ORF » Species Summary » Salmo salar » col24a1 cDNA ORF clone

col24a1 cDNA ORF clone, Salmo salar(Atlantic salmon)

The following col24a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the col24a1 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
OAt31579 XM_014123375.1
Latest version!		 Salmo salar collagen, type XXIV, alpha 1 (col24a1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    col24a1 ( XM_014123375.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_013978850.1 Salmo salar collagen, type XXIV, alpha 1 (col24a1), mRNA.
    Price & Availability↑
    CloneID OAt31579
    Clone ID Related Accession (Same CDS sequence) XM_014123375.1
    Accession Version XM_014123375.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5196bp)
    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 1442678400000
    Organism Salmo salar(Atlantic salmon)
    Product collagen alpha-1(XXIV) chain
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012336500.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCATTTAG GAGCCCAACG GACAAGGAGT GGACACGTTT CTCCAACAGC AATAACGAGA 
    ACCCTCCTCT TGCTCCTGTC AATATGCACA GCAGTACTGT CTGGAGAAGA AGACTACCGA 
    GCACAAGGTG TCGATATCCT CCATTGGCTG GGCCTCACCG GCAGCAGAGA CACCCTCTCC 
    CCAGGGACCA GCTCCTCTTC CCCCTCCTCC TCCCTTCACT CTCCTTCTTC CTCTCCCCCA 
    GGAGCCGGGG TCCTACTCAG CCCGGACGCC CACATTGAAG CTGCTACGGG GGGTCTGTTC 
    CCGCCGGAGC TCGGTGAAGA GTTTTCTGTC GTGGTTAGCC TAAGCTCCTG GCGAGCGAAC 
    AATGCTTTCC TTTTCAGTGT GCGTGACGGC AGGGACAAGC TGCAGTTTGG CATCCAGCTG 
    CTGCCCAGGA AGGTGGTGGT GTACACCGGC GAAAAGGCCT CTGTCTATTT CACCTACAAC 
    GTGCACGACG GGTGGCAGCA CTCTTTCGCC GTGAGCGTGC GGCCGCGCTC AGTTTCGTTC 
    CATGCGGACT GCGGGGCGGT GCAGCAGCGA GAACAGACGC TGACCCGGGC ACATGTGCTG 
    GGGTCCGGAT CCAGAGGCCT GCTCACCCTA GGAAGGATGA AGTCTAAAGC AGCCCAGTTC 
    CATGGCCTCA TATGCCAGCT GGACATCTAC CCTTCAGCCC AGGCTGCTGC GCATTACTGC 
    CACTACCTTA AAAAACAGTG CCGGCTGGCT GACACTTTCC GATCGCCACC GCCACCCTCC 
    AGCTTGGATA TGGAAGTTTC TGGCTCCCTG GCTTTCTCCC CTATTCCTCC TTCTCCAGCA 
    TCCCAGACTG TGGTGGTGCC CCTCTCCCTG GCTGTAGACT CCCAGCAGTC CACCAACCTG 
    GCCGGATCAG CCCCCAGCCC CTCCCTGGAG GGGTCTGGAA TACCGTATTT AAGCCCCTCA 
    GAGCAGTCTC ACCTGGGGGT CAGGACCCAG ACCCAGAGCT TCCTGCTGGA GCACCTCACC 
    TCTATCCATA CACCCACAGC AGGCCCCATT GGCCCGTCCT CAGGCACTCT CAGTGGGCTG 
