COL11A1B cDNA ORF clone, Danio rerio(Zebrafish)

The following COL11A1B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL11A1B 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
ODa42107 XM_009298295.1
Latest version!
Danio rerio collagen, type XI, alpha 1b (col11a1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $342.30
$489.00
ODa30665 NM_001184954.1
Latest version!
Danio rerio collagen, type XI, alpha 1b (col11a1b), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
ODa56291 XM_017358483.1
Latest version!
Danio rerio collagen, type XI, alpha 1b (col11a1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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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 ODa42107
    Clone ID Related Accession (Same CDS sequence) XM_009298295.1
    Accession Version XM_009298295.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1890bp)
    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(XI) chain isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGTTTGGAC AAAAGGGAGA CGAGGGACCC CGAGGTTTTC CAGGTCTTCC TGGTCCCGTT 
    GGATTGCAGG GTTTGCCGGG ACCACCAGGC GAGAAGGGAG AGAATGGAGA TGTTGGCCCA
    ATGGGTCCAC CCGGTCCTCC TGGCCCTAGA GGTCCTCAGG GTTCTAGTGG AGCAGATGGT
    GCTCCTGGTC CTCCTGGAGG TATTGGCGCA ATGGGTGGAA ATGGTGAAAA GGGTGAGACC
    GGAGAGGCAG GTAATCCAGG ACCACCAGGA GAGCCGGGTA CACTTGGACC CAAAGGTGAG
    CTTGGAGAGA AAGGAGAAGC TGGTCCTCCG GGAGCTGCAG GACCTGCCGG TGGAAGAGGA
    CCTCCTGGAG ATGACGGTCC CAAAGGAAAC CCAGGTCCTA TCGGCTTCCC TGGAGATCCA
    GGTCCCCCTG GTGAGCCCGG AGTTGGTGGA CTGGATGGAC TTCCCGGAGA CAAGGGAGAT
    GATGGAGATG CCGGTCAGCC TGGTCCACCC GGTCCATCTG GTGAAGCTGG TTCTCCAGGA
    CCCCCTGGAA AGAGAGGTCC CGCTGGCCCA GCTGGTACAG AAGGCAGACA AGGAGAGAAG
    GGTGCAAAGG GTGAAGCCGG TGCTGAGGGA CCAGGGGGCA AAACTGGGCC TGTGGGCCCC
    CAGGGGCCTC CTGGAAAGTC TGGTGCTGAA GGCTTACGTG GCATTCCTGG GCCTGTGGGT
    GAACAGGGAC TTCCTGGAGC TGCAGGCCAA GATGGACCTC CTGGACCATT GGGTCCTCCA
    GGTCTTCCTG GCTTGAAAGG TGACCCTGGT TCTAAGGGTG AAAAGGGTCA TCCAGGTTTG
    ATTGGTCTGA TCGGTCCTCC TGGTGAGTCT GGAGAAAAAG GTGATCGAGG ACTGCAAGGA
    CCACAGGGTA TTGGCGGAGG CAAGGGTGAT GCTGGTCCCG CTGGTTCATC TGGTCCAGTC
    GGTCCCCCAG GTCCTCCTGG TATTCCTGGC ACACAAGGAC AGAAAGGATC CAAAGGATCA
    ACCGGTCCAG CTGGACAGAA AGGAGAGCCT GGCTTGATCG GACCACCAGG TCCTCCGGGC
    CCCGCTGGTG ACATCATCCA GTCTCTACCC CTCCAGATGA ACAAAAAAGC GAAGAGATCA
    CCTGATGTTC AGGATGATGA AGCAGCACCA ATAGCAGATT ATGGTATGGA GGGAATGGAG
    GATGTGTTTG GATCCCTCAA CACTCTCAAA CAGGACATTG AACGCATGAA GTTCCCATTG
    GGAACCCAGG ATAATCCATC CAGAACCTGC AAAGACCTGC AGCTCAGCCA GCCAGACTTC
    CCTGATGGAT ATTACTGGAT TGATCCAAAT ATGGGATGCA TAAGCGACGC CTTTAAAGTG
    CACTGTAACT TTACTGCCGG AGGAGAGACT TGCATTTACC CTGATAAGAA GTCCTCAGGG
    GTTAGAATAT CAAACTGGCC AAAGGAGTCC CCAGGATCTT GGTTTAGTGA ATTCAAGCGA
    GGAAAAATCT TGTCTTATGT GGATGTTGAG GAGAGCTCCA TAAACTCAGT CCAGATGACG
    TTCCTCAAGC TGCTGAGCTC TTCTGCCCGG CAGAACTTCA CATACATATG CCATCAGTCT
    GTGGCCTGGT ACGACGCCAA GGCTGACAAC TATGACAAGG CTCTGCGCTT CCTGGGCTCC
    AATGATGAGG AAATGTCCTA TGACAACAAC CCCTTCATCA AGGCTCTTTC AGACGGCTGC
    TCGCTGAAGC AGGGCTATTC TAAATCTGTG ATGGAAATCA ACACCCCGCG CATCGAGCAG
    GTGCCCATCA TCGATGTCAT GTTGAATGAC TTTGGGGAGT CCAGTCAAAG GTTTGGCTTT
    GAGGTTGGTC CCGTCTGCTT CCTTGGCTAA

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

    RefSeq XP_009296570.1
    CDS981..2870
    Translation

    Target ORF information:

    RefSeq Version XM_009298295.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio collagen, type XI, alpha 1b (col11a1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009298295.1

