ORF » Species Summary » Seriola dumerili » mast1 cDNA ORF clone

mast1 cDNA ORF clone, Seriola dumerili(greater amberjack)

The following mast1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mast1 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
OSe204500 XM_022758630.1
Latest version!		 Seriola dumerili microtubule associated serine/threonine kinase 1 (mast1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00

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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)
    mast1 ( XM_022758630.1 ) cDNA ORF clone, Seriola dumerili(greater amberjack) -> XP_022614351.1 Seriola dumerili microtubule associated serine/threonine kinase 1 (mast1), mRNA.
    Price & Availability↑
    CloneID OSe204500
    Clone ID Related Accession (Same CDS sequence) XM_022758630.1
    Accession Version XM_022758630.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5190bp)
    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 2017-10-03
    Organism Seriola dumerili(greater amberjack)
    Product microtubule-associated serine/threonine-protein kinase 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019174557.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Seriola dumerili Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGTTTCGAC GCACAAAAAG TTGCAGAACC AGCAACAGGA AAAGCCTCAT CCTGACCAGT 
    ACGTCCCCCA CGCTGCCACG GCCGCACTCT CCACTGCCTG GACACATAGG AAGCAGTCCG 
    TTGGACAGCC CGCGCAACTT CTCACCAAGC GGACCTGCCC ACTTTTCCTT CGCTTCCTCT 
    CGAAGGTTGG CATCCCTCTT TTCTTCACAC AATAAGTCAC ACAAGGAAAT GTTACAAGAA 
    CGGGCTGATG GTCGTAGATG GTCCTTGGCT TCTCTGCCTT CCTCAGGATA TGGCACCAAT 
    ACACCCAGCT CAACGGTTTC ATCCAGCTCG TCCCAGGAGC GTCTGCACCA GCTGCCCTTC 
    CAGCCGACCA TGGACGAGTT GCATTTCTTG TCCAAGCACT TTGGCAGCAC AGAGAGCATC 
    ACGGACGATG ACGGGGGCCG ACGCTCGCCG CATGTCCGCC CTCGCTCTCG GAGTCTCAGC 
    CCCGGGCGAT CTCCATCCTG CTATGACAAT GAAATAGTGA TGATGAACCA TGTCTACAAG 
    GAGCGCTTCC CCAAGGCCAC AGCTCAGATG GAGGAGAGGC TGGCAGAGTT CATCCACAGC 
    TACTCCCCGG AGAGTGTTCT GCCGCTGGCC GACGGGGTCC TCAGCTTCAT CCACCACCAG 
    GTAGCTGAGC TGTCCAGAGA CTGCCTGACC AAATCACGCG AGGGCCTCAT CACCAGCGTC 
    TACTTCTGTG AGCTGCAGGA GAACCTGGAG AGGCTGCTGC ATGATGCTTA CGAGCGCTCG 
    GAGAGTTCGG AGCTCACCTT CGTCATTGAG CTGGTTAAAA AGCTCTTCAT CATCATATCT 
    CGTCCCGCCA GGCTCCTTGA GTGTTTGGAG TTCAACCCAG AAGAGTTTTA CCATCTGCTG 
