si:ch211-196i2.1 cDNA ORF clone, Danio rerio(zebrafish)

The following si:ch211-196i2.1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the si:ch211-196i2.1 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
ODa44246 XM_009295266.2
Latest version!
Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
ODa44244 XM_021469035.1
Latest version!
Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa44245 XM_009295265.1
Latest version!
Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa146092 XM_021473390.1
Latest version!
Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
ODa44242 XM_009295261.3
Latest version!
Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
ODa44243 XM_009295262.3
Latest version!
Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
View Old Accession Versions >>
ODa44243 XM_009295262.2 Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44242 XM_009295261.2 Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
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 ODa44246
    Clone ID Related Accession (Same CDS sequence) XM_009295266.2
    Accession Version XM_009295266.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2829bp)
    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(V) chain-like isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009295266.1. ##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
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGGAC TGCAAGGCCT
    TGTGGGTAA

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

    RefSeq XP_009293541.1
    CDS167..2995
    Translation

    Target ORF information:

    RefSeq Version XM_009295266.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295266.2

    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
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGGAC TGCAAGGCCT
    TGTGGGTAA

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

    CloneID ODa44244
    Clone ID Related Accession (Same CDS sequence) XM_021469035.1
    Accession Version XM_021469035.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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(I) chain-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by 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 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
    3961
    4021
    4081
    4141
    ATGTGTCAAA AGGCAGTGGA AGGACACCAT CGAAATCTCC AGATATTCAT GCAGGATCTG 
    GAGGGGGATC TGAGGAGCAT CCGGATACCA TTGTGCTTAC AGGCAGACAA GGAGACATTG
    TGCGTGGGTC TGATGGGAAA ATGTATCGCA TCCAAAGAGG GCCTATGGGG CCAATGGGGC
    CCCCAGGTGA GCCTGGGTGT CCTGGGAATG CTGGCTATCC TGGACCCAAA GGAGATAAGG
    GTGCCTTTGG TGTTAGGGGT CGTCCAGGTC GCCCTGGATT CCTGGGATCC CCAGGACCAC
    CCGGCCTGCC CTCATTCTAC CTATGGAGAA ACACACCTGA AGACTGGGCT GCATTTCAGC
    AAACATCATT CTTCCAGCTT CTTCTTGCAG GCTGGCCTAG AGCACAAGGT CTGCCTGGTC
    CGGAAGGAGA GATGGGAAAA CCTGGGGCAC AGGGGCCACC TGGGGAACCA GGTGAACGAG
    GACCCCCAGG ACGAATGGGA GACATGGGTG ACCGTGGTCC TAAAGGTGTG GTTGGAAGAG
    CGGGAGTTTA TGGAAGAGAT GGAGAGAACG GCCTGGACGG CCCTCAGGGG CCTTCAGGGA
    TTCCAGGCCC AAAGGGTCCT CTGGGTTATA AAGGTGAATC AGGCTCACAT GGAGAGAAAG
    GAGAGGAGGG CATTACTGGA TCAGAGGGTC CATGTGGAGA TAAGGGGAAA CCCGGGTTCA
    AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC GGCCCTCCTG GTCCTCAAGG CATAAGAGGG
    ATGGAGGGCC TTGAAGGGCA TCCAGGACCA GATGGGGAGG ATGGGATGAA TGGATCACCA
    GGTCTTCCAG GTGCACCAGG AGCTCCTGGT TGGACAGGTT TGATTGGTGC CCAGGGGGCT
    AATGGGTCTC GTGGGGAACC TGGGCCTTCT GGAGCTGTTG GACTTCCAGG GCCACAGGGG
    CCCCAGGGAT TAGAAGGACA GATCGGACCT CCAGGACAAA GAGGTCCACC GGGGTTGTCA
    GGCCGAGAGG GTTTGCATGG TCCCAAAGGA GAGCCTGGTC CTGTAGGACC AGTTGGTATC
    AGAGGGGATC CAGGATTTGA AGGATTAAAG GGTGTTTTAG GAACGCCCGG TCCAAAAGGT
    TTCACTGGTA TCAAAGGTAA CAGAGGACCT GATGGAGACC AAGGGGACAT TGGACCTAAA
    GGAAACAAAG GTGCTAGAGG AGCAGCAGGT GTACAGGGCA TCCAAGGTGA ACAGGGACCA
    ATAGGCTTTC CTGGCTTTCC AGGCATCAGA GGCCCACCAG GACCACAGGG AAACCAGGGA
    GAGGATGGAG AGGCTGGTCC ACATGGTAAA GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA
    GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT CCTAGAGGCC TAAAGGGGCG AACAGGGCAG
    AGGGGTCACA CTGGCATGCC TGGACCTCCT GGTTTACCTG GCCCACCTGG ACCATTCGGA
    GCTGAAGGAA AGCCTGGTAC ACAGGGACTG CAAGGCCTTG TGGGTAATGC CGGAAATAAA
    GGATCAACGG GATTGCAAGG TATTCCCGGA GAACGTGGTC AAGACGGACC CCCAGGAACT
    ATGGGCCCAC CTGGACGAGA GGGGCCTATG GGCAGCCCAG GACCACCAGG AGAAAGGGGT
    TTTGGTGGAA AGACAGGAAT GAAGGGACCA CAGGGCCCTG TTGGCATGTA TGGTTTTCCA
    GGAACCGTGG GTATGAGAGG AAGACCAGGC CACACTGGAG ACAGAGGAGA GCCAGGCCCA
    AGAGGCCCTA CTGGACCAAT TGGAAAGACT GGCGTACCAG GTCCCCCTGG TCCAGTAGGA
    GAAAAAGGAC TGCCAGGACC CCAGGGCCGC CAAGGAGATC CTGGGCATCA GGGAACAGAT
    GGCCCATGTG GTCCTCCAGG ACGTCACGGA GTCAGTGGGG TCATTGGAAA ACCAGGACCT
    CGTGGAAGTA TAGGTCCCCC AGGGGAACCT GGGCCAAGTG GGCCCCCAGG AATACCAGGT
    CCACAGGGGG AAAACGGAGT GCCAGGTATA GATGGAGAGA AAGGAGAAAA GGGAATGATG
    GGTTCTCCAG GTGATGATGG ACCTCTTGGA CTGGAAGGAC AACAGGGTCT AACTGGTCCT
    GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG GGTGATAAGG GGGATAGAGG ACCTATCGGA
    ACGTCTGGTC TTCAAGGACC AAAAGGCGAT ATTGGCCCTG TAGGTGATAA AGGTCCACCG
    GGTCCACCAG GCCTAGTAGG CAATGAGGGT GATTCTGGTC CTGCTGGTGT TGCTGGTGAC
    CCCGGGTCAA AAGGAGAAAA GGGTGATATT GGGCCACCAG GATTTACTGG TTTAGAGGGT
    CCATGGGGAG ACACAGGGGA GCAGGGAGAG AAGGGGATCA AGGGAGCCAA GGGACAAATC
    GGAATGCAGG GTGAGCCAGG CCTAGTTGGT GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA
    GAAGGTGTAC CTGGCCATCC AGGACTGGTT GGGCCAGATG GACCTGCAGG AAGCAAGGGA
    AAGACCGGGC CAAGTGGTTC ACCTGGTGAG CCAGGAAATC CTGGACCTGA GGGAATTGCT
    GGTCCCAAAG GTGTGCGAGG TGACACAGGA AAAGGCGGGA CACAGGGTGG TGTGGGTCTA
    GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA
    GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA GAGGGACCAG ATGGCCTTCA GGGTGTACAA
    GGACCACCAG GACTGCCTGG TTTGGAGGGT TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA
    CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG GGTAAGCCAG GACCTGACGG AAGAGAAGGC
    ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA AATGGAGCAC CTGGAAAATT GGGTCACATT
    GGACGAAGGG GTAAAAGAGG CAAGGCAGGT TTGAGGGCGA CCAGAGGACC AAGGGGAGAA
    AAGGGAGAGA AAGGAGATGT TGGTGAGAAA GGACTTCCTG GATGGGGAGG GAGTATGGGA
    ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA
    GGGGATCAGG GACCATTTGG TTCACCTGGG AGAGATGGCA TAAAGGGAAG TCTTGGACCT
    CTTGGCCCTC CTGGACCCCC AGGACCAAAG GGTGATCAGG GAAATATTGG TCCTTCTGGT
    CCTAGAGGGA CACCTGGAAT ACCTGGACTG CCGGGCTTGT TTGGAGACAA GGGACTGAAA
    GGATTTCAAG GGCCTCCTGG ACCCCCTGGA ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA
    CCAGGACCTC CTGGTATCTC TGTGAACCTG ACTCTGATCC AGATCAAGGA CCTGATGTAC
    AGTTCAGACA AGCCCAATTT CTCCCTGATA CAGACACTGC TGGACTCACT GTACCATGAC
    CTCCAGCTGC TGGTGGACCC TCCGGACGGC ACTAAGCAGC ACCCAGCATC AACCTGTCTG
    GAGCTGTGGC TGTGCCATCC CAACTACACG AGTGGTTTCT ACTACATTGA TCCAAACCAA
    GGCAGTCCTT TAGATGCACT TTTAGCCTAC TGTAATTTCT CTGAGTCCGG AGCAGAGACC
    TGTCTTCACC CGAGAGATGC ACATCTGCCC ACAAGGACTT GGCTAAATGA CTCAGGAAAT
    AACAGCAAGT TCCACTGGTT AAGCTCACTA GAGGGGGGTT TTAAATTTGA GTATCCAGCC
    CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG
    ACGTACTCCT GTTACCCTGG ACACAGACTG GGAGAAACAC AGCGACAGGT CCAGTTCCTC
    ACAGACGCCG CCAAGCAGAG CTATTTAGGA GCACTGCAGG ACTGTGTGTC TGCAAAGGAA
    GTGGATCCTG GGCCGCGTGA GTCTGTGTTT CAGTTTGAGG ACATGGACCT GCTTCCTCTA
    CGTGATATAG GGATCTTTGG AAACAGCAGT CAAGAGTTTG GCTTCACCAT TGGCCCTGTA
    TGCTTCAGCT AG

