ORF » Species Summary » Lates calcarifer » dnmt1 cDNA ORF clone

dnmt1 cDNA ORF clone, Lates calcarifer(barramundi perch)

The following dnmt1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the dnmt1 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
OLa73722 XM_018705069.1
Latest version!		 Lates calcarifer DNA methyltransferase 1 (dnmt1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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** 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)
    dnmt1 ( XM_018705069.1 ) cDNA ORF clone, Lates calcarifer(barramundi perch) -> XP_018560585.1 Lates calcarifer DNA methyltransferase 1 (dnmt1), mRNA.
    Price & Availability↑
    CloneID OLa73722
    Clone ID Related Accession (Same CDS sequence) XM_018705069.1
    Accession Version XM_018705069.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4521bp)
    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 2016-10-13
    Organism Lates calcarifer(barramundi perch)
    Product DNA (cytosine-5)-methyltransferase 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017366452.1) 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 :: Lates calcarifer Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGCCAGCCA AGACTTCCCT GTCTCTGCCA GAGGATGTCA GGAAAAGGCT GCAGGTGCTG 
    GATGAGGATG GATTTTCAGA CGAGGATCAT GTCAAAGAGA AGCTCAGGTT GGTGCAGGAC 
    TTCCTGCATG TTGATGCTCA GGACCAGCTG ACCAGCCTGG AGGAAAAGAT GAAAAGTTCA 
    GAGATCTCAA TGGAGATTTA CATCTCAAAA GTAAAATCCT TGCTCGGAAA AGAGCTTAAT 
    CTTGAAAATG GCTCACATGT TGATGGCATG GAGAAGAATG GAAAGACAAA TGGTTTCACA 
    AACGGTTCCC ACAAAGATGA GGACGGTGAA GATGTAACCA TGGACATGCA TGAGGAGGAG 
    GAAGCAGTCA AATCACCAAC TGCTCCTAAG GGAAAGGGTG GACGCAGGAG CAAGGCAAAT 
    TCCGACAATA AAAAGTCTCC GGTTAGTACC AGGGTCACAA GAAACAGTGG GAAACAGCCA 
    ACCATCTTGT CAATGTTCTC TAAAGTTCAA AAGCGCAAGT CTGAAGACTT AAATGGTGAA 
    GCCACTAATG GGCAAAATGA ACTGAAGAAA GAGGAAGATG ATGCTGAGGA GTCTCGGGAA 
    GAGAAGCGTC TCAAAGTGGA CTCCAGTGAC AATGCTGCTC CAGAAGAATC AAAGAGTGAG 
    ATGATTAAAT CGGTTTCTGC TGCAAAGACA CCACCACCCA AATGCCCAGA CTGCAGACAA 