    GAGGCAGCGG AGGATCACGC CAAGGAGGGA CAACTGATGA AGGCAGACAT CCCTCGGTAC 
    ATCATCAGCC AACTGGGGCT GACCAGAGAC CCACTGGAGG AAATCGTGAA TCTTGAAAAC 
    TATGACAGCG AGGGTCCACA TACTCCAGAG ACTGATGACT CAGCAGAGGG AAAAGGGAGA 
    GCCATCAAGC CACCGAGTGA GGAAGATTTT CAGAGCATCA AACTGATCAG CAATGGAGCT 
    TATGGCGCCG TCTACCTGGT GCGGCACAGG GAGACACGTC AGCGATTTGC CATGAAAAAG 
    ATCAACAAGC AGAATCTGAT CCTGAGGAAC CAGATCCAGC AGGCGTTCGT AGAGCGAGAC 
    ATCCTCACCT TCGCAGAGAA CCCCTTTGTC GTCTCAATGT TCTGCTCTTT TGAAACGCGG 
    CGACACCTCT GCATGGTCAT GGAATATGTT GAGGGTGGTG ACTGTGCCAC CTTGTTGAAG 
    AACATTGGGG CTCTGCCTGT GGAGCTGGCA AGAATGTACT TTGCTGAGAC TGTTTTAGCC 
    CTGGAGTACC TGCACAACTA TGGTATCGTC CACAGAGATC TCAAACCTGA CAATCTCCTG 
    ATCACCTCCA TGGGCCACAT CAAGCTCACA GACTTTGGCT TGTCGAAGAT GGGTCTAATG 
    AGCCTCACCA CGAACCTTTA CGAGGGACAC ATTGAGAAAG ATGCCAGAGA GTTCCTGGAC 
    AAGCAGGTCT GTGGGACTCC AGAGTACATC GCTCCAGAGG TGATTCTCCG TCAGGGCTAC 
    GGAAAGCCGG TGGATTGGTG GGCCATGGGC ATCATCCTAT ATGAGTTCCT GGTGGGCTGT 
    GTGCCTTTCT TTGGAGACAC TCCAGAGGAG CTGTTTGGAC AGGTTATAAC AGACGATATA 
    GTTTGGCCAG ATGGTGATGA AGCCTTGCCT GCAGATGCCC AGGCCCTCAT ATCTGCTCTG 
    CTGCAGACAA ACCCTCTAGT GAGGTTGGGT TCAGGTGGAG CGTTCGAGGT GAAGCAGCAC 
    TCCTTCTTCT CTGAGCTGGA CTGGAACAGT TTGCTGAGGC AGAAGGCAGA GTTCATCCCT 
    CACCTGGAGT CAGAGGAGGA CACCAGCTAC TTTGACACCC GCTCGGATCG TTATCACCAC 
    ATCAATACGT ACGACGAGGA TGACACCAAT GACGACGAGC CGGTGGAGAT CAGACAGTTT 
    TCCTCCTGTT CTCCTCGCTT CAGCAAGGTG TACAGCAGCA TGGAGCATCT CTCTCAGCTG 
    GAGCAGAAAG CTACGACCTC TGTGTCCCGT CGGGAGCACA AGGGCCCGCG GGACGACAAG 
    GTGACCAAGA GAGAGAGCCT GGGCAGCTTC AGCATGAGGG ATAAGAGCTG GAGGACTGGA 
    TCGCCTGAGA TGAAGCGCCT GTCTTGTTCA GAGTCCCTCT ACATGGAAGG AGACGCGAGC 
    CCTCCCCTTG GTGCTCGGCG ACGCTTCTCA GCACTGATGG ATACACATCG TTTTGCTTCA 
    CCCCTAGAGG GTGAGCCAGA CTTCCTGTCC CGCCAGGCTC CCATCAAGGT CCGTGGAACC 
    TCACTGGATG GGACCAGTGT CCCCTCACCG AGCCTCCTGG AGCAGAGGAC CAGTCTGAAA 
    GAGATCAACG GGGCAGACAA GCCCCCTAGA CCTGGAGAGA CACCAGGCAT TACTACAACC 
    ATCACCACAT TGTCTCCAGG TCCTGCAGCC ACCAGTCGTG ATGTCATGAC CCCTCTGTAT 
    GACCCTCTGG GGCCCCGGGC CACCAATGAC CTGGTCCTCC GCAGGGCGCG CCACCAGCAT 
    TTGTCTGGTG ATGGAGAGAA GCGCAACTCC AGACCTGGCA ACAAGGTCAT CAAGTCAGCC 
    TCCGCCACAG CCCTGTCTGT CATTATACCA TCAGTGGAGC AGCATGGTGG CTTCTCCCCA 
    TTGGCCAGCC CCATGTCTCC CCACTCTTTC TCTTCCAACC CCTCGTCTCG AGACTCTTCA 