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

    RefSeq XP_021324710.1
    CDS133..4284
    Translation

    Target ORF information:

    RefSeq Version XM_021469035.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021469035.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGTGTCAAA AGGCAGTGGA AGGACACCAT CGAAATCTCC AGATATTCAT GCAGGATCTG 
    GAGGGGGATC TGAGGAGCAT CCGGATACCA TTGTGCTTAC AGGCAGACAA GGAGACATTG
    TGCGTGGGTC TGATGGGAAA ATGTATCGCA TCCAAAGAGG GCCTATGGGG CCAATGGGGC
    CCCCAGGTGA GCCTGGGTGT CCTGGGAATG CTGGCTATCC TGGACCCAAA GGAGATAAGG
    GTGCCTTTGG TGTTAGGGGT CGTCCAGGTC GCCCTGGATT CCTGGGATCC CCAGGACCAC
    CCGGCCTGCC CTCATTCTAC CTATGGAGAA ACACACCTGA AGACTGGGCT GCATTTCAGC
    AAACATCATT CTTCCAGCTT CTTCTTGCAG GCTGGCCTAG AGCACAAGGT CTGCCTGGTC
    CGGAAGGAGA GATGGGAAAA CCTGGGGCAC AGGGGCCACC TGGGGAACCA GGTGAACGAG
    GACCCCCAGG ACGAATGGGA GACATGGGTG ACCGTGGTCC TAAAGGTGTG GTTGGAAGAG
    CGGGAGTTTA TGGAAGAGAT GGAGAGAACG GCCTGGACGG CCCTCAGGGG CCTTCAGGGA
    TTCCAGGCCC AAAGGGTCCT CTGGGTTATA AAGGTGAATC AGGCTCACAT GGAGAGAAAG
    GAGAGGAGGG CATTACTGGA TCAGAGGGTC CATGTGGAGA TAAGGGGAAA CCCGGGTTCA
    AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC GGCCCTCCTG GTCCTCAAGG CATAAGAGGG
    ATGGAGGGCC TTGAAGGGCA TCCAGGACCA GATGGGGAGG ATGGGATGAA TGGATCACCA
    GGTCTTCCAG GTGCACCAGG AGCTCCTGGT TGGACAGGTT TGATTGGTGC CCAGGGGGCT
    AATGGGTCTC GTGGGGAACC TGGGCCTTCT GGAGCTGTTG GACTTCCAGG GCCACAGGGG
    CCCCAGGGAT TAGAAGGACA GATCGGACCT CCAGGACAAA GAGGTCCACC GGGGTTGTCA
    GGCCGAGAGG GTTTGCATGG TCCCAAAGGA GAGCCTGGTC CTGTAGGACC AGTTGGTATC
    AGAGGGGATC CAGGATTTGA AGGATTAAAG GGTGTTTTAG GAACGCCCGG TCCAAAAGGT
    TTCACTGGTA TCAAAGGTAA CAGAGGACCT GATGGAGACC AAGGGGACAT TGGACCTAAA
    GGAAACAAAG GTGCTAGAGG AGCAGCAGGT GTACAGGGCA TCCAAGGTGA ACAGGGACCA
    ATAGGCTTTC CTGGCTTTCC AGGCATCAGA GGCCCACCAG GACCACAGGG AAACCAGGGA
    GAGGATGGAG AGGCTGGTCC ACATGGTAAA GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA
    GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT CCTAGAGGCC TAAAGGGGCG AACAGGGCAG
    AGGGGTCACA CTGGCATGCC TGGACCTCCT GGTTTACCTG GCCCACCTGG ACCATTCGGA
    GCTGAAGGAA AGCCTGGTAC ACAGGGACTG CAAGGCCTTG TGGGTAATGC CGGAAATAAA
    GGATCAACGG GATTGCAAGG TATTCCCGGA GAACGTGGTC AAGACGGACC CCCAGGAACT
    ATGGGCCCAC CTGGACGAGA GGGGCCTATG GGCAGCCCAG GACCACCAGG AGAAAGGGGT
    TTTGGTGGAA AGACAGGAAT GAAGGGACCA CAGGGCCCTG TTGGCATGTA TGGTTTTCCA
    GGAACCGTGG GTATGAGAGG AAGACCAGGC CACACTGGAG ACAGAGGAGA GCCAGGCCCA
    AGAGGCCCTA CTGGACCAAT TGGAAAGACT GGCGTACCAG GTCCCCCTGG TCCAGTAGGA
    GAAAAAGGAC TGCCAGGACC CCAGGGCCGC CAAGGAGATC CTGGGCATCA GGGAACAGAT
    GGCCCATGTG GTCCTCCAGG ACGTCACGGA GTCAGTGGGG TCATTGGAAA ACCAGGACCT
    CGTGGAAGTA TAGGTCCCCC AGGGGAACCT GGGCCAAGTG GGCCCCCAGG AATACCAGGT
    CCACAGGGGG AAAACGGAGT GCCAGGTATA GATGGAGAGA AAGGAGAAAA GGGAATGATG
    GGTTCTCCAG GTGATGATGG ACCTCTTGGA CTGGAAGGAC AACAGGGTCT AACTGGTCCT
    GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG GGTGATAAGG GGGATAGAGG ACCTATCGGA
    ACGTCTGGTC TTCAAGGACC AAAAGGCGAT ATTGGCCCTG TAGGTGATAA AGGTCCACCG
    GGTCCACCAG GCCTAGTAGG CAATGAGGGT GATTCTGGTC CTGCTGGTGT TGCTGGTGAC
    CCCGGGTCAA AAGGAGAAAA GGGTGATATT GGGCCACCAG GATTTACTGG TTTAGAGGGT
    CCATGGGGAG ACACAGGGGA GCAGGGAGAG AAGGGGATCA AGGGAGCCAA GGGACAAATC
    GGAATGCAGG GTGAGCCAGG CCTAGTTGGT GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA
    GAAGGTGTAC CTGGCCATCC AGGACTGGTT GGGCCAGATG GACCTGCAGG AAGCAAGGGA
    AAGACCGGGC CAAGTGGTTC ACCTGGTGAG CCAGGAAATC CTGGACCTGA GGGAATTGCT
    GGTCCCAAAG GTGTGCGAGG TGACACAGGA AAAGGCGGGA CACAGGGTGG TGTGGGTCTA
    GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA
    GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA GAGGGACCAG ATGGCCTTCA GGGTGTACAA
    GGACCACCAG GACTGCCTGG TTTGGAGGGT TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA
    CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG GGTAAGCCAG GACCTGACGG AAGAGAAGGC
    ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA AATGGAGCAC CTGGAAAATT GGGTCACATT
    GGACGAAGGG GTAAAAGAGG CAAGGCAGGT TTGAGGGCGA CCAGAGGACC AAGGGGAGAA
    AAGGGAGAGA AAGGAGATGT TGGTGAGAAA GGACTTCCTG GATGGGGAGG GAGTATGGGA
    ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA
    GGGGATCAGG GACCATTTGG TTCACCTGGG AGAGATGGCA TAAAGGGAAG TCTTGGACCT
    CTTGGCCCTC CTGGACCCCC AGGACCAAAG GGTGATCAGG GAAATATTGG TCCTTCTGGT
    CCTAGAGGGA CACCTGGAAT ACCTGGACTG CCGGGCTTGT TTGGAGACAA GGGACTGAAA
    GGATTTCAAG GGCCTCCTGG ACCCCCTGGA ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA
    CCAGGACCTC CTGGTATCTC TGTGAACCTG ACTCTGATCC AGATCAAGGA CCTGATGTAC
    AGTTCAGACA AGCCCAATTT CTCCCTGATA CAGACACTGC TGGACTCACT GTACCATGAC
    CTCCAGCTGC TGGTGGACCC TCCGGACGGC ACTAAGCAGC ACCCAGCATC AACCTGTCTG
    GAGCTGTGGC TGTGCCATCC CAACTACACG AGTGGTTTCT ACTACATTGA TCCAAACCAA
    GGCAGTCCTT TAGATGCACT TTTAGCCTAC TGTAATTTCT CTGAGTCCGG AGCAGAGACC
    TGTCTTCACC CGAGAGATGC ACATCTGCCC ACAAGGACTT GGCTAAATGA CTCAGGAAAT
    AACAGCAAGT TCCACTGGTT AAGCTCACTA GAGGGGGGTT TTAAATTTGA GTATCCAGCC
    CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG
    ACGTACTCCT GTTACCCTGG ACACAGACTG GGAGAAACAC AGCGACAGGT CCAGTTCCTC
    ACAGACGCCG CCAAGCAGAG CTATTTAGGA GCACTGCAGG ACTGTGTGTC TGCAAAGGAA
    GTGGATCCTG GGCCGCGTGA GTCTGTGTTT CAGTTTGAGG ACATGGACCT GCTTCCTCTA
    CGTGATATAG GGATCTTTGG AAACAGCAGT CAAGAGTTTG GCTTCACCAT TGGCCCTGTA
    TGCTTCAGCT AG