    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
    ATGTTTGGAC AAAAGGGAGA CGAGGGACCC CGAGGTTTTC CAGGTCTTCC TGGTCCCGTT 
    GGATTGCAGG GTTTGCCGGG ACCACCAGGC GAGAAGGGAG AGAATGGAGA TGTTGGCCCA
    ATGGGTCCAC CCGGTCCTCC TGGCCCTAGA GGTCCTCAGG GTTCTAGTGG AGCAGATGGT
    GCTCCTGGTC CTCCTGGAGG TATTGGCGCA ATGGGTGGAA ATGGTGAAAA GGGTGAGACC
    GGAGAGGCAG GTAATCCAGG ACCACCAGGA GAGCCGGGTA CACTTGGACC CAAAGGTGAG
    CTTGGAGAGA AAGGAGAAGC TGGTCCTCCG GGAGCTGCAG GACCTGCCGG TGGAAGAGGA
    CCTCCTGGAG ATGACGGTCC CAAAGGAAAC CCAGGTCCTA TCGGCTTCCC TGGAGATCCA
    GGTCCCCCTG GTGAGCCCGG AGTTGGTGGA CTGGATGGAC TTCCCGGAGA CAAGGGAGAT
    GATGGAGATG CCGGTCAGCC TGGTCCACCC GGTCCATCTG GTGAAGCTGG TTCTCCAGGA
    CCCCCTGGAA AGAGAGGTCC CGCTGGCCCA GCTGGTACAG AAGGCAGACA AGGAGAGAAG
    GGTGCAAAGG GTGAAGCCGG TGCTGAGGGA CCAGGGGGCA AAACTGGGCC TGTGGGCCCC
    CAGGGGCCTC CTGGAAAGTC TGGTGCTGAA GGCTTACGTG GCATTCCTGG GCCTGTGGGT
    GAACAGGGAC TTCCTGGAGC TGCAGGCCAA GATGGACCTC CTGGACCATT GGGTCCTCCA
    GGTCTTCCTG GCTTGAAAGG TGACCCTGGT TCTAAGGGTG AAAAGGGTCA TCCAGGTTTG
    ATTGGTCTGA TCGGTCCTCC TGGTGAGTCT GGAGAAAAAG GTGATCGAGG ACTGCAAGGA
    CCACAGGGTA TTGGCGGAGG CAAGGGTGAT GCTGGTCCCG CTGGTTCATC TGGTCCAGTC
    GGTCCCCCAG GTCCTCCTGG TATTCCTGGC ACACAAGGAC AGAAAGGATC CAAAGGATCA
    ACCGGTCCAG CTGGACAGAA AGGAGAGCCT GGCTTGATCG GACCACCAGG TCCTCCGGGC
    CCCGCTGGTG ACATCATCCA GTCTCTACCC CTCCAGATGA ACAAAAAAGC GAAGAGATCA
    CCTGATGTTC AGGATGATGA AGCAGCACCA ATAGCAGATT ATGGTATGGA GGGAATGGAG
    GATGTGTTTG GATCCCTCAA CACTCTCAAA CAGGACATTG AACGCATGAA GTTCCCATTG
    GGAACCCAGG ATAATCCATC CAGAACCTGC AAAGACCTGC AGCTCAGCCA GCCAGACTTC
    CCTGATGGAT ATTACTGGAT TGATCCAAAT ATGGGATGCA TAAGCGACGC CTTTAAAGTG
    CACTGTAACT TTACTGCCGG AGGAGAGACT TGCATTTACC CTGATAAGAA GTCCTCAGGG
    GTTAGAATAT CAAACTGGCC AAAGGAGTCC CCAGGATCTT GGTTTAGTGA ATTCAAGCGA
    GGAAAAATCT TGTCTTATGT GGATGTTGAG GAGAGCTCCA TAAACTCAGT CCAGATGACG
    TTCCTCAAGC TGCTGAGCTC TTCTGCCCGG CAGAACTTCA CATACATATG CCATCAGTCT
    GTGGCCTGGT ACGACGCCAA GGCTGACAAC TATGACAAGG CTCTGCGCTT CCTGGGCTCC
    AATGATGAGG AAATGTCCTA TGACAACAAC CCCTTCATCA AGGCTCTTTC AGACGGCTGC
    TCGCTGAAGC AGGGCTATTC TAAATCTGTG ATGGAAATCA ACACCCCGCG CATCGAGCAG
    GTGCCCATCA TCGATGTCAT GTTGAATGAC TTTGGGGAGT CCAGTCAAAG GTTTGGCTTT
    GAGGTTGGTC CCGTCTGCTT CCTTGGCTAA