    CCCAGCAGAG ACTTCTGCCC AGCAGTCAGT GTGCTGCGCT CCCCCATTAC CATCCATCGA 
    TCTGGAAAGA AGTACGGTTT CACCCTCAGG GCCATCAGGG TCTACATTGG AGACAGTGAC 
    ATCTACAGCG TCCATCATAT AGTTTGGCAT GTGGAGGACG GCGGCCCTGC CCAGGAGGCC 
    GGCCTGTGTG CTGGTGACCT CATCACTCAT GTCAACGGGG AACCTGTCCA CGGTCTGGTT 
    CACACTGAAG TGGTAGAGCT TATCCTCAAG AGTGGTAACA AGGTGACAGT GACCACCACA 
    CCTTTTGAGA ACACCTCCAT TAAAGTGGGT CCTGCCCGGA AGGCCAGCTA CAAGTGTAAG 
    ATGGCCCGAC GAAACAAGAG GACCATGGGC AAGGAAGGCC AGGACAGTAA GAAGCGTAGC 
    TCCTTGTTTC GTAAGATCAC AAAACAGTCC AATCTGCTGC ACACCAGCCG CAGCCTGTCC 
    TCTTTGAATC GCTCTCTGTC CTCCAGCGAG AGTCTTCCTG GCTCCCCGAC ACACAGTCTG 
    TCTGCGCGGT CCCCGACTCA GGGCTACCGC TCCACCCCTG AGCCCTCATA CTTGGGTGCT 
    TCCTCCCAGA GCAGCTCTCC AGCCTCCAGC ACTCCAAACT CCCCTGCTCC CTCACAACAC 
    ATGAGGCCCA GCTCCCTGCA CGGCCTCTCA CCTAAACTCC ACCGCCAGTA TCGCTCTGCC 
    CGTTGTAAAT CTGCTGGTAA CATCCCCCTG TCTCCGCTGG CCCATACACC CTCCCCTACC 
    CAGTCTTCTC CTCCACCCTT GCCAGGCCAC ACTGTAGGGA GTTCCAACAC CACTCAGTCC 
    TTCCCTGCCA AGCTCCACTC GTCGCCGCCT GTGGTCCGTC CCAGGCCCAA GAGTGCCGAG 
    CCCCCTCGAT CACCTCTTCT CAAAAGAGTT CAGTCAGCAG AGAAGCTGGG CTCACCTCTG 
    ACCCAGTCCA GTTCTACAGG AGGGCTGGGG GGTCCGCTGA GGAAGCACAG CCTGGAGGTG 
    CAGCACTCTG AGTACCGCAA GGATGCCTTC CTCTGTGAGC TTGGGCTCCA GAGCCTGTTG 
    GAGACAGAAG GGGAAAATTT GCCTCCTAAT CCTCCACCCC TGCCCTCATC CTCCTCTACA 
    CCAGAGACCG GTGTACTGAA GCCAGTGAGG AGACTAGGGA GGCAGGAGTC ACCGCTTAGC 
    AGGGAAACAC TGCTGGCTGG GAGGGAGAGA GAAGAGAGGG AGAGAGGAAG GGAGAGGGAG 
    AAAGAGAGGG AGAGAGACGC CGGGACAAGT CGAGTTGGAG CAACAGCATC CCCGACATCC 
    TTAACGAGAA AACCTCATAC AAGTGAGCTG CCCTTAAACT CACAAAGCTC CAGACTAAAT 
    GCAGAAACTA CTAAAATTAC AACTCCTAGC ACCCCTACCA AAACAACAGG AAGTCTATGT 
    GGTCAGAAGG CACCTGAAAA GATTCTCCAG GGTCAGGCAG TCTTAAGTCC AAAACAATTA 
    GATCCCAAGG CAGCCAAAAG TGTGTTATCT AATAGTAAAG ATCCCCAGGA GCAGCTGCAG 
    GGGGGTAGAA CTGATCCAAA GCAGGAAGGA AACAATAGGA GTGGTCCCAG TAGGCCTGGT 
    TTACCCGGTG CTGCCTTCGC TAAGAGCTCT GCTTCTACTC CAGATAAATC CATTGGCATC 
    AACGCGACAG TGACAGCAGG TCCTCTGAGC ATGAACAAAA CCTTTAAACC ATCAGGTATG 
    GGGGACAACC TGAGAAAGGC TGGAGCTGAG AGCAGTGACT CGAGGACTCC AGACCTCAGC 
    TCTAAAAGCC CCAAACTTCC AGCTCGCGTC CTGGCTCCCG TCGTTCCCCC ACACGGGCAG 
    CCACTTTCTC TAGGCAAGGT GAGGCAGGGA CTCGGGGCCG TCAACTGCTA CAGGGGAACT 
    CTCGATTGGG AGGACAAATG TCGCCTGGAG GTGGTGGAGG AGCATTCACC TTCCCCTTCT 