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

    CloneID ODa44245
    Clone ID Related Accession (Same CDS sequence) XM_009295265.1
    Accession Version XM_009295265.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3042bp)
    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(V) chain-like isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) annotated using gene prediction method: Gnomon. 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
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGGT TTTCCAGGAA CCGTGGGTAT GA

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

    RefSeq XP_009293540.1
    CDS167..3208
    Translation

    Target ORF information:

    RefSeq Version XM_009295265.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295265.1

    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
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGGT TTTCCAGGAA CCGTGGGTAT GA

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

    CloneID ODa146092
    Clone ID Related Accession (Same CDS sequence) XM_021473390.1
    Accession Version XM_021473390.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5355bp)
    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(I) chain-like isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018395079.1) annotated using gene prediction method: Gnomon. 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 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGACACCA TGCTGCCCTC AGGATATGGA GATGCAATCG ACCTTCTTGA TCATCTGTGG 
    CAGGTTGCTA ATCACAGTAA TGCATCGGTA ACGCAGGAAA GCAAAAGGTG TCCAGTTCTG
    CATGTAGGCC AGTACTCAAC ACTTTCTGTC CCACTACGGC AGGTGTTCGG ATACAGTTTT
    GGTGATGAGT TCAGTTTGCT GTTGCATCTG CGCAGCTCTC AGTCTGAAGA CCGCAGTGTG
    TTGACCTTCC TCTGTCCAGA TGGACACATT CTTCTGCAGA TCCGCATCAG TGCCTACACT
    TTTAGCTTCA TCAGCACTCA ACAGCGACAC TACGAATTCC CCGTGGGAGT ACTGTCTGAT
    GGAGGTTGGC ACCGTGTGGC AGTCAGCGTT TCCTCGAGTC GGTTGGCATT GTATGTGGAT
    TGCTCCATGG TGGAGAGTGT GGAATGGGCC TATAAGGGCG GTCTGGAAAT CTCCACCGAT
    GGCCTGGTTA TGTTGGGAGG AATCATTGAG GGGTTTGAGA CCCCTTTTGA GGGCGATTTG
    ATGCAAGTGG CATTTCTGAT TGGAGAACCA GATGCAGCTC AAGATCACTG TGCCTTTTTC
    CAGCCCCAGT GTGGTGGAAC TGGACACAAA CCACCTCGCT CTCCTCGCAT ACACACTGAA
    GAGGAACTGT TGCTATCCTC AAATGACCTG GAGGACTTGT TAGAGTCAGC AAAGAACAGT
    GACTCTATTC AGGCAAAACT GAATGGTCTT CGTAGACGTG GGATTATTCG TGGGGATGGG
    ACTTTGCCCA CTGGATCCAA GCGTCCTGCA ATTGTGGGCC GTGGAGATGT GTTTGAGGTG
    GATGAGGATA CAGACCTTCT GGACCAAAAC ATCTTGTCTA AAAATGGAGA TAAACCTTCC
    AAAACCTTCC CAACTGACAC TACAAGCAGC CGTGATGGTA AGCTAGAATC CACATCTAAA
    CATCTTGATG AAAACATCAC CGTTGACAAG CACAAACCTG GCAAACCTTT ACAAAAGAAG
    CCAGTGGACA CTACAATTAT CAATCTGGAT GTATCTGAGA AACCTACCGG AAGTACTGTT
    CCTAGTAGAG AAATCCACTT GATGACCACA TCCAGTCCTG AGGATGGAGA ATCCAACTTG
    TTAAAAGAGG ACTTCGAGGT CACCACACAG GCTCCTGGTA GGACTTCTTG GGACAATGTG
    TCAAAAGGCA GTGGAAGGAC ACCATCGAAA TCTCCAGATA TTCATGCAGG ATCTGGAGGG
    GGATCTGAGG AGCATCCGGA TACCATTGTG CTTACAGGCA GACAAGGAGA CATTGTGCGT
    GGGTCTGATG GGAAAATGTA TCGCATCCAA AGAGGGCCTA TGGGGCCAAT GGGGCCCCCA
    GGTGAGCCTG GGTGTCCTGG GAATCCTGGC TATCCTGGAC CCAAAGGAGA TAAGGGTGCC
    TTTGGTGTTA GGGGTCGTCC AGGTCGCCCT GGATTCCTGG GACCCCCAGG ACCACCCGGC
    CTGCCCACAT TCTACCTATG GAGAAACACA CCTGAAGACT GGGCTGCATT TCAGCAAACA
    TCATTCTTCC AGCTTCTTCT TGCAGGCTGG CCTAGAGCAC AAGGTCTGCC TGGTCCGGAA
    GGAGAGATGG GAAAACCTGG GGCACAGGGG CCACCTGGGG AACCAGGTGA ACGAGGACCC
    CCAGGACGAA TGGGAGACAT GGGTGACCGT GGTCCTAAAG GTGTGGTTGG AAGAGCAGGA
    GTTTATGGAA GAGATGGAGA GAACGGCCTG GACGGCCCTC AGGGGCCTTC AGGGATTCCA
    GGCCCAAAGG GTCCTCTGGG TTATAAAGGT GAATCAGGCT CACATGGAGA GAAAGGAGAG
    GAGGGCATTG CTGGATCAGA GGGTCCATGT GGAGATAAGG GGAAACCCGG TGAGAAAGGT
    TCAAAAGGAG CACCTGGCGC TCCTGGGGCT GTCGGCCCTC CTGGTCCTCA AGGCATAAGA
    GGGATGGAGG GCCTTGAAGG GCATCCAGGA CCAGATGGGG AGGATGGGAT GAATGGATCA
