col15a1b cDNA ORF clone, Danio rerio(zebrafish)

The following col15a1b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the col15a1b 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
ODa35239 NM_001172370.2
Latest version!
Danio rerio collagen, type XV, alpha 1b (col15a1b), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa06970 XM_005171234.4
Latest version!
Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa06971 XM_005171235.4
Latest version!
Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa42763 XM_009298513.3
Latest version!
Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa42764 XM_009298514.3
Latest version!
Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa56293 XM_017358519.2
Latest version!
Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
View Old Accession Versions >>
ODa42764 XM_009298514.2 Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa06970 XM_005171234.3 Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa42763 XM_009298513.2 Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa06971 XM_005171235.3 Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ODa56293 XM_017358519.1 Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
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 ODa35239
    Clone ID Related Accession (Same CDS sequence) NM_001172370.2
    Accession Version NM_001172370.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3510bp)
    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 2019-11-23
    Organism Danio rerio(zebrafish)
    Product collagen alpha-1(XV) chain precursor
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from FN432724.2. On Jul 30, 2010 this sequence version replaced NM_001172370.1. 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 :: FN432724.2 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA4476796, SAMEA4476810 [ECO:0000350] ##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
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCGCATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCTGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGTAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGAGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACGTTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATCGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GAATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGCTC CTGGTCGAGG ACCACCTGGC
    CCTTTTGGAA CGATGGGACC GAGAGGTTTA CCAGGACCAC CAGGGCCTCC GGGTCCACCA
    GGGCCCATAA ACAATAACTT TATGGTGGAT ACTTTGAAGG ATTTCGAGGG TTCTGGTGAA
    AGTGGTTCAT TTCTCGGAAC TGGAATTTTG AAAGGCTATC AAGGGCCTCC TGGTCTTCCT
    GGCCCACCAG GACCTCAGGG ACCTCCTGGT GCTAACGGAC CACCTGGCTT GTCTGTAAAG
    GGTGAAAGAG GATCTCCAGG ACCCGATGGA ATACATGGAT TAGTTGGTTT ACCAGGAGCA
    AGGGGACCAA AGGGAGACAA GGGCAATCCG GGAGAAAAGG GTGAGCGAGG TCGCGATGGA
    CTGAACATCA CAGGTCCTCC CGGCCCCCCC GGCCCTCCTG GACCAATCAT TAACTTCCAG
    GACCTTTTTC TTAATGACAC AGCTGCTAAA CTGAACCTCA CAAAGATCAG AGGACTGCCA
    GGCCCTATGG GCCCTGAAGG CTTGCCTGGC AGAGCAGGAT TCCCTGGCCC AAGAGGACCA
    AAGGGGGAAA TTGGGTTTCC TGGTGTGCAA GGACCTCCAG GACTAAAGGG GGACAAGGGT
    GAGCCAGGTG TATCCATCGC TGCTGATGGC TCTATAATCA CAAGCCTGCG AGGACCCAGA
    GGACCAAAGG GAACCAAGGG AGACATTGGT CTTGCTGGCC CACATGGGAT TCCGGGGCCA
    ATTGGACCAC CTGGACTAAA AGGGGGATAT GGAATTCCTG GTCGACCGGG TCGACCTGGA
    ATAGCTGGAA GGAAAGGGGA CAAGGGAGAT GCAAGTGGTC CCTCTGGTCC ACCAGGTCCA
    CCTGGACCTC CAGGGCCACC AGGACGAGTG ATTGGCCTCA ATGGAGGTCC TAAAGGTGAT
    AATGGCTACA ATGGGCAAAA GGGAGAGAAA GGTGATCCAG GTTTGCCTGG CCCTCCTGGA
    CTTCCTGGGA GAACAGGCCT TGTTGGTCCT AAAGGGGAAT CTATTGTTGG TCCTCCTGGA
    GACACTGGTG CTCCAGGACC TCCAGGACTG CCTGGGTATG GAAGTCCAGG ACCACAAGGC
    CCACCAGGAG CTCCTGGCCC TCCAGGAACC TCATCACTAT ACAGCTCAGC TGCAAGTCTC
    CCCGGACCTC CTGGACCTCC AGGGCCACCT GGTGCTCCTG GCTATGGAAA CCCTGTGAGC
    ACATATAAAA ACAGCCAGAC CTTGATGAGA GAGAGCAGCC AAGCAGCAGA AGGCACAATG
    GGATATGTTA TTGACAAGAG TGAACTGTAC ATCAGGGAGT TAAAGAGCTT TCTGCCAGGC
    TATAATCTTC TTCCGGACAC TACACACTCA ATGCCTGCGT TGCACTTGGT GGCTCTCAAT
    GCCCCATTCT CAGGAGACAT GCATGGCATC CGCGGGGCAG ATTACCAGTG TTACCAGCAA
    GCCAGAGCCA GAGGCCTGAC ATCCACATAC AGAGCTTTCC TTTCCTCTCA TCTGCAAGAC
    CTCTCCACCA TCGTCAAGAA AGCAGACCGT TTTAACTTAC CGGTGGTGAA TCTCAAAGGA
    GAAGTGCTGT TCAGCAGCTG GATGGCCATG TTCTCTGGTA ATGGAGGCGT TTTTGATCCA
    CTTACTCCGA TTTACTCCTT TGATGGACGA AATGTCTTGA CAGATCAGGC TTGGTCTCAG
    AAGCTGGTGT GGCACGGGTC AAGTACGGTG GGCATCCGAA TGACAACAAA CTACTGCGAG
    GCCTGGCGGA CAGGTGACAT GGCAGTAACC GGACAGGCGT CTCTCCTTCA GACCGGCCGA
    CTGCTAGGAC AGCACACACG CAGCTGCTCA AACCACTTCA TCATTCTCTG CATCGAGAAC
    AGCTACATCC AGCACCCTGG AAGGAACTAG

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

    RefSeq NP_001165841.2
    CDS1..3510
    Translation

    Target ORF information:

    RefSeq Version NM_001172370.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001172370.2

    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
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCGCATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCTGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGTAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGAGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACGTTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATCGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GAATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGCTC CTGGTCGAGG ACCACCTGGC
    CCTTTTGGAA CGATGGGACC GAGAGGTTTA CCAGGACCAC CAGGGCCTCC GGGTCCACCA
    GGGCCCATAA ACAATAACTT TATGGTGGAT ACTTTGAAGG ATTTCGAGGG TTCTGGTGAA
    AGTGGTTCAT TTCTCGGAAC TGGAATTTTG AAAGGCTATC AAGGGCCTCC TGGTCTTCCT
    GGCCCACCAG GACCTCAGGG ACCTCCTGGT GCTAACGGAC CACCTGGCTT GTCTGTAAAG
    GGTGAAAGAG GATCTCCAGG ACCCGATGGA ATACATGGAT TAGTTGGTTT ACCAGGAGCA
    AGGGGACCAA AGGGAGACAA GGGCAATCCG GGAGAAAAGG GTGAGCGAGG TCGCGATGGA
    CTGAACATCA CAGGTCCTCC CGGCCCCCCC GGCCCTCCTG GACCAATCAT TAACTTCCAG
    GACCTTTTTC TTAATGACAC AGCTGCTAAA CTGAACCTCA CAAAGATCAG AGGACTGCCA
    GGCCCTATGG GCCCTGAAGG CTTGCCTGGC AGAGCAGGAT TCCCTGGCCC AAGAGGACCA
    AAGGGGGAAA TTGGGTTTCC TGGTGTGCAA GGACCTCCAG GACTAAAGGG GGACAAGGGT
    GAGCCAGGTG TATCCATCGC TGCTGATGGC TCTATAATCA CAAGCCTGCG AGGACCCAGA
    GGACCAAAGG GAACCAAGGG AGACATTGGT CTTGCTGGCC CACATGGGAT TCCGGGGCCA
    ATTGGACCAC CTGGACTAAA AGGGGGATAT GGAATTCCTG GTCGACCGGG TCGACCTGGA
    ATAGCTGGAA GGAAAGGGGA CAAGGGAGAT GCAAGTGGTC CCTCTGGTCC ACCAGGTCCA
    CCTGGACCTC CAGGGCCACC AGGACGAGTG ATTGGCCTCA ATGGAGGTCC TAAAGGTGAT
    AATGGCTACA ATGGGCAAAA GGGAGAGAAA GGTGATCCAG GTTTGCCTGG CCCTCCTGGA
    CTTCCTGGGA GAACAGGCCT TGTTGGTCCT AAAGGGGAAT CTATTGTTGG TCCTCCTGGA
    GACACTGGTG CTCCAGGACC TCCAGGACTG CCTGGGTATG GAAGTCCAGG ACCACAAGGC
    CCACCAGGAG CTCCTGGCCC TCCAGGAACC TCATCACTAT ACAGCTCAGC TGCAAGTCTC
    CCCGGACCTC CTGGACCTCC AGGGCCACCT GGTGCTCCTG GCTATGGAAA CCCTGTGAGC
    ACATATAAAA ACAGCCAGAC CTTGATGAGA GAGAGCAGCC AAGCAGCAGA AGGCACAATG
    GGATATGTTA TTGACAAGAG TGAACTGTAC ATCAGGGAGT TAAAGAGCTT TCTGCCAGGC
    TATAATCTTC TTCCGGACAC TACACACTCA ATGCCTGCGT TGCACTTGGT GGCTCTCAAT
    GCCCCATTCT CAGGAGACAT GCATGGCATC CGCGGGGCAG ATTACCAGTG TTACCAGCAA
    GCCAGAGCCA GAGGCCTGAC ATCCACATAC AGAGCTTTCC TTTCCTCTCA TCTGCAAGAC
    CTCTCCACCA TCGTCAAGAA AGCAGACCGT TTTAACTTAC CGGTGGTGAA TCTCAAAGGA
    GAAGTGCTGT TCAGCAGCTG GATGGCCATG TTCTCTGGTA ATGGAGGCGT TTTTGATCCA
    CTTACTCCGA TTTACTCCTT TGATGGACGA AATGTCTTGA CAGATCAGGC TTGGTCTCAG
    AAGCTGGTGT GGCACGGGTC AAGTACGGTG GGCATCCGAA TGACAACAAA CTACTGCGAG
    GCCTGGCGGA CAGGTGACAT GGCAGTAACC GGACAGGCGT CTCTCCTTCA GACCGGCCGA
    CTGCTAGGAC AGCACACACG CAGCTGCTCA AACCACTTCA TCATTCTCTG CATCGAGAAC
    AGCTACATCC AGCACCCTGG AAGGAACTAG