    CCCTCCCCTA CCGCTATCAC CCCCTCCCTC TGCGGGCCTT CCCTTTGCAA GTCGCGGCCT 
    GTCTCCCCTG GCGACAAGAC GAGTTTTGTC AGCCAGCTGA CCACTGTGGC CAAAAACGTC 
    CTCGGGCCAA TCAAGCTGGG TTCCCAGGAT GGGGCCAAGA GCAAAGACCA GCAGACTAAG 
    GCAGCGGAGG AGAAGCAGGG AGGCACAGCG GGAAGGTCTG ACACTCCTGC TGGAGGTCGA 
    GTGCTTGTTG GGGCTGCAGT GGTGACCCAA AGTCCTGCTG GTTCACCACT AGAGAAATCT 
    GCAACAGGTA GCAGCCTGCC AAAAATGTGA

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

    RefSeq XP_022614351.1
    CDS11..5200
    Translation

    Target ORF information:

    RefSeq Version XM_022758630.1
    Organism Seriola dumerili(greater amberjack)
    Definition Seriola dumerili microtubule associated serine/threonine kinase 1 (mast1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022758630.1

    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
    ATGTTTCGAC GCACAAAAAG TTGCAGAACC AGCAACAGGA AAAGCCTCAT CCTGACCAGT 
    ACGTCCCCCA CGCTGCCACG GCCGCACTCT CCACTGCCTG GACACATAGG AAGCAGTCCG 
    TTGGACAGCC CGCGCAACTT CTCACCAAGC GGACCTGCCC ACTTTTCCTT CGCTTCCTCT 
    CGAAGGTTGG CATCCCTCTT TTCTTCACAC AATAAGTCAC ACAAGGAAAT GTTACAAGAA 
    CGGGCTGATG GTCGTAGATG GTCCTTGGCT TCTCTGCCTT CCTCAGGATA TGGCACCAAT 
    ACACCCAGCT CAACGGTTTC ATCCAGCTCG TCCCAGGAGC GTCTGCACCA GCTGCCCTTC 
    CAGCCGACCA TGGACGAGTT GCATTTCTTG TCCAAGCACT TTGGCAGCAC AGAGAGCATC 
    ACGGACGATG ACGGGGGCCG ACGCTCGCCG CATGTCCGCC CTCGCTCTCG GAGTCTCAGC 
    CCCGGGCGAT CTCCATCCTG CTATGACAAT GAAATAGTGA TGATGAACCA TGTCTACAAG 
    GAGCGCTTCC CCAAGGCCAC AGCTCAGATG GAGGAGAGGC TGGCAGAGTT CATCCACAGC 
    TACTCCCCGG AGAGTGTTCT GCCGCTGGCC GACGGGGTCC TCAGCTTCAT CCACCACCAG 
    GTAGCTGAGC TGTCCAGAGA CTGCCTGACC AAATCACGCG AGGGCCTCAT CACCAGCGTC 
    TACTTCTGTG AGCTGCAGGA GAACCTGGAG AGGCTGCTGC ATGATGCTTA CGAGCGCTCG 
    GAGAGTTCGG AGCTCACCTT CGTCATTGAG CTGGTTAAAA AGCTCTTCAT CATCATATCT 
    CGTCCCGCCA GGCTCCTTGA GTGTTTGGAG TTCAACCCAG AAGAGTTTTA CCATCTGCTG 
    GAGGCAGCGG AGGATCACGC CAAGGAGGGA CAACTGATGA AGGCAGACAT CCCTCGGTAC 
    ATCATCAGCC AACTGGGGCT GACCAGAGAC CCACTGGAGG AAATCGTGAA TCTTGAAAAC 
    TATGACAGCG AGGGTCCACA TACTCCAGAG ACTGATGACT CAGCAGAGGG AAAAGGGAGA 
    GCCATCAAGC CACCGAGTGA GGAAGATTTT CAGAGCATCA AACTGATCAG CAATGGAGCT 
    TATGGCGCCG TCTACCTGGT GCGGCACAGG GAGACACGTC AGCGATTTGC CATGAAAAAG 
    ATCAACAAGC AGAATCTGAT CCTGAGGAAC CAGATCCAGC AGGCGTTCGT AGAGCGAGAC 
    ATCCTCACCT TCGCAGAGAA CCCCTTTGTC GTCTCAATGT TCTGCTCTTT TGAAACGCGG 