    TACTTGGATG ATTCAGATCT AAAATTCTTT CAAGGGGATC CTGATAATGC GCTGGATGAA 
    CCAGAAATGT TAACAGATGA GCGCCTCTCC TTGTTTGACT CAAATGAAGA TGGATTTGAG 
    AGCTATGAGG ATCTACCTCA GCACAAGATT ACAAACTTCA GTGTGTATGA CAAGCGTGGC 
    CACCTTTGTC CATTTGACTC TGGACTGATT GAGAAGAACG TCGAGCTCTA CTTCAGCTGT 
    GTTGTCAAAC CGATCTATGA TGACAACCCT TGCTTGGATG GTGGTGTTCC AGCAAAGAAA 
    CTCGGACCTA TCAATGCCTG GTGGATCACA GGTTTTGATG GTGGAGAAAA AGCTTTAATT 
    GGTTTCACTA CAGCTTTTGC TGATTACATC TTAATGCAGC CAAGTGAGGA GTATGCACCC 
    ATCTTCGCAT TGATGCAAGA GAAGATCTAT ATGAGCAAGA TAGTGGTGGA ATTCCTCCAG 
    AAGAATCCTG ATGCTACTTA TGAGGATCTT CTCAACAAGA TTGAGACAAC CGTGCCTCCT 
    GCAGGGCTAA ACTTCAACTG TTTCACTGAA GATACACTGC TGCGCCACGC CCAGTTCGTG 
    GTGGAGCAGG TGGAGAGCTA TGATGAGGCC GGCGACTCTG ATGAGCAGCC CATCATTGTT 
    ACACCCTGCA TGAGAGACCT GATCAAGCTC GCAGGAGTCA CTCTAGGGAA GAGGAGGGCT 
    GCCAGAAGAC AGGCCATTCG TCACCCGACA AAGATAGAGA AGGACAGTAA GGGACCGACT 
    AAAGCGACCA CTACCAAGCT GGTCTACCAA ATCTTTGATA CCTTCTTCTC TGATCAAATA 
    GAGCAGAACG ATAAAGAGAG TGGAGTCAAA AGACACCGTT GTGGAGTCTG TGAGGTTTGC 
    CAATCTCCTG ACTGTGGCAA ATGTACAGCT TGCAAGGACA TGATCAAATT TGGAGGAAGT 
    GGCAAAAGCA AGCAAGCTTG TAAGCAGAGA AGATGCCCAA ATCTTGCCGT AAAGGAGGCT 
    GAAGACGATG AGAACATTGA AGAGGAAGAT GTTCCAGTGG AGAAGACTAA AAAGGTTGCT 
    TCTGCTAAGA GGAAGAAGCA GACCCAGTGC AAACTGACAT GGATTGGAGA ACCTGTTCAG 
    ACAGAGGGAA AGAAGCAGTA CTACAAGAAG GTCTCTGTGA ATGATGAAGT GCTGGAGGTG 
    GGAGACTGTG TCTCAGTTTC ATCAGAGGAT CCATCCATTC CTCTGTATCT GGCAAGGATC 
    ACATCACTGT GGGAGGACGC CAGTGGAAAG ATGTTCCATG CCCATTGGTT CCTGCGTGGG 
    ATTCACACAG TGCTGGGAGA GTCCTCTGAT CCCCTGGAGC TTGTTATTGT GGACGAGTGT 
    GAAGACATGT TGCTCAATTA TGTCCAAGGC AAAGTGAACG TCACATATAA GCCCCCATCT 
    AACAACTGGT TTATGGAGGG TGGCATGGAT GTTGACCTCA AGGTGATTGA TGATGATGGC 
    AAGAGTTTTT TCTATCAGTT CTGGTACGAC ACAGAGTTCG CCCGCTTTGA GACACCTCCT 
    AAGACCACTC CATCAGAAGA CTGCAAGTTC AAGTTCTGTG GCAGCTGTGA TAGGACTAAG 
    GAAAGAGAGC GACAGGAAAT TCCTCAGGCG TTTGAGCCCC TGGAGAATGA AGACAACGAC 
    TCCAAGGCTT TGTATGCTCT GGCTTGCTTT AAGGGGGAAC AGTTCAGGGT GGGAGACGGC 
