ORF » Species Summary » Danio rerio » col22a1 cDNA ORF clone

col22a1 cDNA ORF clone, Danio rerio(zebrafish)

The following col22a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the col22a1 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
ODa01046 NM_001291376.1
Latest version!		 Danio rerio collagen, type XXII, alpha 1 (col22a1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00

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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)
    col22a1 ( NM_001291376.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_001278305.1 Danio rerio collagen, type XXII, alpha 1 (col22a1), mRNA.
    Price & Availability↑
    CloneID ODa01046
    Clone ID Related Accession (Same CDS sequence) NM_001291376.1
    Accession Version NM_001291376.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4869bp)
    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(XXII) chain precursor
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from HE981211.1. ##Evidence-Data-START## Transcript exon combination :: HE981211.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA4476730, SAMEA4476737 [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
    ATGGAGTTTC GATTTGGGCT CAGGATCTCT TTGGTCCTGA CTGTACTGGC TTTAACTCTG 
    TATGGAGGCG GTGTTGAAGG ACAAAGAGCA GGTTGTAAGA ACGTCCACTA TGATCTGGTG 
    TTCATTTTGG ACACCTCTTC AAGTGTGGGC AAGGAGAATT TTGAGAAGAT CCGGCAATGG 
    GTGGCAAACC TGGTGGAATC TTTTGACGTA GGTGTGGATA AGACACGTGT GGCAGTGGTT 
    CGCTACAGCG ACCGCCCAAC CGTCGAATTC AACCTGGCAA GGTACAAAAC ATTGGAGGAG 
    GTCAAACGTG CGGCTGGGAA CATCCGCTAC CTGGGTGGAA ACACCAAGAC TGGGGACGCC 
    ATCAGCTTCA CCACCACCAA CATCTTCACA GAGAGGGCAG GAGCGAGACC TGCTGCCAAG 
    GGGATTCAGA AAGTGGCCAT CTTGCTAACG GATGGCCAGA GTCAGGATTT TGTTTTGGAG 
    CCGTCGGTTG CTGCAGCAGC TGCTGGGATC AGGTTGTTCG CTGTAGGGAT TGGGGAAGCT 
    CTGAAGGAAG AACTGGAGGA GATTGCAGCC GAGCCCAAAA GCGCTCATGT CTTCCATGTG 
    ACCGACTTTG ACGCCATCGA CAAGATCAGG GGCAGGCTGA GGAGGAGACT GTGCGAGAAT 
    GTTCTGTGTC CCAATATGAA AGTCCAGGCG GGTCGTTTTA GACCGAACAG CACCAGTGCA 
    GGACTGACGG AGGTCCCAGG TTTTGATTTG ATGGAGTTCT TCAACGTAAG AGATTTTCTT 
    GGAGAAAAAT TTGAGCCCGG TCAGACTCCT TACGTCCGGC TTGGTGCATT GCCCATCGTC 