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

    CloneID ODa30665
    Clone ID Related Accession (Same CDS sequence) NM_001184954.1
    Accession Version NM_001184954.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5448bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-11-23
    Organism Danio rerio(zebrafish)
    Product collagen alpha-1(XI) chain
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from GQ485665.1. On May 28, 2010 this sequence version replaced XM_677653.4. ##Evidence-Data-START## Transcript exon combination :: GQ485665.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    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
    ATGGATAAGG ATAAGGAAAG GTGGTCCACG AGATGGAAAA CGAAAAAGTG TCTCAGGAAC 
    TCCGTTTTAA GTGCAATCTT CAGTCTGACT TTTGTCCTAC AGGCAACACA AGTGAGAGCA
    GCTGAACCCG TGGATGTGCT CAAGGTCTTA GACTTTAAAA GTTCACCTGA AGGAGTGAAG
    AAAACACCAG GCTTCTGCAC CATCCGCAGA GGATCCAAAC CAGATGTGGC CTACCGAGTG
    GACAAACGGG CCCAAATCAG CGCCCCAACC AAGCAGCTCT TCCCAGGAGG AGTATTCCCT
    GAGGATTTCT CCATCCTTAT GACTATCAAG CCAAAAGCGG GAATACAGTC CTTCCTTTTG
    TCGGTGTACA ATGAGCAGGG CATCCAGCAG CTGGGTGTGG AGGTGGGCCG CTCTCCGCTC
    TTCCTGTATG AGGATCAGCA TGGGAAACCT GCTCCGGAGG ATTACCCCCT TTTCCGTGCC
    ATCAACCTCG CAGATGGAAA GTGGCACCGT GTGGCTATTA GCATCGAGAA GAAGACCGTC
    ACAATGATTG TGGACTGTAA GAAGAAGATC TCTAAACCAC TCAGCAGAAG TGACCATGCA
    ATCATCAACA CAGATGGCAT CGCTATCTTT GGCACCAGAA TCCTGGACGA AGAAGTTTTT
    GAGGGGGACA TCCAGCAACT TCTTCTGGTG GCGGATCCTC GTGCAGCCTA CGACTACTGT
    GAACACTACA GCCCTGACTG TGAAACCCCT CACCAGGACA CTCCACAGGC CCAGGAACCC
    GAGGAAGAGT ACAATCCCGA ATACTCAGAT GCATATGGGT TCTATGAATA CACAGATGAA
    GTGACTGCCA CTGAAAATCC CACTGACAAC GTTCGTACTG ACACCAAGCC CAGCACTGTC
    GACACTGGAG ACTACTATGT TGAGCAGGAT TACGGCACTG AAGCTCCTTC TGTTTCCAAT
    CCAGCCAATG AGAATCCATC ACCGAAAGAG GAAATAGTAG ACGACTACAT TACAGGCGTA
    GAACAAGTTG GCGTGGATGC CACCGCCGCC ACCGAGGAGA GTGTGAAATA TGTGGAGTCC
    AAAAGCACAA ATGGAGGCGA AACCGAGGAC TTTAAGGAAT ACGACCTTAA CACATATGAT
    GCAAAAGAGA TAGACCCCAG CAATTATGAT GATTCCTTCT ATGACTACAC TAATGGAGTA
    AAACCCACCG GATCAACCTA TGAGGACGAG ATTGGACCTG GACGACCTGC GGAAACTGAG
    GTCACTGAGA GCAATGTTGG TGGTGGTTAT GGTGGAGAGA AGGGGCAGAA AGGTGAACCT
    GCAGTCATTG AGCCGGGGAT GCTTATAGAG GGACCCCCAG GACCACCGGG GCCCGCCGGC
    CTCCCCGGCA CTCCAGGCAT ACAAGGCTCC CCGGGCCTCC ATGGAGATCC AGGTGAAAGA
    GGTCCTCCTG GTCGTCCAGG TTTGCCAGGC GGTGATGGAG CTCCCGGGCC TTCTGGCACC
    ATCCTCATGT TGCCGTTCCG CGCCGGTGGA GAATCTTCAA AAGGCCCGGT TGTGTCGGCA
    CAAGAAGCTC AGGCCCAAGC CATTCTCGCC CAGGCGCGGT TGACTATGAG GGGACCTCCA
    GGTCCAATGG GATTGACAGG ACGCTCCGGC CCTGTGGGTG GTCCTGGTGC ACCTGGTGCT
    AAAGGGGAAA GCGGAGATTC TGGCCCACAG GGACCAAGAG GACTTCAAGG CCCAACTGGT
    TCACCTGGAA AACCTGGCAA GAGGGGCCGA AATGGAGCAG ATGGAGCCAG AGGAATTCCT
    GGAGAATCGG GAGCCAAGGG CGACCGAGGA TTTGATGGCC TTCCTGGTCT ACCTGGTGAA
    AAAGGACACA GAGGCGAGCA AGGTCCCATC GGCCTTCCAG GCTCTCCAGG AGAGGACGGA
    CCGAGGGGTG AGGATGGTGA GATTGGACAG AGAGGAATGC CGGGAGAAAG TGGTCCAAGA
    GGTCTGCTGG GCCCCAGAGG ATCTCCTGGT ACTGCTGGAC AGCGTGGACT GACTGGTTTG
    GATGGACCAC CTGGCCCTAA AGGAAACATG GGTCCTCAAG GAGAGCCTGG ACCTCCTGGT
    CAACAAGGAA ACACCGGACC ACATGGTCTG CCTGGTCCTC AAGGCCCCAT CGGTCCACCT
    GGAGAGAAAG GTCCCGCAGG GAAACAGGGT CTCCATGGAC TCGCTGGAGC TGATGGGCCT
    CCTGGTCATC CAGGAAAAGA GGGTCCTCCC GGGGACAAAG GAGCAGCTGG CCAGCCGGGT
    CCCCAGGGGT CCATTGGTTA TCCCGGGCCT AGAGGTGTGA AGGGTGCTGA AGGCGTCCGA
    GGTCTGAAAG GAGGCAAAGG CGAGAAGGGT GAAGATGGTT TCCCTGGGTT CAAGGGAGAC
    ATGGGCCTCA AGGGTGACAA GGGAGAAGTC GGTGTGATCG GTCCCAGAGG AGAAGATGGA
