XIRP1 cDNA ORF clone, Homo sapiens(human)

The following XIRP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the XIRP1 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
OHu103476 NM_001351377.2
Latest version!
Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu23563 NM_001198621.4
Latest version!
Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu23992 NM_194293.4
Latest version!
Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu23992 XM_005264909.3
Latest version!
Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
View Old Accession Versions >>
OHu23563 NM_001198621.3 Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu23563 NM_001198621.2 Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu23992 NM_194293.2 Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu103476 NM_001351377.1 Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu23992 NM_194293.3 Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu103476
    Clone ID Related Accession (Same CDS sequence) NM_001351377.2 , NM_001351377.1
    Accession Version NM_001351377.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1581bp)
    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 2019-09-30
    Organism Homo sapiens(human)
    Product xin actin-binding repeat-containing protein 1 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092053.3. On May 31, 2019 this sequence version replaced NM_001351377.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK096421.1, BC139782.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142670, SAMEA2151741 [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
    ATGCCCCCAA AGAAGAAGCC GCAGCTGCCC CCTAAACCTG CACACCTAAC CCAGAGCCAC 
    CCTCCTCAGA GGCTGCCCAA GCCCTTGCCT CTATCTCCCA GCTTTTCCTC GGAGGTGGGG
    CAAAGAGAAC ACCAACGAGG TGAGAGAGAT ACAGCCATCC CTCAGCCAGC CAAGGTTCCC
    ACTACTGTAG ACCAGGGCCA CATACCTCTG GCCAGATGTC CCAGTGGACA TAGCCAGCCC
    AGCTTACAAC ATGGCCTCAG CACCACGGCC CCCAGGCCCA CCAAGAATCA GGCTACAGGC
    AGCAATGCCC AGAGCTCTGA GCCCCCCAAG CTCAATGCCC TCAACCATGA TCCCACCTCA
    CCACAGTGGG GCCCCGGCCC CTCAGGAGAG CAGCCCATGG AAGGTTCCCA CCAAGGGGCC
    CCTGAGAGCC CTGACAGTCT GCAAAGAAAC CAGAAAGAGC TCCAGGGCCT CCTGAACCAG
    GTGCAAGCCC TGGAGAAGGA GGCCGCAAGC AGTGTGGACG TGCAGGCCCT GCGGAGGCTC
    TTTGAGGCCG TGCCCCAGCT GGGAGGGGCT GCTCCTCAGG CTCCTGCTGC CCACCAAAAG
    CCCGAGGCCT CAGTGGAGCA GGCCTTTGGG GAGCTGACAC GGGTCAGCAC GGAAGTTGCT
    CAACTGAAGG AACAGACCTT GGCAAGGCTG CTGGACATTG AAGAGGCTGT GCACAAGGCA
    CTCAGCTCCA TGTCTAGCCT CCAGCCTGAG GCCAGTGCCA GAGGCCATTT CCAGGGACCT
    CCAAAAGACC ACAGTGCCCA CAAGATCAGT GTCACAGTCA GCAGTAGCGC CAGGCCCAGT
    GGCTCAGGCC AGGAGGTCGG AGGTCAAACT GCAGTCAAGA ACCAAGCCAA GGTTGAATGC
    CACACTGAGG CCCAGAGTCA AGTCAAGATC AGAAATCACA CAGAGGCCAG AGGTCACACA
    GCCTCAACTG CCCCTTCCAC CAGGAGGCAG GAGACATCAA GAGAGTATTT GTGCCCTCCT
    CGGGTTTTAC CTTCCAGCCG AGATTCTCCC TCCTCCCCAA CATTTATCTC CATCCAGTCG
    GCCACAAGGA AGCCTCTAGA GACTCCCAGC TTTAAGGGCA ACCCTGATGT CTCAGTGAAA
    AGCACACAAC TGGCTCAGGA CATAGGCCAG GCCCTGCTCC ACCAGAAAGG TGTCCAAGAC
    AAAACTGGGA AGAAGGACAT CACCCAGTGC TCTGTGCAAC CTGAACCTGC CCCTCCCTCA
    GCCAGTCCCC TGCCCAGAGG GTGGCAAAAG AGTGTTCTGG AGCTACAGAC GGGGCCAGGG
    AGCTCACAAC ACTATGGAGC CATGAGAACC GTGACTGAAC AGTATGAGGA GGTGGACCAG
    TTTGGGAACA CAGTCCTCAT GTCTTCCACC ACAGTCACCG AGCAGGCAGA GCCACCCAGG
    AACCCAGGCT CCCACCTCGG GCTCCACGCC TCCCCCTTGC TGAGGCAGTT CCTGCACAGC
    CCAGCTGGGT TCAGCAGTGA CCTGACAGAA GCTGAGACGG TGCAGGTGTC CTGCAGCTAC
    TCCCAGCCAG CTGCCCAGTG A

