGCCTC
    AGGAGCTTGA CACGATTGCA CATGGACCAC AACAATATTG AGTTTATAAA CCCAGAGGTT
    TTTTATGGGC TCAACTTTCT CCGCCTGGTG CACTTGGAAG GAAATCAGCT CACTAAGCTC
    CACCCAGATA CATTTGTCTC TTTGAGCTAC CTCCAGATAT TTAAAATCTC TTTCATTAAG
    TTCCTATACT TGTCTGATAA CTTCCTGACC TCCCTCCCTC AAGAGATGGT CTCCTATATG
    CCTGACCTAG ACAGCCTTTA CCTGCATGGA AACCCATGGA CCTGTGATTG CCATTTAAAG
    TGGTTGTCTG ACTGGATACA GGAGAAGCCA GATGTAATAA AATGCAAAAA AGATAGAAGT
    CCCTCTAGTG CTCAGCAGTG TCCACTTTGC ATGAACCCTA GGACTTCTAA AGGCAAGCCG
    TTAGCTATGG TCTCAGCTGC AGCTTTCCAG TGTGCCAAGC CAACCATTGA CTCATCCCTG
    AAATCAAAGA GCCTGACTAT TCTGGAAGAC AGTAGTTCTG CTTTCATCTC TCCCCAAGGT
    TTCATGGCAC CCTTTGGCTC CCTCACTTTG AATATGACAG ATCAGTCTGG AAATGAAGCT
    AACATGGTCT GCAGTATTCA AAAGCCCTCA AGGACATCAC CCATTGCATT CACTGAAGAA
    AATGACTACA TCGTGCTAAA TACTTCATTT TCAACATTTT TGGTGTGCAA CATAGATTAC
    GGTCACATTC AGCCAGTGTG GCAAATTTTG GCTTTGTACA GTGATTCTCC TCTGATACTA
    GAAAGGAGCC ACTTGCTTAG TGAAACACCG CAGCTCTATT ACAAATATAA ACAGGTGGCT
    CCTAAGCCTG AAGACATTTT TACCAACATA GAGGCAGATC TCAGAGCAGA TCCCTCTTGG
    TTAATGCAAG ACCAAATTTC CTTGCAGCTG AACAGAACTG CCACCACATT CAGTACATTA
    CAGATCCAGT ACTCCAGTGA TGCTCAAATC ACTTTACCAA GAGCAGAGAT GAGGCCAGTG
    AAACACAAAT GGACTATGAT TTCAAGGGAT AACAATACTA AGCTGGAACA TACTGTCTTG
    GTAGGTGGAA CCGTTGGCCT GAACTGCCCA GGCCAAGGAG ACCCCACCCC ACACGTGGAT
    TGGCTTCTAG CTGATGGAAG TAAAGTGAGA GCCCCTTATG TCAGTGAGGA TGGACGGATC
    CTAATAGACA AAAGTGGAAA ATTGGAACTC CAGATGGCTG ATAGTTTTGA CACAGGCGTA
    TATCACTGTA TAAGCAGCAA TTATGATGAT GCAGATATTC TCACCTATAG GATAACTGTG
    GTAGAACCTT TGGTCGAAGC CTATCAGGAA AATGGGATTC ATCACACAGT TTTCATTGGT
    GAAACACTTG ATCTTCCATG CCATTCTACT GGTATCCCAG ATGCCTCTAT TAGCTGGGTT
    ATTCCAGGAA ACAATGTGCT CTATCAGTCA TCAAGAGACA AGAAAGTTCT AAACAATGGC
    ACATTAAGAA TATTACAGGT CACCCCGAAA GACCAAGGTT ATTATCGCTG TGTGGCAGCC
    AACCCATCAG GGGTTGATTT TTTGATTTTC CAAGTTTCAG TCAAGATGAA AGGACAAAGG
    CCCTTGGAGC ATGATGGAGA AACAGAGGGA TCTGGACTTG ATGAGTCCAA TCCTATTGCT
    CATCTTAAGG AGCCACCAGG TGCACAACTC CGTACATCTG CTCTGATGGA GGCTGAGGTT
    GGAAAACACA CCTCAAGCAC AAGTAAGAGG CACAACTATC GGGAATTAAC ACTCCAGCGA
    CGTGGAGATT CAACACATCG ACGTTTTAGG GAGAATAGGA GGCATTTCCC TCCCTCTGCT
    AGGAGAATTG ACCCACAACA TTGGGCGGCA CTGTTGGAGA AAGCTAAAAA GAATGCTATG
    CCAGACAAGC GAGAAAATAC CACAGTGAGC CCACCCCCAG TGGTCACCCA ACTCCCAAAC