    CCAGGTCTTC CAGGTGCACC AGGAGCTCCT GGTTGGACAG GTTTGATTGG TGCCCAGGGG
    GCTAATGGGT CTCGTGGGGA ACCTGGGCCT TCTGGAGCTG TTGGACTTCC AGGGCCACAG
    GGGCCCCAGG GATTAGAAGG ACAGATCGGA CCTCCAGGAC AAAGAGGTCC ACCGGGGTTG
    TCAGGCCGAG AGGGTTTGCA TGGTCCCAAA GGAGAGCCTG GTCCTGTAGG ACCAGTTGGT
    ATCAGAGGGG ATCCAGGATT TGAAGGATTA AAGGGTGTTT TAGGAACGCC CGGTCCAAAA
    GGTTTCACTG GTATCAAAGG TAACAGAGGA CCTGATGGAG ACCAAGGGGA CATTGGACCT
    AAAGGAAACA AAGGTGCTAG AGGAGCAGCA GGTGTACAGG GCATCCAAGG TGAACAGGGA
    CCAATAGGCT TTCCTGGCTT TCCAGGCATC AGAGGCCCAC CAGGACCACA GGGAAACCAG
    GGAGAGGATG GAGAGGCTGG TCCACATGGT AAAGTGGGCA AAGAGGGGTC AAAGGGGAGC
    AGAGGTCCTG AAGGCCTCTC TGGAAAGCCT GGTCCTAGAG GCCTAAAGGG GCGAACAGGG
    CAGAGGGGTC ACACTGGCAT GCCTGGACCT CCTGGTTTAC CTGGCCCACC TGGACCATTC
    GGAGCTGAAG GAAAGCCTGG TACACAGGGA CTGCAAGGCC TTGTGGGTAA TGCCGGAAAT
    AAAGGATCAA CGGGATTGCA AGGTATTCCC GGAGAACGTG GTCAAGACGG ACCCCCAGGA
    ACTATGGGCC CACCTGGACG AGAGGGGCCT ATGGGCAGCC CAGGACCACC AGGAGAAAGG
    GGTTTTGGTG GAAAGACAGG AATGGAGGGA CCACAGGGCC CTGTTGGCAT GTATGGTTTT
    CCAGGAACCG TGGGTATGAG AGGAAGACCA GGCCACACTG GAGACAGAGG AGAGCCAGGC
    CCAAGAGGCC CTACTGGACC AATTGGAAAG ACTGGTGTAC CAGGTCCCCC TGGTCCAGTA
    GGAGAAAAAG GACTGCCAGG ACCCCAGGGC CGCCAAGGAG ATCCTGGGCA TCAGGGAACA
    GATGGCCCAT GTGGTCCTCC AGGACGTCAG GGAGTCAGTG GGGTCATTGG AAAACCAGGA
    CCTCGTGGAA GTATAGGTCC CCCAGGGGAA CCTGGGCCAA GTGGGCCCCC AGGAATACCA
    GGTCCACAGG GGGAAAATGG AGTGCCAGGT ATAGATGGAG AGAAAGGAGA AAAGGGAATG
    ATGGGTTCTC CTGGTGATGA TGGACCTCTT GGACTGGAAG GACAACAGGG TCTAACTGGT
    CCTGCAGGTT TGGATGGGGC TCCTGGAAGG AAGGGTGATA AGGGGGATAG AGGACCTATC
    GGAACATCTG GTCTTCAAGG ACCAAAAGGC GATACTGGTC CTGTAGGTGA TAAAGGTCCA
    CCGGGTCCAC CAGGTCTAGT AGGCAATGAG GGTGATTCTG GTCCTGCTGG TGTTGCTGGT
    GACCCCGGGT CAAAAGGAGA AAAGGGTGAA ATTGGGCCAC CAGGATTTAC TGGTTTAGAG
    GGTCCATGGG GAGACACAGG GGAGCAGGGA GAGAAGGGGA TCAAGGGAGC CAAGGGACAA
    ATCGGAATGC AGGGTGAGCC AGGACTAGTT GGTGGGGTTG GACATCCTGG CCTTAAAGGT
    GCAGAAGGTG TACCTGGCCA TCCAGGACTG GTTGGGCCAG ATGGACCTGC AGGAAGCAAG
    GGAAAGACCG GGCCAAGTGG TTCACCTGGT GAGCCAGGAA ATCCTGGACC TGAGGGAATT
    GCTGGTCCCA AAGGTGTGCG AGGTGACACA GGAAAAGGCG GGACACAGGG TGGTGTGGGT
    CTAGTTGGTC CCATAGGTCC TTTGGGCCCC AAAGGTCTTT CAGGGCCTGA AGGCGAGAAA
    GGAGAGCCAG GAGATAAAGG AGAACCAGGG TTAGAGGGAC CAGATGGCCT TCAGGGTGTA
    CAAGGACCAC CAGGATTGCC TGGTTTGGAG GGTTCACAAG GTGAGGCAGG GATAAGGGGC
    CCACCAGGTC TGCCAGGAGC TCAGGGCGGC GTGGGTAAGC CAGGACCTGA CGGAAGAGAA
    GGCATGAAAG GAGAGAAGGG GGATCAAGGT AAAAATGGAG CACCTGGAAA ATTGGGTCAC
    ATTGGACGAA GGGGTAAAAG AGGCAAGGCA GGTTTGAGGG CGACCAGAGG ACCAAGGGGA
    GAAAAGGGAG AGAAAGGAGA TGTTGGTGAG AAAGGACTTC CTGGATGGGG AGGGAGTATG
    GGAATCCAAG GGCCAAGAGG AGAGCCTGGA GATGAAGGTG TAAAAGGAGC AGAGGGTGAG
    AAAGGGGATC AGGGACCATT TGGTTCACCT GGGAGAGATG GCATAAAGGG AAGTCTTGGA
    CCTCTTGGCC CTCCTGGACC CCCAGGACCA AAGGGTGATC AGGGAAATAT TGGTCCTTCT
    GGTCCTAGAG GGACACCTGG AATACCTGGA CTGCCGGGCT TGTTTGGAGA CAAGGGACTG
    AAAGGATTTC AAGGGCCTCC TGGACCCCCT GGAACAAGGG GTCTGCCAGG TCCACCAGGG
    CCACCAGGAC CTCCTGGTAT CTCTGTGAAC CTGACTCTGA TCCAGATCAA GGACCTGATG
    TACAGTTCAG ACAAGCCCAA TTTCTCCCTG ATTCAGACAC TGCTGGACTC ACTGTACCAT
    GACCTCCAGC TGCTGGTGGA GCCTCCGGAC GGCACTAAGC AGCACCCAGC ATCAACCTGT
    CTGGAGCTGT GGCTGTGCCA TCCCAACTAC ACGAGTGGTT TCTACTACAT TGATCCAAAC
    CAAGGCAGTC CTTTAGATGC ACTTTTAGCC TACTGTAATT TCTCAGAGTC CGGAGCAGAG
    ACCTGTCTTC ACCCTAGAGA TGCACATCTG CCCACAAGGA CTTGGCTAAA TGACTCAGGA
    AATAACAGCA AGTTCCACTG GTTAAGCTCA CTAGAGGGGG GTTTTAAATT TGAGTATCCA
    GCCCTAAGTG TGGTTCAGCT GCGCTTTCTG AGACTCCAGA GCAACAGAGC GGAGCAGAGA
    GTGACGTACT CCTGTTACCC TGGACACAGA CTGGGAGAAA TACAGCGACA GGTCCAGTTC
    CTCACAGACG CCGCCAAGCA GAGCTATTTA GGAGCACTGC AGGACTGTGT GTCTGCAAAG
    GAAGTGGATC CTGGGCCGCG TGAGTCTGTG TTTCAGTTTG AGGACATGGA CCTGCTTCCT
    CTACGTGATA TAGGGATCTT TGGAAACAGC AGTCAAGAGT TTGGCTTCAC CATTGGCCCT
    GTATGCTTCA GCTAG