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

    RefSeq NP_001338306.1
    CDS318..1898
    Translation

    Target ORF information:

    RefSeq Version NM_001351377.2
    Organism Homo sapiens(human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001351377.2

    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
    ATGCCCCCAA AGAAGAAGCC GCAGCTGCCC CCTAAACCTG CACACCTAAC CCAGAGCCAC 
    CCTCCTCAGA GGCTGCCCAA GCCCTTGCCT CTATCTCCCA GCTTTTCCTC GGAGGTGGGG
    CAAAGAGAAC ACCAACGAGG TGAGAGAGAT ACAGCCATCC CTCAGCCAGC CAAGGTTCCC
    ACTACTGTAG ACCAGGGCCA CATACCTCTG GCCAGATGTC CCAGTGGACA TAGCCAGCCC
    AGCTTACAAC ATGGCCTCAG CACCACGGCC CCCAGGCCCA CCAAGAATCA GGCTACAGGC
    AGCAATGCCC AGAGCTCTGA GCCCCCCAAG CTCAATGCCC TCAACCATGA TCCCACCTCA
    CCACAGTGGG GCCCCGGCCC CTCAGGAGAG CAGCCCATGG AAGGTTCCCA CCAAGGGGCC
    CCTGAGAGCC CTGACAGTCT GCAAAGAAAC CAGAAAGAGC TCCAGGGCCT CCTGAACCAG
    GTGCAAGCCC TGGAGAAGGA GGCCGCAAGC AGTGTGGACG TGCAGGCCCT GCGGAGGCTC
    TTTGAGGCCG TGCCCCAGCT GGGAGGGGCT GCTCCTCAGG CTCCTGCTGC CCACCAAAAG
    CCCGAGGCCT CAGTGGAGCA GGCCTTTGGG GAGCTGACAC GGGTCAGCAC GGAAGTTGCT
    CAACTGAAGG AACAGACCTT GGCAAGGCTG CTGGACATTG AAGAGGCTGT GCACAAGGCA
    CTCAGCTCCA TGTCTAGCCT CCAGCCTGAG GCCAGTGCCA GAGGCCATTT CCAGGGACCT
    CCAAAAGACC ACAGTGCCCA CAAGATCAGT GTCACAGTCA GCAGTAGCGC CAGGCCCAGT
    GGCTCAGGCC AGGAGGTCGG AGGTCAAACT GCAGTCAAGA ACCAAGCCAA GGTTGAATGC
    CACACTGAGG CCCAGAGTCA AGTCAAGATC AGAAATCACA CAGAGGCCAG AGGTCACACA
    GCCTCAACTG CCCCTTCCAC CAGGAGGCAG GAGACATCAA GAGAGTATTT GTGCCCTCCT
    CGGGTTTTAC CTTCCAGCCG AGATTCTCCC TCCTCCCCAA CATTTATCTC CATCCAGTCG
    GCCACAAGGA AGCCTCTAGA GACTCCCAGC TTTAAGGGCA ACCCTGATGT CTCAGTGAAA
    AGCACACAAC TGGCTCAGGA CATAGGCCAG GCCCTGCTCC ACCAGAAAGG TGTCCAAGAC
    AAAACTGGGA AGAAGGACAT CACCCAGTGC TCTGTGCAAC CTGAACCTGC CCCTCCCTCA
    GCCAGTCCCC TGCCCAGAGG GTGGCAAAAG AGTGTTCTGG AGCTACAGAC GGGGCCAGGG
    AGCTCACAAC ACTATGGAGC CATGAGAACC GTGACTGAAC AGTATGAGGA GGTGGACCAG
    TTTGGGAACA CAGTCCTCAT GTCTTCCACC ACAGTCACCG AGCAGGCAGA GCCACCCAGG
    AACCCAGGCT CCCACCTCGG GCTCCACGCC TCCCCCTTGC TGAGGCAGTT CCTGCACAGC
    CCAGCTGGGT TCAGCAGTGA CCTGACAGAA GCTGAGACGG TGCAGGTGTC CTGCAGCTAC
    TCCCAGCCAG CTGCCCAGTG A

