col28a1a cDNA ORF clone, Danio rerio(zebrafish)

The following col28a1a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the col28a1a 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
ODa24215 NM_001348047.1
Latest version!
Danio rerio collagen, type XXVIII, alpha 1a (col28a1a), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa24215 XM_021468067.1
Latest version!
Danio rerio collagen, type XXVIII, alpha 1a (col28a1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa24215
    Clone ID Related Accession (Same CDS sequence) XM_021468067.1 , NM_001348047.1
    Accession Version NM_001348047.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3513bp)
    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(XXVIII) chain precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX927077.10 and CR318650.11. On Jan 5, 2017 this sequence version replaced XM_009294271.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## CDS exon combination :: AM947022.1 [ECO:0000331] RNAseq introns :: single sample supports all introns SAMEA4476730, SAMEA4476732 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCAGTGTG GTGCAGTGAT GCTGTGTCTG CTGCTGCTTA TTCTGTGCTG TAGTGCCAGA 
    AGCCAGAACA GAAGAAAAAA CAGACAGAAG CCCGACAACA ATGTCAACAC AAATGGAGTC
    AAAACTTTAT TCTGTCCAGT GGAGCTGGCG TTTTTGGTGG ACAGCTCAGA GAAAGCCACA
    ATGCTGTTTG AGAGGCAGAG GGAGTTTGTG TTGCGCTTCA GCACCAGGCT GACGCAGATG
    CAGGTTCCCG GCTGGCGGAT GCGGGTGAGA CTCGCCGTCC TGCAATACAG CAGCACCGTC
    TCACTGGAGC ACAACTTCCG GGACTGGCAG GACATAGATG TGTTCCAAAG CCGAGTTGAT
    TCAATGACCT ACATCGGCCA TGGCACCTAC TCAGCTTATG CCATCTCAAA TGCCACTCAG
    CTCTTCACCC AAGAGACAGC ACCTACTAGC TTTAGAGCAG CACTTTTACT GACAGACGGA
    GATGATCACC CACGCAGCCC CAGTGCTGTG ACTGCAGCCT CCGATGCTAA GATCCACGAC
    ATCCATATGT TTGTTATTGG GTTGCCAGGA TCTTCACGAG ATGAGCAAGA CTATGGTAGA
    TTGAGGTCTA TTGCCAGTGC TCCTCCCCAG CAATACCTCT TCAGCCTTAC TGACCCACAG
    CTGGATGACA AGCTCTTCAG GGAACTGAGT GAGCTTGCGA ACAGAGCTTG TCCACAGCCC
    AAATCCTGTC TGTGTGAGAA AGGGGAGCGG GGTCTTCCCG GAAATCCAGG TAAAGTAGGC
    GATGCAGGAT TCGATGGACC TCCTGGTCCT AAAGGATCTA GAGGACAGCC TGGTTTAAAT
    GGACGTCCAG GACTAGAAGG AATAAGGGGA AGACCAGGAC TAAAAGGAGA AAAGGGCGGC
    AAAGGAGAAT GTGGTGCCTC CGGGATAAAG GGAGATCAAG GCCCAGACGG ATCTCCAGGA
    CCACGAGGAC CAAGAGGAGA TAAGGGATTG ACTGGCAACC CTGGTGACAC TGGCCCTGAA
    GGCCCTGTTG GATCTAAAGG TGAGCGAGGA CCTAGTGGAC CCACTGGCCC TCCAGGAGAT