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

    RefSeq XP_021329065.1
    CDS1..5355
    Translation

    Target ORF information:

    RefSeq Version XM_021473390.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021473390.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGACACCA TGCTGCCCTC AGGATATGGA GATGCAATCG ACCTTCTTGA TCATCTGTGG 
    CAGGTTGCTA ATCACAGTAA TGCATCGGTA ACGCAGGAAA GCAAAAGGTG TCCAGTTCTG
    CATGTAGGCC AGTACTCAAC ACTTTCTGTC CCACTACGGC AGGTGTTCGG ATACAGTTTT
    GGTGATGAGT TCAGTTTGCT GTTGCATCTG CGCAGCTCTC AGTCTGAAGA CCGCAGTGTG
    TTGACCTTCC TCTGTCCAGA TGGACACATT CTTCTGCAGA TCCGCATCAG TGCCTACACT
    TTTAGCTTCA TCAGCACTCA ACAGCGACAC TACGAATTCC CCGTGGGAGT ACTGTCTGAT
    GGAGGTTGGC ACCGTGTGGC AGTCAGCGTT TCCTCGAGTC GGTTGGCATT GTATGTGGAT
    TGCTCCATGG TGGAGAGTGT GGAATGGGCC TATAAGGGCG GTCTGGAAAT CTCCACCGAT
    GGCCTGGTTA TGTTGGGAGG AATCATTGAG GGGTTTGAGA CCCCTTTTGA GGGCGATTTG
    ATGCAAGTGG CATTTCTGAT TGGAGAACCA GATGCAGCTC AAGATCACTG TGCCTTTTTC
    CAGCCCCAGT GTGGTGGAAC TGGACACAAA CCACCTCGCT CTCCTCGCAT ACACACTGAA
    GAGGAACTGT TGCTATCCTC AAATGACCTG GAGGACTTGT TAGAGTCAGC AAAGAACAGT
    GACTCTATTC AGGCAAAACT GAATGGTCTT CGTAGACGTG GGATTATTCG TGGGGATGGG
    ACTTTGCCCA CTGGATCCAA GCGTCCTGCA ATTGTGGGCC GTGGAGATGT GTTTGAGGTG
    GATGAGGATA CAGACCTTCT GGACCAAAAC ATCTTGTCTA AAAATGGAGA TAAACCTTCC
    AAAACCTTCC CAACTGACAC TACAAGCAGC CGTGATGGTA AGCTAGAATC CACATCTAAA
    CATCTTGATG AAAACATCAC CGTTGACAAG CACAAACCTG GCAAACCTTT ACAAAAGAAG
    CCAGTGGACA CTACAATTAT CAATCTGGAT GTATCTGAGA AACCTACCGG AAGTACTGTT
    CCTAGTAGAG AAATCCACTT GATGACCACA TCCAGTCCTG AGGATGGAGA ATCCAACTTG
    TTAAAAGAGG ACTTCGAGGT CACCACACAG GCTCCTGGTA GGACTTCTTG GGACAATGTG
    TCAAAAGGCA GTGGAAGGAC ACCATCGAAA TCTCCAGATA TTCATGCAGG ATCTGGAGGG
    GGATCTGAGG AGCATCCGGA TACCATTGTG CTTACAGGCA GACAAGGAGA CATTGTGCGT
    GGGTCTGATG GGAAAATGTA TCGCATCCAA AGAGGGCCTA TGGGGCCAAT GGGGCCCCCA
    GGTGAGCCTG GGTGTCCTGG GAATCCTGGC TATCCTGGAC CCAAAGGAGA TAAGGGTGCC
    TTTGGTGTTA GGGGTCGTCC AGGTCGCCCT GGATTCCTGG GACCCCCAGG ACCACCCGGC
    CTGCCCACAT TCTACCTATG GAGAAACACA CCTGAAGACT GGGCTGCATT TCAGCAAACA
    TCATTCTTCC AGCTTCTTCT TGCAGGCTGG CCTAGAGCAC AAGGTCTGCC TGGTCCGGAA
    GGAGAGATGG GAAAACCTGG GGCACAGGGG CCACCTGGGG AACCAGGTGA ACGAGGACCC
    CCAGGACGAA TGGGAGACAT GGGTGACCGT GGTCCTAAAG GTGTGGTTGG AAGAGCAGGA
    GTTTATGGAA GAGATGGAGA GAACGGCCTG GACGGCCCTC AGGGGCCTTC AGGGATTCCA
    GGCCCAAAGG GTCCTCTGGG TTATAAAGGT GAATCAGGCT CACATGGAGA GAAAGGAGAG
    GAGGGCATTG CTGGATCAGA GGGTCCATGT GGAGATAAGG GGAAACCCGG TGAGAAAGGT
    TCAAAAGGAG CACCTGGCGC TCCTGGGGCT GTCGGCCCTC CTGGTCCTCA AGGCATAAGA
    GGGATGGAGG GCCTTGAAGG GCATCCAGGA CCAGATGGGG AGGATGGGAT GAATGGATCA
    CCAGGTCTTC CAGGTGCACC AGGAGCTCCT GGTTGGACAG GTTTGATTGG TGCCCAGGGG
    GCTAATGGGT CTCGTGGGGA ACCTGGGCCT TCTGGAGCTG TTGGACTTCC AGGGCCACAG
    GGGCCCCAGG GATTAGAAGG ACAGATCGGA CCTCCAGGAC AAAGAGGTCC ACCGGGGTTG
    TCAGGCCGAG AGGGTTTGCA TGGTCCCAAA GGAGAGCCTG GTCCTGTAGG ACCAGTTGGT
    ATCAGAGGGG ATCCAGGATT TGAAGGATTA AAGGGTGTTT TAGGAACGCC CGGTCCAAAA
    GGTTTCACTG GTATCAAAGG TAACAGAGGA CCTGATGGAG ACCAAGGGGA CATTGGACCT
    AAAGGAAACA AAGGTGCTAG AGGAGCAGCA GGTGTACAGG GCATCCAAGG TGAACAGGGA
    CCAATAGGCT TTCCTGGCTT TCCAGGCATC AGAGGCCCAC CAGGACCACA GGGAAACCAG
    GGAGAGGATG GAGAGGCTGG TCCACATGGT AAAGTGGGCA AAGAGGGGTC AAAGGGGAGC
    AGAGGTCCTG AAGGCCTCTC TGGAAAGCCT GGTCCTAGAG GCCTAAAGGG GCGAACAGGG
    CAGAGGGGTC ACACTGGCAT GCCTGGACCT CCTGGTTTAC CTGGCCCACC TGGACCATTC
    GGAGCTGAAG GAAAGCCTGG TACACAGGGA CTGCAAGGCC TTGTGGGTAA TGCCGGAAAT