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

    CloneID OHu103476
    Clone ID Related Accession (Same CDS sequence) NM_001351377.2 , NM_001351377.1
    Accession Version NM_001351377.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1581bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-25
    Organism Homo sapiens(human)
    Product xin actin-binding repeat-containing protein 1 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092053.3. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK096421.1, BC127119.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142670, SAMEA2151741 [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
    ATGCCCCCAA AGAAGAAGCC GCAGCTGCCC CCTAAACCTG CACACCTAAC CCAGAGCCAC 
    CCTCCTCAGA GGCTGCCCAA GCCCTTGCCT CTATCTCCCA GCTTTTCCTC GGAGGTGGGG
    CAAAGAGAAC ACCAACGAGG TGAGAGAGAT ACAGCCATCC CTCAGCCAGC CAAGGTTCCC
    ACTACTGTAG ACCAGGGCCA CATACCTCTG GCCAGATGTC CCAGTGGACA TAGCCAGCCC
    AGCTTACAAC ATGGCCTCAG CACCACGGCC CCCAGGCCCA CCAAGAATCA GGCTACAGGC
    AGCAATGCCC AGAGCTCTGA GCCCCCCAAG CTCAATGCCC TCAACCATGA TCCCACCTCA
    CCACAGTGGG GCCCCGGCCC CTCAGGAGAG CAGCCCATGG AAGGTTCCCA CCAAGGGGCC
    CCTGAGAGCC CTGACAGTCT GCAAAGAAAC CAGAAAGAGC TCCAGGGCCT CCTGAACCAG
    GTGCAAGCCC TGGAGAAGGA GGCCGCAAGC AGTGTGGACG TGCAGGCCCT GCGGAGGCTC
    TTTGAGGCCG TGCCCCAGCT GGGAGGGGCT GCTCCTCAGG CTCCTGCTGC CCACCAAAAG
    CCCGAGGCCT CAGTGGAGCA GGCCTTTGGG GAGCTGACAC GGGTCAGCAC GGAAGTTGCT
    CAACTGAAGG AACAGACCTT GGCAAGGCTG CTGGACATTG AAGAGGCTGT GCACAAGGCA
    CTCAGCTCCA TGTCTAGCCT CCAGCCTGAG GCCAGTGCCA GAGGCCATTT CCAGGGACCT
    CCAAAAGACC ACAGTGCCCA CAAGATCAGT GTCACAGTCA GCAGTAGCGC CAGGCCCAGT
    GGCTCAGGCC AGGAGGTCGG AGGTCAAACT GCAGTCAAGA ACCAAGCCAA GGTTGAATGC
    CACACTGAGG CCCAGAGTCA AGTCAAGATC AGAAATCACA CAGAGGCCAG AGGTCACACA
    GCCTCAACTG CCCCTTCCAC CAGGAGGCAG GAGACATCAA GAGAGTATTT GTGCCCTCCT
    CGGGTTTTAC CTTCCAGCCG AGATTCTCCC TCCTCCCCAA CATTTATCTC CATCCAGTCG
    GCCACAAGGA AGCCTCTAGA GACTCCCAGC TTTAAGGGCA ACCCTGATGT CTCAGTGAAA
    AGCACACAAC TGGCTCAGGA CATAGGCCAG GCCCTGCTCC ACCAGAAAGG TGTCCAAGAC
    AAAACTGGGA AGAAGGACAT CACCCAGTGC TCTGTGCAAC CTGAACCTGC CCCTCCCTCA
    GCCAGTCCCC TGCCCAGAGG GTGGCAAAAG AGTGTTCTGG AGCTACAGAC GGGGCCAGGG
    AGCTCACAAC ACTATGGAGC CATGAGAACC GTGACTGAAC AGTATGAGGA GGTGGACCAG
    TTTGGGAACA CAGTCCTCAT GTCTTCCACC ACAGTCACCG AGCAGGCAGA GCCACCCAGG
    AACCCAGGCT CCCACCTCGG GCTCCACGCC TCCCCCTTGC TGAGGCAGTT CCTGCACAGC
    CCAGCTGGGT TCAGCAGTGA CCTGACAGAA GCTGAGACGG TGCAGGTGTC CTGCAGCTAC
    TCCCAGCCAG CTGCCCAGTG A

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

    RefSeq NP_001338306.1
    CDS319..1899
    Translation

    Target ORF information:

    RefSeq Version NM_001351377.1
    Organism Homo sapiens(human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001351377.1