    AAGGCCATGG GCATCACACA CAGGAGTACC AACTCCAGCT CCGGATCCAG CCCAACAGGG 
    GGCTTCAGCA GGCGGTCTCC CCAGTCTGAG AATGACACAG AGGAGGAGGA AGAGGAGAGG 
    AGCCCCAGGA GGCCCCAACG GGTCACCACA GCCAACCCAG GCCTGATCTC CCCTGTCAGG 
    CAGAGCCGCT TGAAGGAGGG CCTGAGGAAC AGCTCCAGGC CTAGAGACTC TCAGCCCCAG 
    CCCACTAACC ACCTCGTGGA CACCAAGCTC AGACCCAACA GCACCACACT GTACCGGGAG 
    AACCAGGTGG ACACCTCAGA GGAGCATGGC CAGGAAGGGG CCTACGATGT GGGCATGGAA 
    GGCTACGACT ATGGATACGA GGAACCAGAC TACTTCTACA GAGACTATGA CGAGGCTTTT 
    CCCGGCCCCA AAGGAGACCC AGGTCCTCCG GGTCCTCCTG GTCCCCGCGG TCTACCTGGT 
    CCTGCTGGGA AGAGAGGAGC TCGGGGTCCT ACTGGTCCAC ATGGAAACCC CGGCTTGCCT 
    GGTCCTCCTG GTACCAAGGG CTCCAAGGGC AATCCAGGAC TGTCCCCAGG TCAGGCCCCG 
    CCAGGAGACA AGGGCGACAG AGGTCCACAA GGTGTTCCAG GTCCGGGCGG GTTTGCAGGT 
    CCAATGGGTC CTAAGGGCTA TCCAGGGCCA TCAGGACAGC CAGGGGAACA GGGCATACCA 
    GGACTCCCAG GAGTAACTGG GGCTGCAGGT TACCCTGGCA GGCAGGGTTT GGCTGGGCCA 
    GAAGGTAACC CAGGTCCTAA AGGTGTACGT GGTTTCATTG GTCCTCCTGG TATAGCTGGT 
    CCACCAGGGC TAGAAGGGGA GAGAGGTATT CCCGGTCCGG TTGGGAAGAA CGGTCCCAAA 
    GGAAGACAGG GAGTTGTTGG GGGTGTTGGT GAAAGGGGTC CTCCTGGTCC TGATGGCGAC 
    CAGGGGCTTG CTGGAGGTGC TGGCATGGGG GGCTTTCCTG GCCTAAGGGG AGACCCAGGA 
    CCTGAGGGAC AGCGAGGACT GACTGGCATA GTGGGAACTA TGGGCCTGGC GGGAAAAGCG 
    GGGCTGCCTG GATTGAAAGG TGATAAGGGC GAACCTGGAC TAAGGGGTGA ACCGGGAGAG 
    ATGGGTTACC AAGGTGACAA GGGTGCTGCT GGCTTGTCTG GATCTCCTGG ACTCCGTGGG 
    AAACCAGGTC CACCTGGTAA AATGGGTGAG ATCGGACCGC AGGGATCTCC TGGCCCACTA 
    GGACCTGAGG GTTTTCCTGG AGACATCGGT GTGCCAGGTC CCAACGGCCC TCCTGGACCT 
    AAGGGACTCC TAGGTGCCAG AGGGCCACAG GGACCCCCAG GGCCAAAAGG AACAGAGGGT 
    GATGAGGGAC ACCTTGGCCC ACTTGGCGGC CCTGGCACCA CTGGGAGAGT TGGAAGGAAA 
    GGCTACATAG GGGAACCTGG ACCTGAGGGA CTGAAGGGGG AGACCGGGGA CCTTGGCGGC 
    ATTGGAAAAA ATGGACCGCA AGGTCCAGCG GGCCTGATCG GTACGTCAGG GGGAGCTGGA 
    GATCCTGGTG AAAAGGGTGA CCGTGGTCCT GCAGGTCCAT TGGGTCCTCC TGGGGAGATG 
    GGGTCCAGGG GGTATCCAGG CTTACCAGGC GGTCCCGGCG ATGTAGGTCT GCAAGGCCCA 
    TTTGGTCCTC AGGGGCAGAG GGGTACACCA GGGGTCCCAG GGCCAAAGGG CAGAAGGGGG 
    CCGAGGGGTG CAGACGGTCC ACTAGGGGAA CCAGGGCCTG AGGGCACCAA GGGAGAGCAG 
    GGGGAAGGTG GAAAGAAAGG GGAGCCTGGG TTCATAGGTA AAGCTGGCGG TCCAGGGGAG 
    AGAGGCCTAC CAGGGAAAGC TGGGAAAGCT GGGATCGCTG GCAGCACAGG AGAGAGGGGT 
    GCCCATGGTG AACCAGGGCC CAAAGGACCC GTGGGGGACG CAGGACCTGA CGGAGAGCAA 
