ORF » Species Summary » Enhydra lutris kenyoni » LOC111162394 cDNA ORF clone

LOC111162394 cDNA ORF clone, Enhydra lutris kenyoni

The following LOC111162394 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111162394 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
OEn53799 XM_022526788.1
Latest version!		 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OEn53796 XM_022526785.1
Latest version!		 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OEn53797 XM_022526786.1
Latest version!		 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OEn53798 XM_022526787.1
Latest version!		 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $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)
    LOC111162394 ( XM_022526788.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022382496.1 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OEn53799
    Clone ID Related Accession (Same CDS sequence) XM_022526788.1
    Accession Version XM_022526788.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4482bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product DNA (cytosine-5)-methyltransferase 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154176.1) 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 :: Enhydra lutris kenyoni 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
    ATGGCAGAGG AAAAGAAGTC TCCCAAACCC GTTTCCAAAC TTCCCACACC CAGACGAAGC 
    AAGGCCGATG GAGAGACCAA GTCTGAAGCT GCTTCTTCTA GCCCCAGGAT TACAAGGCAA 
    ACTACCAGGC AGACCACCAT CCTATCTCAT TTCTCAAGGG GCCCTGCCAA ACGGAAGCCC 
    GAGGAAGAGC AGGAAAAAGC GAAATCGGAT GAGTCTCCTG AGGAAGAAAA AGACCAGGAG 
    GAAAAGAGAC GGAGAGTTAC ATCTAGAGAA CAAGTTGCTA GACCGCTCCC TGCAGAAGAA 
    CCGGAAAGAG TAAAACCTGG AACACACATG GAAGAAGAGG AAGAAAGAGA TGAAAAAGAA 
    GAAAAGCGGC TCAGAAGTCA AGCCAAAGAA CCAACACCTA AACCGAAGCC TAAGGAGGAG 
    CCAGACAGAG AAGGGAGAGC GGGGGCGCAG GCTGAAATGA ATGAAGGAGA CGAGAGGGAT 
    GAAAAGAGAC CCAGAAGTCA ACCCAAAGAT CTAGCTGCCA AACGGAGACC TGAAGAGAAA 
    GAACCTGAAA GAGTAAAACC ACAAGTTTCT GAGGAAAAAG ATGAGGATGA AAAGGAAGAG 
    AAGAGACGCA AAACTACATC CAAAGAACCA ATGGAGAAGA AAATGGCCCG AGCCAAAACA 
    GTAGTGTCCT CCAAGACCAA CCCTCTGCGG TGCGTGCAGT GCGGACAGTA CCTGGACGAC 
    GCGGATCTGA AGTACGAGCA GCACCCTCCC GACGCGGTGG ACGAGCCACA GCTGCTGACC 
    AGCGAGAAGC TCTCCATCTT CGATGCCAAC GAGTCTGGCT TTGAGAGCTA CGAGGCTCTT 
    CCCCAGCACA AACTGACCTG CTTCAGCGTG TACTGCAAGC GCGGTCACCT GTGCCCGATC 
    GACACCGGCC TCATAGAGAA GAACGTTGAA CTCTTCTTCT CCGGTTACGC GAAGCCAATA 
    TATGATGATG ACCCATCTCT CGAAGGTGGT GTTAATGGCA AAAATCTTGG CCCCATAAAC 
    GAATGGTGGA TCACTGGCTT TGACGGGGGC GAAAAGGCGC TCATTGGCTT CAGCACTTCT 
    TTTGCCGAGT ACATTCTGAT GGACCCCAAC CCCGAGTACG CGCCGCTGTT CAGTGTGATG 
    CAGGAGAAGA TCTACATAAG TAAGATTGTG GTCGAGTTCC TGCAGGGCAA CCCAGACTCC 
    ACCTATGAAG ACTTGATCAA CAAAATTGAG ACCACTGTTC CTCCTTCTGT GCTCAACCTG 