    CAAAAGACAG AAGATGTGTT ACCTCAGGGT CTGCCAGACG AATATGCCTT TGTGACCACA 
    TTTAAGTTCA GGAAAACATC CCGTAAGGAA GACTGGTACC TGTGGCAGGT CTATGACAAA 
    TATGGCATCC CCCAGGTGTC CATCCGTCTG GATGGCGAGA ACAGGGCGGT GGAGTATAAC 
    GCTGTGGGCC TGACGAAGGA TGCGGTGCGG GCGGTTTTTA GGAACCCAGA GGTGGACAAT 
    CTGTTTGACC GTAACTGGCA TAAGATTGGC ATGAGGGTGG ACTCCAAATC TGTGTCGCTC 
    TTTCTGGACT GCAAACACAT CGAGACGCTA CCCATCGAGG AAAGAGAAGA CATCGACATC 
    CAGGGGAAAA CTGTCATTGG GAAGAGGCTC TATGACAGCG TTCCTATTGA CTTTGACCTG 
    CAGAGGATGG TGATCTACTG TGATGGTAAA CAGTCCGAAC AGGAGACGTG TTGCGATATT 
    CCTGGTGGCT TATGTGAACA AACTCTGGTG ACTGAAGCCC CTCCAGTCCC ACTGCCCACC 
    CCGAAACCTA CAAGCGCCGA GCAGAAGAAA CCAGCCGCTG CCAACTGCTC CTGTCCTGCT 
    GGGGAACGGG GTGATACAGG TCTACCGGGT GCCCCGGGGC CCAAGGGTGA AAAGGGGGAT 
    CCTGGTCTTA AAGGGGCAGA AGGACCACCA GGACTCAAAG GGCTGAAAGG AGAACGTGGT 
    CAGGCCGTCT CTATCAAAGG TGATAGAGGA GAGAAGGGGG ACAGCGGTGA GTTTGGAGAA 
    CCTGGACTCA CAGGAGACAG AGGAGAAAAA GGGTCAGATG GTTTACCAGG TCTGGCTGGG 
    AAAAAAGGCG ATAAGGGTGA AAGAGGTGAT CAAGGAGTTG CTGGTGAAGC TGGGCTGCCT 
    GGACCACTCG GACCAAAGGG TATCCAAGGG AATGCCGGTC CACCTGGAGC GCCAGGTGCT 
    CAAGGACTGT CTGGAGGAGC TGGAAATAAA GGAGAGAAGG GATCCACTGG AGATCGGGGT 
    GAGCGGGGTG CAGATGGGTT TCCAGGGAAA CCAGGTCTTC CAGGAAAAGA AGGTGTTAGA 
    GGGCTGATTG GTGCTCCTGG TCCAAATGGA GTAAAAGGAG AAAAGGGTGC ACAAGGTCCT 
    GCCGGAATAC CTGGTGATGC GGTTCAGTTG GCAGGACTCA AGGGGGAGAC TGGAGCCCAA 
    GGAGAAGCGG GACTTCCAGG AGTGGACGGA CTCCCTGGAC CTCCTGGTCC TCCTGGACCT 
    CCAGGTTTGC CTGGTGAGAC AGGTGACACT GGACCAAGGG GTAAAAAAGG TGATGCAGGA 
    TTGCCAGGAG TTGATGGTCT CCCGGGACCA CCTGGTCCTC AAGGGCCTCC TGGAGTTTCT 
    GGCAGCCCAG GACAGACAGG ACCTCCGGGA TTACCTGGTG AAATCGGCTT CTCAGGAAAA 
    CCAGGAGAAT CAGGAAAACC AGGTTCGCCA GGGAAAGATG GAGCGGACGG TTTCCCTGGA 
    AACGACGGCG AGAAGGGACA AAAAGGAGAA TCTGGACAGG ATGGCTTCCC TGGTAAACCT 
    GGACCGAAGG GAGATGAAGG CCCACCAGGA CCCCGAGGAC CTCCTGGTGA ACGGGGAGAG 
    TCTGGTTTGA CCGGGCAGGT CGGCCCAATG GGACCCAAAG GAGAGAGAGG GAACCACGGA 
    GAGAGAGGAA GAGAAGGACC CAGTGGTGCA AAAGGAGAGA AAGGAGACAA GGGTGAGATC 
    GGCCCCAGGG GTCCGGCCGG AGCTCCAGGC AATGTAGCCA ATGTGATTCC TGAACCTGGT 
    GAACCGGGTA AACCAGGAGA GAAGGGAGAG AAAGGAGATC AAGGAAAGCC AGGTGACATG 