    CCTGAGGGGC CAAAGGGTAA ATCAGGTCCA AGCGGAGAGG CCGGTCCAAT GGGCACAGCA
    GGAGAGAAGG GAAAACTTGG TGTTCCAGGT TTGCCTGGCT ATCCTGGAAG GCAAGGACCA
    AAGGGCTCTA CTGGTTTCAT CGGCTTCCCT GGAGCCAATG GTGAGAAAGG AGGACGGGGT
    ATTGCTGGTA AAGCGGGTCC AAGAGGACAA AGAGGTCCAA CGGGTCCCCG CGGTGGAAGA
    GGTGCCAGAG GTCCAACAGG AAAACCCGGA GCTAAGGGAA CATCAGGAAA TGATGGACCA
    TCTGGTGGCC CAGGAGAGAG AGGACCCCAA GGACCTCAAG GACCTGTTGG ATTGACTGGC
    CCAAAAGGCC CACCTGGGCC TCCTGGAAAG GACGGACTGC CCGGTCACCC TGGACAGCGA
    GGAGAGACTG GTTTCCAAGG CAAAACTGGA CCTCCTGGAC CTGGAGGTGT TGTTGGCCCA
    CAGGGCTCTA CGGGAGAAAC TGGTCCTGTT GGAGAAAGAG GGCATCCTGG ATCCCCAGGA
    CCCCCTGGAG AGCAAGGCCT TCCTGGAGCT GCTGGCAAAG AAGGTGGAAA GGGTGATCCA
    GGTCCTCAGG GAATTTCTGG GAAACCTGGC CCTGCTGGAT TGAAAGGGTT TCCAGGACAA
    AGGGGGCTTC CTGGCGCAGC GGGTCTGTCA GGTCTGAAGG GAGGCGAGGG TCCACAGGGT
    CCACAAGGCC CTAGCGGATC ACCAGGAGAG AGAGGACCCG CTGGACCAGG AGGACCCATT
    GGCCAAACAG GACGCAACGG CCCTCAGGGA CCCCCAGGAC CTGCTGGAGA GAAGGGTGGT
    CCGGGTGAAA AAGGTCCTGC TGGTCCTGCC GGTCGGGATG GCATCCAGGG TCCAGTCGGA
    CTCCCAGGCC CAGCCGGACC TCAAGGTCCG CCTGGAGAGG ATGGTGACAA GGGAGAAGTT
    GGAGAACCTG GTCAGAAAGG AAGCAAAGGT GACAAGGGTG AACACGGTCC TCCAGGTCCA
    GCAGGTCCTC TGGGTGTTGT CGGAGCTCCA GGTCCTGCTG GAAGTGATGG AGAATCAGGA
    CCCAGGGGTC AGCAGGGGAT GTTTGGACAA AAGGGAGACG AGGGACCCCG AGGTTTTCCA
    GGTCTTCCTG GTCCCGTTGG ATTGCAGGGT TTGCCGGGAC CACCAGGCGA GAAGGGAGAG
    AATGGAGATG TTGGCCCAAT GGGTCCACCC GGTCCTCCTG GCCCTAGAGG TCCTCAGGGT
    TCTAGTGGAG CAGATGGTGC TCCTGGTCCT CCTGGAGGTA TTGGCGCAAT GGGTGGAAAT
    GGTGAAAAGG GTGAGACCGG AGAGGCAGGT AATCCAGGAC CACCAGGAGA GCCGGGTACA
    CTTGGACCCA AAGGTGAGCT TGGAGAGAAA GGAGAAGCTG GTCCTCCGGG AGCTGCAGGA
    CCTGCCGGTG GAAGAGGACC TCCTGGAGAT GACGGTCCCA AAGGAAACCC AGGTCCTATC
    GGCTTCCCTG GAGATCCAGG TCCCCCTGGT GAGCCCGGAG TTGGTGGACT GGATGGACTT
    CCCGGAGACA AGGGAGATGA TGGAGATGCC GGTCAGCCTG GTCCACCCGG TCCATCTGGT
    GAAGCTGGTT CTCCAGGACC CCCTGGAAAG AGAGGTCCCG CTGGCCCAGC TGGTACAGAA
    GGCAGACAAG GAGAGAAGGG TGCAAAGGGT GAAGCCGGTG CTGAGGGACC AGGGGGCAAA
    ACTGGGCCTG TGGGCCCCCA GGGGCCTCCT GGAAAGTCTG GTGCTGAAGG CTTACGTGGC
    ATTCCTGGGC CTGTGGGTGA ACAGGGACTT CCTGGAGCTG CAGGCCAAGA TGGACCTCCT
    GGACCATTGG GTCCTCCAGG TCTTCCTGGC TTGAAAGGTG ACCCTGGTTC TAAGGGTGAA
    AAGGGTCATC CAGGTTTGAT TGGTCTGATC GGTCCTCCTG GTGAGTCTGG AGAAAAAGGT
    GATCGAGGAC TGCAAGGACC ACAGGGTATT GGCGGAGGCA AGGGTGATGC TGGTCCCGCT
    GGTTCATCTG GTCCAGTCGG TCCCCCAGGT CCTCCTGGTA TTCCTGGCAC ACAAGGACAG
    AAAGGATCCA AAGGATCAAC CGGTCCAGCT GGACAGAAAG GAGAGCCTGG CTTGATCGGA
    CCACCAGGTC CTCCGGGCCC CGCTGGTGAC ATCATCCAGT CTCTACCCCT CCAGATGAAC
    AAAAAAGCGA AGAGATCACC TGATGTTCAG GATGATGAAG CAGCACCAAT AGCAGATTAT
    GGTATGGAGG GAATGGAGGA TGTGTTTGGA TCCCTCAACA CTCTCAAACA GGACATTGAA
    CGCATGAAGT TCCCATTGGG AACCCAGGAT AATCCATCCA GAACCTGCAA AGACCTGCAG
    CTCAGCCAGC CAGACTTCCC TGATGGATAT TACTGGATTG ATCCAAATAT GGGATGCATA
    AGCGACGCCT TTAAAGTGCA CTGTAACTTT ACTGCCGGAG GAGAGACTTG CATTTACCCT
    GATAAGAAGT CCTCAGGGGT TAGAATATCA AACTGGCCAA AGGAGTCCCC AGGATCTTGG
    TTTAGTGAAT TCAAGCGAGG AAAAATCTTG TCTTATGTGG ATGTTGAGGA GAGCTCCATA
    AACTCAGTCC AGATGACGTT CCTCAAGCTG CTGAGCTCTT CTGCCCGGCA GAACTTCACA
    TACATATGCC ATCAGTCTGT GGCCTGGTAC GACGCCAAGG CTGACAACTA TGACAAGGCT
    CTGCGCTTCC TGGGCTCCAA TGATGAGGAA ATGTCCTATG ACAACAACCC CTTCATCAAG
    GCTCTTTCAG ACGGCTGCTC GCTGAAGCAG GGCTATTCTA AATCTGTGAT GGAAATCAAC
    ACCCCGCGCA TCGAGCAGGT GCCCATCATC GATGTCATGT TGAATGACTT TGGGGAGTCC
    AGTCAAAGGT TTGGCTTTGA GGTTGGTCCC GTCTGCTTCC TTGGCTAA