    GGACATGAGG GCACTCCTGG CGGAGAGGGG GAGCCAGGTC CAGTTGGAGA ACCTGGGATA 
    AAGGGCCACG GGGGGCCGGT TGGAGGAGAG GGGGAACAAG GACAGCAGGG AATGAGAGGT 
    CTTCCAGGTC CTGCTGGCGA GGACGGGCCC CAGGGAAAAG ATGGACCAAA GGGAGAGCCA 
    GGTGACTGTG GGCCCATGGG CGAGGCAGGG GACAGGGGGA TAGAGGGAGA CCCTGGGCCT 
    CCTGGAACCA CCGGAGTGGC TGGAAAACGT GGTTTCTCTG GTCCAGAGGG GAAACAGGGT 
    CCCCCCGGCA ACCGAGGACG GCATGGCAAG AAGGGTGAGG CTGGCAAACC AGGTCCTATC 
    GGTGAGACAG GGGACATCGG GGACATCGGC CAGGAAGGAG GGACGGGACT GAAAGGAGCC 
    AGAGGAACCA GAGGCCCTGC GGGTCGTCCA GGAGTTATGG GGCCTGAGGG GATGCCTGGA 
    ATTGGAGGAT ACACAGGTCA CGCCGGCAAA CCAGGACCCA TAGGACCACC TGGACCCAAA 
    GGTGAAAAGG GTTACCCCGG AGAAGACAGT AAGACCCCAG GACCTGCCGG GCCACTAGGT 
    GAACCAGGTC TCCCGGGTGA GCGAGGAGAC CGCGGAGAGC CTGGAGATGA GGGATATCAG 
    GGCCACACTG GCATCACTGG ACTTCGCGGG GCTGTTGGAG CACCAGGCCT TCCTGGAACA 
    CCAGGGGAAC CCGGAGAACC GGGCCCGAAG GGAGAAATGG GAACTCAGGG CTTCGAAGGG 
    AAGAAAGGAG CGAGGGGCCT GACTGGGACC GCTGGTGTTG AAGGCGAAGT TGGTTTACTT 
    GGACCCAGAG GCATGGAGGG ATACGCTGGG CCTGACGGTC CTCCAGGACT AGTTGGGTTA 
    CCAGGATTTC CAGGGAAGAC TGGGCGACAG GGCCAGCGTG GCACCGTGGG GCAGGAGGGG 
    TCGGCAGGAC TACCTGGTCC CAGGGGGGAA CTTGGTCTGC CTGGGTTGGT CGGAGAGAGG 
    GGGCCTGCTG GAGAGAAGGG AGAGTCTGGC TTGGCAGGAG AGAGGGGGAC CCCAGGAATC 
    AAAGGCATGG AGGGCTCATC CGGAGACCAA GGCAGGATAG GAGACCCAGG ACTCAAAGGA 
    CAACCAGGGG AGCCGGGAGA CCTGGGGATG ATTGGCTTCT CTGGTTTTCC AGGACCTAAG 
    GGGCCAAATG GAGATTTGGG TTTCAAAGGC ATACCTGGTC CGAAAGGTCC TGTTGGCATT 
    CTGGGTTTCA GTGGACCTGT TGGACCAGAA GGGATGATTG GCCCAATGGG GAAACCTGGA 
    CCGAGGGGTC CAAAGGGAAG CCATGGGGAA ATGGGACCCC AGGGGCCACA GGGACATCCG 
    GGGCCCAGAG GCCCCCCTGG TGCTCCTGGC CCGACCAGAC GAATCGAGTA CAACTCTCTG 
    TTTGAGTCCA ATGGTGCCTT GAGGACAGAG ATCTACCAGA ACACGGAGAC GTCCCTCTCG 
    GACCAGAATG CAGGGATCTT TAAGACCCTG CACTACCTGA GCAGTGTGAT CGAGAGCATG 
    AAGAAACCGC TCGGAACCCG GGACAACCCG GCACGGTTTT GCAAGGACCT GCTGGACTGC 
    CAACACAAGC TCTCTGACGG ACTGTACTGG ATCGACCCTA ACCTGGGATG TCCGTCAGAC 
    GCCATTGAGG TCTTCTGTAA CTTCACGGCA GGCGGGCAGT CATGTCTCCA CCCAGTAGCC 
    TCTAACAAGC TGTTGTTCGG TGTGCATAAG GTTCAGATGA AGTTCCTCCA CCTCTTGAGC 
    ACAGAGGCCA GTCAGGACAT TACCTTCCAC TGTCTGAGTG ACCCTCCCTT CAGCCCCACA 
    AACACCTACA GTGCTGACGA CCCAGGACAG GAGTATCAGG CCAGACCACC AAGATTCAGG 