    ATCTACTTGC CCCCTGAGGG TTTTAATTTC AGTGTGAAGC CAGCTAGTCC AGTGAAGCGC 
    TCCCATAGGA AAGAGGATGT GGATGAGGAG TTATATCCAG AGTATTACAG GAAATCCTCA 
    GACTACATTA AGGGGTCAAA TCTGGACGCT CCAGAGCCCT TCCGCATCGG GCGCATCAAG 
    GAGATTTTCT GTCACAGGCG TAGCAACGGG AAACCTGACA TGTCCGAGGT CAAACTGCGA 
    CTCTACAAGT TCTACAGGCC TGAGAACACT CACAAAGGTG TCAAAGCTAG TTACCACACA 
    GACATCAACC AGCTGTACTG GAGTGATGAA GAAGTGACTG TCAGCATGTC TGAGGTGCTC 
    GGCCGCTGTC AAGTAGAATA TGGAGAGGAC CTGAATGAGT CAGTCCAGGA CTATTCCAGT 
    GGTGGACCAG ACCGTTTCTA TTTCCTAGAG GCCTATAACG CAAAATCAAA AAGCTTTGAA 
    GACCCTCCAA ATCATGCTCG CTCGTCTGTT CATAAAGGCA AAGGAAAGGG CAAAGGGAAA 
    GGTAAAGGCA AAGGAAAGGC ATCTGCTGCA CAGGAACCAC AGGAAACTCA GACTGAACCA 
    CAGGCACCTA AAGTGCCCAA ATATCGCACA CTGGATGTGT TCTCTGGCTG TGGTGGACTC 
    TCTGAAGGCT TCCACCAGGC TGGTATCTCT GAGACTCTGT GGGCCATTGA GATGTGGGAG 
    CCTGCAGCAC AGGCCTTTAG GCTCAACAAC CCCGGCACCA CAGTGTTCAC TGAGGACTGC 
    AACATCTTGC TGAAGTTGGT CATGTCTGGA GAGAAGACTA ATTCTCTTGG CCAGAAGCTG 
    CCTCAGAAAG GTGACGTTGA GATGCTGTGT GGAGGACCTC CTTGCCAAGG GTTCAGTGGG 
    ATGAACCGTT TCAACTCTCG CACTTATTCC AAATTCAAGA ATTCACTTGT GGTCTCTTAT 
    CTCAGTTACT GTGATTACTA CAGACCAAAG TTTTTCCTGC TTGAGAATGT GAGGAACTTT 
    GTGTCATTCA AAAACTCCAT GGTGCTAAAG CTAACTCTAC GCTGTCTTGT GCGCATGGGC 
    TACCAGTGTA CTTTTGGTGT CCTTCAGGCT GGTCAGTATG GTGTTGCCCA GACCCGTCGC 
    AGGGCTATCA TCCTGGCTGC GGCTCCTGGA GAGAAGCTGC CTCGCTACCC TGAGCCTCTG 
    CACGTGTTTG CTCCCAGAGC TTGCTCGCTG AGCGTGGTGG TGGATGAAAA GAAATACGTC 
    AGTAATGTCA CACGAGGTAA TGGAGGAATC TACAGAACCA TCACTGTCCG AGACACCATG 
    TCTGACCTGC CTGAGATTCG CAATGGTGCA GCTGCATTGG AGATTTCCTA CAACGGGGAG 
    CCTCAGTCTT GGTTCCAGAG GCAGATCAGG GGCACACAGT ATCAGCCTAT CCTCAGAGAT 
    CATATCTGCA AGGACATGAG TGCTCTGGTT GAGGGTCGAA TGCGTCACAT CCCCTTGGCT 
    CCAGGCTCCG ACTGGAGGGA TCTTCCCAAC ATCGAGGTTC GGCTCAAAGA TGGCACCATG 
    ACCAAGAAAC TGCGATACAC TCACTCCGAT AAAAAGAATG GACGCAGCAG CACTGGTGCA 
    CTTAGAGGTG TTTGCACTTG TGCAGGAGGG AAGCCATGTG ACCCTGCAGA CAGGCAGTTT 
    AACACCTTGA TCCCCTGGTG TCTGCCCCAC ACTGGTAACC GTCACAATCA CTGGGCTGGA 