    CCAGGGGTCG GCTTTCCTGG TGCAAAGGGG GAGAAAGGTA GCCAAGGCAG GCCAGGGCCC
    ACTGGACCTG TTGGTATAGG AGAGCCTGGA ATGCCTGGGC CACCAGGAAC TCAAGGTGTT
    CAAGGCAATC AAGGGTTTCC TGGCGAGGGT TTACCAGGAC AAAAGGGTGA CAGAGGATTT
    GAGGGCCCTA AAGGTGTACG AGGACCTCCT GGGTCAAGCA TTAAGGGTGA TAAGGGTAAC
    ACAGGAGAAC GGGGTTTACC TGGACTGGTG GGATTTCCAG GAGCTGGGAT CCAGGGTGAA
    AAGGGGGATC TAGGACCTAT AGGACCACCT GGACCAAGAG GCCCTCCTGG AGTGGGCTTG
    GTTGGCCCAA AGGGAGATCA GGGCTTTCCA GGAGAATCTG GACCACAAGG AGAGAGAGGA
    ATAGGAGAAC CAGGACCAAA AGGGGAACCA GGACCAGTCG GAGCACCTGG TATTCCTGGA
    ATTCCAGGTG AAGATGGTTC TGTAGGTCCA AAGGGTGAGA TGGGTTTATC TGGTGAAAGA
    GGTCAAGAGG GCTCACCTGG GAAAGGAATT CCTGGTGAAA AGGGGGACAG AGGTGATAGA
    GGATCTCGGG GTCCCCCAGG AAGCTCTGGA GCAGCGGGAC CACCAGGGGC CAAAGGAGAA
    CCAGGAAGTT TAGGAATGAT GGGATTACCA GGACCTTCAG GTCGAGGATT ACCTGGTGCC
    AAGGGTGAGC CAGGACCTGC AGGCCCTCCT GGTCATGTTG GAGAGCCAGG TGTTGGGACT
    ACAGGACCTA AGGGAGACAG AGGAAGTCCG GGACCAGTAG GACCACAAGG AATGAAAGGG
    GATGGATATC CTGGACCACA GGGTCTTCCA GGGTTGCCTG GGCTCCCAGG TGAAATTGGG
    CCTGAAGGAC AGGGAATTCC AGGACCAAAG GGAGACAGGG GCTCACCAGG GGTTACTGGC
    CCATCAGGAC CTCCAGGAAT TGGACTGCCT GGACCAAAGG GTGCCGTTGG GCAGCCTGGT
    GCTCCTGGTC TTTCAGGCCC ACCAGGAGAG GGAATTCAGG GTCCCAAGGG TGACCCTGGA
    TTTCAAGGGC TTCCTGGCCC AAGAGGCCCT CCAGGTGATG GTCTGCCAGG GGAGAAGGGG
    GACAGAGGCC TATCAGGAGA GCGTGGGAGA AAAGGAGAAA GAGGAGAACA TGGAATGCCT
    GGACAAACAG GATCCAAGGG AAAGCCTGGA GAGAAGGGAG ATCCTGGCCT ATCTAGAGAA
    GAGGTGATCA AAATAATCCG GGAAATATGT GGGTGTGGTG TGAAATGCCG GACGAGTCCA
    CTGGAGCTGG TGTTTGTTAT CGACAGCTCA GAAAGTGTGG GTCCAGATAA CTATGAAGTG
    GTGAAGGATT TCGTAAACTC TCTGATTGAT CATGTGTCTG TAAGCCGTGA GGCCACACGT
    GTTGGGGTGG TGCTCTACAG TCACGTGGAG GTGGTGGTGG CCAGTCTGCA ACAGCTGTAT
    GACCAGGCTG CTGTCAAGAC TGCTGTGCGC AGGATGCCAT ACCTGGGTGA GGGCACCTTT
    ACAGGGAGTG CCATCCGACG GGCAACTCAG CTGTTCCAAG CAGCACGACC AGGAGTTAGA
    AAGGTTGCGG TTGTGCTGAC GGATGGCCTG GCAGACAACC GGGATGCAGT GAGTTTAAAA
    GATGCTGCAG AAGGTGCACA CAGTGCTGGG ATTGAAATCT TTGTAGTTGG TATTGTGAAC
    AACAGTGACT CTCAGTATGC AGAGTTTAAG AATGAGATGA ACATTCTGGC ATCTGATCCA
    GATGAAAATT ATGTCTACTT GACTGATGAC TTCTTGAAAC TGCACGCGCT GGAGAGTAGA
    TTGTTGAATC ATATCTGTGA GCATGACAAT GGAAAGGTCT TCAGCTCGAG TGGCAAAACA
    ATCCATCCTT TTGGACCTGA TCCTGTTCCA GACAGAACTG AGCCTCCCAC CAGTGATTAT