    GGATGGAACG GACAGATGTT TGAGGCAGAC AGTCTACTTG AACCTCACAT GCTACTAGAC 
    GAATGCAGGA TCCAAGATGG CAGCTGGCAC CAGTCACGCT TCTTCTTCCA TACTCAGACC 
    AGCTATGAGC TCCCCATCAT TGATATACAG GAGCAACCTT TGTCACAGTC CAACGACCTG 
    CGCCACCTCG AGGTGGGACC TGTCTGCTTC CTGTGA

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

    RefSeq XP_013978850.1
    CDS455..5650
    Translation

    Target ORF information:

    RefSeq Version XM_014123375.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar collagen, type XXIV, alpha 1 (col24a1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014123375.1

    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
    ATGCATTTAG GAGCCCAACG GACAAGGAGT GGACACGTTT CTCCAACAGC AATAACGAGA 
    ACCCTCCTCT TGCTCCTGTC AATATGCACA GCAGTACTGT CTGGAGAAGA AGACTACCGA 
    GCACAAGGTG TCGATATCCT CCATTGGCTG GGCCTCACCG GCAGCAGAGA CACCCTCTCC 
    CCAGGGACCA GCTCCTCTTC CCCCTCCTCC TCCCTTCACT CTCCTTCTTC CTCTCCCCCA 
    GGAGCCGGGG TCCTACTCAG CCCGGACGCC CACATTGAAG CTGCTACGGG GGGTCTGTTC 
    CCGCCGGAGC TCGGTGAAGA GTTTTCTGTC GTGGTTAGCC TAAGCTCCTG GCGAGCGAAC 
    AATGCTTTCC TTTTCAGTGT GCGTGACGGC AGGGACAAGC TGCAGTTTGG CATCCAGCTG 
    CTGCCCAGGA AGGTGGTGGT GTACACCGGC GAAAAGGCCT CTGTCTATTT CACCTACAAC 
    GTGCACGACG GGTGGCAGCA CTCTTTCGCC GTGAGCGTGC GGCCGCGCTC AGTTTCGTTC 
    CATGCGGACT GCGGGGCGGT GCAGCAGCGA GAACAGACGC TGACCCGGGC ACATGTGCTG 
    GGGTCCGGAT CCAGAGGCCT GCTCACCCTA GGAAGGATGA AGTCTAAAGC AGCCCAGTTC 
    CATGGCCTCA TATGCCAGCT GGACATCTAC CCTTCAGCCC AGGCTGCTGC GCATTACTGC 
    CACTACCTTA AAAAACAGTG CCGGCTGGCT GACACTTTCC GATCGCCACC GCCACCCTCC 
    AGCTTGGATA TGGAAGTTTC TGGCTCCCTG GCTTTCTCCC CTATTCCTCC TTCTCCAGCA 
    TCCCAGACTG TGGTGGTGCC CCTCTCCCTG GCTGTAGACT CCCAGCAGTC CACCAACCTG 
    GCCGGATCAG CCCCCAGCCC CTCCCTGGAG GGGTCTGGAA TACCGTATTT AAGCCCCTCA 
    GAGCAGTCTC ACCTGGGGGT CAGGACCCAG ACCCAGAGCT TCCTGCTGGA GCACCTCACC 
    TCTATCCATA CACCCACAGC AGGCCCCATT GGCCCGTCCT CAGGCACTCT CAGTGGGCTG 
    AAGGCCATGG GCATCACACA CAGGAGTACC AACTCCAGCT CCGGATCCAG CCCAACAGGG 
    GGCTTCAGCA GGCGGTCTCC CCAGTCTGAG AATGACACAG AGGAGGAGGA AGAGGAGAGG 
    AGCCCCAGGA GGCCCCAACG GGTCACCACA GCCAACCCAG GCCTGATCTC CCCTGTCAGG 
    CAGAGCCGCT TGAAGGAGGG CCTGAGGAAC AGCTCCAGGC CTAGAGACTC TCAGCCCCAG 
    CCCACTAACC ACCTCGTGGA CACCAAGCTC AGACCCAACA GCACCACACT GTACCGGGAG 