    ATACCTGGTG AAGAAGACGA TTCCTCAGGC ATGCTCGCTC TACATGAGGA ATTTATGGTC
    CCGGCCACTA AAGCTTTGAA CCTTCCAGCA AGGACAGTGA CTGCTGACTC CAGAACAATA
    TCTGATAGTC CTATGACAAA CATAAATTAT GGCACAGAAT TCTCTCCTGT TGTGAATTCA
    CAAATACTAC CACCTGAAGA ACCCACAGAT TTCAAACTGT CTACTGCTAT TAAAACTACA
    GCCATGTCAA AGAATATAAA CCCAACCATG TCAAGCCAAA TACAAGGCAC AACCAATCAA
    CATTCATCCA CTGTCTTTCC ACTGCTACTT GGAGCAACTG AATTTCAGGA CTCTGACCAG
    ATGGGAAGAG GAAGAGAGCA TTTCCAAAGT AGACCCCCAA TAACAGTAAG GACTATGATC
    AAAGATGTCA ATGTCAAAAT GCTTAGTAGC ACCACCAACA AACTATTATT AGAGTCAGTA
    AATACCACAA ATAGTCATCA GACATCTGTA AGAGAAGTGA GTGAACCCAG GCACAATCAC
    TTCTATTCTC ACACTACTCA AATACTTAGC ACCTCCACGT TCCCTTCAGA TCCACACACA
    GCTGCTCATT CTCAGTTTCC GATCCCTAGA AATAGTACAG TTAACATCCC GCTGTTCAGA
    CGCTTTGGGA GGCAGAGGAA AATTGGCGGA AGGGGGCGGA TTATCAGCCC ATATAGAACT
    CCAGTTCTGC GACGGCATAG ATACAGCATT TTCAGGTCAA CAACCAGAGG TTCTTCTGAA
    AAAAGCACTA CTGCATTCTC AGCCACAGTG CTCAATGTGA CATGTCTGTC CTGTCTTCCC
    AGGGAGAGGC TCACCACTGC CACAGCAGCA TTGTCTTTTC CAAGTGCTGC TCCCATCACC
    TTCCCCAAAG CTGACATTGC TAGAGTCCCA TCAGAAGAGT CTACAACTCT AGTCCAGAAT
    CCACTATTAC TACTTGAGAA CAAACCCAGT GTAGAGAAAA CAACACCCAC AATAAAATAT
    TTCAGGACTG AAATTTCCCA AGTGACTCCA ACTGGTGCAG TCATGACATA TGCTCCAACA
    TCCATACCCA TGGAAAAAAC TCACAAAGTA AACGCCAGTT ACCCACGTGT GTCTAGCACC
    AATGAAGCTA AAAGAGATTC AGTGATTACA TCGTCACTTT CAGGTGCTAT CACCAAGCCA
    CCAATGACTA TTATAGCCAT TACAAGGTTT TCAAGAAGGA AAATTCCCTG GCAACAGAAC
    TTTGTAAATA ACCATAACCC AAAAGGCAGA TTAAGGAATC AACATAAAGT TAGTTTACAA
    AAAAGCACAG CTGTGATGCT TCCTAAAACA TCTCCTGCTT TACCCAGAGA CAAAGTCTCC
    CCTTTCCATT TCACCACACT TTCAACAAGT GTGATGCAAA TTCCATCTAA TACCTTGACT
    ACCGCTCACC ACACTACGAC CAAAACACAC AATCCTGGAA GTCTTCCAAC AAAGAAGGAG
    CTTCCCTTCC CACCCCTTAA CCCTATGCTT CCTAGTATTA TAAGCAAAGA CTCAAGTACA
    AAAAGCATCA TATCAACGCA AACAGCAATA CCAGCAACAA CTCCTACCTT CCCTGCATCT
    GTCATCACTT ATGAAACCCA AACAGAGAGA TCTAGAGCAC AAACAATACA AAGAGAACAG
    GAGCCTCAAA AGAAGAACAG GACTGACCCA AACATCTCTC CAGACCAGAG TTCTGGCTTC
    ACTACACCCA CTGCTATGAC ACCTCCTGTT CTAACCACAG CCGAAACTTC AGTCAAGCCC
    AGTGTCTCTG CATTCACTCA TTCCCCACCA GAAAACACAA CTGGGATTTC AAGCACAATC
    AGTTTTCATT CAAGAACTCT TAATCTGACA GATGTGATTG AAGAACTAGC CCAAGCAAGT
    ACTCAGACTT TGAAGAGCAC AATTGCTTCT GAAACAACTT TGTCCAGCAA ATCACACCAG