    TTCATCACAG AGGGCAAAGA GGATACACCT CCAATAGACT TTGAGACTTT GCCCCAGCAA
    CCTGAAGACT ATGATGACAT TCATATTGAC ACTAGCTATT TTGATGGCTC TGTCAACGAG
    ATTCCTTGGG TGACAGAGAC CCCAGACGGA AATAAGACAA GACAACAGTC GTCCATCTCA
    GTAGTAGGAC CTCAGACACC AATTAACTGG CACCATGTTC AAGAAAGCAG TCCACCTCCA
    AAAACTCTAC AGCCACCTCA CCCTGACAAC TCGCTGAAAC ATGTAGGCTG TGGCCAGGGA
    TTGGACCCGG GGCCCTGTAG GGAATACAGT GTGATGTGGT ACTACGACCC GCAGGCCAAT
    GCATGTGCAC AGTTTTGGTA CGGTGGCTGC CAAGGCAATA GCAACCGCTT TGAAACAGAG
    GACATTTGTA AAAGCACTTG TGTGCAGACA TAA

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

    RefSeq NP_001334976.1
    CDS395..3907
    Translation

    Target ORF information:

    RefSeq Version NM_001348047.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XXVIII, alpha 1a (col28a1a), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001348047.1

    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
    ATGCAGTGTG GTGCAGTGAT GCTGTGTCTG CTGCTGCTTA TTCTGTGCTG TAGTGCCAGA 
    AGCCAGAACA GAAGAAAAAA CAGACAGAAG CCCGACAACA ATGTCAACAC AAATGGAGTC
    AAAACTTTAT TCTGTCCAGT GGAGCTGGCG TTTTTGGTGG ACAGCTCAGA GAAAGCCACA
    ATGCTGTTTG AGAGGCAGAG GGAGTTTGTG TTGCGCTTCA GCACCAGGCT GACGCAGATG
    CAGGTTCCCG GCTGGCGGAT GCGGGTGAGA CTCGCCGTCC TGCAATACAG CAGCACCGTC
    TCACTGGAGC ACAACTTCCG GGACTGGCAG GACATAGATG TGTTCCAAAG CCGAGTTGAT
    TCAATGACCT ACATCGGCCA TGGCACCTAC TCAGCTTATG CCATCTCAAA TGCCACTCAG
    CTCTTCACCC AAGAGACAGC ACCTACTAGC TTTAGAGCAG CACTTTTACT GACAGACGGA
    GATGATCACC CACGCAGCCC CAGTGCTGTG ACTGCAGCCT CCGATGCTAA GATCCACGAC
    ATCCATATGT TTGTTATTGG GTTGCCAGGA TCTTCACGAG ATGAGCAAGA CTATGGTAGA
    TTGAGGTCTA TTGCCAGTGC TCCTCCCCAG CAATACCTCT TCAGCCTTAC TGACCCACAG
    CTGGATGACA AGCTCTTCAG GGAACTGAGT GAGCTTGCGA ACAGAGCTTG TCCACAGCCC
    AAATCCTGTC TGTGTGAGAA AGGGGAGCGG GGTCTTCCCG GAAATCCAGG TAAAGTAGGC
    GATGCAGGAT TCGATGGACC TCCTGGTCCT AAAGGATCTA GAGGACAGCC TGGTTTAAAT
    GGACGTCCAG GACTAGAAGG AATAAGGGGA AGACCAGGAC TAAAAGGAGA AAAGGGCGGC
    AAAGGAGAAT GTGGTGCCTC CGGGATAAAG GGAGATCAAG GCCCAGACGG ATCTCCAGGA
    CCACGAGGAC CAAGAGGAGA TAAGGGATTG ACTGGCAACC CTGGTGACAC TGGCCCTGAA
    GGCCCTGTTG GATCTAAAGG TGAGCGAGGA CCTAGTGGAC CCACTGGCCC TCCAGGAGAT
    CCAGGGGTCG GCTTTCCTGG TGCAAAGGGG GAGAAAGGTA GCCAAGGCAG GCCAGGGCCC
    ACTGGACCTG TTGGTATAGG AGAGCCTGGA ATGCCTGGGC CACCAGGAAC TCAAGGTGTT
    CAAGGCAATC AAGGGTTTCC TGGCGAGGGT TTACCAGGAC AAAAGGGTGA CAGAGGATTT