    CTCTACGGTA GATTGGAGTG GGATGGCTTC TTCAGCACAA CTGTCACCAA CCCTGAACCC 
    ATGGGCAAGC AGGGCCGTGT TCTGCATCCT GAGCAGCACA GAGTGGTTAG TGTGAGGGAG 
    TGTGCACGCT CTCAGGGATT CCCTGACACC TACCGCTTCT TTGGAAACAT CCTGGACAAA 
    CACAGACAGG TTGGAAATGC TGTGCCTCCT CCACTCTCCA GGGCCATAGG CCTGGAGCTT 
    AAGAAGTGTG TCATGGAGAG AATGAAGGAA GAACAAGCAA CTGAGAATAT CAAACAAGAG 
    AAGATGGAGG TCTCTGATTA G

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

    RefSeq XP_018560585.1
    CDS154..4674
    Translation

    Target ORF information:

    RefSeq Version XM_018705069.1
    Organism Lates calcarifer(barramundi perch)
    Definition Lates calcarifer DNA methyltransferase 1 (dnmt1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018705069.1

    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
    ATGCCAGCCA AGACTTCCCT GTCTCTGCCA GAGGATGTCA GGAAAAGGCT GCAGGTGCTG 
    GATGAGGATG GATTTTCAGA CGAGGATCAT GTCAAAGAGA AGCTCAGGTT GGTGCAGGAC 
    TTCCTGCATG TTGATGCTCA GGACCAGCTG ACCAGCCTGG AGGAAAAGAT GAAAAGTTCA 
    GAGATCTCAA TGGAGATTTA CATCTCAAAA GTAAAATCCT TGCTCGGAAA AGAGCTTAAT 
    CTTGAAAATG GCTCACATGT TGATGGCATG GAGAAGAATG GAAAGACAAA TGGTTTCACA 
    AACGGTTCCC ACAAAGATGA GGACGGTGAA GATGTAACCA TGGACATGCA TGAGGAGGAG 
    GAAGCAGTCA AATCACCAAC TGCTCCTAAG GGAAAGGGTG GACGCAGGAG CAAGGCAAAT 
    TCCGACAATA AAAAGTCTCC GGTTAGTACC AGGGTCACAA GAAACAGTGG GAAACAGCCA 
    ACCATCTTGT CAATGTTCTC TAAAGTTCAA AAGCGCAAGT CTGAAGACTT AAATGGTGAA 
    GCCACTAATG GGCAAAATGA ACTGAAGAAA GAGGAAGATG ATGCTGAGGA GTCTCGGGAA 
    GAGAAGCGTC TCAAAGTGGA CTCCAGTGAC AATGCTGCTC CAGAAGAATC AAAGAGTGAG 
    ATGATTAAAT CGGTTTCTGC TGCAAAGACA CCACCACCCA AATGCCCAGA CTGCAGACAA 
    TACTTGGATG ATTCAGATCT AAAATTCTTT CAAGGGGATC CTGATAATGC GCTGGATGAA 
    CCAGAAATGT TAACAGATGA GCGCCTCTCC TTGTTTGACT CAAATGAAGA TGGATTTGAG 
    AGCTATGAGG ATCTACCTCA GCACAAGATT ACAAACTTCA GTGTGTATGA CAAGCGTGGC 
    CACCTTTGTC CATTTGACTC TGGACTGATT GAGAAGAACG TCGAGCTCTA CTTCAGCTGT 
    GTTGTCAAAC CGATCTATGA TGACAACCCT TGCTTGGATG GTGGTGTTCC AGCAAAGAAA 
    CTCGGACCTA TCAATGCCTG GTGGATCACA GGTTTTGATG GTGGAGAAAA AGCTTTAATT 