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

    RefSeq NP_001171883.1
    CDS245..5692
    Translation

    Target ORF information:

    RefSeq Version NM_001184954.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XI, alpha 1b (col11a1b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001184954.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGGATAAGG ATAAGGAAAG GTGGTCCACG AGATGGAAAA CGAAAAAGTG TCTCAGGAAC 
    TCCGTTTTAA GTGCAATCTT CAGTCTGACT TTTGTCCTAC AGGCAACACA AGTGAGAGCA
    GCTGAACCCG TGGATGTGCT CAAGGTCTTA GACTTTAAAA GTTCACCTGA AGGAGTGAAG
    AAAACACCAG GCTTCTGCAC CATCCGCAGA GGATCCAAAC CAGATGTGGC CTACCGAGTG
    GACAAACGGG CCCAAATCAG CGCCCCAACC AAGCAGCTCT TCCCAGGAGG AGTATTCCCT
    GAGGATTTCT CCATCCTTAT GACTATCAAG CCAAAAGCGG GAATACAGTC CTTCCTTTTG
    TCGGTGTACA ATGAGCAGGG CATCCAGCAG CTGGGTGTGG AGGTGGGCCG CTCTCCGCTC
    TTCCTGTATG AGGATCAGCA TGGGAAACCT GCTCCGGAGG ATTACCCCCT TTTCCGTGCC
    ATCAACCTCG CAGATGGAAA GTGGCACCGT GTGGCTATTA GCATCGAGAA GAAGACCGTC
    ACAATGATTG TGGACTGTAA GAAGAAGATC TCTAAACCAC TCAGCAGAAG TGACCATGCA
    ATCATCAACA CAGATGGCAT CGCTATCTTT GGCACCAGAA TCCTGGACGA AGAAGTTTTT
    GAGGGGGACA TCCAGCAACT TCTTCTGGTG GCGGATCCTC GTGCAGCCTA CGACTACTGT
    GAACACTACA GCCCTGACTG TGAAACCCCT CACCAGGACA CTCCACAGGC CCAGGAACCC
    GAGGAAGAGT ACAATCCCGA ATACTCAGAT GCATATGGGT TCTATGAATA CACAGATGAA
    GTGACTGCCA CTGAAAATCC CACTGACAAC GTTCGTACTG ACACCAAGCC CAGCACTGTC
    GACACTGGAG ACTACTATGT TGAGCAGGAT TACGGCACTG AAGCTCCTTC TGTTTCCAAT
    CCAGCCAATG AGAATCCATC ACCGAAAGAG GAAATAGTAG ACGACTACAT TACAGGCGTA
    GAACAAGTTG GCGTGGATGC CACCGCCGCC ACCGAGGAGA GTGTGAAATA TGTGGAGTCC
    AAAAGCACAA ATGGAGGCGA AACCGAGGAC TTTAAGGAAT ACGACCTTAA CACATATGAT
    GCAAAAGAGA TAGACCCCAG CAATTATGAT GATTCCTTCT ATGACTACAC TAATGGAGTA
    AAACCCACCG GATCAACCTA TGAGGACGAG ATTGGACCTG GACGACCTGC GGAAACTGAG
    GTCACTGAGA GCAATGTTGG TGGTGGTTAT GGTGGAGAGA AGGGGCAGAA AGGTGAACCT
    GCAGTCATTG AGCCGGGGAT GCTTATAGAG GGACCCCCAG GACCACCGGG GCCCGCCGGC
    CTCCCCGGCA CTCCAGGCAT ACAAGGCTCC CCGGGCCTCC ATGGAGATCC AGGTGAAAGA
    GGTCCTCCTG GTCGTCCAGG TTTGCCAGGC GGTGATGGAG CTCCCGGGCC TTCTGGCACC
    ATCCTCATGT TGCCGTTCCG CGCCGGTGGA GAATCTTCAA AAGGCCCGGT TGTGTCGGCA
    CAAGAAGCTC AGGCCCAAGC CATTCTCGCC CAGGCGCGGT TGACTATGAG GGGACCTCCA
    GGTCCAATGG GATTGACAGG ACGCTCCGGC CCTGTGGGTG GTCCTGGTGC ACCTGGTGCT
    AAAGGGGAAA GCGGAGATTC TGGCCCACAG GGACCAAGAG GACTTCAAGG CCCAACTGGT
    TCACCTGGAA AACCTGGCAA GAGGGGCCGA AATGGAGCAG ATGGAGCCAG AGGAATTCCT
    GGAGAATCGG GAGCCAAGGG CGACCGAGGA TTTGATGGCC TTCCTGGTCT ACCTGGTGAA
    AAAGGACACA GAGGCGAGCA AGGTCCCATC GGCCTTCCAG GCTCTCCAGG AGAGGACGGA
    CCGAGGGGTG AGGATGGTGA GATTGGACAG AGAGGAATGC CGGGAGAAAG TGGTCCAAGA
    GGTCTGCTGG GCCCCAGAGG ATCTCCTGGT ACTGCTGGAC AGCGTGGACT GACTGGTTTG
    GATGGACCAC CTGGCCCTAA AGGAAACATG GGTCCTCAAG GAGAGCCTGG ACCTCCTGGT
    CAACAAGGAA ACACCGGACC ACATGGTCTG CCTGGTCCTC AAGGCCCCAT CGGTCCACCT
    GGAGAGAAAG GTCCCGCAGG GAAACAGGGT CTCCATGGAC TCGCTGGAGC TGATGGGCCT
    CCTGGTCATC CAGGAAAAGA GGGTCCTCCC GGGGACAAAG GAGCAGCTGG CCAGCCGGGT
    CCCCAGGGGT CCATTGGTTA TCCCGGGCCT AGAGGTGTGA AGGGTGCTGA AGGCGTCCGA
    GGTCTGAAAG GAGGCAAAGG CGAGAAGGGT GAAGATGGTT TCCCTGGGTT CAAGGGAGAC
    ATGGGCCTCA AGGGTGACAA GGGAGAAGTC GGTGTGATCG GTCCCAGAGG AGAAGATGGA
    CCTGAGGGGC CAAAGGGTAA ATCAGGTCCA AGCGGAGAGG CCGGTCCAAT GGGCACAGCA
    GGAGAGAAGG GAAAACTTGG TGTTCCAGGT TTGCCTGGCT ATCCTGGAAG GCAAGGACCA