    AGTACCACAA CTAGGAAAGC AATCATTAGA CACTCAACCA TACCACCATT CTTGAGCAGC
    AGTGCTACTC TAATGCCAGT TCCCATCTCC CCTCCCTTTA CTCAGAGAGC AGTTACTGAC
    AACGTGGCGA CTCCCATTTC CGGGCTTATG ACAAATACAG TGGTCAAGCT GCACGAATCC
    TCAAGGCACA ATGCTAAACC ACAGCAATTA GTAGCAGAGG TTGCAACATC CCCCAAGGTT
    CACCCAAATG CCAAGTTCAC AATTGGAACC ACTCACTTCA TCTACTCTAA TCTGTTACAT
    TCTACTCCCA TGCCAGCACT AACAACAGTT AAATCACAGA ATTCTAAATT AACTCCATCT
    CCCTGGGCAG AAAACCAATT TTGGCACAAA CCATACTCAG AAATTGCTGA AAAAGGCAAA
    AAGCCAGAAG TAAGCATGTT GGCTACTACA GGCCTGTCCG AGGCCACCAC TCTTGTTTCA
    GATTGGGATG GACAGAAGAA CACAAAGAAG AGTGACTTTG ATAAGAAACC AGTTCAAGAA
    GCAACAACTT CCAAACTCCT TCCCTTTGAC TCTTTGTCTA GGTATATATT TGAAAAGCCC
    AGGATAGTTG GAGGAAAAGC TGCAAGTTTT ACTATTCCAG CTAACTCAGA TGCCTTTCTT
    CCCTGTGAAG CTGTTGGAAA TCCCCTGCCC ACCATTCATT GGACCAGAGT CCCATCAGGA
    CTTGATTTAT CTAAGAGGAA ACAGAATAGC AGGGTCCAGG TTCTCCCCAA TGGTACCCTG
    TCCATCCAGA GGGTGGAAAT TCAGGACCGC GGACAGTACT TGTGTTCCGC ATCCAATCTG
    TTTGGCACAG ACCACCTTCA TGTCACCTTG TCTGTGGTTT CCTATCCTCC CAGGATCCTG
    GAGAGACGTA CCAAAGAGAT CACAGTTCAT TCCGGAAGCA CTGTGGAACT GAAGTGCAGA
    GCAGAAGGTA GGCCAAGCCC TACAGTTACC TGGATTCTTG CAAACCAAAC AGTTGTCTCA
    GAATCATCCC AGGGAAGTAG GCAGGCTGTG GTGACGGTTG ACGGAACATT GGTCCTCCAC
    AATCTCAGTA TTTATGACCG TGGCTTTTAC AAATGTGTGG CCAGCAACCC AGGTGGCCAG
    GATTCACTGC TGGTTAAAAT ACAAGTCATT GCAGCACCAC CTGTTATTCT AGAGCAAAGG
    AGGCAAGTCA TTGTAGGCAC TTGGGGTGAA AGTTTAAAAC TGCCCTGTAC TGCAAAAGGA
    ACTCCTCAGC CCAGCGTTTA CTGGGTCCTC TCTGATGGCA CTGAAGTGAA ACCATTACAG
    TTTACCAATT CCAAGTTGTT CTTATTTTCA AATGGGACTT TGTATATAAG AAACCTAGCC
    TCTTCAGACA GGGGCACTTA TGAATGCATT GCTACCAGTT CCACTGGTTC GGAGCGAAGA
    GTAGTAATGC TTACAATGGA AGAGCGAGTG ACCAGCCCCA GGATAGAAGC TGCATCCCAG
    AAAAGGACTG AAGTGAATTT TGGGGACAAA TTACTACTGA ACTGCTCAGC CACTGGGGAG
    CCCAAACCCC AAATAATGTG GAGGTTACCA TCCAAGGCTG TGGTCGACCA GCAGCATAGA
    GTGGGCAGCT GGATCCACGT CTACCCTAAT GGATCCCTGT TTATTGGATC AGTAACAGAA
    AAAGACAGTG GTGTCTACTT GTGTGTGGCA AGAAACAAAA TGGGGGATGA TCTGATACTG
    ATGCATGTTA GCCTAAGACT GAAACCTGCC AAAATTGACC ACAAGCAGTA TTTTAGAAAG
    CAAGTGCTCC ATGGGAAAGA TTTCCAAGTA GATTGCAAAG CTTCCGGCTC CCCAGTGCCA
    GAGATATCTT GGAGTTTGCC TGATGGAACC ATGATCAACA ATGCAATGCA AGCCGATGAC
    AGTGGCCACA GGACTAGGAG ATATACCCTT TTCAACAATG GAACTTTATA CTTCAACAAA
    GTTGGGGTAG CGGAGGAAGG AGATTATACT TGCTATGCCC AGAACACCCT AGGGAAAGAT