    GAGGGCCCTA AAGGTGTACG AGGACCTCCT GGGTCAAGCA TTAAGGGTGA TAAGGGTAAC
    ACAGGAGAAC GGGGTTTACC TGGACTGGTG GGATTTCCAG GAGCTGGGAT CCAGGGTGAA
    AAGGGGGATC TAGGACCTAT AGGACCACCT GGACCAAGAG GCCCTCCTGG AGTGGGCTTG
    GTTGGCCCAA AGGGAGATCA GGGCTTTCCA GGAGAATCTG GACCACAAGG AGAGAGAGGA
    ATAGGAGAAC CAGGACCAAA AGGGGAACCA GGACCAGTCG GAGCACCTGG TATTCCTGGA
    ATTCCAGGTG AAGATGGTTC TGTAGGTCCA AAGGGTGAGA TGGGTTTATC TGGTGAAAGA
    GGTCAAGAGG GCTCACCTGG GAAAGGAATT CCTGGTGAAA AGGGGGACAG AGGTGATAGA
    GGATCTCGGG GTCCCCCAGG AAGCTCTGGA GCAGCGGGAC CACCAGGGGC CAAAGGAGAA
    CCAGGAAGTT TAGGAATGAT GGGATTACCA GGACCTTCAG GTCGAGGATT ACCTGGTGCC
    AAGGGTGAGC CAGGACCTGC AGGCCCTCCT GGTCATGTTG GAGAGCCAGG TGTTGGGACT
    ACAGGACCTA AGGGAGACAG AGGAAGTCCG GGACCAGTAG GACCACAAGG AATGAAAGGG
    GATGGATATC CTGGACCACA GGGTCTTCCA GGGTTGCCTG GGCTCCCAGG TGAAATTGGG
    CCTGAAGGAC AGGGAATTCC AGGACCAAAG GGAGACAGGG GCTCACCAGG GGTTACTGGC
    CCATCAGGAC CTCCAGGAAT TGGACTGCCT GGACCAAAGG GTGCCGTTGG GCAGCCTGGT
    GCTCCTGGTC TTTCAGGCCC ACCAGGAGAG GGAATTCAGG GTCCCAAGGG TGACCCTGGA
    TTTCAAGGGC TTCCTGGCCC AAGAGGCCCT CCAGGTGATG GTCTGCCAGG GGAGAAGGGG
    GACAGAGGCC TATCAGGAGA GCGTGGGAGA AAAGGAGAAA GAGGAGAACA TGGAATGCCT
    GGACAAACAG GATCCAAGGG AAAGCCTGGA GAGAAGGGAG ATCCTGGCCT ATCTAGAGAA
    GAGGTGATCA AAATAATCCG GGAAATATGT GGGTGTGGTG TGAAATGCCG GACGAGTCCA
    CTGGAGCTGG TGTTTGTTAT CGACAGCTCA GAAAGTGTGG GTCCAGATAA CTATGAAGTG
    GTGAAGGATT TCGTAAACTC TCTGATTGAT CATGTGTCTG TAAGCCGTGA GGCCACACGT
    GTTGGGGTGG TGCTCTACAG TCACGTGGAG GTGGTGGTGG CCAGTCTGCA ACAGCTGTAT
    GACCAGGCTG CTGTCAAGAC TGCTGTGCGC AGGATGCCAT ACCTGGGTGA GGGCACCTTT
    ACAGGGAGTG CCATCCGACG GGCAACTCAG CTGTTCCAAG CAGCACGACC AGGAGTTAGA
    AAGGTTGCGG TTGTGCTGAC GGATGGCCTG GCAGACAACC GGGATGCAGT GAGTTTAAAA
    GATGCTGCAG AAGGTGCACA CAGTGCTGGG ATTGAAATCT TTGTAGTTGG TATTGTGAAC
    AACAGTGACT CTCAGTATGC AGAGTTTAAG AATGAGATGA ACATTCTGGC ATCTGATCCA
    GATGAAAATT ATGTCTACTT GACTGATGAC TTCTTGAAAC TGCACGCGCT GGAGAGTAGA
    TTGTTGAATC ATATCTGTGA GCATGACAAT GGAAAGGTCT TCAGCTCGAG TGGCAAAACA
    ATCCATCCTT TTGGACCTGA TCCTGTTCCA GACAGAACTG AGCCTCCCAC CAGTGATTAT
    TTCATCACAG AGGGCAAAGA GGATACACCT CCAATAGACT TTGAGACTTT GCCCCAGCAA
    CCTGAAGACT ATGATGACAT TCATATTGAC ACTAGCTATT TTGATGGCTC TGTCAACGAG
    ATTCCTTGGG TGACAGAGAC CCCAGACGGA AATAAGACAA GACAACAGTC GTCCATCTCA