    AATCGATTCA CAGAGGACTC TCTCCTTCGA CACGCCCAGT TTGTGGTAGA ACAAGTAGAG 
    AGTTACGATG AGGCTGGGGA CAGTGACGAG CAGCCCATCT TTCTGACCCC TTGCATGAGA 
    GACCTGATCA AGTTGGCTGG GGTCACCCTT GGGAAAAGGC GAGCTGAAAG ACGTCGGACC 
    ATTGGGCATT CTGCCAAAGA GAAGGACAAA GGTCCCACTA AAGCCACCAC GACCAAGCTG 
    GTCTACCAGA TCTTCGACAC TTTCTTCGCA GAGCAAATCG AAAAGGACGA CAAAGAGGAC 
    AAGGAGAATG CCTTCAAGCG CCGGCGGTGC GGCGTCTGTG AGGTTTGTCA GCAGCCCGAA 
    TGTGGACAGT GTAAAGCCTG TAAAGACATG GTTAAGTTCG GCGGTAGCGG GCGGAGCAAA 
    CAGGCTTGCC AGGAGAGGAG GTGCCCCAAC ATGGCCATGA AGGAGGCAGA TGACGATGAA 
    GAGGTCGATG ATAATATTCC AGAGATGCCA TCACCCAAAA AAATGCATCA GGGGAAGAAA 
    AAGAAACAAA ACAAGAACCG GATCTCTTGG GTTGGAGACG CTGTCAAGAC TGATGGGAAG 
    AAGAGTTACT TTAAGAAGGT GTGCATCGAC TCAGAAACCC TGGAAGTGGG GGACTGTGTC 
    TCTGTTATTC CAGATGACTC CTCAAAACCG CTGTATTTGG CAAGGGTCAC TGCGCTGTGG 
    GAGGACAGCA GCAACGGGCA GATGTTCCAT GCCCACTGGT TCTGCGCCGG GACAGACACG 
    GTCCTCGGAG CCACGTCGGA CCCCTTGGAG CTGTTCCTGG TGGACGAATG TGAGGACATG 
    CAGCTTTCGT ATATCCACAG CAAGGTGAAG GTCGTCTATA AAGCTCCATC GGAGAACTGG 
    GCCTTGGAGG GAGGCTTGGA TCCCGAGGCC ATGATAGCGG AGGATGACGG AAAGACCTAC 
    TTCTACCAGC TGTGGTATGA TCAAGACTAC GCCAGATTCG AGTCCCCTCC GAAAACCCAG 
    CCGACGGAGG AGAACAAGTA CAAATTCTGT GTAAGCTGTG CCCGTCTGGC TGAAATGAGG 
    CAGAAAGAAA TTCCCAGGGT CCTAGAACAG CTTGAGGACC TGGACACCCG GGTTCTCTAC 
    AGCTCGGCCA CCAAGAACGG CATCCAGTAT CGAGTGGGTG ATGGCGTGTA CCTCCTCCCT 
    GAGGCCTTCA CGTTCAACAT CAAGCTGTCC AGTCCCGTCA AACGCCCGCG GAAGGAGCCT 
    GTGGACGAAG ATCTGTATCC AGAACACTAC CGGAAGTACT CGGATTACAT CAAAGGCAGT 
    AACCTGGATG CTCCTGAGCC ATATCGAATT GGCCGAATAA AAGAAATCTT CTGTATCAAG 
    AAGAGCAACG GCAGGCCCAA CGAGACTGAC ATCAAGATCA GAATCAACAA ATTTTATAGG 
    CCAGAGAACA CCCACAAGTC TACCCCAGCA AGCTACCATG CAGACATCAA CCTGCTTTAC 
    TGGAGCGATG AGGAGGTGGT CGTGGACTTC AAGGCCGTGC AGGGCCGCTG TACCGTGGAG 
    TACGGGGAGG ACCTGCCTGG GGGCCTCCAG GACTTCTCTG CAGGGGGGCC GGACCGCTTC 
    TACTTCCTTG AGGCCTATAA TGCGAAGAAC AAAAGCTTTG AAGATCCTCC AAACCATGCC 
    CGCAGCCCTG GAAATAAAGG GAAAGGGAAG GGTAAAGGGA AGGGCAGGGC AAAGTCTCAG 
    ACATGTGAGC CGAGTGAGCC CGAGACCGAA ATTAAACTGC CTAAGCTTCG GACCTTGGAT 
    GTGTTTTCCG GCTGCGGGGG CTTGTCAGAA GGCTTCCACC AAGCAGGCAT CTCGGAAACA 
    CTGTGGGCCA TTGAGATGTG GGACCCTGCG GCCCAGGCAT TTCGGCTCAA CAATCCCGGG 
    TCCACGGTGT TCACGGAGGA CTGCAACGTA CTGCTGAAGC TGGTCATGGC CGGGGAGGCA 
    ACCAACTCCC GGGGTCAGAA GCTGCCTCAG AAGGGAGACG TGGAGATGCT GTGCGGTGGG 
    CCGCCTTGCC AAGGGTTTAG TGGCATGAAC CGCTTCAACT CTCGGACCTA CTCCAAGTTC 
    AAGAACTCCC TGGTGGTTTC CTTTCTCAGC TACTGTGACT ACTACCGGCC CCGCTACTTC 
    CTGCTGGAGA ACGTGCGGAA CTTCGTCTCC TTCAAGCGCT CCATGGTCCT GAAGCTCACT 
    CTCCGCTGCC TGGTCCGCAT GGGCTACCAG TGCACCTTCG GCGTGCTGCA GGCTGGTCAG 
    TACGGCGTGG CCCAGACGCG GAGGCGGGCC ATCATCCTGG CTGCGGCCCC CGGAGAGCAG 