    GAAATGAAGG TCCACTTAAC AGTTATAACA GCTGCTCCCC GGATAAGGCA GAGTAACAAA
    ACCAACAAGA GAATCAAAGC TGGAGACACA GCTGTCCTTG ACTGTGAGGT CACTGGGGAT
    CCCAAACCAA AAATATTTTG GTTGCTGCCT TCCAATGACA TGATTTCCTT CTCCATTGAT
    AGGTACACAT TTCATGCCAA TGGGTCTTTG ACCATCAACA AAGTGAAACT GCTCGATTCT
    GGAGAGTACG TATGTGTAGC CCGAAATCCC AGTGGGGATG ACACCAAAAT GTACAAACTG
    GATGTGGTCT CTAAACCTCC ATTAATCAAT GGTCTGTATA CAAACAGAAC TGTTATTAAA
    GCCACAGCTG TGAGACATTC CAAAAAACAC TTTGACTGCA GAGCTGAAGG GACACCATCT
    CCTGAAGTCA TGTGGATCAT GCCAGACAAT ATTTTCCTCA CAGCCCCATA CTATGGAAGC
    AGAATCACAG TCCATAAAAA TGGAACCTTG GAAATTAGGA ATGTGAGGCT TTCAGATTCA
    GCCGACTTTA TCTGTGTGGC CCGAAATGAA GGTGGAGAGA GCGTGTTGGT AGTACAGTTA
    GAAGTACTGG AAATGCTGAG AAGACCGACA TTTAGAAATC CATTTAATGA AAAAATAGTT
    GCCCAGCTGG GAAAGTCCAC AGCATTGAAT TGCTCTGTTG ATGGTAACCC ACCACCTGAA
    ATAATCTGGA TTTTACCAAA TGGCACACGA TTTTCCAATG GACCACAAAG TTATCAGTAT
    CTGATAGCAA GCAATGGTTC TTTTATCATT TCTAAAACAA CTCGGGAGGA TGCAGGAAAA
    TATCGCTGTG CAGCTAGGAA TAAAGTTGGC TATATTGAGA AATTAGTCAT ATTAGAAATT
    GGCCAGAAGC CAGTTATTCT TACCTATGCA CCAGGGACAG TAAAAGGCAT CAGTGGAGAA
    TCTCTATCAC TGCATTGTGT GTCTGATGGA ATCCCTAAGC CAAATATCAA ATGGACTATG
    CCAAGTGGTT ATGTAGTAGA CAGGCCTCAA ATTAATGGGA AATACATATT GCATGACAAT
    GGCACCTTAG TCATTAAAGA AGCAACAGCT TATGACAGAG GAAACTATAT CTGTAAGGCT
    CAAAATAGTG TTGGTCATAC ACTGATTACT GTTCCAGTAA TGATTGTAGC CTACCCTCCC
    CGAATTACAA ATCGTCCACC CAGGAGTATT GTCACCAGGA CAGGGGCAGC CTTTCAGCTC
    CACTGTGTGG CCTTGGGAGT TCCCAAGCCA GAAATCACAT GGGAGATGCC TGACCACTCC
    CTTCTCTCAA CGGCAAGTAA AGAGAGGACA CATGGAAGTG AGCAGCTTCA CTTACAAGGT
    ACCCTAGTCA TTCAGAATCC CCAAACCTCC GATTCTGGGA TATACAAATG CACAGCAAAG
    AACCCACTTG GTAGTGATTA TGCAGCAACG TATATTCAAG TAATCTGA

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

    RefSeq XP_011511010.1
    CDS594..8681
    Translation

    Target ORF information:

    RefSeq Version XM_011512708.2
    Organism Homo sapiens(human)
    Definition Homo sapiens immunoglobulin superfamily member 10 (IGSF10), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011512708.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    ATGAGTTATA GAACTTTGAA GCTGTGGAAG CGGCTCCAGG TCTCCCTGAA GAGCATTACT 
    CCTGGCTGTA AGCCAAAAAG AATAAGGCTT TTTGCTCACT TTGGAGCAGA GAACTTTTCC