    AAGGGCTCTA CTGGTTTCAT CGGCTTCCCT GGAGCCAATG GTGAGAAAGG AGGACGGGGT
    ATTGCTGGTA AAGCGGGTCC AAGAGGACAA AGAGGTCCAA CGGGTCCCCG CGGTGGAAGA
    GGTGCCAGAG GTCCAACAGG AAAACCCGGA GCTAAGGGAA CATCAGGAAA TGATGGACCA
    TCTGGTGGCC CAGGAGAGAG AGGACCCCAA GGACCTCAAG GACCTGTTGG ATTGACTGGC
    CCAAAAGGCC CACCTGGGCC TCCTGGAAAG GACGGACTGC CCGGTCACCC TGGACAGCGA
    GGAGAGACTG GTTTCCAAGG CAAAACTGGA CCTCCTGGAC CTGGAGGTGT TGTTGGCCCA
    CAGGGCTCTA CGGGAGAAAC TGGTCCTGTT GGAGAAAGAG GGCATCCTGG ATCCCCAGGA
    CCCCCTGGAG AGCAAGGCCT TCCTGGAGCT GCTGGCAAAG AAGGTGGAAA GGGTGATCCA
    GGTCCTCAGG GAATTTCTGG GAAACCTGGC CCTGCTGGAT TGAAAGGGTT TCCAGGACAA
    AGGGGGCTTC CTGGCGCAGC GGGTCTGTCA GGTCTGAAGG GAGGCGAGGG TCCACAGGGT
    CCACAAGGCC CTAGCGGATC ACCAGGAGAG AGAGGACCCG CTGGACCAGG AGGACCCATT
    GGCCAAACAG GACGCAACGG CCCTCAGGGA CCCCCAGGAC CTGCTGGAGA GAAGGGTGGT
    CCGGGTGAAA AAGGTCCTGC TGGTCCTGCC GGTCGGGATG GCATCCAGGG TCCAGTCGGA
    CTCCCAGGCC CAGCCGGACC TCAAGGTCCG CCTGGAGAGG ATGGTGACAA GGGAGAAGTT
    GGAGAACCTG GTCAGAAAGG AAGCAAAGGT GACAAGGGTG AACACGGTCC TCCAGGTCCA
    GCAGGTCCTC TGGGTGTTGT CGGAGCTCCA GGTCCTGCTG GAAGTGATGG AGAATCAGGA
    CCCAGGGGTC AGCAGGGGAT GTTTGGACAA AAGGGAGACG AGGGACCCCG AGGTTTTCCA
    GGTCTTCCTG GTCCCGTTGG ATTGCAGGGT TTGCCGGGAC CACCAGGCGA GAAGGGAGAG
    AATGGAGATG TTGGCCCAAT GGGTCCACCC GGTCCTCCTG GCCCTAGAGG TCCTCAGGGT
    TCTAGTGGAG CAGATGGTGC TCCTGGTCCT CCTGGAGGTA TTGGCGCAAT GGGTGGAAAT
    GGTGAAAAGG GTGAGACCGG AGAGGCAGGT AATCCAGGAC CACCAGGAGA GCCGGGTACA
    CTTGGACCCA AAGGTGAGCT TGGAGAGAAA GGAGAAGCTG GTCCTCCGGG AGCTGCAGGA
    CCTGCCGGTG GAAGAGGACC TCCTGGAGAT GACGGTCCCA AAGGAAACCC AGGTCCTATC
    GGCTTCCCTG GAGATCCAGG TCCCCCTGGT GAGCCCGGAG TTGGTGGACT GGATGGACTT
    CCCGGAGACA AGGGAGATGA TGGAGATGCC GGTCAGCCTG GTCCACCCGG TCCATCTGGT
    GAAGCTGGTT CTCCAGGACC CCCTGGAAAG AGAGGTCCCG CTGGCCCAGC TGGTACAGAA
    GGCAGACAAG GAGAGAAGGG TGCAAAGGGT GAAGCCGGTG CTGAGGGACC AGGGGGCAAA
    ACTGGGCCTG TGGGCCCCCA GGGGCCTCCT GGAAAGTCTG GTGCTGAAGG CTTACGTGGC
    ATTCCTGGGC CTGTGGGTGA ACAGGGACTT CCTGGAGCTG CAGGCCAAGA TGGACCTCCT
    GGACCATTGG GTCCTCCAGG TCTTCCTGGC TTGAAAGGTG ACCCTGGTTC TAAGGGTGAA
    AAGGGTCATC CAGGTTTGAT TGGTCTGATC GGTCCTCCTG GTGAGTCTGG AGAAAAAGGT
    GATCGAGGAC TGCAAGGACC ACAGGGTATT GGCGGAGGCA AGGGTGATGC TGGTCCCGCT
    GGTTCATCTG GTCCAGTCGG TCCCCCAGGT CCTCCTGGTA TTCCTGGCAC ACAAGGACAG
    AAAGGATCCA AAGGATCAAC CGGTCCAGCT GGACAGAAAG GAGAGCCTGG CTTGATCGGA
    CCACCAGGTC CTCCGGGCCC CGCTGGTGAC ATCATCCAGT CTCTACCCCT CCAGATGAAC
    AAAAAAGCGA AGAGATCACC TGATGTTCAG GATGATGAAG CAGCACCAAT AGCAGATTAT
    GGTATGGAGG GAATGGAGGA TGTGTTTGGA TCCCTCAACA CTCTCAAACA GGACATTGAA
    CGCATGAAGT TCCCATTGGG AACCCAGGAT AATCCATCCA GAACCTGCAA AGACCTGCAG
    CTCAGCCAGC CAGACTTCCC TGATGGATAT TACTGGATTG ATCCAAATAT GGGATGCATA
    AGCGACGCCT TTAAAGTGCA CTGTAACTTT ACTGCCGGAG GAGAGACTTG CATTTACCCT
    GATAAGAAGT CCTCAGGGGT TAGAATATCA AACTGGCCAA AGGAGTCCCC AGGATCTTGG
    TTTAGTGAAT TCAAGCGAGG AAAAATCTTG TCTTATGTGG ATGTTGAGGA GAGCTCCATA
    AACTCAGTCC AGATGACGTT CCTCAAGCTG CTGAGCTCTT CTGCCCGGCA GAACTTCACA
    TACATATGCC ATCAGTCTGT GGCCTGGTAC GACGCCAAGG CTGACAACTA TGACAAGGCT
    CTGCGCTTCC TGGGCTCCAA TGATGAGGAA ATGTCCTATG ACAACAACCC CTTCATCAAG
    GCTCTTTCAG ACGGCTGCTC GCTGAAGCAG GGCTATTCTA AATCTGTGAT GGAAATCAAC
    ACCCCGCGCA TCGAGCAGGT GCCCATCATC GATGTCATGT TGAATGACTT TGGGGAGTCC
    AGTCAAAGGT TTGGCTTTGA GGTTGGTCCC GTCTGCTTCC TTGGCTAA