    CTTCCCCTGT TCCCAGAGCC GCTGCACGTG TTCGCGCCGC GGGCCTGCCA GCTGAGCGTC 
    GTAGTGGACG ACAAGAAGTT CGTCAGCAAC ATCACCAGGT TAAGCTCAGG CCCGTTCCGG 
    ACCATCACCG TGCGGGACAC CATGTCTGAC CTCCCTGAGG TCCGGAATGG AGCTTCGTCC 
    CTTGAGATCT TGTACAACGG GGAGCCTCAG TCCTGGTTCC AGAGGCAGCT CAGGGGGGCA 
    CAGTACCAGC CCATCCTCAG GGACCACATC TGTAAGGACA TGAGTGCGTT GGTGGCGGCC 
    CGCATGCGGC ACATCCCTCT GGCGCCCGGC TCTGACTGGC GCGACCTGCC GAATATCGAG 
    GTGCGGCTCT CCGACGGCAC CATGGCCAGG AAGCTGCGCT ACACGTACCA CGACAAGAAG 
    AATGGCTGCA GCAGCACCGG GGCCCTCCGC GGAGTCTGCT CCTGCGTGGA AGCGGGCAAA 
    GCCTGTGACT CTGCAGCTAG ACAGTTCAAC ACCCTCATCC CCTGGTGCTT GCCCCACACC 
    GGGAACAGGC ACAACCACTG GGCCGGCCTC TACGGACGGC TGGAGTGGGA CGGCTTCTTC 
    AGCACGACTG TCACCAACCC TGAGCCCATG GGCAAGCAGG GCCGCGTTCT CCACCCCGAG 
    CAGCACCGCG TCGTGAGTGT GCGGGAGTGT GCCCGCTCCC AGGGCTTCCC GGACACCTAC 
    CGGCTGTTCG GCAACATCCT CGATAAGCAC CGGCAGGTGG GTAACGCTGT GCCACCGCCT 
    CTGGCCAAAG CCATTGGCTT GGAGATCAAG CGCTGTATGT TGGCCAAAGC TCGAGAGAGT 
    GCCTCAGTTA AAACCAAGGA AGAGGAGTCT GCTAAGGACT AG

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

    RefSeq XP_022382496.1
    CDS165..4646
    Translation

    Target ORF information:

    RefSeq Version XM_022526788.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022526788.1

    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
    ATGGCAGAGG AAAAGAAGTC TCCCAAACCC GTTTCCAAAC TTCCCACACC CAGACGAAGC 
    AAGGCCGATG GAGAGACCAA GTCTGAAGCT GCTTCTTCTA GCCCCAGGAT TACAAGGCAA 
    ACTACCAGGC AGACCACCAT CCTATCTCAT TTCTCAAGGG GCCCTGCCAA ACGGAAGCCC 
    GAGGAAGAGC AGGAAAAAGC GAAATCGGAT GAGTCTCCTG AGGAAGAAAA AGACCAGGAG 
    GAAAAGAGAC GGAGAGTTAC ATCTAGAGAA CAAGTTGCTA GACCGCTCCC TGCAGAAGAA 
    CCGGAAAGAG TAAAACCTGG AACACACATG GAAGAAGAGG AAGAAAGAGA TGAAAAAGAA 
    GAAAAGCGGC TCAGAAGTCA AGCCAAAGAA CCAACACCTA AACCGAAGCC TAAGGAGGAG 
    CCAGACAGAG AAGGGAGAGC GGGGGCGCAG GCTGAAATGA ATGAAGGAGA CGAGAGGGAT 
    GAAAAGAGAC CCAGAAGTCA ACCCAAAGAT CTAGCTGCCA AACGGAGACC TGAAGAGAAA 
    GAACCTGAAA GAGTAAAACC ACAAGTTTCT GAGGAAAAAG ATGAGGATGA AAAGGAAGAG 
    AAGAGACGCA AAACTACATC CAAAGAACCA ATGGAGAAGA AAATGGCCCG AGCCAAAACA 
    GTAGTGTCCT CCAAGACCAA CCCTCTGCGG TGCGTGCAGT GCGGACAGTA CCTGGACGAC 
    GCGGATCTGA AGTACGAGCA GCACCCTCCC GACGCGGTGG ACGAGCCACA GCTGCTGACC 
    AGCGAGAAGC TCTCCATCTT CGATGCCAAC GAGTCTGGCT TTGAGAGCTA CGAGGCTCTT 
    CCCCAGCACA AACTGACCTG CTTCAGCGTG TACTGCAAGC GCGGTCACCT GTGCCCGATC 
    GACACCGGCC TCATAGAGAA GAACGTTGAA CTCTTCTTCT CCGGTTACGC GAAGCCAATA 
    TATGATGATG ACCCATCTCT CGAAGGTGGT GTTAATGGCA AAAATCTTGG CCCCATAAAC 
    GAATGGTGGA TCACTGGCTT TGACGGGGGC GAAAAGGCGC TCATTGGCTT CAGCACTTCT 
    TTTGCCGAGT ACATTCTGAT GGACCCCAAC CCCGAGTACG CGCCGCTGTT CAGTGTGATG 
    CAGGAGAAGA TCTACATAAG TAAGATTGTG GTCGAGTTCC TGCAGGGCAA CCCAGACTCC 
    ACCTATGAAG ACTTGATCAA CAAAATTGAG ACCACTGTTC CTCCTTCTGT GCTCAACCTG 