    AACCAGGTGG ACACCTCAGA GGAGCATGGC CAGGAAGGGG CCTACGATGT GGGCATGGAA 
    GGCTACGACT ATGGATACGA GGAACCAGAC TACTTCTACA GAGACTATGA CGAGGCTTTT 
    CCCGGCCCCA AAGGAGACCC AGGTCCTCCG GGTCCTCCTG GTCCCCGCGG TCTACCTGGT 
    CCTGCTGGGA AGAGAGGAGC TCGGGGTCCT ACTGGTCCAC ATGGAAACCC CGGCTTGCCT 
    GGTCCTCCTG GTACCAAGGG CTCCAAGGGC AATCCAGGAC TGTCCCCAGG TCAGGCCCCG 
    CCAGGAGACA AGGGCGACAG AGGTCCACAA GGTGTTCCAG GTCCGGGCGG GTTTGCAGGT 
    CCAATGGGTC CTAAGGGCTA TCCAGGGCCA TCAGGACAGC CAGGGGAACA GGGCATACCA 
    GGACTCCCAG GAGTAACTGG GGCTGCAGGT TACCCTGGCA GGCAGGGTTT GGCTGGGCCA 
    GAAGGTAACC CAGGTCCTAA AGGTGTACGT GGTTTCATTG GTCCTCCTGG TATAGCTGGT 
    CCACCAGGGC TAGAAGGGGA GAGAGGTATT CCCGGTCCGG TTGGGAAGAA CGGTCCCAAA 
    GGAAGACAGG GAGTTGTTGG GGGTGTTGGT GAAAGGGGTC CTCCTGGTCC TGATGGCGAC 
    CAGGGGCTTG CTGGAGGTGC TGGCATGGGG GGCTTTCCTG GCCTAAGGGG AGACCCAGGA 
    CCTGAGGGAC AGCGAGGACT GACTGGCATA GTGGGAACTA TGGGCCTGGC GGGAAAAGCG 
    GGGCTGCCTG GATTGAAAGG TGATAAGGGC GAACCTGGAC TAAGGGGTGA ACCGGGAGAG 
    ATGGGTTACC AAGGTGACAA GGGTGCTGCT GGCTTGTCTG GATCTCCTGG ACTCCGTGGG 
    AAACCAGGTC CACCTGGTAA AATGGGTGAG ATCGGACCGC AGGGATCTCC TGGCCCACTA 
    GGACCTGAGG GTTTTCCTGG AGACATCGGT GTGCCAGGTC CCAACGGCCC TCCTGGACCT 
    AAGGGACTCC TAGGTGCCAG AGGGCCACAG GGACCCCCAG GGCCAAAAGG AACAGAGGGT 
    GATGAGGGAC ACCTTGGCCC ACTTGGCGGC CCTGGCACCA CTGGGAGAGT TGGAAGGAAA 
    GGCTACATAG GGGAACCTGG ACCTGAGGGA CTGAAGGGGG AGACCGGGGA CCTTGGCGGC 
    ATTGGAAAAA ATGGACCGCA AGGTCCAGCG GGCCTGATCG GTACGTCAGG GGGAGCTGGA 
    GATCCTGGTG AAAAGGGTGA CCGTGGTCCT GCAGGTCCAT TGGGTCCTCC TGGGGAGATG 
    GGGTCCAGGG GGTATCCAGG CTTACCAGGC GGTCCCGGCG ATGTAGGTCT GCAAGGCCCA 
    TTTGGTCCTC AGGGGCAGAG GGGTACACCA GGGGTCCCAG GGCCAAAGGG CAGAAGGGGG 
    CCGAGGGGTG CAGACGGTCC ACTAGGGGAA CCAGGGCCTG AGGGCACCAA GGGAGAGCAG 
    GGGGAAGGTG GAAAGAAAGG GGAGCCTGGG TTCATAGGTA AAGCTGGCGG TCCAGGGGAG 
    AGAGGCCTAC CAGGGAAAGC TGGGAAAGCT GGGATCGCTG GCAGCACAGG AGAGAGGGGT 
    GCCCATGGTG AACCAGGGCC CAAAGGACCC GTGGGGGACG CAGGACCTGA CGGAGAGCAA 
    GGACATGAGG GCACTCCTGG CGGAGAGGGG GAGCCAGGTC CAGTTGGAGA ACCTGGGATA 
    AAGGGCCACG GGGGGCCGGT TGGAGGAGAG GGGGAACAAG GACAGCAGGG AATGAGAGGT 
    CTTCCAGGTC CTGCTGGCGA GGACGGGCCC CAGGGAAAAG ATGGACCAAA GGGAGAGCCA 
    GGTGACTGTG GGCCCATGGG CGAGGCAGGG GACAGGGGGA TAGAGGGAGA CCCTGGGCCT 
    CCTGGAACCA CCGGAGTGGC TGGAAAACGT GGTTTCTCTG GTCCAGAGGG GAAACAGGGT 