    TCCCTCAGGT TTGGACACAA TTTTCCATTT CCTGGGAAGA TTTTCTGTCT CTGCCTATGT
    CACAAGAGGA CTCAGGACCT GAAAGAAGAG CTCAGGATGA AGGTAAAAGG CAGAGGAATC
    ACCTGCTTGC TGGTCTCCTT TGCTGTGATC TGCCTGGTCG CCACCCCTGG GGGCAAGGCC
    TGTCCTCGCC GCTGTGCCTG TTATATGCCT ACGGAGGTAC ACTGCACATT TCGGTACCTG
    ACTTCCATCC CAGACAGCAT CCCGCCCAAT GTGGAACGCA TCAATTTAGG ATACAACAGC
    TTGGTTAGAT TGATGGAAAC AGATTTTTCT GGCCTGACCA AACTGGAGTT ACTCATGCTT
    CACAGCAATG GCATTCACAC AATCCCTGAC AAGACCTTCT CAGATTTGCA GGCCTTGCAG
    GTCTTAAAAA TGAGCTATAA TAAAGTCCGA AAACTTCAGA AAGATACTTT TTATGGCCTC
    AGGAGCTTGA CACGATTGCA CATGGACCAC AACAATATTG AGTTTATAAA CCCAGAGGTT
    TTTTATGGGC TCAACTTTCT CCGCCTGGTG CACTTGGAAG GAAATCAGCT CACTAAGCTC
    CACCCAGATA CATTTGTCTC TTTGAGCTAC CTCCAGATAT TTAAAATCTC TTTCATTAAG
    TTCCTATACT TGTCTGATAA CTTCCTGACC TCCCTCCCTC AAGAGATGGT CTCCTATATG
    CCTGACCTAG ACAGCCTTTA CCTGCATGGA AACCCATGGA CCTGTGATTG CCATTTAAAG
    TGGTTGTCTG ACTGGATACA GGAGAAGCCA GATGTAATAA AATGCAAAAA AGATAGAAGT
    CCCTCTAGTG CTCAGCAGTG TCCACTTTGC ATGAACCCTA GGACTTCTAA AGGCAAGCCG
    TTAGCTATGG TCTCAGCTGC AGCTTTCCAG TGTGCCAAGC CAACCATTGA CTCATCCCTG
    AAATCAAAGA GCCTGACTAT TCTGGAAGAC AGTAGTTCTG CTTTCATCTC TCCCCAAGGT
    TTCATGGCAC CCTTTGGCTC CCTCACTTTG AATATGACAG ATCAGTCTGG AAATGAAGCT
    AACATGGTCT GCAGTATTCA AAAGCCCTCA AGGACATCAC CCATTGCATT CACTGAAGAA
    AATGACTACA TCGTGCTAAA TACTTCATTT TCAACATTTT TGGTGTGCAA CATAGATTAC
    GGTCACATTC AGCCAGTGTG GCAAATTTTG GCTTTGTACA GTGATTCTCC TCTGATACTA
    GAAAGGAGCC ACTTGCTTAG TGAAACACCG CAGCTCTATT ACAAATATAA ACAGGTGGCT
    CCTAAGCCTG AAGACATTTT TACCAACATA GAGGCAGATC TCAGAGCAGA TCCCTCTTGG
    TTAATGCAAG ACCAAATTTC CTTGCAGCTG AACAGAACTG CCACCACATT CAGTACATTA
    CAGATCCAGT ACTCCAGTGA TGCTCAAATC ACTTTACCAA GAGCAGAGAT GAGGCCAGTG
    AAACACAAAT GGACTATGAT TTCAAGGGAT AACAATACTA AGCTGGAACA TACTGTCTTG
    GTAGGTGGAA CCGTTGGCCT GAACTGCCCA GGCCAAGGAG ACCCCACCCC ACACGTGGAT
    TGGCTTCTAG CTGATGGAAG TAAAGTGAGA GCCCCTTATG TCAGTGAGGA TGGACGGATC
    CTAATAGACA AAAGTGGAAA ATTGGAACTC CAGATGGCTG ATAGTTTTGA CACAGGCGTA
    TATCACTGTA TAAGCAGCAA TTATGATGAT GCAGATATTC TCACCTATAG GATAACTGTG
    GTAGAACCTT TGGTCGAAGC CTATCAGGAA AATGGGATTC ATCACACAGT TTTCATTGGT
    GAAACACTTG ATCTTCCATG CCATTCTACT GGTATCCCAG ATGCCTCTAT TAGCTGGGTT
    ATTCCAGGAA ACAATGTGCT CTATCAGTCA TCAAGAGACA AGAAAGTTCT AAACAATGGC
    ACATTAAGAA TATTACAGGT CACCCCGAAA GACCAAGGTT ATTATCGCTG TGTGGCAGCC