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

    CloneID ODa06970
    Clone ID Related Accession (Same CDS sequence) XM_005171234.3 , XM_005171234.4
    Accession Version XM_005171234.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product collagen alpha-1(XV) chain isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005171234.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAGTCA ACAACAACAA TTCACAACAA
    GGAGTCAAAG GGGAAAAGGG TGATGAGGGA AATCCTGGGT TGTCAGGTAC TCCAGTCCCC
    CATGCTTATG TGGGTCCTAA AGGTGATAAT GGCTACAATG GGCAAAAGGG AGAGAAAGGT
    GATCCAGGTT TGCCTGGCCC TCCTGGACTT CCTGGGAGAA CAGGCCTTGT TGGTCCTAAA
    GGGGAATCTA TTGTTGGTCC TCCTGGAGAC ACTGGTGCTC CAGGACCTCC AGGACTGCCT
    GGGTATGGAA GTCCAGGACC ACAAGGCCCA CCAGGAGCTC CTGGCCCTCC AGGAACCTCA
    TCACTATACA GCTCAGCTGC AAGTCTCCCC GGACCTCCTG GACCTCCAGG GCCACCTGGT
    GCTCCTGGCT ATGGAAACCC TGTGAGCACA TATAAAAACA GCCAGACCTT GATGAGAGAG
    AGCAGCCAAG CAGCAGAAGG CACAATGGGA TATGTTATTG ACAAGAGTGA ACTGTACATC
    AGGGTACGAG GAGGCTGGAA GAAAATTGAG TTAGGAGAGC TAATCCCTGT TCCCGAAGAC
    AGTTCCTCTT CTGCTTTGTC ACAAGGCCTG AGCAGACCCA GCGACCGCAG CGTACCCAGA
    GTTCATAGTC AGGAGTTAAA GAGCTTTCTG CCAGGCTATA ATCTTCTTCC GGACACTACA
    CACTCAATGC CTGCGTTGCA CTTGGTGGCT CTCAATGCCC CATTCTCAGG AGACATGCAT
    GGCATCCGCG GGGCAGATTA CCAGTGTTAC CAGCAAGCCA GAGCCAGAGG CCTGACATCC
    ACATACAGAG CTTTCCTTTC CTCTCATCTG CAAGACCTCT CCACCATCGT CAAGAAAGCA
    GACCGTTTTA ACTTACCGGT GGTGAATCTA AAAGGAGAAG TGCTGTTCAG CAGCTGGATG
    GCCATGTTCT CTGGTAATGG AGGCGTTTTT GATCCACTTA CTCCGATTTA CTCCTTTGAT
    GGACGAAATG TCTTGACAGA TCAGGCTTGG TCTCAGAAGC TGGTGTGGCA CGGGTCAAGT
    ACGGTGGGCA TCCGAATGAC AACAAACTAC TGCGAGGCCT GGCGGACAGG TGACATGGCA
    GTAACCGGAC AGGCGTCTCT CCTTCAGACC GGCCGACTGC TGGGACAGCA CACACGCAGC
    TGCTCAAACC ACTTCATCAT TCTCTGCATC GAGAACAGCT ACATCCAGCA CCCTGGAAGG
    AACTAG

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

    RefSeq XP_005171291.1
    CDS156..4061
    Translation

    Target ORF information:

    RefSeq Version XM_005171234.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005171234.3

    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
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAGTCA ACAACAACAA TTCACAACAA
    GGAGTCAAAG GGGAAAAGGG TGATGAGGGA AATCCTGGGT TGTCAGGTAC TCCAGTCCCC
    CATGCTTATG TGGGTCCTAA AGGTGATAAT GGCTACAATG GGCAAAAGGG AGAGAAAGGT
    GATCCAGGTT TGCCTGGCCC TCCTGGACTT CCTGGGAGAA CAGGCCTTGT TGGTCCTAAA
    GGGGAATCTA TTGTTGGTCC TCCTGGAGAC ACTGGTGCTC CAGGACCTCC AGGACTGCCT
    GGGTATGGAA GTCCAGGACC ACAAGGCCCA CCAGGAGCTC CTGGCCCTCC AGGAACCTCA
    TCACTATACA GCTCAGCTGC AAGTCTCCCC GGACCTCCTG GACCTCCAGG GCCACCTGGT
    GCTCCTGGCT ATGGAAACCC TGTGAGCACA TATAAAAACA GCCAGACCTT GATGAGAGAG
    AGCAGCCAAG CAGCAGAAGG CACAATGGGA TATGTTATTG ACAAGAGTGA ACTGTACATC
    AGGGTACGAG GAGGCTGGAA GAAAATTGAG TTAGGAGAGC TAATCCCTGT TCCCGAAGAC
    AGTTCCTCTT CTGCTTTGTC ACAAGGCCTG AGCAGACCCA GCGACCGCAG CGTACCCAGA
    GTTCATAGTC AGGAGTTAAA GAGCTTTCTG CCAGGCTATA ATCTTCTTCC GGACACTACA
    CACTCAATGC CTGCGTTGCA CTTGGTGGCT CTCAATGCCC CATTCTCAGG AGACATGCAT
    GGCATCCGCG GGGCAGATTA CCAGTGTTAC CAGCAAGCCA GAGCCAGAGG CCTGACATCC
    ACATACAGAG CTTTCCTTTC CTCTCATCTG CAAGACCTCT CCACCATCGT CAAGAAAGCA
    GACCGTTTTA ACTTACCGGT GGTGAATCTA AAAGGAGAAG TGCTGTTCAG CAGCTGGATG
    GCCATGTTCT CTGGTAATGG AGGCGTTTTT GATCCACTTA CTCCGATTTA CTCCTTTGAT
    GGACGAAATG TCTTGACAGA TCAGGCTTGG TCTCAGAAGC TGGTGTGGCA CGGGTCAAGT
    ACGGTGGGCA TCCGAATGAC AACAAACTAC TGCGAGGCCT GGCGGACAGG TGACATGGCA
    GTAACCGGAC AGGCGTCTCT CCTTCAGACC GGCCGACTGC TGGGACAGCA CACACGCAGC
    TGCTCAAACC ACTTCATCAT TCTCTGCATC GAGAACAGCT ACATCCAGCA CCCTGGAAGG
    AACTAG

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

    CloneID ODa06970
    Clone ID Related Accession (Same CDS sequence) XM_005171234.3 , XM_005171234.4
    Accession Version XM_005171234.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product collagen alpha-1(XV) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005171234.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAGTCA ACAACAACAA TTCACAACAA
    GGAGTCAAAG GGGAAAAGGG TGATGAGGGA AATCCTGGGT TGTCAGGTAC TCCAGTCCCC
    CATGCTTATG TGGGTCCTAA AGGTGATAAT GGCTACAATG GGCAAAAGGG AGAGAAAGGT
    GATCCAGGTT TGCCTGGCCC TCCTGGACTT CCTGGGAGAA CAGGCCTTGT TGGTCCTAAA
    GGGGAATCTA TTGTTGGTCC TCCTGGAGAC ACTGGTGCTC CAGGACCTCC AGGACTGCCT
    GGGTATGGAA GTCCAGGACC ACAAGGCCCA CCAGGAGCTC CTGGCCCTCC AGGAACCTCA
    TCACTATACA GCTCAGCTGC AAGTCTCCCC GGACCTCCTG GACCTCCAGG GCCACCTGGT
    GCTCCTGGCT ATGGAAACCC TGTGAGCACA TATAAAAACA GCCAGACCTT GATGAGAGAG
    AGCAGCCAAG CAGCAGAAGG CACAATGGGA TATGTTATTG ACAAGAGTGA ACTGTACATC
    AGGGTACGAG GAGGCTGGAA GAAAATTGAG TTAGGAGAGC TAATCCCTGT TCCCGAAGAC
    AGTTCCTCTT CTGCTTTGTC ACAAGGCCTG AGCAGACCCA GCGACCGCAG CGTACCCAGA
    GTTCATAGTC AGGAGTTAAA GAGCTTTCTG CCAGGCTATA ATCTTCTTCC GGACACTACA
    CACTCAATGC CTGCGTTGCA CTTGGTGGCT CTCAATGCCC CATTCTCAGG AGACATGCAT
    GGCATCCGCG GGGCAGATTA CCAGTGTTAC CAGCAAGCCA GAGCCAGAGG CCTGACATCC
    ACATACAGAG CTTTCCTTTC CTCTCATCTG CAAGACCTCT CCACCATCGT CAAGAAAGCA
    GACCGTTTTA ACTTACCGGT GGTGAATCTA AAAGGAGAAG TGCTGTTCAG CAGCTGGATG
    GCCATGTTCT CTGGTAATGG AGGCGTTTTT GATCCACTTA CTCCGATTTA CTCCTTTGAT
    GGACGAAATG TCTTGACAGA TCAGGCTTGG TCTCAGAAGC TGGTGTGGCA CGGGTCAAGT
    ACGGTGGGCA TCCGAATGAC AACAAACTAC TGCGAGGCCT GGCGGACAGG TGACATGGCA
    GTAACCGGAC AGGCGTCTCT CCTTCAGACC GGCCGACTGC TGGGACAGCA CACACGCAGC
    TGCTCAAACC ACTTCATCAT TCTCTGCATC GAGAACAGCT ACATCCAGCA CCCTGGAAGG
    AACTAG

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

    RefSeq XP_005171291.1
    CDS157..4062
    Translation

    Target ORF information:

    RefSeq Version XM_005171234.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005171234.4

    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
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAGTCA ACAACAACAA TTCACAACAA
    GGAGTCAAAG GGGAAAAGGG TGATGAGGGA AATCCTGGGT TGTCAGGTAC TCCAGTCCCC
    CATGCTTATG TGGGTCCTAA AGGTGATAAT GGCTACAATG GGCAAAAGGG AGAGAAAGGT
    GATCCAGGTT TGCCTGGCCC TCCTGGACTT CCTGGGAGAA CAGGCCTTGT TGGTCCTAAA
    GGGGAATCTA TTGTTGGTCC TCCTGGAGAC ACTGGTGCTC CAGGACCTCC AGGACTGCCT
    GGGTATGGAA GTCCAGGACC ACAAGGCCCA CCAGGAGCTC CTGGCCCTCC AGGAACCTCA
    TCACTATACA GCTCAGCTGC AAGTCTCCCC GGACCTCCTG GACCTCCAGG GCCACCTGGT
    GCTCCTGGCT ATGGAAACCC TGTGAGCACA TATAAAAACA GCCAGACCTT GATGAGAGAG
    AGCAGCCAAG CAGCAGAAGG CACAATGGGA TATGTTATTG ACAAGAGTGA ACTGTACATC
    AGGGTACGAG GAGGCTGGAA GAAAATTGAG TTAGGAGAGC TAATCCCTGT TCCCGAAGAC
    AGTTCCTCTT CTGCTTTGTC ACAAGGCCTG AGCAGACCCA GCGACCGCAG CGTACCCAGA
    GTTCATAGTC AGGAGTTAAA GAGCTTTCTG CCAGGCTATA ATCTTCTTCC GGACACTACA
    CACTCAATGC CTGCGTTGCA CTTGGTGGCT CTCAATGCCC CATTCTCAGG AGACATGCAT
    GGCATCCGCG GGGCAGATTA CCAGTGTTAC CAGCAAGCCA GAGCCAGAGG CCTGACATCC
    ACATACAGAG CTTTCCTTTC CTCTCATCTG CAAGACCTCT CCACCATCGT CAAGAAAGCA
    GACCGTTTTA ACTTACCGGT GGTGAATCTA AAAGGAGAAG TGCTGTTCAG CAGCTGGATG
    GCCATGTTCT CTGGTAATGG AGGCGTTTTT GATCCACTTA CTCCGATTTA CTCCTTTGAT
    GGACGAAATG TCTTGACAGA TCAGGCTTGG TCTCAGAAGC TGGTGTGGCA CGGGTCAAGT
    ACGGTGGGCA TCCGAATGAC AACAAACTAC TGCGAGGCCT GGCGGACAGG TGACATGGCA
    GTAACCGGAC AGGCGTCTCT CCTTCAGACC GGCCGACTGC TGGGACAGCA CACACGCAGC
    TGCTCAAACC ACTTCATCAT TCTCTGCATC GAGAACAGCT ACATCCAGCA CCCTGGAAGG
    AACTAG