    GGTCAAAGAG GACTACCTGG AGAGCAAGGT TTCAGAGGAC AACCAGGACC TGTGGGCCCT 
    AAGGGGGATG CTGGTGATAA AGGAGAGCCA GGCAGACACG GAGACCCAGG TCCGCCTGGA 
    TTGATGGGCC CTCAGGGGTC CAGAGGACTG CCAGGGAATG TGGGTATTCC AGGCAGCATT 
    GGCCCACCTG GTATTGCTGG TCAGAAAGGA GACAAGGGAG ATGGAGGAAA AGATGGTCCT 
    CCTGGACCCC CTGGTCCAAC CGGTGAGCCT GGTTTAAGAG GAGAAATTGG TTTGCCAGGA 
    AAAGGCAAAG AGGGAGAAAA GGGCGACGCA GGACCTCCAG GTATAGCCGG ACCTCCCGGA 
    CTGAGGGGTT TGCCCGGTAA TCAGGGGATG CAAGGGATGC CAGGAAACAG AGGACCACCA 
    GGAGAGGGAA GCCCTGGATC TCAGGGGCCT CCAGGACCTG CGGGACCACC GGGTGCAGCG 
    GGTTTGAGAG GACCCCCAGG AGTGGCTGGA GTACAGGGAC CTGCTGGACA TAATGGTATA 
    CCTGGAAGAC CCGGAGAGAA GGGCTCCCCT GGAGAACCAG GAAAAGCTGC AGACCTTTCT 
    GATCTAAACC TGAAGGGTGT GTGTTCAGAT TGTCCTGCTG GGCCGCCTGG ACAACCAGGT 
    ATTCCAGGAC CTCCGGGTGA CAAAGGTCAT TCTGGACCAC CAGGGAAGAA CGGACAGGAT 
    GGATATGCGG GTGCTCCCGG ACCAACAGGA CCTGCAGGAC CGCCTGGTAG TGATGGAGCC 
    AAGGGAGTCA AAGGTGACAG AGGCCCTGCA GGCACACCTG GAGATAAGGG TGAAAAGGGT 
    GCCCCAGGAC CTCCTGGTTA TCCAGGAGCC GCAGGAGCCA TGGGTCAACC TGGTAATGAT 
    GGAAACCCTG GACCTGTAGG AACCCCTGGA CCTCCTGGAG AAAAGGGTAA AGAAGGAATG 
    ACTGGAATTC AGGGACCTCC AGGTCTGCCA GGTCTAATGG GTATGATGGG TAAACCTGGA 
    AAGGATGGAA GACCAGGAGA ATCAGGAGAG CCTGGTAAAC AGGGAGAACC AGGACAGCCA 
    GGAAGAGACG GACTCAGAGG AATGCCTGGC TTTAAAGGTC ACAGAGGAGA GCCCGGACCA 
    CCAGGGTCAA AGGGTGAAGA GGGGAAGCAG GGTGTTCCTG GACGTGAAGG TCAACCTGGG 
    AAAGACGGGA ATTCCGGACC ACCAGGGCCA GAGGGCATGA GAGGACCCCG AGGAGAATCT 
    GGCCAGCCAG GAGAACAAGG ACCAACAGGC AAGCCTGGGT CTCAGGGAAA TCCTGGTCAA 
    CCAGGACACA AAGGGGAAGC AGGGAGCCCA GGATTACCAG GCTTCCCAGG TCCAAAAGGG 
    CCATCGGGTC CGCCTGGACC AATTGGCCCT GAGGGAAAAC AAGGCATGTT AGGAAAAGCT 
    GGAGACCGAG GACAGAAGGG AGAAAAGGGC GATAATGGAA TAAAAGGAGA CAAGGGACCT 
    GTCGGAGATC CAGGTATTCC AGGTAATCCT GGGTCTCCTG GCAGGAAGGG TCACACAGGG 
    ATGATGGGCA TGTCAGGACC CCCAGGGGAA GTGGGTCCCG CTGGGCCTCC TGGTACTCCA 
    GGAATACCCG GTCTTCCAGG TCTCAGAGGC GAGACACCAT CACTGGAACA AATGAGGCGG 
    CTCATTCAGG ATGAACTTTC TAAGCAGTTG GATGCTAAGT TGGCTTACCT GATGGCTCAA 
    ATGCAACCGG CTCATATCAA GAGCACTGCT GGCCGCCCTG GTCCACCTGG CCCACCAGGT 
    AAAGATGGGT CTCCTGGCCG ACAAGGTCCT ACTGGAGAGC CTGGAATGCC TGGACAAAAT 