    AATCGATTCA CAGAGGACTC TCTCCTTCGA CACGCCCAGT TTGTGGTAGA ACAAGTAGAG 
    AGTTACGATG AGGCTGGGGA CAGTGACGAG CAGCCCATCT TTCTGACCCC TTGCATGAGA 
    GACCTGATCA AGTTGGCTGG GGTCACCCTT GGGAAAAGGC GAGCTGAAAG ACGTCGGACC 
    ATTGGGCATT CTGCCAAAGA GAAGGACAAA GGTCCCACTA AAGCCACCAC GACCAAGCTG 
    GTCTACCAGA TCTTCGACAC TTTCTTCGCA GAGCAAATCG AAAAGGACGA CAAAGAGGAC 
    AAGGAGAATG CCTTCAAGCG CCGGCGGTGC GGCGTCTGTG AGGTTTGTCA GCAGCCCGAA 
    TGTGGACAGT GTAAAGCCTG TAAAGACATG GTTAAGTTCG GCGGTAGCGG GCGGAGCAAA 
    CAGGCTTGCC AGGAGAGGAG GTGCCCCAAC ATGGCCATGA AGGAGGCAGA TGACGATGAA 
    GAGGTCGATG ATAATATTCC AGAGATGCCA TCACCCAAAA AAATGCATCA GGGGAAGAAA 
    AAGAAACAAA ACAAGAACCG GATCTCTTGG GTTGGAGACG CTGTCAAGAC TGATGGGAAG 
    AAGAGTTACT TTAAGAAGGT GTGCATCGAC TCAGAAACCC TGGAAGTGGG GGACTGTGTC 
    TCTGTTATTC CAGATGACTC CTCAAAACCG CTGTATTTGG CAAGGGTCAC TGCGCTGTGG 
    GAGGACAGCA GCAACGGGCA GATGTTCCAT GCCCACTGGT TCTGCGCCGG GACAGACACG 
    GTCCTCGGAG CCACGTCGGA CCCCTTGGAG CTGTTCCTGG TGGACGAATG TGAGGACATG 
    CAGCTTTCGT ATATCCACAG CAAGGTGAAG GTCGTCTATA AAGCTCCATC GGAGAACTGG 
    GCCTTGGAGG GAGGCTTGGA TCCCGAGGCC ATGATAGCGG AGGATGACGG AAAGACCTAC 
    TTCTACCAGC TGTGGTATGA TCAAGACTAC GCCAGATTCG AGTCCCCTCC GAAAACCCAG 
    CCGACGGAGG AGAACAAGTA CAAATTCTGT GTAAGCTGTG CCCGTCTGGC TGAAATGAGG 
    CAGAAAGAAA TTCCCAGGGT CCTAGAACAG CTTGAGGACC TGGACACCCG GGTTCTCTAC 
    AGCTCGGCCA CCAAGAACGG CATCCAGTAT CGAGTGGGTG ATGGCGTGTA CCTCCTCCCT 
    GAGGCCTTCA CGTTCAACAT CAAGCTGTCC AGTCCCGTCA AACGCCCGCG GAAGGAGCCT 
    GTGGACGAAG ATCTGTATCC AGAACACTAC CGGAAGTACT CGGATTACAT CAAAGGCAGT 
    AACCTGGATG CTCCTGAGCC ATATCGAATT GGCCGAATAA AAGAAATCTT CTGTATCAAG 
    AAGAGCAACG GCAGGCCCAA CGAGACTGAC ATCAAGATCA GAATCAACAA ATTTTATAGG 
    CCAGAGAACA CCCACAAGTC TACCCCAGCA AGCTACCATG CAGACATCAA CCTGCTTTAC 
    TGGAGCGATG AGGAGGTGGT CGTGGACTTC AAGGCCGTGC AGGGCCGCTG TACCGTGGAG 
    TACGGGGAGG ACCTGCCTGG GGGCCTCCAG GACTTCTCTG CAGGGGGGCC GGACCGCTTC 
    TACTTCCTTG AGGCCTATAA TGCGAAGAAC AAAAGCTTTG AAGATCCTCC AAACCATGCC 
    CGCAGCCCTG GAAATAAAGG GAAAGGGAAG GGTAAAGGGA AGGGCAGGGC AAAGTCTCAG 
    ACATGTGAGC CGAGTGAGCC CGAGACCGAA ATTAAACTGC CTAAGCTTCG GACCTTGGAT 
    GTGTTTTCCG GCTGCGGGGG CTTGTCAGAA GGCTTCCACC AAGCAGGCAT CTCGGAAACA 
    CTGTGGGCCA TTGAGATGTG GGACCCTGCG GCCCAGGCAT TTCGGCTCAA CAATCCCGGG 
    TCCACGGTGT TCACGGAGGA CTGCAACGTA CTGCTGAAGC TGGTCATGGC CGGGGAGGCA 
    ACCAACTCCC GGGGTCAGAA GCTGCCTCAG AAGGGAGACG TGGAGATGCT GTGCGGTGGG 
    CCGCCTTGCC AAGGGTTTAG TGGCATGAAC CGCTTCAACT CTCGGACCTA CTCCAAGTTC 
    AAGAACTCCC TGGTGGTTTC CTTTCTCAGC TACTGTGACT ACTACCGGCC CCGCTACTTC 
    CTGCTGGAGA ACGTGCGGAA CTTCGTCTCC TTCAAGCGCT CCATGGTCCT GAAGCTCACT 
    CTCCGCTGCC TGGTCCGCAT GGGCTACCAG TGCACCTTCG GCGTGCTGCA GGCTGGTCAG 
    TACGGCGTGG CCCAGACGCG GAGGCGGGCC ATCATCCTGG CTGCGGCCCC CGGAGAGCAG 