    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
    ATGCCCCCAA AGAAGAAGCC GCAGCTGCCC CCTAAACCTG CACACCTAAC CCAGAGCCAC 
    CCTCCTCAGA GGCTGCCCAA GCCCTTGCCT CTATCTCCCA GCTTTTCCTC GGAGGTGGGG
    CAAAGAGAAC ACCAACGAGG TGAGAGAGAT ACAGCCATCC CTCAGCCAGC CAAGGTTCCC
    ACTACTGTAG ACCAGGGCCA CATACCTCTG GCCAGATGTC CCAGTGGACA TAGCCAGCCC
    AGCTTACAAC ATGGCCTCAG CACCACGGCC CCCAGGCCCA CCAAGAATCA GGCTACAGGC
    AGCAATGCCC AGAGCTCTGA GCCCCCCAAG CTCAATGCCC TCAACCATGA TCCCACCTCA
    CCACAGTGGG GCCCCGGCCC CTCAGGAGAG CAGCCCATGG AAGGTTCCCA CCAAGGGGCC
    CCTGAGAGCC CTGACAGTCT GCAAAGAAAC CAGAAAGAGC TCCAGGGCCT CCTGAACCAG
    GTGCAAGCCC TGGAGAAGGA GGCCGCAAGC AGTGTGGACG TGCAGGCCCT GCGGAGGCTC
    TTTGAGGCCG TGCCCCAGCT GGGAGGGGCT GCTCCTCAGG CTCCTGCTGC CCACCAAAAG
    CCCGAGGCCT CAGTGGAGCA GGCCTTTGGG GAGCTGACAC GGGTCAGCAC GGAAGTTGCT
    CAACTGAAGG AACAGACCTT GGCAAGGCTG CTGGACATTG AAGAGGCTGT GCACAAGGCA
    CTCAGCTCCA TGTCTAGCCT CCAGCCTGAG GCCAGTGCCA GAGGCCATTT CCAGGGACCT
    CCAAAAGACC ACAGTGCCCA CAAGATCAGT GTCACAGTCA GCAGTAGCGC CAGGCCCAGT
    GGCTCAGGCC AGGAGGTCGG AGGTCAAACT GCAGTCAAGA ACCAAGCCAA GGTTGAATGC
    CACACTGAGG CCCAGAGTCA AGTCAAGATC AGAAATCACA CAGAGGCCAG AGGTCACACA
    GCCTCAACTG CCCCTTCCAC CAGGAGGCAG GAGACATCAA GAGAGTATTT GTGCCCTCCT
    CGGGTTTTAC CTTCCAGCCG AGATTCTCCC TCCTCCCCAA CATTTATCTC CATCCAGTCG
    GCCACAAGGA AGCCTCTAGA GACTCCCAGC TTTAAGGGCA ACCCTGATGT CTCAGTGAAA
    AGCACACAAC TGGCTCAGGA CATAGGCCAG GCCCTGCTCC ACCAGAAAGG TGTCCAAGAC
    AAAACTGGGA AGAAGGACAT CACCCAGTGC TCTGTGCAAC CTGAACCTGC CCCTCCCTCA
    GCCAGTCCCC TGCCCAGAGG GTGGCAAAAG AGTGTTCTGG AGCTACAGAC GGGGCCAGGG
    AGCTCACAAC ACTATGGAGC CATGAGAACC GTGACTGAAC AGTATGAGGA GGTGGACCAG
    TTTGGGAACA CAGTCCTCAT GTCTTCCACC ACAGTCACCG AGCAGGCAGA GCCACCCAGG
    AACCCAGGCT CCCACCTCGG GCTCCACGCC TCCCCCTTGC TGAGGCAGTT CCTGCACAGC
    CCAGCTGGGT TCAGCAGTGA CCTGACAGAA GCTGAGACGG TGCAGGTGTC CTGCAGCTAC
    TCCCAGCCAG CTGCCCAGTG A

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

    CloneID OHu23563
    Clone ID Related Accession (Same CDS sequence) NM_001198621.3 , NM_001198621.4 , NM_001198621.2
    Accession Version NM_001198621.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-25
    Organism Homo sapiens(human)
    Product xin actin-binding repeat-containing protein 1 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092053.3. On May 12, 2017 this sequence version replaced NM_001198621.2. Transcript Variant: This variant (2) lacks an alternate internal segment compared to variant 1, that causes a frameshift. The resulting isoform (2) has a shorter and distinct C-terminus compared to isoform 1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: CR749430.1, AJ626899.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2155550, SAMEA2159607 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGCTG
    CTGTGA

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

    RefSeq NP_001185550.1
    CDS232..3597
    Translation

    Target ORF information:

    RefSeq Version NM_001198621.3
    Organism Homo sapiens(human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001198621.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGCTG
    CTGTGA