    GGAGTAGAAG GACTAAGAGG TCCTGCTGGT CCTAAAGGTG AACGGGGTTC AAAGGGTGAA 
    AAGGGAGAGG ATGGTGTTGG ACAGAGAGGA GAGCCTGGTC CGATTGGGCC CATGGGTCCT 
    GCAGGTATGC CTGGAGATGG AAAAGACGGC CTTCCTGGAG CTGCAGGTGC TCAGGGAGAG 
    CCTGGTAATC CTGGTCCTCA CGGTCAGCCT GGACCTCCCG GACCAACAGG GCAGTGTGAC 
    CCCTCACAAT GTGCCTACTA TGCCAGTCTG GCATCAAGAC CTCACACCAA AAACGTCAAG 
    GGGACTTAA

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

    RefSeq NP_001278305.1
    CDS31..4899
    Translation

    Target ORF information:

    RefSeq Version NM_001291376.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio collagen, type XXII, alpha 1 (col22a1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001291376.1

    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
    ATGGAGTTTC GATTTGGGCT CAGGATCTCT TTGGTCCTGA CTGTACTGGC TTTAACTCTG 
    TATGGAGGCG GTGTTGAAGG ACAAAGAGCA GGTTGTAAGA ACGTCCACTA TGATCTGGTG 
    TTCATTTTGG ACACCTCTTC AAGTGTGGGC AAGGAGAATT TTGAGAAGAT CCGGCAATGG 
    GTGGCAAACC TGGTGGAATC TTTTGACGTA GGTGTGGATA AGACACGTGT GGCAGTGGTT 
    CGCTACAGCG ACCGCCCAAC CGTCGAATTC AACCTGGCAA GGTACAAAAC ATTGGAGGAG 
    GTCAAACGTG CGGCTGGGAA CATCCGCTAC CTGGGTGGAA ACACCAAGAC TGGGGACGCC 
    ATCAGCTTCA CCACCACCAA CATCTTCACA GAGAGGGCAG GAGCGAGACC TGCTGCCAAG 
    GGGATTCAGA AAGTGGCCAT CTTGCTAACG GATGGCCAGA GTCAGGATTT TGTTTTGGAG 
    CCGTCGGTTG CTGCAGCAGC TGCTGGGATC AGGTTGTTCG CTGTAGGGAT TGGGGAAGCT 
    CTGAAGGAAG AACTGGAGGA GATTGCAGCC GAGCCCAAAA GCGCTCATGT CTTCCATGTG 
    ACCGACTTTG ACGCCATCGA CAAGATCAGG GGCAGGCTGA GGAGGAGACT GTGCGAGAAT 
    GTTCTGTGTC CCAATATGAA AGTCCAGGCG GGTCGTTTTA GACCGAACAG CACCAGTGCA 
    GGACTGACGG AGGTCCCAGG TTTTGATTTG ATGGAGTTCT TCAACGTAAG AGATTTTCTT 
    GGAGAAAAAT TTGAGCCCGG TCAGACTCCT TACGTCCGGC TTGGTGCATT GCCCATCGTC 
    CAAAAGACAG AAGATGTGTT ACCTCAGGGT CTGCCAGACG AATATGCCTT TGTGACCACA 
    TTTAAGTTCA GGAAAACATC CCGTAAGGAA GACTGGTACC TGTGGCAGGT CTATGACAAA 
    TATGGCATCC CCCAGGTGTC CATCCGTCTG GATGGCGAGA ACAGGGCGGT GGAGTATAAC 
    GCTGTGGGCC TGACGAAGGA TGCGGTGCGG GCGGTTTTTA GGAACCCAGA GGTGGACAAT 
    CTGTTTGACC GTAACTGGCA TAAGATTGGC ATGAGGGTGG ACTCCAAATC TGTGTCGCTC 
    TTTCTGGACT GCAAACACAT CGAGACGCTA CCCATCGAGG AAAGAGAAGA CATCGACATC 
    CAGGGGAAAA CTGTCATTGG GAAGAGGCTC TATGACAGCG TTCCTATTGA CTTTGACCTG 