    GTAGTAGGAC CTCAGACACC AATTAACTGG CACCATGTTC AAGAAAGCAG TCCACCTCCA
    AAAACTCTAC AGCCACCTCA CCCTGACAAC TCGCTGAAAC ATGTAGGCTG TGGCCAGGGA
    TTGGACCCGG GGCCCTGTAG GGAATACAGT GTGATGTGGT ACTACGACCC GCAGGCCAAT
    GCATGTGCAC AGTTTTGGTA CGGTGGCTGC CAAGGCAATA GCAACCGCTT TGAAACAGAG
    GACATTTGTA AAAGCACTTG TGTGCAGACA TAA

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

    CloneID ODa24215
    Clone ID Related Accession (Same CDS sequence) XM_021468067.1 , NM_001348047.1
    Accession Version XM_021468067.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3513bp)
    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(XXVIII) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007130.7) 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 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
    ATGCAGTGTG GTGCAGTGAT GCTGTGTCTG CTGCTGCTTA TTCTGTGCTG TAGTGCCAGA 
    AGCCAGAACA GAAGAAAAAA CAGACAGAAG CCCGACAACA ATGTCAACAC AAATGGAGTC
    AAAACTTTAT TCTGTCCAGT GGAGCTGGCG TTTTTGGTGG ACAGCTCAGA GAAAGCCACA
    ATGCTGTTTG AGAGGCAGAG GGAGTTTGTG TTGCGCTTCA GCACCAGGCT GACGCAGATG
    CAGGTTCCCG GCTGGCGGAT GCGGGTGAGA CTCGCCGTCC TGCAATACAG CAGCACCGTC
    TCACTGGAGC ACAACTTCCG GGACTGGCAG GACATAGATG TGTTCCAAAG CCGAGTTGAT
    TCAATGACCT ACATCGGCCA TGGCACCTAC TCAGCTTATG CCATCTCAAA TGCCACTCAG
    CTCTTCACCC AAGAGACAGC ACCTACTAGC TTTAGAGCAG CACTTTTACT GACAGACGGA
    GATGATCACC CACGCAGCCC CAGTGCTGTG ACTGCAGCCT CCGATGCTAA GATCCACGAC
    ATCCATATGT TTGTTATTGG GTTGCCAGGA TCTTCACGAG ATGAGCAAGA CTATGGTAGA
    TTGAGGTCTA TTGCCAGTGC TCCTCCCCAG CAATACCTCT TCAGCCTTAC TGACCCACAG
    CTGGATGACA AGCTCTTCAG GGAACTGAGT GAGCTTGCGA ACAGAGCTTG TCCACAGCCC
    AAATCCTGTC TGTGTGAGAA AGGGGAGCGG GGTCTTCCCG GAAATCCAGG TAAAGTAGGC
    GATGCAGGAT TCGATGGACC TCCTGGTCCT AAAGGATCTA GAGGACAGCC TGGTTTAAAT
    GGACGTCCAG GACTAGAAGG AATAAGGGGA AGACCAGGAC TAAAAGGAGA AAAGGGCGGC
    AAAGGAGAAT GTGGTGCCTC CGGGATAAAG GGAGATCAAG GCCCAGACGG ATCTCCAGGA
    CCACGAGGAC CAAGAGGAGA TAAGGGATTG ACTGGCAACC CTGGTGACAC TGGCCCTGAA
    GGCCCTGTTG GATCTAAAGG TGAGCGAGGA CCTAGTGGAC CCACTGGCCC TCCAGGAGAT
    CCAGGGGTCG GCTTTCCTGG TGCAAAGGGG GAGAAAGGTA GCCAAGGCAG GCCAGGGCCC
    ACTGGACCTG TTGGTATAGG AGAGCCTGGA ATGCCTGGGC CACCAGGAAC TCAAGGTGTT
    CAAGGCAATC AAGGGTTTCC TGGCGAGGGT TTACCAGGAC AAAAGGGTGA CAGAGGATTT
    GAGGGCCCTA AAGGTGTACG AGGACCTCCT GGGTCAAGCA TTAAGGGTGA TAAGGGTAAC