    AACCCATCAG GGGTTGATTT TTTGATTTTC CAAGTTTCAG TCAAGATGAA AGGACAAAGG
    CCCTTGGAGC ATGATGGAGA AACAGAGGGA TCTGGACTTG ATGAGTCCAA TCCTATTGCT
    CATCTTAAGG AGCCACCAGG TGCACAACTC CGTACATCTG CTCTGATGGA GGCTGAGGTT
    GGAAAACACA CCTCAAGCAC AAGTAAGAGG CACAACTATC GGGAATTAAC ACTCCAGCGA
    CGTGGAGATT CAACACATCG ACGTTTTAGG GAGAATAGGA GGCATTTCCC TCCCTCTGCT
    AGGAGAATTG ACCCACAACA TTGGGCGGCA CTGTTGGAGA AAGCTAAAAA GAATGCTATG
    CCAGACAAGC GAGAAAATAC CACAGTGAGC CCACCCCCAG TGGTCACCCA ACTCCCAAAC
    ATACCTGGTG AAGAAGACGA TTCCTCAGGC ATGCTCGCTC TACATGAGGA ATTTATGGTC
    CCGGCCACTA AAGCTTTGAA CCTTCCAGCA AGGACAGTGA CTGCTGACTC CAGAACAATA
    TCTGATAGTC CTATGACAAA CATAAATTAT GGCACAGAAT TCTCTCCTGT TGTGAATTCA
    CAAATACTAC CACCTGAAGA ACCCACAGAT TTCAAACTGT CTACTGCTAT TAAAACTACA
    GCCATGTCAA AGAATATAAA CCCAACCATG TCAAGCCAAA TACAAGGCAC AACCAATCAA
    CATTCATCCA CTGTCTTTCC ACTGCTACTT GGAGCAACTG AATTTCAGGA CTCTGACCAG
    ATGGGAAGAG GAAGAGAGCA TTTCCAAAGT AGACCCCCAA TAACAGTAAG GACTATGATC
    AAAGATGTCA ATGTCAAAAT GCTTAGTAGC ACCACCAACA AACTATTATT AGAGTCAGTA
    AATACCACAA ATAGTCATCA GACATCTGTA AGAGAAGTGA GTGAACCCAG GCACAATCAC
    TTCTATTCTC ACACTACTCA AATACTTAGC ACCTCCACGT TCCCTTCAGA TCCACACACA
    GCTGCTCATT CTCAGTTTCC GATCCCTAGA AATAGTACAG TTAACATCCC GCTGTTCAGA
    CGCTTTGGGA GGCAGAGGAA AATTGGCGGA AGGGGGCGGA TTATCAGCCC ATATAGAACT
    CCAGTTCTGC GACGGCATAG ATACAGCATT TTCAGGTCAA CAACCAGAGG TTCTTCTGAA
    AAAAGCACTA CTGCATTCTC AGCCACAGTG CTCAATGTGA CATGTCTGTC CTGTCTTCCC
    AGGGAGAGGC TCACCACTGC CACAGCAGCA TTGTCTTTTC CAAGTGCTGC TCCCATCACC
    TTCCCCAAAG CTGACATTGC TAGAGTCCCA TCAGAAGAGT CTACAACTCT AGTCCAGAAT
    CCACTATTAC TACTTGAGAA CAAACCCAGT GTAGAGAAAA CAACACCCAC AATAAAATAT
    TTCAGGACTG AAATTTCCCA AGTGACTCCA ACTGGTGCAG TCATGACATA TGCTCCAACA
    TCCATACCCA TGGAAAAAAC TCACAAAGTA AACGCCAGTT ACCCACGTGT GTCTAGCACC
    AATGAAGCTA AAAGAGATTC AGTGATTACA TCGTCACTTT CAGGTGCTAT CACCAAGCCA
    CCAATGACTA TTATAGCCAT TACAAGGTTT TCAAGAAGGA AAATTCCCTG GCAACAGAAC
    TTTGTAAATA ACCATAACCC AAAAGGCAGA TTAAGGAATC AACATAAAGT TAGTTTACAA
    AAAAGCACAG CTGTGATGCT TCCTAAAACA TCTCCTGCTT TACCCAGAGA CAAAGTCTCC
    CCTTTCCATT TCACCACACT TTCAACAAGT GTGATGCAAA TTCCATCTAA TACCTTGACT
    ACCGCTCACC ACACTACGAC CAAAACACAC AATCCTGGAA GTCTTCCAAC AAAGAAGGAG
    CTTCCCTTCC CACCCCTTAA CCCTATGCTT CCTAGTATTA TAAGCAAAGA CTCAAGTACA