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

    CloneID ODa06971
    Clone ID Related Accession (Same CDS sequence) XM_005171235.3 , XM_005171235.4
    Accession Version XM_005171235.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3780bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product collagen alpha-1(XV) chain isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005171235.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAAC AGTTTTCCCA
    GTTCCTCCTA GACCACACTG CAAAACGCCA GTCAACAACA ACAATTCACA ACAAGGAGTC
    AAAGGGGAAA AGGGTGATGA GGGAAATCCT GGGTTGTCAG GTACTCCAGT CCCCCATGCT
    TATGTGGGTC CTAAAGGTGA TAATGGCTAC AATGGGCAAA AGGGAGAGAA AGGTGATCCA
    GGTTTGCCTG GCCCTCCTGG ACTTCCTGGG AGAACAGGCC TTGTTGGTCC TAAAGGGGAA
    TCTATTGTTG GTCCTCCTGG AGACACTGGT GCTCCAGGAC CTCCAGGACT GCCTGGGTAT
    GGAAGTCCAG GACCACAAGG CCCACCAGGA GCTCCTGGCC CTCCAGGAAC CTCATCACTA
    TACAGCTCAG CTGCAAGTCT CCCCGGACCT CCTGGACCTC CAGGGCCACC TGGTGCTCCT
    GGCTATGGAA ACCCTGTGAG CACATATAAA AACAGCCAGA CCTTGATGAG AGAGAGCAGC
    CAAGCAGCAG AAGGCACAAT GGGATATGTT ATTGACAAGA GTGAACTGTA CATCAGGGTA
    CGAGGAGGCT GGAAGAAAAT TGAGTTAGGA GAGCTAATCC CTGTTCCCGA AGACAGTTCC
    TCTTCTGCTT TGTCACAAGG CCTGAGCAGA CCCAGCGACC GCAGCGTACC CAGAGTTCAT
    AGTCAGGAGT TAAAGAGCTT TCTGCCAGGC TATAATCTTC TTCCGGACAC TACACACTCA
    ATGCCTGCGT TGCACTTGGT GGCTCTCAAT GCCCCATTCT CAGGAGACAT GCATGGCATC
    CGCGGGGCAG ATTACCAGTG TTACCAGCAA GCCAGAGCCA GAGGCCTGAC ATCCACATAC
    AGAGCTTTCC TTTCCTCTCA TCTGCAAGAC CTCTCCACCA TCGTCAAGAA AGCAGACCGT
    TTTAACTTAC CGGTGGTGAA TCTAAAAGGA GAAGTGCTGT TCAGCAGCTG GATGGCCATG
    TTCTCTGGTA ATGGAGGCGT TTTTGATCCA CTTACTCCGA TTTACTCCTT TGATGGACGA
    AATGTCTTGA CAGATCAGGC TTGGTCTCAG AAGCTGGTGT GGCACGGGTC AAGTACGGTG
    GGCATCCGAA TGACAACAAA CTACTGCGAG GCCTGGCGGA CAGGTGACAT GGCAGTAACC
    GGACAGGCGT CTCTCCTTCA GACCGGCCGA CTGCTGGGAC AGCACACACG CAGCTGCTCA
    AACCACTTCA TCATTCTCTG CATCGAGAAC AGCTACATCC AGCACCCTGG AAGGAACTAG

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

    RefSeq XP_005171292.1
    CDS165..3944
    Translation

    Target ORF information:

    RefSeq Version XM_005171235.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005171235.3

    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
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAAC AGTTTTCCCA
    GTTCCTCCTA GACCACACTG CAAAACGCCA GTCAACAACA ACAATTCACA ACAAGGAGTC
    AAAGGGGAAA AGGGTGATGA GGGAAATCCT GGGTTGTCAG GTACTCCAGT CCCCCATGCT
    TATGTGGGTC CTAAAGGTGA TAATGGCTAC AATGGGCAAA AGGGAGAGAA AGGTGATCCA
    GGTTTGCCTG GCCCTCCTGG ACTTCCTGGG AGAACAGGCC TTGTTGGTCC TAAAGGGGAA
    TCTATTGTTG GTCCTCCTGG AGACACTGGT GCTCCAGGAC CTCCAGGACT GCCTGGGTAT
    GGAAGTCCAG GACCACAAGG CCCACCAGGA GCTCCTGGCC CTCCAGGAAC CTCATCACTA
    TACAGCTCAG CTGCAAGTCT CCCCGGACCT CCTGGACCTC CAGGGCCACC TGGTGCTCCT
    GGCTATGGAA ACCCTGTGAG CACATATAAA AACAGCCAGA CCTTGATGAG AGAGAGCAGC
    CAAGCAGCAG AAGGCACAAT GGGATATGTT ATTGACAAGA GTGAACTGTA CATCAGGGTA
    CGAGGAGGCT GGAAGAAAAT TGAGTTAGGA GAGCTAATCC CTGTTCCCGA AGACAGTTCC
    TCTTCTGCTT TGTCACAAGG CCTGAGCAGA CCCAGCGACC GCAGCGTACC CAGAGTTCAT
    AGTCAGGAGT TAAAGAGCTT TCTGCCAGGC TATAATCTTC TTCCGGACAC TACACACTCA
    ATGCCTGCGT TGCACTTGGT GGCTCTCAAT GCCCCATTCT CAGGAGACAT GCATGGCATC
    CGCGGGGCAG ATTACCAGTG TTACCAGCAA GCCAGAGCCA GAGGCCTGAC ATCCACATAC
    AGAGCTTTCC TTTCCTCTCA TCTGCAAGAC CTCTCCACCA TCGTCAAGAA AGCAGACCGT
    TTTAACTTAC CGGTGGTGAA TCTAAAAGGA GAAGTGCTGT TCAGCAGCTG GATGGCCATG
    TTCTCTGGTA ATGGAGGCGT TTTTGATCCA CTTACTCCGA TTTACTCCTT TGATGGACGA
    AATGTCTTGA CAGATCAGGC TTGGTCTCAG AAGCTGGTGT GGCACGGGTC AAGTACGGTG
    GGCATCCGAA TGACAACAAA CTACTGCGAG GCCTGGCGGA CAGGTGACAT GGCAGTAACC
    GGACAGGCGT CTCTCCTTCA GACCGGCCGA CTGCTGGGAC AGCACACACG CAGCTGCTCA
    AACCACTTCA TCATTCTCTG CATCGAGAAC AGCTACATCC AGCACCCTGG AAGGAACTAG

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

    CloneID ODa06971
    Clone ID Related Accession (Same CDS sequence) XM_005171235.3 , XM_005171235.4
    Accession Version XM_005171235.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3780bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product collagen alpha-1(XV) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005171235.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAAC AGTTTTCCCA
    GTTCCTCCTA GACCACACTG CAAAACGCCA GTCAACAACA ACAATTCACA ACAAGGAGTC
    AAAGGGGAAA AGGGTGATGA GGGAAATCCT GGGTTGTCAG GTACTCCAGT CCCCCATGCT
    TATGTGGGTC CTAAAGGTGA TAATGGCTAC AATGGGCAAA AGGGAGAGAA AGGTGATCCA
    GGTTTGCCTG GCCCTCCTGG ACTTCCTGGG AGAACAGGCC TTGTTGGTCC TAAAGGGGAA
    TCTATTGTTG GTCCTCCTGG AGACACTGGT GCTCCAGGAC CTCCAGGACT GCCTGGGTAT
    GGAAGTCCAG GACCACAAGG CCCACCAGGA GCTCCTGGCC CTCCAGGAAC CTCATCACTA
    TACAGCTCAG CTGCAAGTCT CCCCGGACCT CCTGGACCTC CAGGGCCACC TGGTGCTCCT
    GGCTATGGAA ACCCTGTGAG CACATATAAA AACAGCCAGA CCTTGATGAG AGAGAGCAGC
    CAAGCAGCAG AAGGCACAAT GGGATATGTT ATTGACAAGA GTGAACTGTA CATCAGGGTA
    CGAGGAGGCT GGAAGAAAAT TGAGTTAGGA GAGCTAATCC CTGTTCCCGA AGACAGTTCC
    TCTTCTGCTT TGTCACAAGG CCTGAGCAGA CCCAGCGACC GCAGCGTACC CAGAGTTCAT
    AGTCAGGAGT TAAAGAGCTT TCTGCCAGGC TATAATCTTC TTCCGGACAC TACACACTCA
    ATGCCTGCGT TGCACTTGGT GGCTCTCAAT GCCCCATTCT CAGGAGACAT GCATGGCATC
    CGCGGGGCAG ATTACCAGTG TTACCAGCAA GCCAGAGCCA GAGGCCTGAC ATCCACATAC
    AGAGCTTTCC TTTCCTCTCA TCTGCAAGAC CTCTCCACCA TCGTCAAGAA AGCAGACCGT
    TTTAACTTAC CGGTGGTGAA TCTAAAAGGA GAAGTGCTGT TCAGCAGCTG GATGGCCATG
    TTCTCTGGTA ATGGAGGCGT TTTTGATCCA CTTACTCCGA TTTACTCCTT TGATGGACGA
    AATGTCTTGA CAGATCAGGC TTGGTCTCAG AAGCTGGTGT GGCACGGGTC AAGTACGGTG
    GGCATCCGAA TGACAACAAA CTACTGCGAG GCCTGGCGGA CAGGTGACAT GGCAGTAACC
    GGACAGGCGT CTCTCCTTCA GACCGGCCGA CTGCTGGGAC AGCACACACG CAGCTGCTCA
    AACCACTTCA TCATTCTCTG CATCGAGAAC AGCTACATCC AGCACCCTGG AAGGAACTAG

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

    RefSeq XP_005171292.1
    CDS149..3928
    Translation

    Target ORF information:

    RefSeq Version XM_005171235.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005171235.4