    CTTCCCCTGT TCCCAGAGCC GCTGCACGTG TTCGCGCCGC GGGCCTGCCA GCTGAGCGTC 
    GTAGTGGACG ACAAGAAGTT CGTCAGCAAC ATCACCAGGT TAAGCTCAGG CCCGTTCCGG 
    ACCATCACCG TGCGGGACAC CATGTCTGAC CTCCCTGAGG TCCGGAATGG AGCTTCGTCC 
    CTTGAGATCT TGTACAACGG GGAGCCTCAG TCCTGGTTCC AGAGGCAGCT CAGGGGGGCA 
    CAGTACCAGC CCATCCTCAG GGACCACATC TGTAAGGACA TGAGTGCGTT GGTGGCGGCC 
    CGCATGCGGC ACATCCCTCT GGCGCCCGGC TCTGACTGGC GCGACCTGCC GAATATCGAG 
    GTGCGGCTCT CCGACGGCAC CATGGCCAGG AAGCTGCGCT ACACGTACCA CGACAAGAAG 
    AATGGCTGCA GCAGCACCGG GGCCCTCCGC GGAGTCTGCT CCTGCGTGGA AGCGGGCAAA 
    GCCTGTGACT CTGCAGCTAG ACAGTTCAAC ACCCTCATCC CCTGGTGCTT GCCCCACACC 
    GGGAACAGGC ACAACCACTG GGCCGGCCTC TACGGACGGC TGGAGTGGGA CGGCTTCTTC 
    AGCACGACTG TCACCAACCC TGAGCCCATG GGCAAGCAGG GCCGCGTTCT CCACCCCGAG 
    CAGCACCGCG TCGTGAGTGT GCGGGAGTGT GCCCGCTCCC AGGGCTTCCC GGACACCTAC 
    CGGCTGTTCG GCAACATCCT CGATAAGCAC CGGCAGGTGG GTAACGCTGT GCCACCGCCT 
    CTGGCCAAAG CCATTGGCTT GGAGATCAAG CGCTGTATGT TGGCCAAAGC TCGAGAGAGT 
    GCCTCAGTTA AAACCAAGGA AGAGGAGTCT GCTAAGGACT AG

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

    LOC111162394 ( XM_022526785.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022382493.1 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OEn53796
    Clone ID Related Accession (Same CDS sequence) XM_022526785.1
    Accession Version XM_022526785.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4845bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product DNA (cytosine-5)-methyltransferase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154176.1) 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 :: Enhydra lutris kenyoni 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
    ATGCCTGCCC GCACCGCCCC GGCCCGGGTG CCCACGCTGG CCTCCCGAGC CATCTCCCTG 
    CCCGATGATG TCCGTAGGCG GCTCAAAGAT TTGGAAAGAG ATAGCCTAAC AGAAAAGGAA 
    TGTGTGAAGG AGAAACTGAA TCTCTTGCAT GAATTTCTGC AAACAGAAAT AAAAAATCAG 
    TTATGTGACT TGGAAACCAA ATTACATAAA GAAGAATTAT CAGAGGAGGG CTACCTGGCT 
    AAAGTCAAAT CCCTTTTAAA TAAAGATTTA TCCTTGGAGA ACGGAGCTCA TGCTTTCAGC 
    CGGGAAGTGA ACGGACGTCT AGAAAACGGG AGCCAGACAA GCGGCGAGGA CCGCAGAGTG 
    GGAATGGCAG AGGAAAAGAA GTCTCCCAAA CCCGTTTCCA AACTTCCCAC ACCCAGACGA 
    AGCAAGGCCG ATGGAGAGAC CAAGTCTGAA GCTGCTTCTT CTAGCCCCAG GATTACAAGG 
    CAAACTACCA GGCAGACCAC CATCCTATCT CATTTCTCAA GGGGCCCTGC CAAACGGAAG 
    CCCGAGGAAG AGCAGGAAAA AGCGAAATCG GATGAGTCTC CTGAGGAAGA AAAAGACCAG 
    GAGGAAAAGA GACGGAGAGT TACATCTAGA GAACAAGTTG CTAGACCGCT CCCTGCAGAA 
    GAACCGGAAA GAGTAAAACC TGGAACACAC ATGGAAGAAG AGGAAGAAAG AGATGAAAAA 
    GAAGAAAAGC GGCTCAGAAG TCAAGCCAAA GAACCAACAC CTAAACCGAA GCCTAAGGAG 
    GAGCCAGACA GAGAAGGGAG AGCGGGGGCG CAGGCTGAAA TGAATGAAGG AGACGAGAGG 
    GATGAAAAGA GACCCAGAAG TCAACCCAAA GATCTAGCTG CCAAACGGAG ACCTGAAGAG 
    AAAGAACCTG AAAGAGTAAA ACCACAAGTT TCTGAGGAAA AAGATGAGGA TGAAAAGGAA 