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

    CloneID OHu23563
    Clone ID Related Accession (Same CDS sequence) NM_001198621.3 , NM_001198621.4 , NM_001198621.2
    Accession Version NM_001198621.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    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 2019-09-30
    Organism Homo sapiens(human)
    Product xin actin-binding repeat-containing protein 1 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092053.3. On May 31, 2019 this sequence version replaced NM_001198621.3. Transcript Variant: This variant (2) lacks an alternate internal segment compared to variant 1, that causes a frameshift. The resulting isoform (2) has a shorter and distinct C-terminus compared to isoform 1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AJ626899.1, CR749430.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2155550, SAMEA2159607 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGCTG
    CTGTGA

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

    RefSeq NP_001185550.1
    CDS231..3596
    Translation

    Target ORF information:

    RefSeq Version NM_001198621.4
    Organism Homo sapiens(human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001198621.4

    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
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGCTG
    CTGTGA

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

    CloneID OHu23563
    Clone ID Related Accession (Same CDS sequence) NM_001198621.3 , NM_001198621.4 , NM_001198621.2
    Accession Version NM_001198621.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-27
    Organism Homo sapiens(Human)
    Product xin actin-binding repeat-containing protein 1 isoform 2
    Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX648565.1 and AJ626899.1. On Jan 13, 2015 this sequence version replaced NM_001198621.1. Transcript Variant: This variant (2) lacks an alternate internal segment compared to variant 1, that causes a frameshift. The resulting isoform (2) has a shorter and distinct C-terminus compared to isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: CR749430.1, AJ626899.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2155550, SAMEA2159607 [ECO:0000348] ##Evidence-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
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGCTG
    CTGTGA

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

    RefSeq NP_001185550.1
    CDS232..3597
    Translation

    Target ORF information:

    RefSeq Version NM_001198621.2
    Organism Homo sapiens(Human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001198621.2

    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
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGCTG
    CTGTGA

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

    CloneID OHu23992
    Clone ID Related Accession (Same CDS sequence) NM_194293.2 , XM_005264909.3 , NM_194293.3 , NM_194293.4
    Accession Version NM_194293.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5532bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-24
    Organism Homo sapiens(Human)
    Product xin actin-binding repeat-containing protein 1 isoform 1
    Comment PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AY375160.1. On Dec 20, 2003 this sequence version replaced NM_194293.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AY375160.1, AJ626900.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2155550, SAMEA2159607 [ECO:0000348] ##Evidence-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
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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

    RefSeq NP_919269.2
    CDS222..5753
    Translation

    Target ORF information:

    RefSeq Version NM_194293.2
    Organism Homo sapiens(Human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_194293.2

    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
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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

    CloneID OHu23992
    Clone ID Related Accession (Same CDS sequence) NM_194293.2 , XM_005264909.3 , NM_194293.3 , NM_194293.4
    Accession Version NM_194293.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5532bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-09-09
    Organism Homo sapiens(human)
    Product xin actin-binding repeat-containing protein 1 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092053.3. This sequence is a reference standard in the RefSeqGene project. On May 12, 2017 this sequence version replaced NM_194293.2. Transcript Variant: This variant (1) encodes the longest isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. 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
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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

    RefSeq NP_919269.2
    CDS232..5763
    Translation

    Target ORF information:

    RefSeq Version NM_194293.3
    Organism Homo sapiens(human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_194293.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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

    CloneID OHu23992
    Clone ID Related Accession (Same CDS sequence) NM_194293.2 , XM_005264909.3 , NM_194293.3 , NM_194293.4
    Accession Version NM_194293.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5532bp)
    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 2019-09-30
    Organism Homo sapiens(human)
    Product xin actin-binding repeat-containing protein 1 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092053.3. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_194293.3. Transcript Variant: This variant (1) encodes the longest isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AJ626900.1, AY375160.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2155550, SAMEA2159607 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000340369.4/ ENSP00000343140.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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

    RefSeq NP_919269.2
    CDS231..5762
    Translation

    Target ORF information:

    RefSeq Version NM_194293.4
    Organism Homo sapiens(human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_194293.4

    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
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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

    CloneID OHu23992
    Clone ID Related Accession (Same CDS sequence) NM_194293.2 , XM_005264909.3 , NM_194293.3 , NM_194293.4
    Accession Version XM_005264909.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5532bp)
    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 xin actin-binding repeat-containing protein 1 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_005264909.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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

    RefSeq XP_005264966.1
    CDS181..5712
    Translation

    Target ORF information:

    RefSeq Version XM_005264909.3
    Organism Homo sapiens(human)
    Definition Homo sapiens xin actin binding repeat containing 1 (XIRP1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005264909.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGCCGACA CCCAGACACA GGTGGCCCCC ACACCAACCA TGAGGATGGC AACTGCAGAG 
    GACCTGCCCC TCCCTCCACC CCCAGCCCTG GAGGACCTGC CACTGCCGCC ACCCAAGGAA
    TCCTTCTCCA AGTTCCATCA GCAGCGGCAA GCTAGTGAGC TCCGCCGCCT CTACAGGCAC
    ATCCACCCTG AGCTCCGCAA GAATCTGGCT GAGGCTGTGG CCGAGGATCT GGCTGAGGTC
    CTGGGCTCTG AGGAACCCAC CGAGGGTGAC GTTCAGTGCA TGCGCTGGAT CTTTGAGAAC
    TGGAGACTGG ATGCCATTGG AGAACACGAG AGGCCAGCTG CCAAGGAGCC CGTGCTGTGT
    GGTGACGTCC AGGCCACCTC CCGCAAGTTT GAGGAAGGCT CCTTTGCCAA CAGCACAGAC
    CAGGAGCCAA CCAGGCCCCA GCCAGGTGGA GGAGACGTTC GTGCAGCCCG CTGGCTATTT
    GAGACAAAGC CACTGGACGA GCTGACAGGG CAAGCCAAGG AACTGGAGGC CACTGTGAGG
    GAGCCTGCAG CCAGCGGAGA TGTGCAGGGT ACCAGGATGC TCTTTGAGAC GCGGCCGCTG
    GACCGCCTGG GCTCCCGCCC CTCCCTGCAG GAGCAGAGCC CCTTGGAACT GCGCTCAGAG
    ATCCAGGAGC TGAAGGGTGA TGTGAAAAAG ACAGTGAAGC TCTTCCAAAC GGAGCCCCTG
    TGTGCCATCC AGGATGCAGA GGGCGCCATC CATGAGGTCA AGGCCGCATG CCGGGAGGAG
    ATCCAAAGCA ACGCGGTGAG GTCTGCCCGC TGGCTCTTTG AGACCCGGCC TCTGGACGCC
    ATCAACCAGG ACCCCAGCCA GGTGCGGGTG ATCCGGGGGA TTTCCCTGGA GGAGGGGGCC
    CGGCCCGACG TCAGTGCAAC TCGCTGGATC TTTGAGACAC AGCCCCTGGA TGCCATCCGG
    GAGATCTTGG TAGATGAGAA GGACTTCCAG CCATCCCCAG ACCTTATCCC ACCTGGTCCA
    GATGTTCAGC AGCAGCAGCA TCTGTTTGAG ACCCGAGCGC TGGACACTCT GAAGGGGGAC
    GAAGAGGCTG GAGCAGAGGC CCCACCCAAG GAGGAAGTGG TCCCTGGTGA TGTCCGCTCC
    ACCCTGTGGC TATTTGAAAC AAAGCCCCTG GATGCTTTCA GAGACAAGGT CCAAGTGGGT
    CACCTACAGC GAGTGGATCC CCAGGACGGT GAGGGGCATC TATCCAGTGA CAGCTCCTCA
    GCACTGCCCT TCTCTCAGAG TGCCCCCCAG AGGGATGAGC TAAAGGGGGA TGTGAAGACT
    TTTAAGAACC TTTTTGAGAC CCTTCCCTTG GACAGCATTG GACAGGGTGA GGTTCTGGCC
    CATGGGAGTC CAAGCAGAGA AGAAGGAACT GATTCTGCTG GGCAGGCCCA GGGCATAGGG
    TCCCCAGTGT ATGCCATGCA GGACAGCAAG GGCCGCCTCC ATGCCCTGAC CTCTGTTAGC
    AGAGAGCAGA TAGTCGGAGG TGATGTGCAG GGCTACAGGT GGATGTTTGA GACACAGCCC
    CTAGACCAGC TCGGCCGAAG CCCCAGTACC ATCGACGTGG TGCGGGGCAT CACCCGGCAG
    GAAGTGGTGG CTGGGGACGT TGGCACAGCT CGGTGGCTTT TTGAGACCCA GCCCCTGGAG
    ATGATCCACC AACGGGAGCA GCAGGAACGA CAGAAAGAAG AAGGGAAGAG TCAGGGAGAC