    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
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAAC AGTTTTCCCA
    GTTCCTCCTA GACCACACTG CAAAACGCCA GTCAACAACA ACAATTCACA ACAAGGAGTC
    AAAGGGGAAA AGGGTGATGA GGGAAATCCT GGGTTGTCAG GTACTCCAGT CCCCCATGCT
    TATGTGGGTC CTAAAGGTGA TAATGGCTAC AATGGGCAAA AGGGAGAGAA AGGTGATCCA
    GGTTTGCCTG GCCCTCCTGG ACTTCCTGGG AGAACAGGCC TTGTTGGTCC TAAAGGGGAA
    TCTATTGTTG GTCCTCCTGG AGACACTGGT GCTCCAGGAC CTCCAGGACT GCCTGGGTAT
    GGAAGTCCAG GACCACAAGG CCCACCAGGA GCTCCTGGCC CTCCAGGAAC CTCATCACTA
    TACAGCTCAG CTGCAAGTCT CCCCGGACCT CCTGGACCTC CAGGGCCACC TGGTGCTCCT
    GGCTATGGAA ACCCTGTGAG CACATATAAA AACAGCCAGA CCTTGATGAG AGAGAGCAGC
    CAAGCAGCAG AAGGCACAAT GGGATATGTT ATTGACAAGA GTGAACTGTA CATCAGGGTA
    CGAGGAGGCT GGAAGAAAAT TGAGTTAGGA GAGCTAATCC CTGTTCCCGA AGACAGTTCC
    TCTTCTGCTT TGTCACAAGG CCTGAGCAGA CCCAGCGACC GCAGCGTACC CAGAGTTCAT
    AGTCAGGAGT TAAAGAGCTT TCTGCCAGGC TATAATCTTC TTCCGGACAC TACACACTCA
    ATGCCTGCGT TGCACTTGGT GGCTCTCAAT GCCCCATTCT CAGGAGACAT GCATGGCATC
    CGCGGGGCAG ATTACCAGTG TTACCAGCAA GCCAGAGCCA GAGGCCTGAC ATCCACATAC
    AGAGCTTTCC TTTCCTCTCA TCTGCAAGAC CTCTCCACCA TCGTCAAGAA AGCAGACCGT
    TTTAACTTAC CGGTGGTGAA TCTAAAAGGA GAAGTGCTGT TCAGCAGCTG GATGGCCATG
    TTCTCTGGTA ATGGAGGCGT TTTTGATCCA CTTACTCCGA TTTACTCCTT TGATGGACGA
    AATGTCTTGA CAGATCAGGC TTGGTCTCAG AAGCTGGTGT GGCACGGGTC AAGTACGGTG
    GGCATCCGAA TGACAACAAA CTACTGCGAG GCCTGGCGGA CAGGTGACAT GGCAGTAACC
    GGACAGGCGT CTCTCCTTCA GACCGGCCGA CTGCTGGGAC AGCACACACG CAGCTGCTCA
    AACCACTTCA TCATTCTCTG CATCGAGAAC AGCTACATCC AGCACCCTGG AAGGAACTAG

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

    CloneID ODa42763
    Clone ID Related Accession (Same CDS sequence) XM_009298513.2 , XM_009298513.3
    Accession Version XM_009298513.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3948bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product collagen alpha-1(XV) chain isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009298513.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAACAG TTTTCCCAGT TCCTCCTAGA
    CCACACTGCA AAACGCCAGT CAACAACAAC AATTCACAAC AAGGAGTCAA AGGGGAAAAG
    GGTGATGAGG GAAATCCTGG GTTGTCAGGT ACTCCAGTCC CCCATGCTTA TGTGGGTCCT
    AAAGGTGATA ATGGCTACAA TGGGCAAAAG GGAGAGAAAG GTGATCCAGG TTTGCCTGGC
    CCTCCTGGAC TTCCTGGGAG AACAGGCCTT GTTGGTCCTA AAGGGGAATC TATTGTTGGT
    CCTCCTGGAG ACACTGGTGC TCCAGGACCT CCAGGACTGC CTGGGTATGG AAGTCCAGGA
    CCACAAGGCC CACCAGGAGC TCCTGGCCCT CCAGGAACCT CATCACTATA CAGCTCAGCT
    GCAAGTCTCC CCGGACCTCC TGGACCTCCA GGGCCACCTG GTGCTCCTGG CTATGGAAAC
    CCTGTGAGCA CATATAAAAA CAGCCAGACC TTGATGAGAG AGAGCAGCCA AGCAGCAGAA
    GGCACAATGG GATATGTTAT TGACAAGAGT GAACTGTACA TCAGGGTACG AGGAGGCTGG
    AAGAAAATTG AGTTAGGAGA GCTAATCCCT GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG
    TCACAAGGCC TGAGCAGACC CAGCGACCGC AGCGTACCCA GAGTTCATAG TCAGGAGTTA
    AAGAGCTTTC TGCCAGGCTA TAATCTTCTT CCGGACACTA CACACTCAAT GCCTGCGTTG
    CACTTGGTGG CTCTCAATGC CCCATTCTCA GGAGACATGC ATGGCATCCG CGGGGCAGAT
    TACCAGTGTT ACCAGCAAGC CAGAGCCAGA GGCCTGACAT CCACATACAG AGCTTTCCTT
    TCCTCTCATC TGCAAGACCT CTCCACCATC GTCAAGAAAG CAGACCGTTT TAACTTACCG
    GTGGTGAATC TAAAAGGAGA AGTGCTGTTC AGCAGCTGGA TGGCCATGTT CTCTGGTAAT
    GGAGGCGTTT TTGATCCACT TACTCCGATT TACTCCTTTG ATGGACGAAA TGTCTTGACA
    GATCAGGCTT GGTCTCAGAA GCTGGTGTGG CACGGGTCAA GTACGGTGGG CATCCGAATG
    ACAACAAACT ACTGCGAGGC CTGGCGGACA GGTGACATGG CAGTAACCGG ACAGGCGTCT
    CTCCTTCAGA CCGGCCGACT GCTGGGACAG CACACACGCA GCTGCTCAAA CCACTTCATC
    ATTCTCTGCA TCGAGAACAG CTACATCCAG CACCCTGGAA GGAACTAG

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

    RefSeq XP_009296788.1
    CDS156..4103
    Translation

    Target ORF information:

    RefSeq Version XM_009298513.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009298513.2

    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
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAACAG TTTTCCCAGT TCCTCCTAGA
    CCACACTGCA AAACGCCAGT CAACAACAAC AATTCACAAC AAGGAGTCAA AGGGGAAAAG
    GGTGATGAGG GAAATCCTGG GTTGTCAGGT ACTCCAGTCC CCCATGCTTA TGTGGGTCCT
    AAAGGTGATA ATGGCTACAA TGGGCAAAAG GGAGAGAAAG GTGATCCAGG TTTGCCTGGC
    CCTCCTGGAC TTCCTGGGAG AACAGGCCTT GTTGGTCCTA AAGGGGAATC TATTGTTGGT
    CCTCCTGGAG ACACTGGTGC TCCAGGACCT CCAGGACTGC CTGGGTATGG AAGTCCAGGA
    CCACAAGGCC CACCAGGAGC TCCTGGCCCT CCAGGAACCT CATCACTATA CAGCTCAGCT
    GCAAGTCTCC CCGGACCTCC TGGACCTCCA GGGCCACCTG GTGCTCCTGG CTATGGAAAC
    CCTGTGAGCA CATATAAAAA CAGCCAGACC TTGATGAGAG AGAGCAGCCA AGCAGCAGAA
    GGCACAATGG GATATGTTAT TGACAAGAGT GAACTGTACA TCAGGGTACG AGGAGGCTGG
    AAGAAAATTG AGTTAGGAGA GCTAATCCCT GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG
    TCACAAGGCC TGAGCAGACC CAGCGACCGC AGCGTACCCA GAGTTCATAG TCAGGAGTTA
    AAGAGCTTTC TGCCAGGCTA TAATCTTCTT CCGGACACTA CACACTCAAT GCCTGCGTTG
    CACTTGGTGG CTCTCAATGC CCCATTCTCA GGAGACATGC ATGGCATCCG CGGGGCAGAT
    TACCAGTGTT ACCAGCAAGC CAGAGCCAGA GGCCTGACAT CCACATACAG AGCTTTCCTT
    TCCTCTCATC TGCAAGACCT CTCCACCATC GTCAAGAAAG CAGACCGTTT TAACTTACCG
    GTGGTGAATC TAAAAGGAGA AGTGCTGTTC AGCAGCTGGA TGGCCATGTT CTCTGGTAAT
    GGAGGCGTTT TTGATCCACT TACTCCGATT TACTCCTTTG ATGGACGAAA TGTCTTGACA
    GATCAGGCTT GGTCTCAGAA GCTGGTGTGG CACGGGTCAA GTACGGTGGG CATCCGAATG
    ACAACAAACT ACTGCGAGGC CTGGCGGACA GGTGACATGG CAGTAACCGG ACAGGCGTCT
    CTCCTTCAGA CCGGCCGACT GCTGGGACAG CACACACGCA GCTGCTCAAA CCACTTCATC
    ATTCTCTGCA TCGAGAACAG CTACATCCAG CACCCTGGAA GGAACTAG

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

    CloneID ODa42763
    Clone ID Related Accession (Same CDS sequence) XM_009298513.2 , XM_009298513.3
    Accession Version XM_009298513.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3948bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product collagen alpha-1(XV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009298513.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAACAG TTTTCCCAGT TCCTCCTAGA
    CCACACTGCA AAACGCCAGT CAACAACAAC AATTCACAAC AAGGAGTCAA AGGGGAAAAG
    GGTGATGAGG GAAATCCTGG GTTGTCAGGT ACTCCAGTCC CCCATGCTTA TGTGGGTCCT
    AAAGGTGATA ATGGCTACAA TGGGCAAAAG GGAGAGAAAG GTGATCCAGG TTTGCCTGGC
    CCTCCTGGAC TTCCTGGGAG AACAGGCCTT GTTGGTCCTA AAGGGGAATC TATTGTTGGT
    CCTCCTGGAG ACACTGGTGC TCCAGGACCT CCAGGACTGC CTGGGTATGG AAGTCCAGGA
    CCACAAGGCC CACCAGGAGC TCCTGGCCCT CCAGGAACCT CATCACTATA CAGCTCAGCT
    GCAAGTCTCC CCGGACCTCC TGGACCTCCA GGGCCACCTG GTGCTCCTGG CTATGGAAAC
    CCTGTGAGCA CATATAAAAA CAGCCAGACC TTGATGAGAG AGAGCAGCCA AGCAGCAGAA
    GGCACAATGG GATATGTTAT TGACAAGAGT GAACTGTACA TCAGGGTACG AGGAGGCTGG
    AAGAAAATTG AGTTAGGAGA GCTAATCCCT GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG
    TCACAAGGCC TGAGCAGACC CAGCGACCGC AGCGTACCCA GAGTTCATAG TCAGGAGTTA
    AAGAGCTTTC TGCCAGGCTA TAATCTTCTT CCGGACACTA CACACTCAAT GCCTGCGTTG
    CACTTGGTGG CTCTCAATGC CCCATTCTCA GGAGACATGC ATGGCATCCG CGGGGCAGAT
    TACCAGTGTT ACCAGCAAGC CAGAGCCAGA GGCCTGACAT CCACATACAG AGCTTTCCTT
    TCCTCTCATC TGCAAGACCT CTCCACCATC GTCAAGAAAG CAGACCGTTT TAACTTACCG
    GTGGTGAATC TAAAAGGAGA AGTGCTGTTC AGCAGCTGGA TGGCCATGTT CTCTGGTAAT
    GGAGGCGTTT TTGATCCACT TACTCCGATT TACTCCTTTG ATGGACGAAA TGTCTTGACA
    GATCAGGCTT GGTCTCAGAA GCTGGTGTGG CACGGGTCAA GTACGGTGGG CATCCGAATG
    ACAACAAACT ACTGCGAGGC CTGGCGGACA GGTGACATGG CAGTAACCGG ACAGGCGTCT
    CTCCTTCAGA CCGGCCGACT GCTGGGACAG CACACACGCA GCTGCTCAAA CCACTTCATC
    ATTCTCTGCA TCGAGAACAG CTACATCCAG CACCCTGGAA GGAACTAG