    GAGAAGAGAC GCAAAACTAC ATCCAAAGAA CCAATGGAGA AGAAAATGGC CCGAGCCAAA 
    ACAGTAGTGT CCTCCAAGAC CAACCCTCTG CGGTGCGTGC AGTGCGGACA GTACCTGGAC 
    GACGCGGATC TGAAGTACGA GCAGCACCCT CCCGACGCGG TGGACGAGCC ACAGCTGCTG 
    ACCAGCGAGA AGCTCTCCAT CTTCGATGCC AACGAGTCTG GCTTTGAGAG CTACGAGGCT 
    CTTCCCCAGC ACAAACTGAC CTGCTTCAGC GTGTACTGCA AGCGCGGTCA CCTGTGCCCG 
    ATCGACACCG GCCTCATAGA GAAGAACGTT GAACTCTTCT TCTCCGGTTA CGCGAAGCCA 
    ATATATGATG ATGACCCATC TCTCGAAGGT GGTGTTAATG GCAAAAATCT TGGCCCCATA 
    AACGAATGGT GGATCACTGG CTTTGACGGG GGCGAAAAGG CGCTCATTGG CTTCAGCACT 
    TCTTTTGCCG AGTACATTCT GATGGACCCC AACCCCGAGT ACGCGCCGCT GTTCAGTGTG 
    ATGCAGGAGA AGATCTACAT AAGTAAGATT GTGGTCGAGT TCCTGCAGGG CAACCCAGAC 
    TCCACCTATG AAGACTTGAT CAACAAAATT GAGACCACTG TTCCTCCTTC TGTGCTCAAC 
    CTGAATCGAT TCACAGAGGA CTCTCTCCTT CGACACGCCC AGTTTGTGGT AGAACAAGTA 
    GAGAGTTACG ATGAGGCTGG GGACAGTGAC GAGCAGCCCA TCTTTCTGAC CCCTTGCATG 
    AGAGACCTGA TCAAGTTGGC TGGGGTCACC CTTGGGAAAA GGCGAGCTGA AAGACGTCGG 
    ACCATTGGGC ATTCTGCCAA AGAGAAGGAC AAAGGTCCCA CTAAAGCCAC CACGACCAAG 
    CTGGTCTACC AGATCTTCGA CACTTTCTTC GCAGAGCAAA TCGAAAAGGA CGACAAAGAG 
    GACAAGGAGA ATGCCTTCAA GCGCCGGCGG TGCGGCGTCT GTGAGGTTTG TCAGCAGCCC 
    GAATGTGGAC AGTGTAAAGC CTGTAAAGAC ATGGTTAAGT TCGGCGGTAG CGGGCGGAGC 
    AAACAGGCTT GCCAGGAGAG GAGGTGCCCC AACATGGCCA TGAAGGAGGC AGATGACGAT 
    GAAGAGGTCG ATGATAATAT TCCAGAGATG CCATCACCCA AAAAAATGCA TCAGGGGAAG 
    AAAAAGAAAC AAAACAAGAA CCGGATCTCT TGGGTTGGAG ACGCTGTCAA GACTGATGGG 
    AAGAAGAGTT ACTTTAAGAA GGTGTGCATC GACTCAGAAA CCCTGGAAGT GGGGGACTGT 
    GTCTCTGTTA TTCCAGATGA CTCCTCAAAA CCGCTGTATT TGGCAAGGGT CACTGCGCTG 
    TGGGAGGACA GCAGCAACGG GCAGATGTTC CATGCCCACT GGTTCTGCGC CGGGACAGAC 
    ACGGTCCTCG GAGCCACGTC GGACCCCTTG GAGCTGTTCC TGGTGGACGA ATGTGAGGAC 
    ATGCAGCTTT CGTATATCCA CAGCAAGGTG AAGGTCGTCT ATAAAGCTCC ATCGGAGAAC 
    TGGGCCTTGG AGGGAGGCTT GGATCCCGAG GCCATGATAG CGGAGGATGA CGGAAAGACC 
    TACTTCTACC AGCTGTGGTA TGATCAAGAC TACGCCAGAT TCGAGTCCCC TCCGAAAACC 
    CAGCCGACGG AGGAGAACAA GTACAAATTC TGTGTAAGCT GTGCCCGTCT GGCTGAAATG 
    AGGCAGAAAG AAATTCCCAG GGTCCTAGAA CAGCTTGAGG ACCTGGACAC CCGGGTTCTC 
    TACAGCTCGG CCACCAAGAA CGGCATCCAG TATCGAGTGG GTGATGGCGT GTACCTCCTC 
    CCTGAGGCCT TCACGTTCAA CATCAAGCTG TCCAGTCCCG TCAAACGCCC GCGGAAGGAG 
    CCTGTGGACG AAGATCTGTA TCCAGAACAC TACCGGAAGT ACTCGGATTA CATCAAAGGC 
    AGTAACCTGG ATGCTCCTGA GCCATATCGA ATTGGCCGAA TAAAAGAAAT CTTCTGTATC 
    AAGAAGAGCA ACGGCAGGCC CAACGAGACT GACATCAAGA TCAGAATCAA CAAATTTTAT 
    AGGCCAGAGA ACACCCACAA GTCTACCCCA GCAAGCTACC ATGCAGACAT CAACCTGCTT 
    TACTGGAGCG ATGAGGAGGT GGTCGTGGAC TTCAAGGCCG TGCAGGGCCG CTGTACCGTG 
    GAGTACGGGG AGGACCTGCC TGGGGGCCTC CAGGACTTCT CTGCAGGGGG GCCGGACCGC 
    TTCTACTTCC TTGAGGCCTA TAATGCGAAG AACAAAAGCT TTGAAGATCC TCCAAACCAT 