    AAAGGATCAA CGGGATTGCA AGGTATTCCC GGAGAACGTG GTCAAGACGG ACCCCCAGGA
    ACTATGGGCC CACCTGGACG AGAGGGGCCT ATGGGCAGCC CAGGACCACC AGGAGAAAGG
    GGTTTTGGTG GAAAGACAGG AATGGAGGGA CCACAGGGCC CTGTTGGCAT GTATGGTTTT
    CCAGGAACCG TGGGTATGAG AGGAAGACCA GGCCACACTG GAGACAGAGG AGAGCCAGGC
    CCAAGAGGCC CTACTGGACC AATTGGAAAG ACTGGTGTAC CAGGTCCCCC TGGTCCAGTA
    GGAGAAAAAG GACTGCCAGG ACCCCAGGGC CGCCAAGGAG ATCCTGGGCA TCAGGGAACA
    GATGGCCCAT GTGGTCCTCC AGGACGTCAG GGAGTCAGTG GGGTCATTGG AAAACCAGGA
    CCTCGTGGAA GTATAGGTCC CCCAGGGGAA CCTGGGCCAA GTGGGCCCCC AGGAATACCA
    GGTCCACAGG GGGAAAATGG AGTGCCAGGT ATAGATGGAG AGAAAGGAGA AAAGGGAATG
    ATGGGTTCTC CTGGTGATGA TGGACCTCTT GGACTGGAAG GACAACAGGG TCTAACTGGT
    CCTGCAGGTT TGGATGGGGC TCCTGGAAGG AAGGGTGATA AGGGGGATAG AGGACCTATC
    GGAACATCTG GTCTTCAAGG ACCAAAAGGC GATACTGGTC CTGTAGGTGA TAAAGGTCCA
    CCGGGTCCAC CAGGTCTAGT AGGCAATGAG GGTGATTCTG GTCCTGCTGG TGTTGCTGGT
    GACCCCGGGT CAAAAGGAGA AAAGGGTGAA ATTGGGCCAC CAGGATTTAC TGGTTTAGAG
    GGTCCATGGG GAGACACAGG GGAGCAGGGA GAGAAGGGGA TCAAGGGAGC CAAGGGACAA
    ATCGGAATGC AGGGTGAGCC AGGACTAGTT GGTGGGGTTG GACATCCTGG CCTTAAAGGT
    GCAGAAGGTG TACCTGGCCA TCCAGGACTG GTTGGGCCAG ATGGACCTGC AGGAAGCAAG
    GGAAAGACCG GGCCAAGTGG TTCACCTGGT GAGCCAGGAA ATCCTGGACC TGAGGGAATT
    GCTGGTCCCA AAGGTGTGCG AGGTGACACA GGAAAAGGCG GGACACAGGG TGGTGTGGGT
    CTAGTTGGTC CCATAGGTCC TTTGGGCCCC AAAGGTCTTT CAGGGCCTGA AGGCGAGAAA
    GGAGAGCCAG GAGATAAAGG AGAACCAGGG TTAGAGGGAC CAGATGGCCT TCAGGGTGTA
    CAAGGACCAC CAGGATTGCC TGGTTTGGAG GGTTCACAAG GTGAGGCAGG GATAAGGGGC
    CCACCAGGTC TGCCAGGAGC TCAGGGCGGC GTGGGTAAGC CAGGACCTGA CGGAAGAGAA
    GGCATGAAAG GAGAGAAGGG GGATCAAGGT AAAAATGGAG CACCTGGAAA ATTGGGTCAC
    ATTGGACGAA GGGGTAAAAG AGGCAAGGCA GGTTTGAGGG CGACCAGAGG ACCAAGGGGA
    GAAAAGGGAG AGAAAGGAGA TGTTGGTGAG AAAGGACTTC CTGGATGGGG AGGGAGTATG
    GGAATCCAAG GGCCAAGAGG AGAGCCTGGA GATGAAGGTG TAAAAGGAGC AGAGGGTGAG
    AAAGGGGATC AGGGACCATT TGGTTCACCT GGGAGAGATG GCATAAAGGG AAGTCTTGGA
    CCTCTTGGCC CTCCTGGACC CCCAGGACCA AAGGGTGATC AGGGAAATAT TGGTCCTTCT
    GGTCCTAGAG GGACACCTGG AATACCTGGA CTGCCGGGCT TGTTTGGAGA CAAGGGACTG
    AAAGGATTTC AAGGGCCTCC TGGACCCCCT GGAACAAGGG GTCTGCCAGG TCCACCAGGG
    CCACCAGGAC CTCCTGGTAT CTCTGTGAAC CTGACTCTGA TCCAGATCAA GGACCTGATG
    TACAGTTCAG ACAAGCCCAA TTTCTCCCTG ATTCAGACAC TGCTGGACTC ACTGTACCAT
    GACCTCCAGC TGCTGGTGGA GCCTCCGGAC GGCACTAAGC AGCACCCAGC ATCAACCTGT
    CTGGAGCTGT GGCTGTGCCA TCCCAACTAC ACGAGTGGTT TCTACTACAT TGATCCAAAC
    CAAGGCAGTC CTTTAGATGC ACTTTTAGCC TACTGTAATT TCTCAGAGTC CGGAGCAGAG
    ACCTGTCTTC ACCCTAGAGA TGCACATCTG CCCACAAGGA CTTGGCTAAA TGACTCAGGA
    AATAACAGCA AGTTCCACTG GTTAAGCTCA CTAGAGGGGG GTTTTAAATT TGAGTATCCA
    GCCCTAAGTG TGGTTCAGCT GCGCTTTCTG AGACTCCAGA GCAACAGAGC GGAGCAGAGA
    GTGACGTACT CCTGTTACCC TGGACACAGA CTGGGAGAAA TACAGCGACA GGTCCAGTTC
    CTCACAGACG CCGCCAAGCA GAGCTATTTA GGAGCACTGC AGGACTGTGT GTCTGCAAAG
    GAAGTGGATC CTGGGCCGCG TGAGTCTGTG TTTCAGTTTG AGGACATGGA CCTGCTTCCT
    CTACGTGATA TAGGGATCTT TGGAAACAGC AGTCAAGAGT TTGGCTTCAC CATTGGCCCT
    GTATGCTTCA GCTAG

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

    CloneID ODa44242
    Clone ID Related Accession (Same CDS sequence) XM_009295261.3 , XM_009295261.2
    Accession Version XM_009295261.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5442bp)
    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(I) chain-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009295261.2. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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