    AAAAGCATCA TATCAACGCA AACAGCAATA CCAGCAACAA CTCCTACCTT CCCTGCATCT
    GTCATCACTT ATGAAACCCA AACAGAGAGA TCTAGAGCAC AAACAATACA AAGAGAACAG
    GAGCCTCAAA AGAAGAACAG GACTGACCCA AACATCTCTC CAGACCAGAG TTCTGGCTTC
    ACTACACCCA CTGCTATGAC ACCTCCTGTT CTAACCACAG CCGAAACTTC AGTCAAGCCC
    AGTGTCTCTG CATTCACTCA TTCCCCACCA GAAAACACAA CTGGGATTTC AAGCACAATC
    AGTTTTCATT CAAGAACTCT TAATCTGACA GATGTGATTG AAGAACTAGC CCAAGCAAGT
    ACTCAGACTT TGAAGAGCAC AATTGCTTCT GAAACAACTT TGTCCAGCAA ATCACACCAG
    AGTACCACAA CTAGGAAAGC AATCATTAGA CACTCAACCA TACCACCATT CTTGAGCAGC
    AGTGCTACTC TAATGCCAGT TCCCATCTCC CCTCCCTTTA CTCAGAGAGC AGTTACTGAC
    AACGTGGCGA CTCCCATTTC CGGGCTTATG ACAAATACAG TGGTCAAGCT GCACGAATCC
    TCAAGGCACA ATGCTAAACC ACAGCAATTA GTAGCAGAGG TTGCAACATC CCCCAAGGTT
    CACCCAAATG CCAAGTTCAC AATTGGAACC ACTCACTTCA TCTACTCTAA TCTGTTACAT
    TCTACTCCCA TGCCAGCACT AACAACAGTT AAATCACAGA ATTCTAAATT AACTCCATCT
    CCCTGGGCAG AAAACCAATT TTGGCACAAA CCATACTCAG AAATTGCTGA AAAAGGCAAA
    AAGCCAGAAG TAAGCATGTT GGCTACTACA GGCCTGTCCG AGGCCACCAC TCTTGTTTCA
    GATTGGGATG GACAGAAGAA CACAAAGAAG AGTGACTTTG ATAAGAAACC AGTTCAAGAA
    GCAACAACTT CCAAACTCCT TCCCTTTGAC TCTTTGTCTA GGTATATATT TGAAAAGCCC
    AGGATAGTTG GAGGAAAAGC TGCAAGTTTT ACTATTCCAG CTAACTCAGA TGCCTTTCTT
    CCCTGTGAAG CTGTTGGAAA TCCCCTGCCC ACCATTCATT GGACCAGAGT CCCATCAGGA
    CTTGATTTAT CTAAGAGGAA ACAGAATAGC AGGGTCCAGG TTCTCCCCAA TGGTACCCTG
    TCCATCCAGA GGGTGGAAAT TCAGGACCGC GGACAGTACT TGTGTTCCGC ATCCAATCTG
    TTTGGCACAG ACCACCTTCA TGTCACCTTG TCTGTGGTTT CCTATCCTCC CAGGATCCTG
    GAGAGACGTA CCAAAGAGAT CACAGTTCAT TCCGGAAGCA CTGTGGAACT GAAGTGCAGA
    GCAGAAGGTA GGCCAAGCCC TACAGTTACC TGGATTCTTG CAAACCAAAC AGTTGTCTCA
    GAATCATCCC AGGGAAGTAG GCAGGCTGTG GTGACGGTTG ACGGAACATT GGTCCTCCAC
    AATCTCAGTA TTTATGACCG TGGCTTTTAC AAATGTGTGG CCAGCAACCC AGGTGGCCAG
    GATTCACTGC TGGTTAAAAT ACAAGTCATT GCAGCACCAC CTGTTATTCT AGAGCAAAGG
    AGGCAAGTCA TTGTAGGCAC TTGGGGTGAA AGTTTAAAAC TGCCCTGTAC TGCAAAAGGA
    ACTCCTCAGC CCAGCGTTTA CTGGGTCCTC TCTGATGGCA CTGAAGTGAA ACCATTACAG
    TTTACCAATT CCAAGTTGTT CTTATTTTCA AATGGGACTT TGTATATAAG AAACCTAGCC
    TCTTCAGACA GGGGCACTTA TGAATGCATT GCTACCAGTT CCACTGGTTC GGAGCGAAGA
    GTAGTAATGC TTACAATGGA AGAGCGAGTG ACCAGCCCCA GGATAGAAGC TGCATCCCAG
    AAAAGGACTG AAGTGAATTT TGGGGACAAA TTACTACTGA ACTGCTCAGC CACTGGGGAG