    GGTTTCACTA CAGCTTTTGC TGATTACATC TTAATGCAGC CAAGTGAGGA GTATGCACCC 
    ATCTTCGCAT TGATGCAAGA GAAGATCTAT ATGAGCAAGA TAGTGGTGGA ATTCCTCCAG 
    AAGAATCCTG ATGCTACTTA TGAGGATCTT CTCAACAAGA TTGAGACAAC CGTGCCTCCT 
    GCAGGGCTAA ACTTCAACTG TTTCACTGAA GATACACTGC TGCGCCACGC CCAGTTCGTG 
    GTGGAGCAGG TGGAGAGCTA TGATGAGGCC GGCGACTCTG ATGAGCAGCC CATCATTGTT 
    ACACCCTGCA TGAGAGACCT GATCAAGCTC GCAGGAGTCA CTCTAGGGAA GAGGAGGGCT 
    GCCAGAAGAC AGGCCATTCG TCACCCGACA AAGATAGAGA AGGACAGTAA GGGACCGACT 
    AAAGCGACCA CTACCAAGCT GGTCTACCAA ATCTTTGATA CCTTCTTCTC TGATCAAATA 
    GAGCAGAACG ATAAAGAGAG TGGAGTCAAA AGACACCGTT GTGGAGTCTG TGAGGTTTGC 
    CAATCTCCTG ACTGTGGCAA ATGTACAGCT TGCAAGGACA TGATCAAATT TGGAGGAAGT 
    GGCAAAAGCA AGCAAGCTTG TAAGCAGAGA AGATGCCCAA ATCTTGCCGT AAAGGAGGCT 
    GAAGACGATG AGAACATTGA AGAGGAAGAT GTTCCAGTGG AGAAGACTAA AAAGGTTGCT 
    TCTGCTAAGA GGAAGAAGCA GACCCAGTGC AAACTGACAT GGATTGGAGA ACCTGTTCAG 
    ACAGAGGGAA AGAAGCAGTA CTACAAGAAG GTCTCTGTGA ATGATGAAGT GCTGGAGGTG 
    GGAGACTGTG TCTCAGTTTC ATCAGAGGAT CCATCCATTC CTCTGTATCT GGCAAGGATC 
    ACATCACTGT GGGAGGACGC CAGTGGAAAG ATGTTCCATG CCCATTGGTT CCTGCGTGGG 
    ATTCACACAG TGCTGGGAGA GTCCTCTGAT CCCCTGGAGC TTGTTATTGT GGACGAGTGT 
    GAAGACATGT TGCTCAATTA TGTCCAAGGC AAAGTGAACG TCACATATAA GCCCCCATCT 
    AACAACTGGT TTATGGAGGG TGGCATGGAT GTTGACCTCA AGGTGATTGA TGATGATGGC 
    AAGAGTTTTT TCTATCAGTT CTGGTACGAC ACAGAGTTCG CCCGCTTTGA GACACCTCCT 
    AAGACCACTC CATCAGAAGA CTGCAAGTTC AAGTTCTGTG GCAGCTGTGA TAGGACTAAG 
    GAAAGAGAGC GACAGGAAAT TCCTCAGGCG TTTGAGCCCC TGGAGAATGA AGACAACGAC 
    TCCAAGGCTT TGTATGCTCT GGCTTGCTTT AAGGGGGAAC AGTTCAGGGT GGGAGACGGC 
    ATCTACTTGC CCCCTGAGGG TTTTAATTTC AGTGTGAAGC CAGCTAGTCC AGTGAAGCGC 
    TCCCATAGGA AAGAGGATGT GGATGAGGAG TTATATCCAG AGTATTACAG GAAATCCTCA 
    GACTACATTA AGGGGTCAAA TCTGGACGCT CCAGAGCCCT TCCGCATCGG GCGCATCAAG 
    GAGATTTTCT GTCACAGGCG TAGCAACGGG AAACCTGACA TGTCCGAGGT CAAACTGCGA 
    CTCTACAAGT TCTACAGGCC TGAGAACACT CACAAAGGTG TCAAAGCTAG TTACCACACA 
    GACATCAACC AGCTGTACTG GAGTGATGAA GAAGTGACTG TCAGCATGTC TGAGGTGCTC 
    GGCCGCTGTC AAGTAGAATA TGGAGAGGAC CTGAATGAGT CAGTCCAGGA CTATTCCAGT 