    CGACACCTCT GCATGGTCAT GGAATATGTT GAGGGTGGTG ACTGTGCCAC CTTGTTGAAG 
    AACATTGGGG CTCTGCCTGT GGAGCTGGCA AGAATGTACT TTGCTGAGAC TGTTTTAGCC 
    CTGGAGTACC TGCACAACTA TGGTATCGTC CACAGAGATC TCAAACCTGA CAATCTCCTG 
    ATCACCTCCA TGGGCCACAT CAAGCTCACA GACTTTGGCT TGTCGAAGAT GGGTCTAATG 
    AGCCTCACCA CGAACCTTTA CGAGGGACAC ATTGAGAAAG ATGCCAGAGA GTTCCTGGAC 
    AAGCAGGTCT GTGGGACTCC AGAGTACATC GCTCCAGAGG TGATTCTCCG TCAGGGCTAC 
    GGAAAGCCGG TGGATTGGTG GGCCATGGGC ATCATCCTAT ATGAGTTCCT GGTGGGCTGT 
    GTGCCTTTCT TTGGAGACAC TCCAGAGGAG CTGTTTGGAC AGGTTATAAC AGACGATATA 
    GTTTGGCCAG ATGGTGATGA AGCCTTGCCT GCAGATGCCC AGGCCCTCAT ATCTGCTCTG 
    CTGCAGACAA ACCCTCTAGT GAGGTTGGGT TCAGGTGGAG CGTTCGAGGT GAAGCAGCAC 
    TCCTTCTTCT CTGAGCTGGA CTGGAACAGT TTGCTGAGGC AGAAGGCAGA GTTCATCCCT 
    CACCTGGAGT CAGAGGAGGA CACCAGCTAC TTTGACACCC GCTCGGATCG TTATCACCAC 
    ATCAATACGT ACGACGAGGA TGACACCAAT GACGACGAGC CGGTGGAGAT CAGACAGTTT 
    TCCTCCTGTT CTCCTCGCTT CAGCAAGGTG TACAGCAGCA TGGAGCATCT CTCTCAGCTG 
    GAGCAGAAAG CTACGACCTC TGTGTCCCGT CGGGAGCACA AGGGCCCGCG GGACGACAAG 
    GTGACCAAGA GAGAGAGCCT GGGCAGCTTC AGCATGAGGG ATAAGAGCTG GAGGACTGGA 
    TCGCCTGAGA TGAAGCGCCT GTCTTGTTCA GAGTCCCTCT ACATGGAAGG AGACGCGAGC 
    CCTCCCCTTG GTGCTCGGCG ACGCTTCTCA GCACTGATGG ATACACATCG TTTTGCTTCA 
    CCCCTAGAGG GTGAGCCAGA CTTCCTGTCC CGCCAGGCTC CCATCAAGGT CCGTGGAACC 
    TCACTGGATG GGACCAGTGT CCCCTCACCG AGCCTCCTGG AGCAGAGGAC CAGTCTGAAA 
    GAGATCAACG GGGCAGACAA GCCCCCTAGA CCTGGAGAGA CACCAGGCAT TACTACAACC 
    ATCACCACAT TGTCTCCAGG TCCTGCAGCC ACCAGTCGTG ATGTCATGAC CCCTCTGTAT 
    GACCCTCTGG GGCCCCGGGC CACCAATGAC CTGGTCCTCC GCAGGGCGCG CCACCAGCAT 
    TTGTCTGGTG ATGGAGAGAA GCGCAACTCC AGACCTGGCA ACAAGGTCAT CAAGTCAGCC 
    TCCGCCACAG CCCTGTCTGT CATTATACCA TCAGTGGAGC AGCATGGTGG CTTCTCCCCA 
    TTGGCCAGCC CCATGTCTCC CCACTCTTTC TCTTCCAACC CCTCGTCTCG AGACTCTTCA 
    CCCAGCAGAG ACTTCTGCCC AGCAGTCAGT GTGCTGCGCT CCCCCATTAC CATCCATCGA 
    TCTGGAAAGA AGTACGGTTT CACCCTCAGG GCCATCAGGG TCTACATTGG AGACAGTGAC 
    ATCTACAGCG TCCATCATAT AGTTTGGCAT GTGGAGGACG GCGGCCCTGC CCAGGAGGCC 
    GGCCTGTGTG CTGGTGACCT CATCACTCAT GTCAACGGGG AACCTGTCCA CGGTCTGGTT 
    CACACTGAAG TGGTAGAGCT TATCCTCAAG AGTGGTAACA AGGTGACAGT GACCACCACA 
    CCTTTTGAGA ACACCTCCAT TAAAGTGGGT CCTGCCCGGA AGGCCAGCTA CAAGTGTAAG 
    ATGGCCCGAC GAAACAAGAG GACCATGGGC AAGGAAGGCC AGGACAGTAA GAAGCGTAGC 