    CCCAAACCCC AAATAATGTG GAGGTTACCA TCCAAGGCTG TGGTCGACCA GCAGCATAGA
    GTGGGCAGCT GGATCCACGT CTACCCTAAT GGATCCCTGT TTATTGGATC AGTAACAGAA
    AAAGACAGTG GTGTCTACTT GTGTGTGGCA AGAAACAAAA TGGGGGATGA TCTGATACTG
    ATGCATGTTA GCCTAAGACT GAAACCTGCC AAAATTGACC ACAAGCAGTA TTTTAGAAAG
    CAAGTGCTCC ATGGGAAAGA TTTCCAAGTA GATTGCAAAG CTTCCGGCTC CCCAGTGCCA
    GAGATATCTT GGAGTTTGCC TGATGGAACC ATGATCAACA ATGCAATGCA AGCCGATGAC
    AGTGGCCACA GGACTAGGAG ATATACCCTT TTCAACAATG GAACTTTATA CTTCAACAAA
    GTTGGGGTAG CGGAGGAAGG AGATTATACT TGCTATGCCC AGAACACCCT AGGGAAAGAT
    GAAATGAAGG TCCACTTAAC AGTTATAACA GCTGCTCCCC GGATAAGGCA GAGTAACAAA
    ACCAACAAGA GAATCAAAGC TGGAGACACA GCTGTCCTTG ACTGTGAGGT CACTGGGGAT
    CCCAAACCAA AAATATTTTG GTTGCTGCCT TCCAATGACA TGATTTCCTT CTCCATTGAT
    AGGTACACAT TTCATGCCAA TGGGTCTTTG ACCATCAACA AAGTGAAACT GCTCGATTCT
    GGAGAGTACG TATGTGTAGC CCGAAATCCC AGTGGGGATG ACACCAAAAT GTACAAACTG
    GATGTGGTCT CTAAACCTCC ATTAATCAAT GGTCTGTATA CAAACAGAAC TGTTATTAAA
    GCCACAGCTG TGAGACATTC CAAAAAACAC TTTGACTGCA GAGCTGAAGG GACACCATCT
    CCTGAAGTCA TGTGGATCAT GCCAGACAAT ATTTTCCTCA CAGCCCCATA CTATGGAAGC
    AGAATCACAG TCCATAAAAA TGGAACCTTG GAAATTAGGA ATGTGAGGCT TTCAGATTCA
    GCCGACTTTA TCTGTGTGGC CCGAAATGAA GGTGGAGAGA GCGTGTTGGT AGTACAGTTA
    GAAGTACTGG AAATGCTGAG AAGACCGACA TTTAGAAATC CATTTAATGA AAAAATAGTT
    GCCCAGCTGG GAAAGTCCAC AGCATTGAAT TGCTCTGTTG ATGGTAACCC ACCACCTGAA
    ATAATCTGGA TTTTACCAAA TGGCACACGA TTTTCCAATG GACCACAAAG TTATCAGTAT
    CTGATAGCAA GCAATGGTTC TTTTATCATT TCTAAAACAA CTCGGGAGGA TGCAGGAAAA
    TATCGCTGTG CAGCTAGGAA TAAAGTTGGC TATATTGAGA AATTAGTCAT ATTAGAAATT
    GGCCAGAAGC CAGTTATTCT TACCTATGCA CCAGGGACAG TAAAAGGCAT CAGTGGAGAA
    TCTCTATCAC TGCATTGTGT GTCTGATGGA ATCCCTAAGC CAAATATCAA ATGGACTATG
    CCAAGTGGTT ATGTAGTAGA CAGGCCTCAA ATTAATGGGA AATACATATT GCATGACAAT
    GGCACCTTAG TCATTAAAGA AGCAACAGCT TATGACAGAG GAAACTATAT CTGTAAGGCT
    CAAAATAGTG TTGGTCATAC ACTGATTACT GTTCCAGTAA TGATTGTAGC CTACCCTCCC
    CGAATTACAA ATCGTCCACC CAGGAGTATT GTCACCAGGA CAGGGGCAGC CTTTCAGCTC
    CACTGTGTGG CCTTGGGAGT TCCCAAGCCA GAAATCACAT GGGAGATGCC TGACCACTCC
    CTTCTCTCAA CGGCAAGTAA AGAGAGGACA CATGGAAGTG AGCAGCTTCA CTTACAAGGT
    ACCCTAGTCA TTCAGAATCC CCAAACCTCC GATTCTGGGA TATACAAATG CACAGCAAAG
    AACCCACTTG GTAGTGATTA TGCAGCAACG TATATTCAAG TAATCTGA

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