    ACAGGAGAAC GGGGTTTACC TGGACTGGTG GGATTTCCAG GAGCTGGGAT CCAGGGTGAA
    AAGGGGGATC TAGGACCTAT AGGACCACCT GGACCAAGAG GCCCTCCTGG AGTGGGCTTG
    GTTGGCCCAA AGGGAGATCA GGGCTTTCCA GGAGAATCTG GACCACAAGG AGAGAGAGGA
    ATAGGAGAAC CAGGACCAAA AGGGGAACCA GGACCAGTCG GAGCACCTGG TATTCCTGGA
    ATTCCAGGTG AAGATGGTTC TGTAGGTCCA AAGGGTGAGA TGGGTTTATC TGGTGAAAGA
    GGTCAAGAGG GCTCACCTGG GAAAGGAATT CCTGGTGAAA AGGGGGACAG AGGTGATAGA
    GGATCTCGGG GTCCCCCAGG AAGCTCTGGA GCAGCGGGAC CACCAGGGGC CAAAGGAGAA
    CCAGGAAGTT TAGGAATGAT GGGATTACCA GGACCTTCAG GTCGAGGATT ACCTGGTGCC
    AAGGGTGAGC CAGGACCTGC AGGCCCTCCT GGTCATGTTG GAGAGCCAGG TGTTGGGACT
    ACAGGACCTA AGGGAGACAG AGGAAGTCCG GGACCAGTAG GACCACAAGG AATGAAAGGG
    GATGGATATC CTGGACCACA GGGTCTTCCA GGGTTGCCTG GGCTCCCAGG TGAAATTGGG
    CCTGAAGGAC AGGGAATTCC AGGACCAAAG GGAGACAGGG GCTCACCAGG GGTTACTGGC
    CCATCAGGAC CTCCAGGAAT TGGACTGCCT GGACCAAAGG GTGCCGTTGG GCAGCCTGGT
    GCTCCTGGTC TTTCAGGCCC ACCAGGAGAG GGAATTCAGG GTCCCAAGGG TGACCCTGGA
    TTTCAAGGGC TTCCTGGCCC AAGAGGCCCT CCAGGTGATG GTCTGCCAGG GGAGAAGGGG
    GACAGAGGCC TATCAGGAGA GCGTGGGAGA AAAGGAGAAA GAGGAGAACA TGGAATGCCT
    GGACAAACAG GATCCAAGGG AAAGCCTGGA GAGAAGGGAG ATCCTGGCCT ATCTAGAGAA
    GAGGTGATCA AAATAATCCG GGAAATATGT GGGTGTGGTG TGAAATGCCG GACGAGTCCA
    CTGGAGCTGG TGTTTGTTAT CGACAGCTCA GAAAGTGTGG GTCCAGATAA CTATGAAGTG
    GTGAAGGATT TCGTAAACTC TCTGATTGAT CATGTGTCTG TAAGCCGTGA GGCCACACGT
    GTTGGGGTGG TGCTCTACAG TCACGTGGAG GTGGTGGTGG CCAGTCTGCA ACAGCTGTAT
    GACCAGGCTG CTGTCAAGAC TGCTGTGCGC AGGATGCCAT ACCTGGGTGA GGGCACCTTT
    ACAGGGAGTG CCATCCGACG GGCAACTCAG CTGTTCCAAG CAGCACGACC AGGAGTTAGA
    AAGGTTGCGG TTGTGCTGAC GGATGGCCTG GCAGACAACC GGGATGCAGT GAGTTTAAAA
    GATGCTGCAG AAGGTGCACA CAGTGCTGGG ATTGAAATCT TTGTAGTTGG TATTGTGAAC
    AACAGTGACT CTCAGTATGC AGAGTTTAAG AATGAGATGA ACATTCTGGC ATCTGATCCA
    GATGAAAATT ATGTCTACTT GACTGATGAC TTCTTGAAAC TGCACGCGCT GGAGAGTAGA
    TTGTTGAATC ATATCTGTGA GCATGACAAT GGAAAGGTCT TCAGCTCGAG TGGCAAAACA
    ATCCATCCTT TTGGACCTGA TCCTGTTCCA GACAGAACTG AGCCTCCCAC CAGTGATTAT
    TTCATCACAG AGGGCAAAGA GGATACACCT CCAATAGACT TTGAGACTTT GCCCCAGCAA
    CCTGAAGACT ATGATGACAT TCATATTGAC ACTAGCTATT TTGATGGCTC TGTCAACGAG
    ATTCCTTGGG TGACAGAGAC CCCAGACGGA AATAAGACAA GACAACAGTC GTCCATCTCA
    GTAGTAGGAC CTCAGACACC AATTAACTGG CACCATGTTC AAGAAAGCAG TCCACCTCCA
    AAAACTCTAC AGCCACCTCA CCCTGACAAC TCGCTGAAAC ATGTAGGCTG TGGCCAGGGA