    CCCCAGCCTG AGGCACCCCC AAAGGGCGAT GTGCAGACCA TCCGGTGGTT GTTCGAGACT
    TGCCCAATGA GTGAGTTGGC CGAAAAGCAG GGGTCAGAGG TCACAGATCC CACAGCCAAG
    GCTGAGGCAC AGTCCTGCAC CTGGATGTTC AAGCCCCAAC CTGTGGACAG GCCAGTGGGC
    TCCAGGGAGC AGCACCTGCA GGTTAGCCAG GTCCCGGCTG GGGAAAGACA GACAGACAGA
    CACGTCTTTG AGACCGAGCC TCTTCAGGCC TCAGGCCGTC CCTGTGGAAG ACGGCCTGTG
    AGATACTGCA GCCGCGTGGA GATCCCTTCA GGGCAGGTGT CTCGTCAGAA AGAGGTTTTT
    CAGGCCCTGG AGGCAGGCAA GAAGGAAGAA CAGGAGCCCC GGGTAATCGC TGGGTCCATC
    CCCGCGGGTT CTGTCCACAA GTTCACTTGG CTTTTTGAGA ATTGTCCCAT GGGCTCCCTG
    GCAGCTGAGA GCATCCAAGG GGGCAACCTC CTGGAAGAGC AGCCCATGAG CCCCTCAGGC
    AACAGGATGC AAGAGAGCCA GGAGACTGCA GCTGAGGGGA CCCTGCGGAC TCTGCATGCC
    ACACCTGGCA TCCTGCACCA TGGAGGCATC CTCATGGAGG CCCGAGGGCC AGGGGAGCTC
    TGTCTTGCCA AGTATGTGCT CTCGGGCACA GGGCAGGGGC ACCCTTATAT ACGAAAGGAG
    GAGCTGGTGT CAGGTGAACT TCCCAGGATC ATCTGCCAAG TCCTGCGCCG GCCAGATGTG
    GACCAGCAGG GGCTGCTGGT GCAGGAAGAC CCAACTGGCC AGCTCCAACT CAAGCCGCTG
    AGGCTGCCAA CTCCAGGCAG CAGTGGGAAT ATTGAAGACA TGGACCCTGA GCTCCAGCAG
    CTGCTGGCTT GCGGTCTTGG GACCTCCGTG GCAAGGACTG GGCTGGTGAT GCAGGAGACA
    GAGCAGGGCC TGGTCGCACT GACTGCCTAC TCTCTGCAGC CCCGGCTAAC TAGCAAGGCC
    TCTGAGAGGA GCAGCGTGCA GCTGTTGGCC AGCTGCATAG ATAAAGGAGA CCTGAGTGGC
    CTGCACAGTC TGCGGTGGGA GCCCCCGGCT GACCCGAGTC CAGTGCCAGC CAGCGAGGGG
    GCCCAGAGCC TGCACCCAAC TGAGAGCATC ATCCATGTTC CCCCACTGGA CCCCAGCATG
    GGGATGGGGC ATCTGAGAGC CTCAGGGGCC ACCCCTTGCC CTCCTCAGGC CATTGGAAAG
    GCAGTCCCTC TGGCTGGGGA AGCTGCAGCA CCAGCCCAAT TGCAAAACAC AGAAAAGCAG
    GAAGACAGTC ACTCTGGACA GAAAGGGATG GCAGTCTTGG GAAAGTCAGA AGGAGCCACG
    ACTACCCCTC CGGGGCCTGG GGCCCCAGAC CTCCTGGCCG CCATGCAGAG TCTGCGGATG
    GCAACAGCTG AAGCCCAGAG CCTGCACCAG CAAGTTCTGA ACAAGCACAA GCAGGGCCCC
    ACCCCAACAG CCACTTCCAA CCCCATCCAG GACGGTCTTC GGAAAGCTGG GGCTACCCAA
    AGCAACATAA GGCCTGGGGG TGGAAGTGAT CCCCGGATCC CAGCAGCCCC CAGAAAGGTC
    AGTAGGGAAG AGCAAGCACT ACCCAGAGGG CTGCCTGGGG GGTGGGTGAC AATTCAGGAT
    GGCATCTACA CCGCTCATCC CGTGAGGACC TTTGACCCAC CTGGGGGTGT CCAGCTTTCT
    CAGAGGGAAC CCCAGTCAAG GCACAGGGAG ACTGCCCTCT CAGTCCAGGC TCCCCGCCCA
    CTCCAGGGAG GCCCAGGTCA GAGTACTGGG CCAGGGCGGG AGGAGCCTGG GGGCTGCACA
    CAGATGGCCT GGGGGCCACC AGGGAAGGCG ATGGCAGAAG TCTGCCCAGG GGGCCTCCAA