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

    RefSeq XP_009296788.1
    CDS157..4104
    Translation

    Target ORF information:

    RefSeq Version XM_009298513.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009298513.3

    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
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCTGAAG GCTTGCCTGG CAGAGCAGGA TTCCCTGGCC CAAGAGGACC AAAGGGGGAA
    ATTGGGTTTC CTGGTGTGCA AGGACCTCCA GGACTAAAGG GGGACAAGGG TGAGCCAGGT
    GTATCCATCG CTGCTGATGG CTCTATAATC ACAAGCCTGC GAGGACCCAG AGGACCAAAG
    GGAACCAAGG GAGACATTGG TCTTGCTGGC CCACATGGGA TTCCGGGGCC AATTGGACCA
    CCTGGACTAA AAGGGGGATA TGGAATTCCT GGTCGACCGG GTCGACCTGG AATAGCTGGA
    AGGAAAGGGG ACAAGGGAGA TGCAAGTGGT CCCTCTGGTC CACCAGGTCC ACCTGGACCT
    CCAGGGCCAC CAGGACGAGT GATTGGCCTC AATGGAACAG TTTTCCCAGT TCCTCCTAGA
    CCACACTGCA AAACGCCAGT CAACAACAAC AATTCACAAC AAGGAGTCAA AGGGGAAAAG
    GGTGATGAGG GAAATCCTGG GTTGTCAGGT ACTCCAGTCC CCCATGCTTA TGTGGGTCCT
    AAAGGTGATA ATGGCTACAA TGGGCAAAAG GGAGAGAAAG GTGATCCAGG TTTGCCTGGC
    CCTCCTGGAC TTCCTGGGAG AACAGGCCTT GTTGGTCCTA AAGGGGAATC TATTGTTGGT
    CCTCCTGGAG ACACTGGTGC TCCAGGACCT CCAGGACTGC CTGGGTATGG AAGTCCAGGA
    CCACAAGGCC CACCAGGAGC TCCTGGCCCT CCAGGAACCT CATCACTATA CAGCTCAGCT
    GCAAGTCTCC CCGGACCTCC TGGACCTCCA GGGCCACCTG GTGCTCCTGG CTATGGAAAC
    CCTGTGAGCA CATATAAAAA CAGCCAGACC TTGATGAGAG AGAGCAGCCA AGCAGCAGAA
    GGCACAATGG GATATGTTAT TGACAAGAGT GAACTGTACA TCAGGGTACG AGGAGGCTGG
    AAGAAAATTG AGTTAGGAGA GCTAATCCCT GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG
    TCACAAGGCC TGAGCAGACC CAGCGACCGC AGCGTACCCA GAGTTCATAG TCAGGAGTTA
    AAGAGCTTTC TGCCAGGCTA TAATCTTCTT CCGGACACTA CACACTCAAT GCCTGCGTTG
    CACTTGGTGG CTCTCAATGC CCCATTCTCA GGAGACATGC ATGGCATCCG CGGGGCAGAT
    TACCAGTGTT ACCAGCAAGC CAGAGCCAGA GGCCTGACAT CCACATACAG AGCTTTCCTT
    TCCTCTCATC TGCAAGACCT CTCCACCATC GTCAAGAAAG CAGACCGTTT TAACTTACCG
    GTGGTGAATC TAAAAGGAGA AGTGCTGTTC AGCAGCTGGA TGGCCATGTT CTCTGGTAAT
    GGAGGCGTTT TTGATCCACT TACTCCGATT TACTCCTTTG ATGGACGAAA TGTCTTGACA
    GATCAGGCTT GGTCTCAGAA GCTGGTGTGG CACGGGTCAA GTACGGTGGG CATCCGAATG
    ACAACAAACT ACTGCGAGGC CTGGCGGACA GGTGACATGG CAGTAACCGG ACAGGCGTCT
    CTCCTTCAGA CCGGCCGACT GCTGGGACAG CACACACGCA GCTGCTCAAA CCACTTCATC
    ATTCTCTGCA TCGAGAACAG CTACATCCAG CACCCTGGAA GGAACTAG

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

    CloneID ODa42764
    Clone ID Related Accession (Same CDS sequence) XM_009298514.2 , XM_009298514.3
    Accession Version XM_009298514.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3912bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product collagen alpha-1(XV) chain isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009298514.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCAAGAG GACCAAAGGG GGAAATTGGG TTTCCTGGTG TGCAAGGACC TCCAGGACTA
    AAGGGGGACA AGGGTGAGCC AGGTGTATCC ATCGCTGCTG ATGGCTCTAT AATCACAAGC
    CTGCGAGGAC CCAGAGGACC AAAGGGAACC AAGGGAGACA TTGGTCTTGC TGGCCCACAT
    GGGATTCCGG GGCCAATTGG ACCACCTGGA CTAAAAGGGG GATATGGAAT TCCTGGTCGA
    CCGGGTCGAC CTGGAATAGC TGGAAGGAAA GGGGACAAGG GAGATGCAAG TGGTCCCTCT
    GGTCCACCAG GTCCACCTGG ACCTCCAGGG CCACCAGGAC GAGTGATTGG CCTCAATGGA
    ACAGTTTTCC CAGTTCCTCC TAGACCACAC TGCAAAACGC CAGTCAACAA CAACAATTCA
    CAACAAGGAG TCAAAGGGGA AAAGGGTGAT GAGGGAAATC CTGGGTTGTC AGGTACTCCA
    GTCCCCCATG CTTATGTGGG TCCTAAAGGT GATAATGGCT ACAATGGGCA AAAGGGAGAG
    AAAGGTGATC CAGGTTTGCC TGGCCCTCCT GGACTTCCTG GGAGAACAGG CCTTGTTGGT
    CCTAAAGGGG AATCTATTGT TGGTCCTCCT GGAGACACTG GTGCTCCAGG ACCTCCAGGA
    CTGCCTGGGT ATGGAAGTCC AGGACCACAA GGCCCACCAG GAGCTCCTGG CCCTCCAGGA
    ACCTCATCAC TATACAGCTC AGCTGCAAGT CTCCCCGGAC CTCCTGGACC TCCAGGGCCA
    CCTGGTGCTC CTGGCTATGG AAACCCTGTG AGCACATATA AAAACAGCCA GACCTTGATG
    AGAGAGAGCA GCCAAGCAGC AGAAGGCACA ATGGGATATG TTATTGACAA GAGTGAACTG
    TACATCAGGG TACGAGGAGG CTGGAAGAAA ATTGAGTTAG GAGAGCTAAT CCCTGTTCCC
    GAAGACAGTT CCTCTTCTGC TTTGTCACAA GGCCTGAGCA GACCCAGCGA CCGCAGCGTA
    CCCAGAGTTC ATAGTCAGGA GTTAAAGAGC TTTCTGCCAG GCTATAATCT TCTTCCGGAC
    ACTACACACT CAATGCCTGC GTTGCACTTG GTGGCTCTCA ATGCCCCATT CTCAGGAGAC
    ATGCATGGCA TCCGCGGGGC AGATTACCAG TGTTACCAGC AAGCCAGAGC CAGAGGCCTG
    ACATCCACAT ACAGAGCTTT CCTTTCCTCT CATCTGCAAG ACCTCTCCAC CATCGTCAAG
    AAAGCAGACC GTTTTAACTT ACCGGTGGTG AATCTAAAAG GAGAAGTGCT GTTCAGCAGC
    TGGATGGCCA TGTTCTCTGG TAATGGAGGC GTTTTTGATC CACTTACTCC GATTTACTCC
    TTTGATGGAC GAAATGTCTT GACAGATCAG GCTTGGTCTC AGAAGCTGGT GTGGCACGGG
    TCAAGTACGG TGGGCATCCG AATGACAACA AACTACTGCG AGGCCTGGCG GACAGGTGAC
    ATGGCAGTAA CCGGACAGGC GTCTCTCCTT CAGACCGGCC GACTGCTGGG ACAGCACACA
    CGCAGCTGCT CAAACCACTT CATCATTCTC TGCATCGAGA ACAGCTACAT CCAGCACCCT
    GGAAGGAACT AG

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

    RefSeq XP_009296789.1
    CDS156..4067
    Translation

    Target ORF information:

    RefSeq Version XM_009298514.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009298514.2

    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
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCAAGAG GACCAAAGGG GGAAATTGGG TTTCCTGGTG TGCAAGGACC TCCAGGACTA
    AAGGGGGACA AGGGTGAGCC AGGTGTATCC ATCGCTGCTG ATGGCTCTAT AATCACAAGC
    CTGCGAGGAC CCAGAGGACC AAAGGGAACC AAGGGAGACA TTGGTCTTGC TGGCCCACAT
    GGGATTCCGG GGCCAATTGG ACCACCTGGA CTAAAAGGGG GATATGGAAT TCCTGGTCGA
    CCGGGTCGAC CTGGAATAGC TGGAAGGAAA GGGGACAAGG GAGATGCAAG TGGTCCCTCT
    GGTCCACCAG GTCCACCTGG ACCTCCAGGG CCACCAGGAC GAGTGATTGG CCTCAATGGA
    ACAGTTTTCC CAGTTCCTCC TAGACCACAC TGCAAAACGC CAGTCAACAA CAACAATTCA
    CAACAAGGAG TCAAAGGGGA AAAGGGTGAT GAGGGAAATC CTGGGTTGTC AGGTACTCCA
    GTCCCCCATG CTTATGTGGG TCCTAAAGGT GATAATGGCT ACAATGGGCA AAAGGGAGAG
    AAAGGTGATC CAGGTTTGCC TGGCCCTCCT GGACTTCCTG GGAGAACAGG CCTTGTTGGT
    CCTAAAGGGG AATCTATTGT TGGTCCTCCT GGAGACACTG GTGCTCCAGG ACCTCCAGGA
    CTGCCTGGGT ATGGAAGTCC AGGACCACAA GGCCCACCAG GAGCTCCTGG CCCTCCAGGA
    ACCTCATCAC TATACAGCTC AGCTGCAAGT CTCCCCGGAC CTCCTGGACC TCCAGGGCCA
    CCTGGTGCTC CTGGCTATGG AAACCCTGTG AGCACATATA AAAACAGCCA GACCTTGATG
    AGAGAGAGCA GCCAAGCAGC AGAAGGCACA ATGGGATATG TTATTGACAA GAGTGAACTG
    TACATCAGGG TACGAGGAGG CTGGAAGAAA ATTGAGTTAG GAGAGCTAAT CCCTGTTCCC
    GAAGACAGTT CCTCTTCTGC TTTGTCACAA GGCCTGAGCA GACCCAGCGA CCGCAGCGTA
    CCCAGAGTTC ATAGTCAGGA GTTAAAGAGC TTTCTGCCAG GCTATAATCT TCTTCCGGAC
    ACTACACACT CAATGCCTGC GTTGCACTTG GTGGCTCTCA ATGCCCCATT CTCAGGAGAC
    ATGCATGGCA TCCGCGGGGC AGATTACCAG TGTTACCAGC AAGCCAGAGC CAGAGGCCTG
    ACATCCACAT ACAGAGCTTT CCTTTCCTCT CATCTGCAAG ACCTCTCCAC CATCGTCAAG
    AAAGCAGACC GTTTTAACTT ACCGGTGGTG AATCTAAAAG GAGAAGTGCT GTTCAGCAGC
    TGGATGGCCA TGTTCTCTGG TAATGGAGGC GTTTTTGATC CACTTACTCC GATTTACTCC
    TTTGATGGAC GAAATGTCTT GACAGATCAG GCTTGGTCTC AGAAGCTGGT GTGGCACGGG
    TCAAGTACGG TGGGCATCCG AATGACAACA AACTACTGCG AGGCCTGGCG GACAGGTGAC
    ATGGCAGTAA CCGGACAGGC GTCTCTCCTT CAGACCGGCC GACTGCTGGG ACAGCACACA
    CGCAGCTGCT CAAACCACTT CATCATTCTC TGCATCGAGA ACAGCTACAT CCAGCACCCT
    GGAAGGAACT AG