    TTGGACCCGG GGCCCTGTAG GGAATACAGT GTGATGTGGT ACTACGACCC GCAGGCCAAT
    GCATGTGCAC AGTTTTGGTA CGGTGGCTGC CAAGGCAATA GCAACCGCTT TGAAACAGAG
    GACATTTGTA AAAGCACTTG TGTGCAGACA TAA

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

    RefSeq XP_021323742.1
    CDS288..3800
    Translation

    Target ORF information:

    RefSeq Version XM_021468067.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XXVIII, alpha 1a (col28a1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021468067.1

    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
    ATGCAGTGTG GTGCAGTGAT GCTGTGTCTG CTGCTGCTTA TTCTGTGCTG TAGTGCCAGA 
    AGCCAGAACA GAAGAAAAAA CAGACAGAAG CCCGACAACA ATGTCAACAC AAATGGAGTC
    AAAACTTTAT TCTGTCCAGT GGAGCTGGCG TTTTTGGTGG ACAGCTCAGA GAAAGCCACA
    ATGCTGTTTG AGAGGCAGAG GGAGTTTGTG TTGCGCTTCA GCACCAGGCT GACGCAGATG
    CAGGTTCCCG GCTGGCGGAT GCGGGTGAGA CTCGCCGTCC TGCAATACAG CAGCACCGTC
    TCACTGGAGC ACAACTTCCG GGACTGGCAG GACATAGATG TGTTCCAAAG CCGAGTTGAT
    TCAATGACCT ACATCGGCCA TGGCACCTAC TCAGCTTATG CCATCTCAAA TGCCACTCAG
    CTCTTCACCC AAGAGACAGC ACCTACTAGC TTTAGAGCAG CACTTTTACT GACAGACGGA
    GATGATCACC CACGCAGCCC CAGTGCTGTG ACTGCAGCCT CCGATGCTAA GATCCACGAC
    ATCCATATGT TTGTTATTGG GTTGCCAGGA TCTTCACGAG ATGAGCAAGA CTATGGTAGA
    TTGAGGTCTA TTGCCAGTGC TCCTCCCCAG CAATACCTCT TCAGCCTTAC TGACCCACAG
    CTGGATGACA AGCTCTTCAG GGAACTGAGT GAGCTTGCGA ACAGAGCTTG TCCACAGCCC
    AAATCCTGTC TGTGTGAGAA AGGGGAGCGG GGTCTTCCCG GAAATCCAGG TAAAGTAGGC
    GATGCAGGAT TCGATGGACC TCCTGGTCCT AAAGGATCTA GAGGACAGCC TGGTTTAAAT
    GGACGTCCAG GACTAGAAGG AATAAGGGGA AGACCAGGAC TAAAAGGAGA AAAGGGCGGC
    AAAGGAGAAT GTGGTGCCTC CGGGATAAAG GGAGATCAAG GCCCAGACGG ATCTCCAGGA
    CCACGAGGAC CAAGAGGAGA TAAGGGATTG ACTGGCAACC CTGGTGACAC TGGCCCTGAA
    GGCCCTGTTG GATCTAAAGG TGAGCGAGGA CCTAGTGGAC CCACTGGCCC TCCAGGAGAT
    CCAGGGGTCG GCTTTCCTGG TGCAAAGGGG GAGAAAGGTA GCCAAGGCAG GCCAGGGCCC
    ACTGGACCTG TTGGTATAGG AGAGCCTGGA ATGCCTGGGC CACCAGGAAC TCAAGGTGTT
    CAAGGCAATC AAGGGTTTCC TGGCGAGGGT TTACCAGGAC AAAAGGGTGA CAGAGGATTT
    GAGGGCCCTA AAGGTGTACG AGGACCTCCT GGGTCAAGCA TTAAGGGTGA TAAGGGTAAC
    ACAGGAGAAC GGGGTTTACC TGGACTGGTG GGATTTCCAG GAGCTGGGAT CCAGGGTGAA
    AAGGGGGATC TAGGACCTAT AGGACCACCT GGACCAAGAG GCCCTCCTGG AGTGGGCTTG
    GTTGGCCCAA AGGGAGATCA GGGCTTTCCA GGAGAATCTG GACCACAAGG AGAGAGAGGA
    ATAGGAGAAC CAGGACCAAA AGGGGAACCA GGACCAGTCG GAGCACCTGG TATTCCTGGA