    CCCCCCGGCA ACCGAGGACG GCATGGCAAG AAGGGTGAGG CTGGCAAACC AGGTCCTATC 
    GGTGAGACAG GGGACATCGG GGACATCGGC CAGGAAGGAG GGACGGGACT GAAAGGAGCC 
    AGAGGAACCA GAGGCCCTGC GGGTCGTCCA GGAGTTATGG GGCCTGAGGG GATGCCTGGA 
    ATTGGAGGAT ACACAGGTCA CGCCGGCAAA CCAGGACCCA TAGGACCACC TGGACCCAAA 
    GGTGAAAAGG GTTACCCCGG AGAAGACAGT AAGACCCCAG GACCTGCCGG GCCACTAGGT 
    GAACCAGGTC TCCCGGGTGA GCGAGGAGAC CGCGGAGAGC CTGGAGATGA GGGATATCAG 
    GGCCACACTG GCATCACTGG ACTTCGCGGG GCTGTTGGAG CACCAGGCCT TCCTGGAACA 
    CCAGGGGAAC CCGGAGAACC GGGCCCGAAG GGAGAAATGG GAACTCAGGG CTTCGAAGGG 
    AAGAAAGGAG CGAGGGGCCT GACTGGGACC GCTGGTGTTG AAGGCGAAGT TGGTTTACTT 
    GGACCCAGAG GCATGGAGGG ATACGCTGGG CCTGACGGTC CTCCAGGACT AGTTGGGTTA 
    CCAGGATTTC CAGGGAAGAC TGGGCGACAG GGCCAGCGTG GCACCGTGGG GCAGGAGGGG 
    TCGGCAGGAC TACCTGGTCC CAGGGGGGAA CTTGGTCTGC CTGGGTTGGT CGGAGAGAGG 
    GGGCCTGCTG GAGAGAAGGG AGAGTCTGGC TTGGCAGGAG AGAGGGGGAC CCCAGGAATC 
    AAAGGCATGG AGGGCTCATC CGGAGACCAA GGCAGGATAG GAGACCCAGG ACTCAAAGGA 
    CAACCAGGGG AGCCGGGAGA CCTGGGGATG ATTGGCTTCT CTGGTTTTCC AGGACCTAAG 
    GGGCCAAATG GAGATTTGGG TTTCAAAGGC ATACCTGGTC CGAAAGGTCC TGTTGGCATT 
    CTGGGTTTCA GTGGACCTGT TGGACCAGAA GGGATGATTG GCCCAATGGG GAAACCTGGA 
    CCGAGGGGTC CAAAGGGAAG CCATGGGGAA ATGGGACCCC AGGGGCCACA GGGACATCCG 
    GGGCCCAGAG GCCCCCCTGG TGCTCCTGGC CCGACCAGAC GAATCGAGTA CAACTCTCTG 
    TTTGAGTCCA ATGGTGCCTT GAGGACAGAG ATCTACCAGA ACACGGAGAC GTCCCTCTCG 
    GACCAGAATG CAGGGATCTT TAAGACCCTG CACTACCTGA GCAGTGTGAT CGAGAGCATG 
    AAGAAACCGC TCGGAACCCG GGACAACCCG GCACGGTTTT GCAAGGACCT GCTGGACTGC 
    CAACACAAGC TCTCTGACGG ACTGTACTGG ATCGACCCTA ACCTGGGATG TCCGTCAGAC 
    GCCATTGAGG TCTTCTGTAA CTTCACGGCA GGCGGGCAGT CATGTCTCCA CCCAGTAGCC 
    TCTAACAAGC TGTTGTTCGG TGTGCATAAG GTTCAGATGA AGTTCCTCCA CCTCTTGAGC 
    ACAGAGGCCA GTCAGGACAT TACCTTCCAC TGTCTGAGTG ACCCTCCCTT CAGCCCCACA 
    AACACCTACA GTGCTGACGA CCCAGGACAG GAGTATCAGG CCAGACCACC AAGATTCAGG 
    GGATGGAACG GACAGATGTT TGAGGCAGAC AGTCTACTTG AACCTCACAT GCTACTAGAC 
    GAATGCAGGA TCCAAGATGG CAGCTGGCAC CAGTCACGCT TCTTCTTCCA TACTCAGACC 
    AGCTATGAGC TCCCCATCAT TGATATACAG GAGCAACCTT TGTCACAGTC CAACGACCTG 
    CGCCACCTCG AGGTGGGACC TGTCTGCTTC CTGTGA

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

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