    GCCCGCAGCC CTGGAAATAA AGGGAAAGGG AAGGGTAAAG GGAAGGGCAG GGCAAAGTCT 
    CAGACATGTG AGCCGAGTGA GCCCGAGACC GAAATTAAAC TGCCTAAGCT TCGGACCTTG 
    GATGTGTTTT CCGGCTGCGG GGGCTTGTCA GAAGGCTTCC ACCAAGCAGG CATCTCGGAA 
    ACACTGTGGG CCATTGAGAT GTGGGACCCT GCGGCCCAGG CATTTCGGCT CAACAATCCC 
    GGGTCCACGG TGTTCACGGA GGACTGCAAC GTACTGCTGA AGCTGGTCAT GGCCGGGGAG 
    GCAACCAACT CCCGGGGTCA GAAGCTGCCT CAGAAGGGAG ACGTGGAGAT GCTGTGCGGT 
    GGGCCGCCTT GCCAAGGGTT TAGTGGCATG AACCGCTTCA ACTCTCGGAC CTACTCCAAG 
    TTCAAGAACT CCCTGGTGGT TTCCTTTCTC AGCTACTGTG ACTACTACCG GCCCCGCTAC 
    TTCCTGCTGG AGAACGTGCG GAACTTCGTC TCCTTCAAGC GCTCCATGGT CCTGAAGCTC 
    ACTCTCCGCT GCCTGGTCCG CATGGGCTAC CAGTGCACCT TCGGCGTGCT GCAGGCTGGT 
    CAGTACGGCG TGGCCCAGAC GCGGAGGCGG GCCATCATCC TGGCTGCGGC CCCCGGAGAG 
    CAGCTTCCCC TGTTCCCAGA GCCGCTGCAC GTGTTCGCGC CGCGGGCCTG CCAGCTGAGC 
    GTCGTAGTGG ACGACAAGAA GTTCGTCAGC AACATCACCA GGTTAAGCTC AGGCCCGTTC 
    CGGACCATCA CCGTGCGGGA CACCATGTCT GACCTCCCTG AGGTCCGGAA TGGAGCTTCG 
    TCCCTTGAGA TCTTGTACAA CGGGGAGCCT CAGTCCTGGT TCCAGAGGCA GCTCAGGGGG 
    GCACAGTACC AGCCCATCCT CAGGGACCAC ATCTGTAAGG ACATGAGTGC GTTGGTGGCG 
    GCCCGCATGC GGCACATCCC TCTGGCGCCC GGCTCTGACT GGCGCGACCT GCCGAATATC 
    GAGGTGCGGC TCTCCGACGG CACCATGGCC AGGAAGCTGC GCTACACGTA CCACGACAAG 
    AAGAATGGCT GCAGCAGCAC CGGGGCCCTC CGCGGAGTCT GCTCCTGCGT GGAAGCGGGC 
    AAAGCCTGTG ACTCTGCAGC TAGACAGTTC AACACCCTCA TCCCCTGGTG CTTGCCCCAC 
    ACCGGGAACA GGCACAACCA CTGGGCCGGC CTCTACGGAC GGCTGGAGTG GGACGGCTTC 
    TTCAGCACGA CTGTCACCAA CCCTGAGCCC ATGGGCAAGC AGGGCCGCGT TCTCCACCCC 
    GAGCAGCACC GCGTCGTGAG TGTGCGGGAG TGTGCCCGCT CCCAGGGCTT CCCGGACACC 
    TACCGGCTGT TCGGCAACAT CCTCGATAAG CACCGGCAGG TGGGTAACGC TGTGCCACCG 
    CCTCTGGCCA AAGCCATTGG CTTGGAGATC AAGCGCTGTA TGTTGGCCAA AGCTCGAGAG 
    AGTGCCTCAG TTAAAACCAA GGAAGAGGAG TCTGCTAAGG ACTAG

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

    RefSeq XP_022382493.1
    CDS41..4885
    Translation

    Target ORF information:

    RefSeq Version XM_022526785.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022526785.1

    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
    ATGCCTGCCC GCACCGCCCC GGCCCGGGTG CCCACGCTGG CCTCCCGAGC CATCTCCCTG 
    CCCGATGATG TCCGTAGGCG GCTCAAAGAT TTGGAAAGAG ATAGCCTAAC AGAAAAGGAA 
    TGTGTGAAGG AGAAACTGAA TCTCTTGCAT GAATTTCTGC AAACAGAAAT AAAAAATCAG 
    TTATGTGACT TGGAAACCAA ATTACATAAA GAAGAATTAT CAGAGGAGGG CTACCTGGCT 
    AAAGTCAAAT CCCTTTTAAA TAAAGATTTA TCCTTGGAGA ACGGAGCTCA TGCTTTCAGC 
    CGGGAAGTGA ACGGACGTCT AGAAAACGGG AGCCAGACAA GCGGCGAGGA CCGCAGAGTG 
    GGAATGGCAG AGGAAAAGAA GTCTCCCAAA CCCGTTTCCA AACTTCCCAC ACCCAGACGA 
    AGCAAGGCCG ATGGAGAGAC CAAGTCTGAA GCTGCTTCTT CTAGCCCCAG GATTACAAGG 
    CAAACTACCA GGCAGACCAC CATCCTATCT CATTTCTCAA GGGGCCCTGC CAAACGGAAG 
    CCCGAGGAAG AGCAGGAAAA AGCGAAATCG GATGAGTCTC CTGAGGAAGA AAAAGACCAG 