    ATTCCAGGTG AAGATGGTTC TGTAGGTCCA AAGGGTGAGA TGGGTTTATC TGGTGAAAGA
    GGTCAAGAGG GCTCACCTGG GAAAGGAATT CCTGGTGAAA AGGGGGACAG AGGTGATAGA
    GGATCTCGGG GTCCCCCAGG AAGCTCTGGA GCAGCGGGAC CACCAGGGGC CAAAGGAGAA
    CCAGGAAGTT TAGGAATGAT GGGATTACCA GGACCTTCAG GTCGAGGATT ACCTGGTGCC
    AAGGGTGAGC CAGGACCTGC AGGCCCTCCT GGTCATGTTG GAGAGCCAGG TGTTGGGACT
    ACAGGACCTA AGGGAGACAG AGGAAGTCCG GGACCAGTAG GACCACAAGG AATGAAAGGG
    GATGGATATC CTGGACCACA GGGTCTTCCA GGGTTGCCTG GGCTCCCAGG TGAAATTGGG
    CCTGAAGGAC AGGGAATTCC AGGACCAAAG GGAGACAGGG GCTCACCAGG GGTTACTGGC
    CCATCAGGAC CTCCAGGAAT TGGACTGCCT GGACCAAAGG GTGCCGTTGG GCAGCCTGGT
    GCTCCTGGTC TTTCAGGCCC ACCAGGAGAG GGAATTCAGG GTCCCAAGGG TGACCCTGGA
    TTTCAAGGGC TTCCTGGCCC AAGAGGCCCT CCAGGTGATG GTCTGCCAGG GGAGAAGGGG
    GACAGAGGCC TATCAGGAGA GCGTGGGAGA AAAGGAGAAA GAGGAGAACA TGGAATGCCT
    GGACAAACAG GATCCAAGGG AAAGCCTGGA GAGAAGGGAG ATCCTGGCCT ATCTAGAGAA
    GAGGTGATCA AAATAATCCG GGAAATATGT GGGTGTGGTG TGAAATGCCG GACGAGTCCA
    CTGGAGCTGG TGTTTGTTAT CGACAGCTCA GAAAGTGTGG GTCCAGATAA CTATGAAGTG
    GTGAAGGATT TCGTAAACTC TCTGATTGAT CATGTGTCTG TAAGCCGTGA GGCCACACGT
    GTTGGGGTGG TGCTCTACAG TCACGTGGAG GTGGTGGTGG CCAGTCTGCA ACAGCTGTAT
    GACCAGGCTG CTGTCAAGAC TGCTGTGCGC AGGATGCCAT ACCTGGGTGA GGGCACCTTT
    ACAGGGAGTG CCATCCGACG GGCAACTCAG CTGTTCCAAG CAGCACGACC AGGAGTTAGA
    AAGGTTGCGG TTGTGCTGAC GGATGGCCTG GCAGACAACC GGGATGCAGT GAGTTTAAAA
    GATGCTGCAG AAGGTGCACA CAGTGCTGGG ATTGAAATCT TTGTAGTTGG TATTGTGAAC
    AACAGTGACT CTCAGTATGC AGAGTTTAAG AATGAGATGA ACATTCTGGC ATCTGATCCA
    GATGAAAATT ATGTCTACTT GACTGATGAC TTCTTGAAAC TGCACGCGCT GGAGAGTAGA
    TTGTTGAATC ATATCTGTGA GCATGACAAT GGAAAGGTCT TCAGCTCGAG TGGCAAAACA
    ATCCATCCTT TTGGACCTGA TCCTGTTCCA GACAGAACTG AGCCTCCCAC CAGTGATTAT
    TTCATCACAG AGGGCAAAGA GGATACACCT CCAATAGACT TTGAGACTTT GCCCCAGCAA
    CCTGAAGACT ATGATGACAT TCATATTGAC ACTAGCTATT TTGATGGCTC TGTCAACGAG
    ATTCCTTGGG TGACAGAGAC CCCAGACGGA AATAAGACAA GACAACAGTC GTCCATCTCA
    GTAGTAGGAC CTCAGACACC AATTAACTGG CACCATGTTC AAGAAAGCAG TCCACCTCCA
    AAAACTCTAC AGCCACCTCA CCCTGACAAC TCGCTGAAAC ATGTAGGCTG TGGCCAGGGA
    TTGGACCCGG GGCCCTGTAG GGAATACAGT GTGATGTGGT ACTACGACCC GCAGGCCAAT
    GCATGTGCAC AGTTTTGGTA CGGTGGCTGC CAAGGCAATA GCAACCGCTT TGAAACAGAG
    GACATTTGTA AAAGCACTTG TGTGCAGACA TAA

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