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

    CloneID ODa42764
    Clone ID Related Accession (Same CDS sequence) XM_009298514.2 , XM_009298514.3
    Accession Version XM_009298514.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3912bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product collagen alpha-1(XV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009298514.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCAAGAG GACCAAAGGG GGAAATTGGG TTTCCTGGTG TGCAAGGACC TCCAGGACTA
    AAGGGGGACA AGGGTGAGCC AGGTGTATCC ATCGCTGCTG ATGGCTCTAT AATCACAAGC
    CTGCGAGGAC CCAGAGGACC AAAGGGAACC AAGGGAGACA TTGGTCTTGC TGGCCCACAT
    GGGATTCCGG GGCCAATTGG ACCACCTGGA CTAAAAGGGG GATATGGAAT TCCTGGTCGA
    CCGGGTCGAC CTGGAATAGC TGGAAGGAAA GGGGACAAGG GAGATGCAAG TGGTCCCTCT
    GGTCCACCAG GTCCACCTGG ACCTCCAGGG CCACCAGGAC GAGTGATTGG CCTCAATGGA
    ACAGTTTTCC CAGTTCCTCC TAGACCACAC TGCAAAACGC CAGTCAACAA CAACAATTCA
    CAACAAGGAG TCAAAGGGGA AAAGGGTGAT GAGGGAAATC CTGGGTTGTC AGGTACTCCA
    GTCCCCCATG CTTATGTGGG TCCTAAAGGT GATAATGGCT ACAATGGGCA AAAGGGAGAG
    AAAGGTGATC CAGGTTTGCC TGGCCCTCCT GGACTTCCTG GGAGAACAGG CCTTGTTGGT
    CCTAAAGGGG AATCTATTGT TGGTCCTCCT GGAGACACTG GTGCTCCAGG ACCTCCAGGA
    CTGCCTGGGT ATGGAAGTCC AGGACCACAA GGCCCACCAG GAGCTCCTGG CCCTCCAGGA
    ACCTCATCAC TATACAGCTC AGCTGCAAGT CTCCCCGGAC CTCCTGGACC TCCAGGGCCA
    CCTGGTGCTC CTGGCTATGG AAACCCTGTG AGCACATATA AAAACAGCCA GACCTTGATG
    AGAGAGAGCA GCCAAGCAGC AGAAGGCACA ATGGGATATG TTATTGACAA GAGTGAACTG
    TACATCAGGG TACGAGGAGG CTGGAAGAAA ATTGAGTTAG GAGAGCTAAT CCCTGTTCCC
    GAAGACAGTT CCTCTTCTGC TTTGTCACAA GGCCTGAGCA GACCCAGCGA CCGCAGCGTA
    CCCAGAGTTC ATAGTCAGGA GTTAAAGAGC TTTCTGCCAG GCTATAATCT TCTTCCGGAC
    ACTACACACT CAATGCCTGC GTTGCACTTG GTGGCTCTCA ATGCCCCATT CTCAGGAGAC
    ATGCATGGCA TCCGCGGGGC AGATTACCAG TGTTACCAGC AAGCCAGAGC CAGAGGCCTG
    ACATCCACAT ACAGAGCTTT CCTTTCCTCT CATCTGCAAG ACCTCTCCAC CATCGTCAAG
    AAAGCAGACC GTTTTAACTT ACCGGTGGTG AATCTAAAAG GAGAAGTGCT GTTCAGCAGC
    TGGATGGCCA TGTTCTCTGG TAATGGAGGC GTTTTTGATC CACTTACTCC GATTTACTCC
    TTTGATGGAC GAAATGTCTT GACAGATCAG GCTTGGTCTC AGAAGCTGGT GTGGCACGGG
    TCAAGTACGG TGGGCATCCG AATGACAACA AACTACTGCG AGGCCTGGCG GACAGGTGAC
    ATGGCAGTAA CCGGACAGGC GTCTCTCCTT CAGACCGGCC GACTGCTGGG ACAGCACACA
    CGCAGCTGCT CAAACCACTT CATCATTCTC TGCATCGAGA ACAGCTACAT CCAGCACCCT
    GGAAGGAACT AG

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

    RefSeq XP_009296789.1
    CDS157..4068
    Translation

    Target ORF information:

    RefSeq Version XM_009298514.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009298514.3

    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
    ATGGCACCGC TGACCAGTCT GCTGCTCTTG AGTCTGGTCA GTCTGTCTGG TCAGATCCAG 
    TGGTTTAGGT TTCTGTGGGT CCCAGAGACA AGTTCACCCG CTCCTGCGGT CAGCACACCT
    GCAGACACCA GCAGTACTGA AGCAGCAGAG GAAAACACAG AGCACGTCCT GCCAACCTCT
    CCTCCTGCGC CCACAGCGGC GCCCGCCGAC ACAGCCAGAG CCAAGAGACC TTTGAAGAGG
    TGGAAGAGCG AGCGAGGCTC CAAGGGTCAC CTAATTCTAA CAGACCTCGT TGGCATGCCT
    CTTCCACCAT CCGTGTCCTT CATCACGGGC TACGAGGGTT ACCCTGCCTA CTCTTTTGGG
    CCTCATGCTA ACGTAGGCCG ACTGACCCAG TCTTTCGTAC CTGAGCCCTT CTTCACAGAC
    TTTGCCATCA TCGTCACAGT CAAACCATCT AGCTCTCGAG GAGGAGTCCT GTTTGCCATC
    ACAGACCCGT CCCAGACCAT TGTCCAACTT GGCCTGGCCC TGACACCCGT GGAGGACCAG
    ACTCAGCGGA TTGTACTGTA TTACAGTGAG CCGAGGTCAG CGAACAGCGC AGAGGTTGCG
    TCTTTTAAAG TGCCAGACAT GACGCAGCAG TGGAGCCGCT TCACACTGTC GGTGGAGCGC
    CAGGAGGTTC GTCTCTACAT GGACTGTGAT GAATACCACA TTGCCCCCTT CAAGAGGAGC
    CAGCAGCCCC TCAGCTTCAA GCCTGGATCG GGGATCTTTG TGGCGAATGC GGGTAGTACC
    GGCCTGGAGA GATTTGTGGG GTCAATCCAA CAGCTGGTAA TAAAACCTGA CCCCAGAGCA
    GCAGAAGAGC AGTGTGAGGA AGACGACCCC AGCCTGCAGG CCTCCGGGGA CAGAAGTGGC
    GATGGTGATT ATGATGATGA GGAAGAACAT GCGAGGCGTG AAGAAACCTT TGGGCAGACT
    AACAACAAGG AAAAGACACT AAGACCCACC TCTCCTGTTG AAGCCCCACC CATTCAGTCA
    CCTGACATAG AAGAGGGTGG ATTCTCAGGA CATGTGACCC CAATAGATGA AAGGCTGCTG
    AGAGGGACTT ACAAAACAGA TGAAACAGGG GAGAGGGTTG GACAGAAAGG GGAGCGTGGA
    GAACCTGGGC CTGCAGGGCC ACCTGGACCC CCTGGGCCTC CAGGAACATC TGTCCCAATC
    AGACATTCAG GACAGCCTGG ACCGAGAGGA CCACAGGGTC CAATTGGTCA GCCAGGAGGA
    CGAGGCAGAC CAGGGAAAGA TGGACAACCT GGAAGCAAAG GTGAAGATGG GAAACCAGGT
    CAGAGAGGAC AGACGGGACC TCCTGGATTA CCTGGAGAAT CTGGAGTCAA AGGAGAGAAG
    GGTGATCCTG GAGTGGGCCG GACTGGATTG CCTGGTCCAC CAGGACCTCC TGGACCACCA
    GGGCCAAGCA AACCAGTTAA GGTTCCATAT GGATTTGATG CACTGGGCTC TGGATTTGGA
    GATGCTGACA TTGATACAGA ACTTCTTCGG GGTCCACCTG GTCCTCCAGG GCCTCCTGGG
    ATACCCGGCC CTCCTGGTCC TAATAGCCCA CTTGGAGGAT TGCTCCCTGG TCCTCCAGGG
    GCTCCTGGCA AAGATGGCAG AGATGGGCAG AGTGGGCTCC CTGGTGTTCC TGGTCAGGAT
    GGCTTACCTG GACAACAGGG TCCGAAAGGA GCAAAGGGTG AGCACGGAAT TAGAGGGCCT
    CCTGGACCTA AGGGTGAAAA TGGAGATCCT GGTCAGAGAG GACCACCTGG CCCTTTTGGA
    ACGATGGGAC CGAGAGGTTT ACCAGGACCA CCAGGGCCTC CGGGTCCACC AGGGCCCATA
    AACAATAACT TTATGGTGGA TACTTTGAAG GATTTCGAGG GTTCTGGTGA AAGTGGTTCA
    TTTCTCGGAA CTGGAATTTT GAAAGGCTAT CAAGGGCCTC CTGGTCTTCC TGGCCCACCA
    GGACCTCAGG GACCTCCTGG TGCTAACGGA CCACCTGGCT TGTCTGTAAA GGGTGAAAGA
    GGATCTCCAG GACCCGATGG AATACATGGA TTAGCTGGTT TACCAGGAGC AAGGGGACCA
    AAGGGAGACA AGGGCAATCC GGGAGAAAAG GGTGAGCGAG GTCGCGATGG ACTGAACATC
    ACAGGTCCTC CCGGCCCCCC CGGCCCTCCT GGACCAATCA TTAACTTCCA GGACCTTTTT
    CTTAATGACA CAGCTGCTAA ACTGAACCTC ACAAAGATCA GAGGACTGCC AGGCCCTATG
    GGCCCAAGAG GACCAAAGGG GGAAATTGGG TTTCCTGGTG TGCAAGGACC TCCAGGACTA
    AAGGGGGACA AGGGTGAGCC AGGTGTATCC ATCGCTGCTG ATGGCTCTAT AATCACAAGC
    CTGCGAGGAC CCAGAGGACC AAAGGGAACC AAGGGAGACA TTGGTCTTGC TGGCCCACAT
    GGGATTCCGG GGCCAATTGG ACCACCTGGA CTAAAAGGGG GATATGGAAT TCCTGGTCGA
    CCGGGTCGAC CTGGAATAGC TGGAAGGAAA GGGGACAAGG GAGATGCAAG TGGTCCCTCT
    GGTCCACCAG GTCCACCTGG ACCTCCAGGG CCACCAGGAC GAGTGATTGG CCTCAATGGA
    ACAGTTTTCC CAGTTCCTCC TAGACCACAC TGCAAAACGC CAGTCAACAA CAACAATTCA
    CAACAAGGAG TCAAAGGGGA AAAGGGTGAT GAGGGAAATC CTGGGTTGTC AGGTACTCCA
    GTCCCCCATG CTTATGTGGG TCCTAAAGGT GATAATGGCT ACAATGGGCA AAAGGGAGAG
    AAAGGTGATC CAGGTTTGCC TGGCCCTCCT GGACTTCCTG GGAGAACAGG CCTTGTTGGT
    CCTAAAGGGG AATCTATTGT TGGTCCTCCT GGAGACACTG GTGCTCCAGG ACCTCCAGGA
    CTGCCTGGGT ATGGAAGTCC AGGACCACAA GGCCCACCAG GAGCTCCTGG CCCTCCAGGA
    ACCTCATCAC TATACAGCTC AGCTGCAAGT CTCCCCGGAC CTCCTGGACC TCCAGGGCCA
    CCTGGTGCTC CTGGCTATGG AAACCCTGTG AGCACATATA AAAACAGCCA GACCTTGATG
    AGAGAGAGCA GCCAAGCAGC AGAAGGCACA ATGGGATATG TTATTGACAA GAGTGAACTG
    TACATCAGGG TACGAGGAGG CTGGAAGAAA ATTGAGTTAG GAGAGCTAAT CCCTGTTCCC
    GAAGACAGTT CCTCTTCTGC TTTGTCACAA GGCCTGAGCA GACCCAGCGA CCGCAGCGTA
    CCCAGAGTTC ATAGTCAGGA GTTAAAGAGC TTTCTGCCAG GCTATAATCT TCTTCCGGAC
    ACTACACACT CAATGCCTGC GTTGCACTTG GTGGCTCTCA ATGCCCCATT CTCAGGAGAC
    ATGCATGGCA TCCGCGGGGC AGATTACCAG TGTTACCAGC AAGCCAGAGC CAGAGGCCTG
    ACATCCACAT ACAGAGCTTT CCTTTCCTCT CATCTGCAAG ACCTCTCCAC CATCGTCAAG
    AAAGCAGACC GTTTTAACTT ACCGGTGGTG AATCTAAAAG GAGAAGTGCT GTTCAGCAGC
    TGGATGGCCA TGTTCTCTGG TAATGGAGGC GTTTTTGATC CACTTACTCC GATTTACTCC
    TTTGATGGAC GAAATGTCTT GACAGATCAG GCTTGGTCTC AGAAGCTGGT GTGGCACGGG
    TCAAGTACGG TGGGCATCCG AATGACAACA AACTACTGCG AGGCCTGGCG GACAGGTGAC
    ATGGCAGTAA CCGGACAGGC GTCTCTCCTT CAGACCGGCC GACTGCTGGG ACAGCACACA
    CGCAGCTGCT CAAACCACTT CATCATTCTC TGCATCGAGA ACAGCTACAT CCAGCACCCT
    GGAAGGAACT AG