    RefSeq XP_009293536.1
    CDS170..5611
    Translation

    Target ORF information:

    RefSeq Version XM_009295261.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295261.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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

    CloneID ODa44242
    Clone ID Related Accession (Same CDS sequence) XM_009295261.3 , XM_009295261.2
    Accession Version XM_009295261.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5442bp)
    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(I) chain-like isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009295261.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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

    RefSeq XP_009293536.1
    CDS167..5608
    Translation

    Target ORF information:

    RefSeq Version XM_009295261.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295261.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGCTCGTGT CAGTAGTGTG GACAGCAGTT TTATTTACTC TGGTAACAGC CTCCATCACG 
    GACACCAGTC CTACTGACGT ACCAGACACG GAGAGCGGTT CGGGGATGTT TCTACCAGAT
    GCAATCGACC TTCTTGATCA TCTATGGCAG GTTGCTAATC ACAGTAATGC ATCGGTAACG
    CATGAAAGCA AAAGGTGTCC AGTTCTGCAT GTAGGCCAGT ACTCAACACT TTCTGTCCCA
    CTACGGCAGG TGTTCGGATA CAGTTTTGGT GATGAGTTCA GTTTGCTGTT GCATCTGCGC
    AGCTCTCAGT CTGAAGACCG CAGTGTGTTG ACCTTCCTCT GTCCAGATGG ACACATTCTT
    CTGCAGATCC GCATCAGTGC CTACACTTTT AGCTTCATCA GCACTCAACA GCGACACTAC
    GAATTCCCCG TGGGAGTACT GTCTGATGGA GGTTGGCACC GTGTGGCAGT CAGCGTTTCC
    TCGAGTCGGT TGGCATTGTA TGTGGATTGC TCCATGGTGG AGAGTGTGGA ATGGGCCTAT
    AAGGGCGGTC TGGAAATCTC CACCGATGGC CTGGTTATGT TGGGAGGAAT CATTGAGGGG
    TTTGAGACCC CTTTTGAGGG CGATTTGATG CAAGTGGCAT TTCTGATTGG AGAACCAGAT
    GCAGCTCAAG ATCACTGTGC CTTTTTCCAG CCCCAGTGTG GTGGAACTGG ACACAAACCA
    CCTCGCTCTC CTCGCATACA CACTGAAGAG GAACTTTTGC TATCCTCTAA TGACCTGGAG
    GACTTGTTAG AGTCAGCAAA GAACAGTGAC TCTATTCGGG CAAAACTGAA TGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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

    CloneID ODa44243
    Clone ID Related Accession (Same CDS sequence) XM_009295262.2 , XM_009295262.3
    Accession Version XM_009295262.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
    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(I) chain-like isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009295262.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTGTGAAT GTGTGTGTGC CATCATGAGG ATCTGGATGT GTTTGCTAGC ATGCTTTCTG 
    TTGGATTTAA TGAGATTTGG AGCGCAAGGT CAGAGGAATC GCATTCCAAA GGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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

    RefSeq XP_009293537.1
    CDS19..4740
    Translation

    Target ORF information:

    RefSeq Version XM_009295262.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295262.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTGTGAAT GTGTGTGTGC CATCATGAGG ATCTGGATGT GTTTGCTAGC ATGCTTTCTG 
    TTGGATTTAA TGAGATTTGG AGCGCAAGGT CAGAGGAATC GCATTCCAAA GGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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

    CloneID ODa44243
    Clone ID Related Accession (Same CDS sequence) XM_009295262.2 , XM_009295262.3
    Accession Version XM_009295262.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
    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(I) chain-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009295262.2. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTGTGAAT GTGTGTGTGC CATCATGAGG ATCTGGATGT GTTTGCTAGC ATGCTTTCTG 
    TTGGATTTAA TGAGATTTGG AGCGCAAGGT CAGAGGAATC GCATTCCAAA GGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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

    RefSeq XP_009293537.1
    CDS49..4770
    Translation

    Target ORF information:

    RefSeq Version XM_009295262.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio si:ch211-196i2.1 (si:ch211-196i2.1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295262.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTGTGAAT GTGTGTGTGC CATCATGAGG ATCTGGATGT GTTTGCTAGC ATGCTTTCTG 
    TTGGATTTAA TGAGATTTGG AGCGCAAGGT CAGAGGAATC GCATTCCAAA GGGTCTTCGT
    AGACGTGGGA TTATTCGTGG GGATGGGACT TTGCCCACTG GATCCAAGCG TCCTGCAATT
    GTGGGCCGTG GAGATGTGTT TGAGGTGGAT GAGGATACAG ACCTTCTGGA CCAAAACATC
    TTGTCTAAAA ATGGAGATAA ACCTTCCAAA ACCTTCCCAA CTGACACTAC AAGCAGCCGT
    GATGGTAAGC TAGAATCCAC ATCTAAACAT CTTGATGAAA ACATCACCAT TGACAAGCAC
    AAACCTGGCA AACCTTTACC AAAGAAGCCA GTGGACACTA CAATTATCAA TCTGGATGTA
    TCTGAGAAAC CTACTGGAAG TACTGTTCCT AGTAGAGAAA TCCACTTGAT GACCACATCC
    AGTCCTGAGG ATGGAGAATC CAACTTGTTA AAAGAGGACT TCGAGGTCAC CACACAGGCT
    CCTGGTAGGA CTTCTTGGGA CAATGTGTCA AAAGGCAGTG GAAGGACACC ATCGAAATCT
    CCAGATATTC ATGCAGGATC TGGAGGGGGA TCTGAGGAGC ATCCGGATAC CATTGTGCTT
    ACAGGCAGAC AAGGAGACAT TGTGCGTGGG TCTGATGGGA AAATGTATCG CATCCAAAGA
    GGGCCTATGG GGCCAATGGG GCCCCCAGGT GAGCCTGGGT GTCCTGGGAA TGCTGGCTAT
    CCTGGACCCA AAGGAGATAA GGGTGCCTTT GGTGTTAGGG GTCGTCCAGG TCGCCCTGGA
    TTCCTGGGAT CCCCAGGACC ACCCGGCCTG CCCTCATTCT ACCTATGGAG AAACACACCT
    GAAGACTGGG CTGCATTTCA GCAAACATCA TTCTTCCAGC TTCTTCTTGC AGGCTGGCCT
    AGAGCACAAG GTCTGCCTGG TCCGGAAGGA GAGATGGGAA AACCTGGGGC ACAGGGGCCA
    CCTGGGGAAC CAGGTGAACG AGGACCCCCA GGACGAATGG GAGACATGGG TGACCGTGGT
    CCTAAAGGTG TGGTTGGAAG AGCGGGAGTT TATGGAAGAG ATGGAGAGAA CGGCCTGGAC
    GGCCCTCAGG GGCCTTCAGG GATTCCAGGC CCAAAGGGTC CTCTGGGTTA TAAAGGTGAA
    TCAGGCTCAC ATGGAGAGAA AGGAGAGGAG GGCATTACTG GATCAGAGGG TCCATGTGGA
    GATAAGGGGA AACCCGGTGA GAAAGGTTCA AAAGGAGCAC CTGGCGCTCC TGGGGCTGTC
    GGCCCTCCTG GTCCTCAAGG CATAAGAGGG ATGGAGGGCC TTGAAGGGCA TCCAGGACCA
    GATGGGGAGG ATGGGATGAA TGGATCACCA GGTCTTCCAG GTGCACCAGG AGCTCCTGGT
    TGGACAGGTT TGATTGGTGC CCAGGGGGCT AATGGGTCTC GTGGGGAACC TGGGCCTTCT
    GGAGCTGTTG GACTTCCAGG GCCACAGGGG CCCCAGGGAT TAGAAGGACA GATCGGACCT
    CCAGGACAAA GAGGTCCACC GGGGTTGTCA GGCCGAGAGG GTTTGCATGG TCCCAAAGGA
    GAGCCTGGTC CTGTAGGACC AGTTGGTATC AGAGGGGATC CAGGATTTGA AGGATTAAAG
    GGTGTTTTAG GAACGCCCGG TCCAAAAGGT TTCACTGGTA TCAAAGGTAA CAGAGGACCT
    GATGGAGACC AAGGGGACAT TGGACCTAAA GGAAACAAAG GTGCTAGAGG AGCAGCAGGT
    GTACAGGGCA TCCAAGGTGA ACAGGGACCA ATAGGCTTTC CTGGCTTTCC AGGCATCAGA
    GGCCCACCAG GACCACAGGG AAACCAGGGA GAGGATGGAG AGGCTGGTCC ACATGGTAAA
    GTGGGCAAAG AGGGGTCAAC GGGGAGCAGA GGTCCTGAAG GCCTCTCTGG AAAGCCTGGT
    CCTAGAGGCC TAAAGGGGCG AACAGGGCAG AGGGGTCACA CTGGCATGCC TGGACCTCCT
    GGTTTACCTG GCCCACCTGG ACCATTCGGA GCTGAAGGAA AGCCTGGTAC ACAGGGACTG
    CAAGGCCTTG TGGGTAATGC CGGAAATAAA GGATCAACGG GATTGCAAGG TATTCCCGGA
    GAACGTGGTC AAGACGGACC CCCAGGAACT ATGGGCCCAC CTGGACGAGA GGGGCCTATG
    GGCAGCCCAG GACCACCAGG AGAAAGGGGT TTTGGTGGAA AGACAGGAAT GAAGGGACCA
    CAGGGCCCTG TTGGCATGTA TGGTTTTCCA GGAACCGTGG GTATGAGAGG AAGACCAGGC
    CACACTGGAG ACAGAGGAGA GCCAGGCCCA AGAGGCCCTA CTGGACCAAT TGGAAAGACT
    GGCGTACCAG GTCCCCCTGG TCCAGTAGGA GAAAAAGGAC TGCCAGGACC CCAGGGCCGC
    CAAGGAGATC CTGGGCATCA GGGAACAGAT GGCCCATGTG GTCCTCCAGG ACGTCACGGA
    GTCAGTGGGG TCATTGGAAA ACCAGGACCT CGTGGAAGTA TAGGTCCCCC AGGGGAACCT
    GGGCCAAGTG GGCCCCCAGG AATACCAGGT CCACAGGGGG AAAACGGAGT GCCAGGTATA
    GATGGAGAGA AAGGAGAAAA GGGAATGATG GGTTCTCCAG GTGATGATGG ACCTCTTGGA
    CTGGAAGGAC AACAGGGTCT AACTGGTCCT GCAGGTTTGG ATGGGGCTCC TGGAAGGAAG
    GGTGATAAGG GGGATAGAGG ACCTATCGGA ACGTCTGGTC TTCAAGGACC AAAAGGCGAT
    ATTGGCCCTG TAGGTGATAA AGGTCCACCG GGTCCACCAG GCCTAGTAGG CAATGAGGGT
    GATTCTGGTC CTGCTGGTGT TGCTGGTGAC CCCGGGTCAA AAGGAGAAAA GGGTGATATT
    GGGCCACCAG GATTTACTGG TTTAGAGGGT CCATGGGGAG ACACAGGGGA GCAGGGAGAG
    AAGGGGATCA AGGGAGCCAA GGGACAAATC GGAATGCAGG GTGAGCCAGG CCTAGTTGGT
    GGGGTTGGAC ATCCTGGCCT TAAAGGTGCA GAAGGTGTAC CTGGCCATCC AGGACTGGTT
    GGGCCAGATG GACCTGCAGG AAGCAAGGGA AAGACCGGGC CAAGTGGTTC ACCTGGTGAG
    CCAGGAAATC CTGGACCTGA GGGAATTGCT GGTCCCAAAG GTGTGCGAGG TGACACAGGA
    AAAGGCGGGA CACAGGGTGG TGTGGGTCTA GTTGGTCCCA TAGGTCCTTT GGGCCCCAAA
    GGTCTTTCAG GGCCTGAAGG CGAGAAAGGA GAGCCAGGAG ATAAAGGAGA ACCAGGGTTA
    GAGGGACCAG ATGGCCTTCA GGGTGTACAA GGACCACCAG GACTGCCTGG TTTGGAGGGT
    TCGCAAGGTG AGGCAGGGAT GAGGGGCCCA CCAGGTCTGC CAGGAGCTCA GGGCGGCGTG
    GGTAAGCCAG GACCTGACGG AAGAGAAGGC ATGAAAGGAG AGAAGGGGGA TCAAGGTAAA
    AATGGAGCAC CTGGAAAATT GGGTCACATT GGACGAAGGG GTAAAAGAGG CAAGGCAGGT
    TTGAGGGCGA CCAGAGGACC AAGGGGAGAA AAGGGAGAGA AAGGAGATGT TGGTGAGAAA
    GGACTTCCTG GATGGGGAGG GAGTATGGGA ATCCAAGGGC CAAGAGGAGA GCCTGGAGAT
    GAAGGTGTAA AAGGAGCAGA GGGTGAGAAA GGGGATCAGG GACCATTTGG TTCACCTGGG
    AGAGATGGCA TAAAGGGAAG TCTTGGACCT CTTGGCCCTC CTGGACCCCC AGGACCAAAG
    GGTGATCAGG GAAATATTGG TCCTTCTGGT CCTAGAGGGA CACCTGGAAT ACCTGGACTG
    CCGGGCTTGT TTGGAGACAA GGGACTGAAA GGATTTCAAG GGCCTCCTGG ACCCCCTGGA
    ACAAGGGGTC TGCCAGGTCC ACCAGGGCCA CCAGGACCTC CTGGTATCTC TGTGAACCTG
    ACTCTGATCC AGATCAAGGA CCTGATGTAC AGTTCAGACA AGCCCAATTT CTCCCTGATA
    CAGACACTGC TGGACTCACT GTACCATGAC CTCCAGCTGC TGGTGGACCC TCCGGACGGC
    ACTAAGCAGC ACCCAGCATC AACCTGTCTG GAGCTGTGGC TGTGCCATCC CAACTACACG
    AGTGGTTTCT ACTACATTGA TCCAAACCAA GGCAGTCCTT TAGATGCACT TTTAGCCTAC
    TGTAATTTCT CTGAGTCCGG AGCAGAGACC TGTCTTCACC CGAGAGATGC ACATCTGCCC
    ACAAGGACTT GGCTAAATGA CTCAGGAAAT AACAGCAAGT TCCACTGGTT AAGCTCACTA
    GAGGGGGGTT TTAAATTTGA GTATCCAGCC CTAAGTGTGG TTCAGCTGCG CTTTCTGAGA
    CTCCAGAGCA ACAGAGCGGA GCAGAGAGTG ACGTACTCCT GTTACCCTGG ACACAGACTG
    GGAGAAACAC AGCGACAGGT CCAGTTCCTC ACAGACGCCG CCAAGCAGAG CTATTTAGGA
    GCACTGCAGG ACTGTGTGTC TGCAAAGGAA GTGGATCCTG GGCCGCGTGA GTCTGTGTTT
    CAGTTTGAGG ACATGGACCT GCTTCCTCTA CGTGATATAG GGATCTTTGG AAACAGCAGT
    CAAGAGTTTG GCTTCACCAT TGGCCCTGTA TGCTTCAGCT AG

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