    GCTGCAGAGA CCACCCTGAA GACTGCCCCT CTAGGCCGCC ACATTCTGGC CTCTGGGCCC
    CAAGCTGCAG GTGCCAGCCC GCACCCCCAT AATGCCTTTG TTCCTCCTCC TCCTACTCTC
    CCAGCTGCTG TGACAGGACC TGACTTTCCA GCTGGAGCCC ACCGTGCTGA GGACTCCATC
    CAGCAAGCCT CTGAGCCCCT GAAGGACCCC CTTCTTCACT CCCACAGCAG CCCTGCTGGC
    CAGAGAACCC CTGGAGGGTC ACAGACAAAG ACCCCAAAAC TGGACCCCAC CATGCCCCCA
    AAGAAGAAGC CGCAGCTGCC CCCTAAACCT GCACACCTAA CCCAGAGCCA CCCTCCTCAG
    AGGCTGCCCA AGCCCTTGCC TCTATCTCCC AGCTTTTCCT CGGAGGTGGG GCAAAGAGAA
    CACCAACGAG GTGAGAGAGA TACAGCCATC CCTCAGCCAG CCAAGGTTCC CACTACTGTA
    GACCAGGGCC ACATACCTCT GGCCAGATGT CCCAGTGGAC ATAGCCAGCC CAGCTTACAA
    CATGGCCTCA GCACCACGGC CCCCAGGCCC ACCAAGAATC AGGCTACAGG CAGCAATGCC
    CAGAGCTCTG AGCCCCCCAA GCTCAATGCC CTCAACCATG ATCCCACCTC ACCACAGTGG
    GGCCCCGGCC CCTCAGGAGA GCAGCCCATG GAAGGTTCCC ACCAAGGGGC CCCTGAGAGC
    CCTGACAGTC TGCAAAGAAA CCAGAAAGAG CTCCAGGGCC TCCTGAACCA GGTGCAAGCC
    CTGGAGAAGG AGGCCGCAAG CAGTGTGGAC GTGCAGGCCC TGCGGAGGCT CTTTGAGGCC
    GTGCCCCAGC TGGGAGGGGC TGCTCCTCAG GCTCCTGCTG CCCACCAAAA GCCCGAGGCC
    TCAGTGGAGC AGGCCTTTGG GGAGCTGACA CGGGTCAGCA CGGAAGTTGC TCAACTGAAG
    GAACAGACCT TGGCAAGGCT GCTGGACATT GAAGAGGCTG TGCACAAGGC ACTCAGCTCC
    ATGTCTAGCC TCCAGCCTGA GGCCAGTGCC AGAGGCCATT TCCAGGGACC TCCAAAAGAC
    CACAGTGCCC ACAAGATCAG TGTCACAGTC AGCAGTAGCG CCAGGCCCAG TGGCTCAGGC
    CAGGAGGTCG GAGGTCAAAC TGCAGTCAAG AACCAAGCCA AGGTTGAATG CCACACTGAG
    GCCCAGAGTC AAGTCAAGAT CAGAAATCAC ACAGAGGCCA GAGGTCACAC AGCCTCAACT
    GCCCCTTCCA CCAGGAGGCA GGAGACATCA AGAGAGTATT TGTGCCCTCC TCGGGTTTTA
    CCTTCCAGCC GAGATTCTCC CTCCTCCCCA ACATTTATCT CCATCCAGTC GGCCACAAGG
    AAGCCTCTAG AGACTCCCAG CTTTAAGGGC AACCCTGATG TCTCAGTGAA AAGCACACAA
    CTGGCTCAGG ACATAGGCCA GGCCCTGCTC CACCAGAAAG GTGTCCAAGA CAAAACTGGG
    AAGAAGGACA TCACCCAGTG CTCTGTGCAA CCTGAACCTG CCCCTCCCTC AGCCAGTCCC
    CTGCCCAGAG GGTGGCAAAA GAGTGTTCTG GAGCTACAGA CGGGGCCAGG GAGCTCACAA
    CACTATGGAG CCATGAGAAC CGTGACTGAA CAGTATGAGG AGGTGGACCA GTTTGGGAAC
    ACAGTCCTCA TGTCTTCCAC CACAGTCACC GAGCAGGCAG AGCCACCCAG GAACCCAGGC
    TCCCACCTCG GGCTCCACGC CTCCCCCTTG CTGAGGCAGT TCCTGCACAG CCCAGCTGGG
    TTCAGCAGTG ACCTGACAGA AGCTGAGACG GTGCAGGTGT CCTGCAGCTA CTCCCAGCCA
    GCTGCCCAGT GA

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