    CAGAGGATGG TGATCTACTG TGATGGTAAA CAGTCCGAAC AGGAGACGTG TTGCGATATT 
    CCTGGTGGCT TATGTGAACA AACTCTGGTG ACTGAAGCCC CTCCAGTCCC ACTGCCCACC 
    CCGAAACCTA CAAGCGCCGA GCAGAAGAAA CCAGCCGCTG CCAACTGCTC CTGTCCTGCT 
    GGGGAACGGG GTGATACAGG TCTACCGGGT GCCCCGGGGC CCAAGGGTGA AAAGGGGGAT 
    CCTGGTCTTA AAGGGGCAGA AGGACCACCA GGACTCAAAG GGCTGAAAGG AGAACGTGGT 
    CAGGCCGTCT CTATCAAAGG TGATAGAGGA GAGAAGGGGG ACAGCGGTGA GTTTGGAGAA 
    CCTGGACTCA CAGGAGACAG AGGAGAAAAA GGGTCAGATG GTTTACCAGG TCTGGCTGGG 
    AAAAAAGGCG ATAAGGGTGA AAGAGGTGAT CAAGGAGTTG CTGGTGAAGC TGGGCTGCCT 
    GGACCACTCG GACCAAAGGG TATCCAAGGG AATGCCGGTC CACCTGGAGC GCCAGGTGCT 
    CAAGGACTGT CTGGAGGAGC TGGAAATAAA GGAGAGAAGG GATCCACTGG AGATCGGGGT 
    GAGCGGGGTG CAGATGGGTT TCCAGGGAAA CCAGGTCTTC CAGGAAAAGA AGGTGTTAGA 
    GGGCTGATTG GTGCTCCTGG TCCAAATGGA GTAAAAGGAG AAAAGGGTGC ACAAGGTCCT 
    GCCGGAATAC CTGGTGATGC GGTTCAGTTG GCAGGACTCA AGGGGGAGAC TGGAGCCCAA 
    GGAGAAGCGG GACTTCCAGG AGTGGACGGA CTCCCTGGAC CTCCTGGTCC TCCTGGACCT 
    CCAGGTTTGC CTGGTGAGAC AGGTGACACT GGACCAAGGG GTAAAAAAGG TGATGCAGGA 
    TTGCCAGGAG TTGATGGTCT CCCGGGACCA CCTGGTCCTC AAGGGCCTCC TGGAGTTTCT 
    GGCAGCCCAG GACAGACAGG ACCTCCGGGA TTACCTGGTG AAATCGGCTT CTCAGGAAAA 
    CCAGGAGAAT CAGGAAAACC AGGTTCGCCA GGGAAAGATG GAGCGGACGG TTTCCCTGGA 
    AACGACGGCG AGAAGGGACA AAAAGGAGAA TCTGGACAGG ATGGCTTCCC TGGTAAACCT 
    GGACCGAAGG GAGATGAAGG CCCACCAGGA CCCCGAGGAC CTCCTGGTGA ACGGGGAGAG 
    TCTGGTTTGA CCGGGCAGGT CGGCCCAATG GGACCCAAAG GAGAGAGAGG GAACCACGGA 
    GAGAGAGGAA GAGAAGGACC CAGTGGTGCA AAAGGAGAGA AAGGAGACAA GGGTGAGATC 
    GGCCCCAGGG GTCCGGCCGG AGCTCCAGGC AATGTAGCCA ATGTGATTCC TGAACCTGGT 
    GAACCGGGTA AACCAGGAGA GAAGGGAGAG AAAGGAGATC AAGGAAAGCC AGGTGACATG 
    GGTCAAAGAG GACTACCTGG AGAGCAAGGT TTCAGAGGAC AACCAGGACC TGTGGGCCCT 
    AAGGGGGATG CTGGTGATAA AGGAGAGCCA GGCAGACACG GAGACCCAGG TCCGCCTGGA 
    TTGATGGGCC CTCAGGGGTC CAGAGGACTG CCAGGGAATG TGGGTATTCC AGGCAGCATT 
    GGCCCACCTG GTATTGCTGG TCAGAAAGGA GACAAGGGAG ATGGAGGAAA AGATGGTCCT 
    CCTGGACCCC CTGGTCCAAC CGGTGAGCCT GGTTTAAGAG GAGAAATTGG TTTGCCAGGA 
    AAAGGCAAAG AGGGAGAAAA GGGCGACGCA GGACCTCCAG GTATAGCCGG ACCTCCCGGA 
    CTGAGGGGTT TGCCCGGTAA TCAGGGGATG CAAGGGATGC CAGGAAACAG AGGACCACCA 