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

    CloneID ODa56291
    Clone ID Related Accession (Same CDS sequence) XM_017358483.1
    Accession Version XM_017358483.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4110bp)
    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(XI) chain isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGCTTATAG AGGGACCCCC AGGACCACCG GGGCCCGCCG GCCTCCCCGG CACTCCAGGC 
    ATACAAGGCT CCCCGGGCCT CCATGGAGAT CCAGGTGAAA GAGGTCCTCC TGGTCGTCCA
    GGTTTGCCAG GCGGTGATGG AGCTCCCGGG CCTTCTGGCA CCATCCTCAT GTTGCCGTTC
    CGCGCCGGTG GAGAATCTTC AAAAGGCCCG GTTGTGTCGG CACAAGAAGC TCAGGCCCAA
    GCCATTCTCG CCCAGGCGCG GTTGACTATG AGGGGACCTC CAGGTCCAAT GGGATTGACA
    GGACGCTCCG GCCCTGTGGG TGGTCCTGGT GCACCTGGTG CTAAAGGGGA AAGCGGAGAT
    TCTGGCCCAC AGGGACCAAG AGGACTTCAA GGCCCAACTG GTTCACCTGG AAAACCTGGC
    AAGAGGGGCC GAAATGGAGC AGATGGAGCC AGAGGAATTC CTGGAGAATC GGGAGCCAAG
    GGCGACCGAG GATTTGATGG CCTTCCTGGT CTACCTGGTG AAAAAGGACA CAGAGGCGAG
    CAAGGTCCCA TCGGCCTTCC AGGCTCTCCA GGAGAGGACG GACCGAGGGG TGAGGATGGT
    GAGATTGGAC AGAGAGGAAT GCCGGGAGAA AGTGGTCCAA GAGGTCTGCT GGGCCCCAGA
    GGATCTCCTG GTACTGCTGG ACAGCGTGGA CTGACTGGTT TGGATGGACC ACCTGGCCCT
    AAAGGAAACA TGGGTCCTCA AGGAGAGCCT GGACCTCCTG GTCAACAAGG AAACACCGGA
    CCACATGGTC TGCCTGGTCC TCAAGGCCCC ATCGGTCCAC CTGGAGAGAA AGGTCCCGCA
    GGGAAACAGG GTCTCCATGG ACTCGCTGGA GCTGATGGGC CTCCTGGTCA TCCAGGAAAA
    GAGGGTCCTC CCGGGGACAA AGGAGCAGCT GGCCAGCCGG GTCCCCAGGG GTCCATTGGT
    TATCCCGGGC CTAGAGGTGT GAAGGGTGCT GAAGGCGTCC GAGGTCTGAA AGGAGGCAAA
    GGCGAGAAGG GTGAAGATGG TTTCCCTGGG TTCAAGGGAG ACATGGGCCT CAAGGGTGAC
    AAGGGAGAAG TCGGTGTGAT CGGTCCCAGA GGAGAAGATG GACCTGAGGG GCCAAAGGGT
    AAATCAGGTC CAAGCGGAGA GGCCGGTCCA ATGGGCACAG CAGGAGAGAA GGGAAAACTT
    GGTGTTCCAG GTTTGCCTGG CTATCCTGGA AGGCAAGGAC CAAAGGGCTC TACTGGTTTC
    ATCGGCTTCC CTGGAGCCAA TGGTGAGAAA GGAGGACGGG GTATTGCTGG TAAAGCGGGT
    CCAAGAGGAC AAAGAGGTCC AACGGGTCCC CGCGGTGGAA GAGGTGCCAG AGGTCCAACA
    GGAAAACCCG GAGCTAAGGG AACATCAGGA AATGATGGAC CATCTGGTGG CCCAGGAGAG
    AGAGGACCCC AAGGACCTCA AGGACCTGTT GGATTGACTG GCCCAAAAGG CCCACCTGGG
    CCTCCTGGAA AGGACGGACT GCCCGGTCAC CCTGGACAGC GAGGAGAGAC TGGTTTCCAA
    GGCAAAACTG GACCTCCTGG ACCTGGAGGT GTTGTTGGCC CACAGGGCTC TACGGGAGAA
    ACTGGTCCTG TTGGAGAAAG AGGGCATCCT GGATCCCCAG GACCCCCTGG AGAGCAAGGC
    CTTCCTGGAG CTGCTGGCAA AGAAGGTGGA AAGGGTGATC CAGGTCCTCA GGGAATTTCT
    GGGAAACCTG GCCCTGCTGG ATTGAAAGGG TTTCCAGGAC AAAGGGGGCT TCCTGGCGCA
    GCGGGTCTGT CAGGTCTGAA GGGAGGCGAG GGTCCACAGG GTCCACAAGG CCCTAGCGGA
    TCACCAGGAG AGAGAGGACC CGCTGGACCA GGAGGACCCA TTGGCCAAAC AGGACGCAAC
    GGCCCTCAGG GACCCCCAGG ACCTGCTGGA GAGAAGGGTG GTCCGGGTGA AAAAGGTCCT
    GCTGGTCCTG CCGGTCGGGA TGGCATCCAG GGTCCAGTCG GACTCCCAGG CCCAGCCGGA
    CCTCAAGGTC CGCCTGGAGA GGATGGTGAC AAGGGAGAAG TTGGAGAACC TGGTCAGAAA
    GGAAGCAAAG GTGACAAGGG TGAACACGGT CCTCCAGGTC CAGCAGGTCC TCTGGGTGTT
    GTCGGAGCTC CAGGTCCTGC TGGAAGTGAT GGAGAATCAG GACCCAGGGG TCAGCAGGGG
    ATGTTTGGAC AAAAGGGAGA CGAGGGACCC CGAGGTTTTC CAGGTCTTCC TGGTCCCGTT
    GGATTGCAGG GTTTGCCGGG ACCACCAGGC GAGAAGGGAG AGAATGGAGA TGTTGGCCCA
    ATGGGTCCAC CCGGTCCTCC TGGCCCTAGA GGTCCTCAGG GTTCTAGTGG AGCAGATGGT
    GCTCCTGGTC CTCCTGGAGG TATTGGCGCA ATGGGTGGAA ATGGTGAAAA GGGTGAGACC
    GGAGAGGCAG GTAATCCAGG ACCACCAGGA GAGCCGGGTA CACTTGGACC CAAAGGTGAG
    CTTGGAGAGA AAGGAGAAGC TGGTCCTCCG GGAGCTGCAG GACCTGCCGG TGGAAGAGGA
    CCTCCTGGAG ATGACGGTCC CAAAGGAAAC CCAGGTCCTA TCGGCTTCCC TGGAGATCCA
    GGTCCCCCTG GTGAGCCCGG AGTTGGTGGA CTGGATGGAC TTCCCGGAGA CAAGGGAGAT
    GATGGAGATG CCGGTCAGCC TGGTCCACCC GGTCCATCTG GTGAAGCTGG TTCTCCAGGA
    CCCCCTGGAA AGAGAGGTCC CGCTGGCCCA GCTGGTACAG AAGGCAGACA AGGAGAGAAG
    GGTGCAAAGG GTGAAGCCGG TGCTGAGGGA CCAGGGGGCA AAACTGGGCC TGTGGGCCCC
    CAGGGGCCTC CTGGAAAGTC TGGTGCTGAA GGCTTACGTG GCATTCCTGG GCCTGTGGGT
    GAACAGGGAC TTCCTGGAGC TGCAGGCCAA GATGGACCTC CTGGACCATT GGGTCCTCCA
    GGTCTTCCTG GCTTGAAAGG TGACCCTGGT TCTAAGGGTG AAAAGGGTCA TCCAGGTTTG
    ATTGGTCTGA TCGGTCCTCC TGGTGAGTCT GGAGAAAAAG GTGATCGAGG ACTGCAAGGA
    CCACAGGGTA TTGGCGGAGG CAAGGGTGAT GCTGGTCCCG CTGGTTCATC TGGTCCAGTC
    GGTCCCCCAG GTCCTCCTGG TATTCCTGGC ACACAAGGAC AGAAAGGATC CAAAGGATCA
    ACCGGTCCAG CTGGACAGAA AGGAGAGCCT GGCTTGATCG GACCACCAGG TCCTCCGGGC
    CCCGCTGGTG ACATCATCCA GTCTCTACCC CTCCAGATGA ACAAAAAAGC GAAGAGATCA
    CCTGATGTTC AGGATGATGA AGCAGCACCA ATAGCAGATT ATGGTATGGA GGGAATGGAG
    GATGTGTTTG GATCCCTCAA CACTCTCAAA CAGGACATTG AACGCATGAA GTTCCCATTG
    GGAACCCAGG ATAATCCATC CAGAACCTGC AAAGACCTGC AGCTCAGCCA GCCAGACTTC
    CCTGATGGAT ATTACTGGAT TGATCCAAAT ATGGGATGCA TAAGCGACGC CTTTAAAGTG
    CACTGTAACT TTACTGCCGG AGGAGAGACT TGCATTTACC CTGATAAGAA GTCCTCAGGG
    GTTAGAATAT CAAACTGGCC AAAGGAGTCC CCAGGATCTT GGTTTAGTGA ATTCAAGCGA
    GGAAAAATCT TGTCTTATGT GGATGTTGAG GAGAGCTCCA TAAACTCAGT CCAGATGACG
    TTCCTCAAGC TGCTGAGCTC TTCTGCCCGG CAGAACTTCA CATACATATG CCATCAGTCT
    GTGGCCTGGT ACGACGCCAA GGCTGACAAC TATGACAAGG CTCTGCGCTT CCTGGGCTCC
    AATGATGAGG AAATGTCCTA TGACAACAAC CCCTTCATCA AGGCTCTTTC AGACGGCTGC
    TCGCTGAAGC AGGGCTATTC TAAATCTGTG ATGGAAATCA ACACCCCGCG CATCGAGCAG
    GTGCCCATCA TCGATGTCAT GTTGAATGAC TTTGGGGAGT CCAGTCAAAG GTTTGGCTTT
    GAGGTTGGTC CCGTCTGCTT CCTTGGCTAA