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

    CloneID ODa56293
    Clone ID Related Accession (Same CDS sequence) XM_017358519.1 , XM_017358519.2
    Accession Version XM_017358519.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3738bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product collagen alpha-1(XV) chain isoform X5
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAGT CAACAACAAC
    AATTCACAAC AAGGAGTCAA AGGGGAAAAG GGTGATGAGG GAAATCCTGG GTTGTCAGGT
    ACTCCAGTCC CCCATGCTTA TGTGGGTCCT AAAGGTGATA ATGGCTACAA TGGGCAAAAG
    GGAGAGAAAG GTGATCCAGG TTTGCCTGGC CCTCCTGGAC TTCCTGGGAG AACAGGCCTT
    GTTGGTCCTA AAGGGGAATC TATTGTTGGT CCTCCTGGAG ACACTGGTGC TCCAGGACCT
    CCAGGACTGC CTGGGTATGG AAGTCCAGGA CCACAAGGCC CACCAGGAGC TCCTGGCCCT
    CCAGGAACCT CATCACTATA CAGCTCAGCT GCAAGTCTCC CCGGACCTCC TGGACCTCCA
    GGGCCACCTG GTGCTCCTGG CTATGGAAAC CCTGTGAGCA CATATAAAAA CAGCCAGACC
    TTGATGAGAG AGAGCAGCCA AGCAGCAGAA GGCACAATGG GATATGTTAT TGACAAGAGT
    GAACTGTACA TCAGGGTACG AGGAGGCTGG AAGAAAATTG AGTTAGGAGA GCTAATCCCT
    GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG TCACAAGGCC TGAGCAGACC CAGCGACCGC
    AGCGTACCCA GAGTTCATAG TCAGGAGTTA AAGAGCTTTC TGCCAGGCTA TAATCTTCTT
    CCGGACACTA CACACTCAAT GCCTGCGTTG CACTTGGTGG CTCTCAATGC CCCATTCTCA
    GGAGACATGC ATGGCATCCG CGGGGCAGAT TACCAGTGTT ACCAGCAAGC CAGAGCCAGA
    GGCCTGACAT CCACATACAG AGCTTTCCTT TCCTCTCATC TGCAAGACCT CTCCACCATC
    GTCAAGAAAG CAGACCGTTT TAACTTACCG GTGGTGAATC TAAAAGGAGA AGTGCTGTTC
    AGCAGCTGGA TGGCCATGTT CTCTGGTAAT GGAGGCGTTT TTGATCCACT TACTCCGATT
    TACTCCTTTG ATGGACGAAA TGTCTTGACA GATCAGGCTT GGTCTCAGAA GCTGGTGTGG
    CACGGGTCAA GTACGGTGGG CATCCGAATG ACAACAAACT ACTGCGAGGC CTGGCGGACA
    GGTGACATGG CAGTAACCGG ACAGGCGTCT CTCCTTCAGA CCGGCCGACT GCTGGGACAG
    CACACACGCA GCTGCTCAAA CCACTTCATC ATTCTCTGCA TCGAGAACAG CTACATCCAG
    CACCCTGGAA GGAACTAG

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

    RefSeq XP_017214008.1
    CDS164..3901
    Translation

    Target ORF information:

    RefSeq Version XM_017358519.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017358519.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAGT CAACAACAAC
    AATTCACAAC AAGGAGTCAA AGGGGAAAAG GGTGATGAGG GAAATCCTGG GTTGTCAGGT
    ACTCCAGTCC CCCATGCTTA TGTGGGTCCT AAAGGTGATA ATGGCTACAA TGGGCAAAAG
    GGAGAGAAAG GTGATCCAGG TTTGCCTGGC CCTCCTGGAC TTCCTGGGAG AACAGGCCTT
    GTTGGTCCTA AAGGGGAATC TATTGTTGGT CCTCCTGGAG ACACTGGTGC TCCAGGACCT
    CCAGGACTGC CTGGGTATGG AAGTCCAGGA CCACAAGGCC CACCAGGAGC TCCTGGCCCT
    CCAGGAACCT CATCACTATA CAGCTCAGCT GCAAGTCTCC CCGGACCTCC TGGACCTCCA
    GGGCCACCTG GTGCTCCTGG CTATGGAAAC CCTGTGAGCA CATATAAAAA CAGCCAGACC
    TTGATGAGAG AGAGCAGCCA AGCAGCAGAA GGCACAATGG GATATGTTAT TGACAAGAGT
    GAACTGTACA TCAGGGTACG AGGAGGCTGG AAGAAAATTG AGTTAGGAGA GCTAATCCCT
    GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG TCACAAGGCC TGAGCAGACC CAGCGACCGC
    AGCGTACCCA GAGTTCATAG TCAGGAGTTA AAGAGCTTTC TGCCAGGCTA TAATCTTCTT
    CCGGACACTA CACACTCAAT GCCTGCGTTG CACTTGGTGG CTCTCAATGC CCCATTCTCA
    GGAGACATGC ATGGCATCCG CGGGGCAGAT TACCAGTGTT ACCAGCAAGC CAGAGCCAGA
    GGCCTGACAT CCACATACAG AGCTTTCCTT TCCTCTCATC TGCAAGACCT CTCCACCATC
    GTCAAGAAAG CAGACCGTTT TAACTTACCG GTGGTGAATC TAAAAGGAGA AGTGCTGTTC
    AGCAGCTGGA TGGCCATGTT CTCTGGTAAT GGAGGCGTTT TTGATCCACT TACTCCGATT
    TACTCCTTTG ATGGACGAAA TGTCTTGACA GATCAGGCTT GGTCTCAGAA GCTGGTGTGG
    CACGGGTCAA GTACGGTGGG CATCCGAATG ACAACAAACT ACTGCGAGGC CTGGCGGACA
    GGTGACATGG CAGTAACCGG ACAGGCGTCT CTCCTTCAGA CCGGCCGACT GCTGGGACAG
    CACACACGCA GCTGCTCAAA CCACTTCATC ATTCTCTGCA TCGAGAACAG CTACATCCAG
    CACCCTGGAA GGAACTAG