    GGAGAGGGAA GCCCTGGATC TCAGGGGCCT CCAGGACCTG CGGGACCACC GGGTGCAGCG 
    GGTTTGAGAG GACCCCCAGG AGTGGCTGGA GTACAGGGAC CTGCTGGACA TAATGGTATA 
    CCTGGAAGAC CCGGAGAGAA GGGCTCCCCT GGAGAACCAG GAAAAGCTGC AGACCTTTCT 
    GATCTAAACC TGAAGGGTGT GTGTTCAGAT TGTCCTGCTG GGCCGCCTGG ACAACCAGGT 
    ATTCCAGGAC CTCCGGGTGA CAAAGGTCAT TCTGGACCAC CAGGGAAGAA CGGACAGGAT 
    GGATATGCGG GTGCTCCCGG ACCAACAGGA CCTGCAGGAC CGCCTGGTAG TGATGGAGCC 
    AAGGGAGTCA AAGGTGACAG AGGCCCTGCA GGCACACCTG GAGATAAGGG TGAAAAGGGT 
    GCCCCAGGAC CTCCTGGTTA TCCAGGAGCC GCAGGAGCCA TGGGTCAACC TGGTAATGAT 
    GGAAACCCTG GACCTGTAGG AACCCCTGGA CCTCCTGGAG AAAAGGGTAA AGAAGGAATG 
    ACTGGAATTC AGGGACCTCC AGGTCTGCCA GGTCTAATGG GTATGATGGG TAAACCTGGA 
    AAGGATGGAA GACCAGGAGA ATCAGGAGAG CCTGGTAAAC AGGGAGAACC AGGACAGCCA 
    GGAAGAGACG GACTCAGAGG AATGCCTGGC TTTAAAGGTC ACAGAGGAGA GCCCGGACCA 
    CCAGGGTCAA AGGGTGAAGA GGGGAAGCAG GGTGTTCCTG GACGTGAAGG TCAACCTGGG 
    AAAGACGGGA ATTCCGGACC ACCAGGGCCA GAGGGCATGA GAGGACCCCG AGGAGAATCT 
    GGCCAGCCAG GAGAACAAGG ACCAACAGGC AAGCCTGGGT CTCAGGGAAA TCCTGGTCAA 
    CCAGGACACA AAGGGGAAGC AGGGAGCCCA GGATTACCAG GCTTCCCAGG TCCAAAAGGG 
    CCATCGGGTC CGCCTGGACC AATTGGCCCT GAGGGAAAAC AAGGCATGTT AGGAAAAGCT 
    GGAGACCGAG GACAGAAGGG AGAAAAGGGC GATAATGGAA TAAAAGGAGA CAAGGGACCT 
    GTCGGAGATC CAGGTATTCC AGGTAATCCT GGGTCTCCTG GCAGGAAGGG TCACACAGGG 
    ATGATGGGCA TGTCAGGACC CCCAGGGGAA GTGGGTCCCG CTGGGCCTCC TGGTACTCCA 
    GGAATACCCG GTCTTCCAGG TCTCAGAGGC GAGACACCAT CACTGGAACA AATGAGGCGG 
    CTCATTCAGG ATGAACTTTC TAAGCAGTTG GATGCTAAGT TGGCTTACCT GATGGCTCAA 
    ATGCAACCGG CTCATATCAA GAGCACTGCT GGCCGCCCTG GTCCACCTGG CCCACCAGGT 
    AAAGATGGGT CTCCTGGCCG ACAAGGTCCT ACTGGAGAGC CTGGAATGCC TGGACAAAAT 
    GGAGTAGAAG GACTAAGAGG TCCTGCTGGT CCTAAAGGTG AACGGGGTTC AAAGGGTGAA 
    AAGGGAGAGG ATGGTGTTGG ACAGAGAGGA GAGCCTGGTC CGATTGGGCC CATGGGTCCT 
    GCAGGTATGC CTGGAGATGG AAAAGACGGC CTTCCTGGAG CTGCAGGTGC TCAGGGAGAG 
    CCTGGTAATC CTGGTCCTCA CGGTCAGCCT GGACCTCCCG GACCAACAGG GCAGTGTGAC 
    CCCTCACAAT GTGCCTACTA TGCCAGTCTG GCATCAAGAC CTCACACCAA AAACGTCAAG 
    GGGACTTAA

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

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