    GGTGGACCAG ACCGTTTCTA TTTCCTAGAG GCCTATAACG CAAAATCAAA AAGCTTTGAA 
    GACCCTCCAA ATCATGCTCG CTCGTCTGTT CATAAAGGCA AAGGAAAGGG CAAAGGGAAA 
    GGTAAAGGCA AAGGAAAGGC ATCTGCTGCA CAGGAACCAC AGGAAACTCA GACTGAACCA 
    CAGGCACCTA AAGTGCCCAA ATATCGCACA CTGGATGTGT TCTCTGGCTG TGGTGGACTC 
    TCTGAAGGCT TCCACCAGGC TGGTATCTCT GAGACTCTGT GGGCCATTGA GATGTGGGAG 
    CCTGCAGCAC AGGCCTTTAG GCTCAACAAC CCCGGCACCA CAGTGTTCAC TGAGGACTGC 
    AACATCTTGC TGAAGTTGGT CATGTCTGGA GAGAAGACTA ATTCTCTTGG CCAGAAGCTG 
    CCTCAGAAAG GTGACGTTGA GATGCTGTGT GGAGGACCTC CTTGCCAAGG GTTCAGTGGG 
    ATGAACCGTT TCAACTCTCG CACTTATTCC AAATTCAAGA ATTCACTTGT GGTCTCTTAT 
    CTCAGTTACT GTGATTACTA CAGACCAAAG TTTTTCCTGC TTGAGAATGT GAGGAACTTT 
    GTGTCATTCA AAAACTCCAT GGTGCTAAAG CTAACTCTAC GCTGTCTTGT GCGCATGGGC 
    TACCAGTGTA CTTTTGGTGT CCTTCAGGCT GGTCAGTATG GTGTTGCCCA GACCCGTCGC 
    AGGGCTATCA TCCTGGCTGC GGCTCCTGGA GAGAAGCTGC CTCGCTACCC TGAGCCTCTG 
    CACGTGTTTG CTCCCAGAGC TTGCTCGCTG AGCGTGGTGG TGGATGAAAA GAAATACGTC 
    AGTAATGTCA CACGAGGTAA TGGAGGAATC TACAGAACCA TCACTGTCCG AGACACCATG 
    TCTGACCTGC CTGAGATTCG CAATGGTGCA GCTGCATTGG AGATTTCCTA CAACGGGGAG 
    CCTCAGTCTT GGTTCCAGAG GCAGATCAGG GGCACACAGT ATCAGCCTAT CCTCAGAGAT 
    CATATCTGCA AGGACATGAG TGCTCTGGTT GAGGGTCGAA TGCGTCACAT CCCCTTGGCT 
    CCAGGCTCCG ACTGGAGGGA TCTTCCCAAC ATCGAGGTTC GGCTCAAAGA TGGCACCATG 
    ACCAAGAAAC TGCGATACAC TCACTCCGAT AAAAAGAATG GACGCAGCAG CACTGGTGCA 
    CTTAGAGGTG TTTGCACTTG TGCAGGAGGG AAGCCATGTG ACCCTGCAGA CAGGCAGTTT 
    AACACCTTGA TCCCCTGGTG TCTGCCCCAC ACTGGTAACC GTCACAATCA CTGGGCTGGA 
    CTCTACGGTA GATTGGAGTG GGATGGCTTC TTCAGCACAA CTGTCACCAA CCCTGAACCC 
    ATGGGCAAGC AGGGCCGTGT TCTGCATCCT GAGCAGCACA GAGTGGTTAG TGTGAGGGAG 
    TGTGCACGCT CTCAGGGATT CCCTGACACC TACCGCTTCT TTGGAAACAT CCTGGACAAA 
    CACAGACAGG TTGGAAATGC TGTGCCTCCT CCACTCTCCA GGGCCATAGG CCTGGAGCTT 
    AAGAAGTGTG TCATGGAGAG AATGAAGGAA GAACAAGCAA CTGAGAATAT CAAACAAGAG 
    AAGATGGAGG TCTCTGATTA G

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

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