    TCCTTGTTTC GTAAGATCAC AAAACAGTCC AATCTGCTGC ACACCAGCCG CAGCCTGTCC 
    TCTTTGAATC GCTCTCTGTC CTCCAGCGAG AGTCTTCCTG GCTCCCCGAC ACACAGTCTG 
    TCTGCGCGGT CCCCGACTCA GGGCTACCGC TCCACCCCTG AGCCCTCATA CTTGGGTGCT 
    TCCTCCCAGA GCAGCTCTCC AGCCTCCAGC ACTCCAAACT CCCCTGCTCC CTCACAACAC 
    ATGAGGCCCA GCTCCCTGCA CGGCCTCTCA CCTAAACTCC ACCGCCAGTA TCGCTCTGCC 
    CGTTGTAAAT CTGCTGGTAA CATCCCCCTG TCTCCGCTGG CCCATACACC CTCCCCTACC 
    CAGTCTTCTC CTCCACCCTT GCCAGGCCAC ACTGTAGGGA GTTCCAACAC CACTCAGTCC 
    TTCCCTGCCA AGCTCCACTC GTCGCCGCCT GTGGTCCGTC CCAGGCCCAA GAGTGCCGAG 
    CCCCCTCGAT CACCTCTTCT CAAAAGAGTT CAGTCAGCAG AGAAGCTGGG CTCACCTCTG 
    ACCCAGTCCA GTTCTACAGG AGGGCTGGGG GGTCCGCTGA GGAAGCACAG CCTGGAGGTG 
    CAGCACTCTG AGTACCGCAA GGATGCCTTC CTCTGTGAGC TTGGGCTCCA GAGCCTGTTG 
    GAGACAGAAG GGGAAAATTT GCCTCCTAAT CCTCCACCCC TGCCCTCATC CTCCTCTACA 
    CCAGAGACCG GTGTACTGAA GCCAGTGAGG AGACTAGGGA GGCAGGAGTC ACCGCTTAGC 
    AGGGAAACAC TGCTGGCTGG GAGGGAGAGA GAAGAGAGGG AGAGAGGAAG GGAGAGGGAG 
    AAAGAGAGGG AGAGAGACGC CGGGACAAGT CGAGTTGGAG CAACAGCATC CCCGACATCC 
    TTAACGAGAA AACCTCATAC AAGTGAGCTG CCCTTAAACT CACAAAGCTC CAGACTAAAT 
    GCAGAAACTA CTAAAATTAC AACTCCTAGC ACCCCTACCA AAACAACAGG AAGTCTATGT 
    GGTCAGAAGG CACCTGAAAA GATTCTCCAG GGTCAGGCAG TCTTAAGTCC AAAACAATTA 
    GATCCCAAGG CAGCCAAAAG TGTGTTATCT AATAGTAAAG ATCCCCAGGA GCAGCTGCAG 
    GGGGGTAGAA CTGATCCAAA GCAGGAAGGA AACAATAGGA GTGGTCCCAG TAGGCCTGGT 
    TTACCCGGTG CTGCCTTCGC TAAGAGCTCT GCTTCTACTC CAGATAAATC CATTGGCATC 
    AACGCGACAG TGACAGCAGG TCCTCTGAGC ATGAACAAAA CCTTTAAACC ATCAGGTATG 
    GGGGACAACC TGAGAAAGGC TGGAGCTGAG AGCAGTGACT CGAGGACTCC AGACCTCAGC 
    TCTAAAAGCC CCAAACTTCC AGCTCGCGTC CTGGCTCCCG TCGTTCCCCC ACACGGGCAG 
    CCACTTTCTC TAGGCAAGGT GAGGCAGGGA CTCGGGGCCG TCAACTGCTA CAGGGGAACT 
    CTCGATTGGG AGGACAAATG TCGCCTGGAG GTGGTGGAGG AGCATTCACC TTCCCCTTCT 
    CCCTCCCCTA CCGCTATCAC CCCCTCCCTC TGCGGGCCTT CCCTTTGCAA GTCGCGGCCT 
    GTCTCCCCTG GCGACAAGAC GAGTTTTGTC AGCCAGCTGA CCACTGTGGC CAAAAACGTC 
    CTCGGGCCAA TCAAGCTGGG TTCCCAGGAT GGGGCCAAGA GCAAAGACCA GCAGACTAAG 
    GCAGCGGAGG AGAAGCAGGG AGGCACAGCG GGAAGGTCTG ACACTCCTGC TGGAGGTCGA 
    GTGCTTGTTG GGGCTGCAGT GGTGACCCAA AGTCCTGCTG GTTCACCACT AGAGAAATCT 
    GCAACAGGTA GCAGCCTGCC AAAAATGTGA

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

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