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

    RefSeq XP_017213972.1
    CDS677..4786
    Translation

    Target ORF information:

    RefSeq Version XM_017358483.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio collagen, type XI, alpha 1b (col11a1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017358483.1

    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
    ATGCTTATAG AGGGACCCCC AGGACCACCG GGGCCCGCCG GCCTCCCCGG CACTCCAGGC 
    ATACAAGGCT CCCCGGGCCT CCATGGAGAT CCAGGTGAAA GAGGTCCTCC TGGTCGTCCA
    GGTTTGCCAG GCGGTGATGG AGCTCCCGGG CCTTCTGGCA CCATCCTCAT GTTGCCGTTC
    CGCGCCGGTG GAGAATCTTC AAAAGGCCCG GTTGTGTCGG CACAAGAAGC TCAGGCCCAA
    GCCATTCTCG CCCAGGCGCG GTTGACTATG AGGGGACCTC CAGGTCCAAT GGGATTGACA
    GGACGCTCCG GCCCTGTGGG TGGTCCTGGT GCACCTGGTG CTAAAGGGGA AAGCGGAGAT
    TCTGGCCCAC AGGGACCAAG AGGACTTCAA GGCCCAACTG GTTCACCTGG AAAACCTGGC
    AAGAGGGGCC GAAATGGAGC AGATGGAGCC AGAGGAATTC CTGGAGAATC GGGAGCCAAG
    GGCGACCGAG GATTTGATGG CCTTCCTGGT CTACCTGGTG AAAAAGGACA CAGAGGCGAG
    CAAGGTCCCA TCGGCCTTCC AGGCTCTCCA GGAGAGGACG GACCGAGGGG TGAGGATGGT
    GAGATTGGAC AGAGAGGAAT GCCGGGAGAA AGTGGTCCAA GAGGTCTGCT GGGCCCCAGA
    GGATCTCCTG GTACTGCTGG ACAGCGTGGA CTGACTGGTT TGGATGGACC ACCTGGCCCT
    AAAGGAAACA TGGGTCCTCA AGGAGAGCCT GGACCTCCTG GTCAACAAGG AAACACCGGA
    CCACATGGTC TGCCTGGTCC TCAAGGCCCC ATCGGTCCAC CTGGAGAGAA AGGTCCCGCA
    GGGAAACAGG GTCTCCATGG ACTCGCTGGA GCTGATGGGC CTCCTGGTCA TCCAGGAAAA
    GAGGGTCCTC CCGGGGACAA AGGAGCAGCT GGCCAGCCGG GTCCCCAGGG GTCCATTGGT
    TATCCCGGGC CTAGAGGTGT GAAGGGTGCT GAAGGCGTCC GAGGTCTGAA AGGAGGCAAA
    GGCGAGAAGG GTGAAGATGG TTTCCCTGGG TTCAAGGGAG ACATGGGCCT CAAGGGTGAC
    AAGGGAGAAG TCGGTGTGAT CGGTCCCAGA GGAGAAGATG GACCTGAGGG GCCAAAGGGT
    AAATCAGGTC CAAGCGGAGA GGCCGGTCCA ATGGGCACAG CAGGAGAGAA GGGAAAACTT
    GGTGTTCCAG GTTTGCCTGG CTATCCTGGA AGGCAAGGAC CAAAGGGCTC TACTGGTTTC
    ATCGGCTTCC CTGGAGCCAA TGGTGAGAAA GGAGGACGGG GTATTGCTGG TAAAGCGGGT
    CCAAGAGGAC AAAGAGGTCC AACGGGTCCC CGCGGTGGAA GAGGTGCCAG AGGTCCAACA
    GGAAAACCCG GAGCTAAGGG AACATCAGGA AATGATGGAC CATCTGGTGG CCCAGGAGAG
    AGAGGACCCC AAGGACCTCA AGGACCTGTT GGATTGACTG GCCCAAAAGG CCCACCTGGG
    CCTCCTGGAA AGGACGGACT GCCCGGTCAC CCTGGACAGC GAGGAGAGAC TGGTTTCCAA
    GGCAAAACTG GACCTCCTGG ACCTGGAGGT GTTGTTGGCC CACAGGGCTC TACGGGAGAA
    ACTGGTCCTG TTGGAGAAAG AGGGCATCCT GGATCCCCAG GACCCCCTGG AGAGCAAGGC
    CTTCCTGGAG CTGCTGGCAA AGAAGGTGGA AAGGGTGATC CAGGTCCTCA GGGAATTTCT
    GGGAAACCTG GCCCTGCTGG ATTGAAAGGG TTTCCAGGAC AAAGGGGGCT TCCTGGCGCA
    GCGGGTCTGT CAGGTCTGAA GGGAGGCGAG GGTCCACAGG GTCCACAAGG CCCTAGCGGA
    TCACCAGGAG AGAGAGGACC CGCTGGACCA GGAGGACCCA TTGGCCAAAC AGGACGCAAC
    GGCCCTCAGG GACCCCCAGG ACCTGCTGGA GAGAAGGGTG GTCCGGGTGA AAAAGGTCCT
    GCTGGTCCTG CCGGTCGGGA TGGCATCCAG GGTCCAGTCG GACTCCCAGG CCCAGCCGGA
    CCTCAAGGTC CGCCTGGAGA GGATGGTGAC AAGGGAGAAG TTGGAGAACC TGGTCAGAAA
    GGAAGCAAAG GTGACAAGGG TGAACACGGT CCTCCAGGTC CAGCAGGTCC TCTGGGTGTT
    GTCGGAGCTC CAGGTCCTGC TGGAAGTGAT GGAGAATCAG GACCCAGGGG TCAGCAGGGG
    ATGTTTGGAC AAAAGGGAGA CGAGGGACCC CGAGGTTTTC CAGGTCTTCC TGGTCCCGTT
    GGATTGCAGG GTTTGCCGGG ACCACCAGGC GAGAAGGGAG AGAATGGAGA TGTTGGCCCA
    ATGGGTCCAC CCGGTCCTCC TGGCCCTAGA GGTCCTCAGG GTTCTAGTGG AGCAGATGGT
    GCTCCTGGTC CTCCTGGAGG TATTGGCGCA ATGGGTGGAA ATGGTGAAAA GGGTGAGACC
    GGAGAGGCAG GTAATCCAGG ACCACCAGGA GAGCCGGGTA CACTTGGACC CAAAGGTGAG
    CTTGGAGAGA AAGGAGAAGC TGGTCCTCCG GGAGCTGCAG GACCTGCCGG TGGAAGAGGA
    CCTCCTGGAG ATGACGGTCC CAAAGGAAAC CCAGGTCCTA TCGGCTTCCC TGGAGATCCA
    GGTCCCCCTG GTGAGCCCGG AGTTGGTGGA CTGGATGGAC TTCCCGGAGA CAAGGGAGAT
    GATGGAGATG CCGGTCAGCC TGGTCCACCC GGTCCATCTG GTGAAGCTGG TTCTCCAGGA
    CCCCCTGGAA AGAGAGGTCC CGCTGGCCCA GCTGGTACAG AAGGCAGACA AGGAGAGAAG
    GGTGCAAAGG GTGAAGCCGG TGCTGAGGGA CCAGGGGGCA AAACTGGGCC TGTGGGCCCC
    CAGGGGCCTC CTGGAAAGTC TGGTGCTGAA GGCTTACGTG GCATTCCTGG GCCTGTGGGT
    GAACAGGGAC TTCCTGGAGC TGCAGGCCAA GATGGACCTC CTGGACCATT GGGTCCTCCA
    GGTCTTCCTG GCTTGAAAGG TGACCCTGGT TCTAAGGGTG AAAAGGGTCA TCCAGGTTTG
    ATTGGTCTGA TCGGTCCTCC TGGTGAGTCT GGAGAAAAAG GTGATCGAGG ACTGCAAGGA
    CCACAGGGTA TTGGCGGAGG CAAGGGTGAT GCTGGTCCCG CTGGTTCATC TGGTCCAGTC
    GGTCCCCCAG GTCCTCCTGG TATTCCTGGC ACACAAGGAC AGAAAGGATC CAAAGGATCA
    ACCGGTCCAG CTGGACAGAA AGGAGAGCCT GGCTTGATCG GACCACCAGG TCCTCCGGGC
    CCCGCTGGTG ACATCATCCA GTCTCTACCC CTCCAGATGA ACAAAAAAGC GAAGAGATCA
    CCTGATGTTC AGGATGATGA AGCAGCACCA ATAGCAGATT ATGGTATGGA GGGAATGGAG
    GATGTGTTTG GATCCCTCAA CACTCTCAAA CAGGACATTG AACGCATGAA GTTCCCATTG
    GGAACCCAGG ATAATCCATC CAGAACCTGC AAAGACCTGC AGCTCAGCCA GCCAGACTTC
    CCTGATGGAT ATTACTGGAT TGATCCAAAT ATGGGATGCA TAAGCGACGC CTTTAAAGTG
    CACTGTAACT TTACTGCCGG AGGAGAGACT TGCATTTACC CTGATAAGAA GTCCTCAGGG
    GTTAGAATAT CAAACTGGCC AAAGGAGTCC CCAGGATCTT GGTTTAGTGA ATTCAAGCGA
    GGAAAAATCT TGTCTTATGT GGATGTTGAG GAGAGCTCCA TAAACTCAGT CCAGATGACG
    TTCCTCAAGC TGCTGAGCTC TTCTGCCCGG CAGAACTTCA CATACATATG CCATCAGTCT
    GTGGCCTGGT ACGACGCCAA GGCTGACAAC TATGACAAGG CTCTGCGCTT CCTGGGCTCC
    AATGATGAGG AAATGTCCTA TGACAACAAC CCCTTCATCA AGGCTCTTTC AGACGGCTGC
    TCGCTGAAGC AGGGCTATTC TAAATCTGTG ATGGAAATCA ACACCCCGCG CATCGAGCAG
    GTGCCCATCA TCGATGTCAT GTTGAATGAC TTTGGGGAGT CCAGTCAAAG GTTTGGCTTT
    GAGGTTGGTC CCGTCTGCTT CCTTGGCTAA

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