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

    CloneID ODa56293
    Clone ID Related Accession (Same CDS sequence) XM_017358519.1 , XM_017358519.2
    Accession Version XM_017358519.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3738bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product collagen alpha-1(XV) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017358519.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAGT CAACAACAAC
    AATTCACAAC AAGGAGTCAA AGGGGAAAAG GGTGATGAGG GAAATCCTGG GTTGTCAGGT
    ACTCCAGTCC CCCATGCTTA TGTGGGTCCT AAAGGTGATA ATGGCTACAA TGGGCAAAAG
    GGAGAGAAAG GTGATCCAGG TTTGCCTGGC CCTCCTGGAC TTCCTGGGAG AACAGGCCTT
    GTTGGTCCTA AAGGGGAATC TATTGTTGGT CCTCCTGGAG ACACTGGTGC TCCAGGACCT
    CCAGGACTGC CTGGGTATGG AAGTCCAGGA CCACAAGGCC CACCAGGAGC TCCTGGCCCT
    CCAGGAACCT CATCACTATA CAGCTCAGCT GCAAGTCTCC CCGGACCTCC TGGACCTCCA
    GGGCCACCTG GTGCTCCTGG CTATGGAAAC CCTGTGAGCA CATATAAAAA CAGCCAGACC
    TTGATGAGAG AGAGCAGCCA AGCAGCAGAA GGCACAATGG GATATGTTAT TGACAAGAGT
    GAACTGTACA TCAGGGTACG AGGAGGCTGG AAGAAAATTG AGTTAGGAGA GCTAATCCCT
    GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG TCACAAGGCC TGAGCAGACC CAGCGACCGC
    AGCGTACCCA GAGTTCATAG TCAGGAGTTA AAGAGCTTTC TGCCAGGCTA TAATCTTCTT
    CCGGACACTA CACACTCAAT GCCTGCGTTG CACTTGGTGG CTCTCAATGC CCCATTCTCA
    GGAGACATGC ATGGCATCCG CGGGGCAGAT TACCAGTGTT ACCAGCAAGC CAGAGCCAGA
    GGCCTGACAT CCACATACAG AGCTTTCCTT TCCTCTCATC TGCAAGACCT CTCCACCATC
    GTCAAGAAAG CAGACCGTTT TAACTTACCG GTGGTGAATC TAAAAGGAGA AGTGCTGTTC
    AGCAGCTGGA TGGCCATGTT CTCTGGTAAT GGAGGCGTTT TTGATCCACT TACTCCGATT
    TACTCCTTTG ATGGACGAAA TGTCTTGACA GATCAGGCTT GGTCTCAGAA GCTGGTGTGG
    CACGGGTCAA GTACGGTGGG CATCCGAATG ACAACAAACT ACTGCGAGGC CTGGCGGACA
    GGTGACATGG CAGTAACCGG ACAGGCGTCT CTCCTTCAGA CCGGCCGACT GCTGGGACAG
    CACACACGCA GCTGCTCAAA CCACTTCATC ATTCTCTGCA TCGAGAACAG CTACATCCAG
    CACCCTGGAA GGAACTAG

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

    RefSeq XP_017214008.1
    CDS149..3886
    Translation

    Target ORF information:

    RefSeq Version XM_017358519.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XV, alpha 1b (col15a1b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017358519.2

    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
    ATGAAATTTC GCCTCCTGTC GTGGCTCGTT GGTGCACATC TCGCCTTGGG TTATCTCTCC 
    TCTGCGCTTC ATGTCATGGA AGAGCGAGGC TCCAAGGGTC ACCTAATTCT AACAGACCTC
    GTTGGCATGC CTCTTCCACC ATCCGTGTCC TTCATCACGG GCTACGAGGG TTACCCTGCC
    TACTCTTTTG GGCCTCATGC TAACGTAGGC CGACTGACCC AGTCTTTCGT ACCTGAGCCC
    TTCTTCACAG ACTTTGCCAT CATCGTCACA GTCAAACCAT CTAGCTCTCG AGGAGGAGTC
    CTGTTTGCCA TCACAGACCC GTCCCAGACC ATTGTCCAAC TTGGCCTGGC CCTGACACCC
    GTGGAGGACC AGACTCAGCG GATTGTACTG TATTACAGTG AGCCGAGGTC AGCGAACAGC
    GCAGAGGTTG CGTCTTTTAA AGTGCCAGAC ATGACGCAGC AGTGGAGCCG CTTCACACTG
    TCGGTGGAGC GCCAGGAGGT TCGTCTCTAC ATGGACTGTG ATGAATACCA CATTGCCCCC
    TTCAAGAGGA GCCAGCAGCC CCTCAGCTTC AAGCCTGGAT CGGGGATCTT TGTGGCGAAT
    GCGGGTAGTA CCGGCCTGGA GAGATTTGTG GGGTCAATCC AACAGCTGGT AATAAAACCT
    GACCCCAGAG CAGCAGAAGA GCAGTGTGAG GAAGACGACC CCAGCCTGCA GGCCTCCGGG
    GACAGAAGTG GCGATGGTGA TTATGATGAT GAGGAAGAAC ATGCGAGGCG TGAAGAAACC
    TTTGGGCAGA CTAACAACAA GGAAAAGACA CTAAGACCCA CCTCTCCTGT TGAAGCCCCA
    CCCATTCAGT CACCTGACAT AGAAGAGGGT GGATTCTCAG GACATGTGAC CCCAATAGAT
    GAAAGGCTGC TGAGAGGGAC TTACAAAACA GATGAAACAG GGGAGAGGGT TGGACAGAAA
    GGGGAGCGTG GAGAACCTGG GCCTGCAGGG CCACCTGGAC CCCCTGGGCC TCCAGGAACA
    TCTGTCCCAA TCAGACATTC AGGACAGCCT GGACCGAGAG GACCACAGGG TCCAATTGGT
    CAGCCAGGAG GACGAGGCAG ACCAGGGAAA GATGGACAAC CTGGAAGCAA AGGTGAAGAT
    GGGAAACCAG GTCAGAGAGG ACAGACGGGA CCTCCTGGAT TACCTGGAGA ATCTGGAGTC
    AAAGGAGAGA AGGGTGATCC TGGAGTGGGC CGGACTGGAT TGCCTGGTCC ACCAGGACCT
    CCTGGACCAC CAGGGCCAAG CAAACCAGTT AAGGTTCCAT ATGGATTTGA TGCACTGGGC
    TCTGGATTTG GAGATGCTGA CATTGATACA GAACTTCTTC GGGGTCCACC TGGTCCTCCA
    GGGCCTCCTG GGATACCCGG CCCTCCTGGT CCTAATAGCC CACTTGGAGG ATTGCTCCCT
    GGTCCTCCAG GGGCTCCTGG CAAAGATGGC AGAGATGGGC AGAGTGGGCT CCCTGGTGTT
    CCTGGTCAGG ATGGCTTACC TGGACAACAG GGTCCGAAAG GAGCAAAGGG TGAGCACGGA
    ATTAGAGGGC CTCCTGGACC TAAGGGTGAA AATGGAGATC CTGGTCAGAG AGGACCACCT
    GGCCCTTTTG GAACGATGGG ACCGAGAGGT TTACCAGGAC CACCAGGGCC TCCGGGTCCA
    CCAGGGCCCA TAAACAATAA CTTTATGGTG GATACTTTGA AGGATTTCGA GGGTTCTGGT
    GAAAGTGGTT CATTTCTCGG AACTGGAATT TTGAAAGGCT ATCAAGGGCC TCCTGGTCTT
    CCTGGCCCAC CAGGACCTCA GGGACCTCCT GGTGCTAACG GACCACCTGG CTTGTCTGTA
    AAGGGTGAAA GAGGATCTCC AGGACCCGAT GGAATACATG GATTAGCTGG TTTACCAGGA
    GCAAGGGGAC CAAAGGGAGA CAAGGGCAAT CCGGGAGAAA AGGGTGAGCG AGGTCGCGAT
    GGACTGAACA TCACAGGTCC TCCCGGCCCC CCCGGCCCTC CTGGACCAAT CATTAACTTC
    CAGGACCTTT TTCTTAATGA CACAGCTGCT AAACTGAACC TCACAAAGAT CAGAGGACTG
    CCAGGCCCTA TGGGCCCTGA AGGCTTGCCT GGCAGAGCAG GATTCCCTGG CCCAAGAGGA
    CCAAAGGGGG AAATTGGGTT TCCTGGTGTG CAAGGACCTC CAGGACTAAA GGGGGACAAG
    GGTGAGCCAG GTGTATCCAT CGCTGCTGAT GGCTCTATAA TCACAAGCCT GCGAGGACCC
    AGAGGACCAA AGGGAACCAA GGGAGACATT GGTCTTGCTG GCCCACATGG GATTCCGGGG
    CCAATTGGAC CACCTGGACT AAAAGGGGGA TATGGAATTC CTGGTCGACC GGGTCGACCT
    GGAATAGCTG GAAGGAAAGG GGACAAGGGA GATGCAAGTG GTCCCTCTGG TCCACCAGGT
    CCACCTGGAC CTCCAGGGCC ACCAGGACGA GTGATTGGCC TCAATGGAGT CAACAACAAC
    AATTCACAAC AAGGAGTCAA AGGGGAAAAG GGTGATGAGG GAAATCCTGG GTTGTCAGGT
    ACTCCAGTCC CCCATGCTTA TGTGGGTCCT AAAGGTGATA ATGGCTACAA TGGGCAAAAG
    GGAGAGAAAG GTGATCCAGG TTTGCCTGGC CCTCCTGGAC TTCCTGGGAG AACAGGCCTT
    GTTGGTCCTA AAGGGGAATC TATTGTTGGT CCTCCTGGAG ACACTGGTGC TCCAGGACCT
    CCAGGACTGC CTGGGTATGG AAGTCCAGGA CCACAAGGCC CACCAGGAGC TCCTGGCCCT
    CCAGGAACCT CATCACTATA CAGCTCAGCT GCAAGTCTCC CCGGACCTCC TGGACCTCCA
    GGGCCACCTG GTGCTCCTGG CTATGGAAAC CCTGTGAGCA CATATAAAAA CAGCCAGACC
    TTGATGAGAG AGAGCAGCCA AGCAGCAGAA GGCACAATGG GATATGTTAT TGACAAGAGT
    GAACTGTACA TCAGGGTACG AGGAGGCTGG AAGAAAATTG AGTTAGGAGA GCTAATCCCT
    GTTCCCGAAG ACAGTTCCTC TTCTGCTTTG TCACAAGGCC TGAGCAGACC CAGCGACCGC
    AGCGTACCCA GAGTTCATAG TCAGGAGTTA AAGAGCTTTC TGCCAGGCTA TAATCTTCTT
    CCGGACACTA CACACTCAAT GCCTGCGTTG CACTTGGTGG CTCTCAATGC CCCATTCTCA
    GGAGACATGC ATGGCATCCG CGGGGCAGAT TACCAGTGTT ACCAGCAAGC CAGAGCCAGA
    GGCCTGACAT CCACATACAG AGCTTTCCTT TCCTCTCATC TGCAAGACCT CTCCACCATC
    GTCAAGAAAG CAGACCGTTT TAACTTACCG GTGGTGAATC TAAAAGGAGA AGTGCTGTTC
    AGCAGCTGGA TGGCCATGTT CTCTGGTAAT GGAGGCGTTT TTGATCCACT TACTCCGATT
    TACTCCTTTG ATGGACGAAA TGTCTTGACA GATCAGGCTT GGTCTCAGAA GCTGGTGTGG
    CACGGGTCAA GTACGGTGGG CATCCGAATG ACAACAAACT ACTGCGAGGC CTGGCGGACA
    GGTGACATGG CAGTAACCGG ACAGGCGTCT CTCCTTCAGA CCGGCCGACT GCTGGGACAG
    CACACACGCA GCTGCTCAAA CCACTTCATC ATTCTCTGCA TCGAGAACAG CTACATCCAG
    CACCCTGGAA GGAACTAG

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