    GAGGAAAAGA GACGGAGAGT TACATCTAGA GAACAAGTTG CTAGACCGCT CCCTGCAGAA 
    GAACCGGAAA GAGTAAAACC TGGAACACAC ATGGAAGAAG AGGAAGAAAG AGATGAAAAA 
    GAAGAAAAGC GGCTCAGAAG TCAAGCCAAA GAACCAACAC CTAAACCGAA GCCTAAGGAG 
    GAGCCAGACA GAGAAGGGAG AGCGGGGGCG CAGGCTGAAA TGAATGAAGG AGACGAGAGG 
    GATGAAAAGA GACCCAGAAG TCAACCCAAA GATCTAGCTG CCAAACGGAG ACCTGAAGAG 
    AAAGAACCTG AAAGAGTAAA ACCACAAGTT TCTGAGGAAA AAGATGAGGA TGAAAAGGAA 
    GAGAAGAGAC GCAAAACTAC ATCCAAAGAA CCAATGGAGA AGAAAATGGC CCGAGCCAAA 
    ACAGTAGTGT CCTCCAAGAC CAACCCTCTG CGGTGCGTGC AGTGCGGACA GTACCTGGAC 
    GACGCGGATC TGAAGTACGA GCAGCACCCT CCCGACGCGG TGGACGAGCC ACAGCTGCTG 
    ACCAGCGAGA AGCTCTCCAT CTTCGATGCC AACGAGTCTG GCTTTGAGAG CTACGAGGCT 
    CTTCCCCAGC ACAAACTGAC CTGCTTCAGC GTGTACTGCA AGCGCGGTCA CCTGTGCCCG 
    ATCGACACCG GCCTCATAGA GAAGAACGTT GAACTCTTCT TCTCCGGTTA CGCGAAGCCA 
    ATATATGATG ATGACCCATC TCTCGAAGGT GGTGTTAATG GCAAAAATCT TGGCCCCATA 
    AACGAATGGT GGATCACTGG CTTTGACGGG GGCGAAAAGG CGCTCATTGG CTTCAGCACT 
    TCTTTTGCCG AGTACATTCT GATGGACCCC AACCCCGAGT ACGCGCCGCT GTTCAGTGTG 
    ATGCAGGAGA AGATCTACAT AAGTAAGATT GTGGTCGAGT TCCTGCAGGG CAACCCAGAC 
    TCCACCTATG AAGACTTGAT CAACAAAATT GAGACCACTG TTCCTCCTTC TGTGCTCAAC 
    CTGAATCGAT TCACAGAGGA CTCTCTCCTT CGACACGCCC AGTTTGTGGT AGAACAAGTA 
    GAGAGTTACG ATGAGGCTGG GGACAGTGAC GAGCAGCCCA TCTTTCTGAC CCCTTGCATG 
    AGAGACCTGA TCAAGTTGGC TGGGGTCACC CTTGGGAAAA GGCGAGCTGA AAGACGTCGG 
    ACCATTGGGC ATTCTGCCAA AGAGAAGGAC AAAGGTCCCA CTAAAGCCAC CACGACCAAG 
    CTGGTCTACC AGATCTTCGA CACTTTCTTC GCAGAGCAAA TCGAAAAGGA CGACAAAGAG 
    GACAAGGAGA ATGCCTTCAA GCGCCGGCGG TGCGGCGTCT GTGAGGTTTG TCAGCAGCCC 
    GAATGTGGAC AGTGTAAAGC CTGTAAAGAC ATGGTTAAGT TCGGCGGTAG CGGGCGGAGC 
    AAACAGGCTT GCCAGGAGAG GAGGTGCCCC AACATGGCCA TGAAGGAGGC AGATGACGAT 
    GAAGAGGTCG ATGATAATAT TCCAGAGATG CCATCACCCA AAAAAATGCA TCAGGGGAAG 
    AAAAAGAAAC AAAACAAGAA CCGGATCTCT TGGGTTGGAG ACGCTGTCAA GACTGATGGG 
    AAGAAGAGTT ACTTTAAGAA GGTGTGCATC GACTCAGAAA CCCTGGAAGT GGGGGACTGT 
    GTCTCTGTTA TTCCAGATGA CTCCTCAAAA CCGCTGTATT TGGCAAGGGT CACTGCGCTG 
    TGGGAGGACA GCAGCAACGG GCAGATGTTC CATGCCCACT GGTTCTGCGC CGGGACAGAC 
    ACGGTCCTCG GAGCCACGTC GGACCCCTTG GAGCTGTTCC TGGTGGACGA ATGTGAGGAC 
    ATGCAGCTTT CGTATATCCA CAGCAAGGTG AAGGTCGTCT ATAAAGCTCC ATCGGAGAAC 
    TGGGCCTTGG AGGGAGGCTT GGATCCCGAG GCCATGATAG CGGAGGATGA CGGAAAGACC 
    TACTTCTACC AGCTGTGGTA TGATCAAGAC TACGCCAGAT TCGAGTCCCC TCCGAAAACC 
    CAGCCGACGG AGGAGAACAA GTACAAATTC TGTGTAAGCT GTGCCCGTCT GGCTGAAATG 
    AGGCAGAAAG AAATTCCCAG GGTCCTAGAA CAGCTTGAGG ACCTGGACAC CCGGGTTCTC 
    TACAGCTCGG CCACCAAGAA CGGCATCCAG TATCGAGTGG GTGATGGCGT GTACCTCCTC 
    CCTGAGGCCT TCACGTTCAA CATCAAGCTG TCCAGTCCCG TCAAACGCCC GCGGAAGGAG 
    CCTGTGGACG AAGATCTGTA TCCAGAACAC TACCGGAAGT ACTCGGATTA CATCAAAGGC 
    AGTAACCTGG ATGCTCCTGA GCCATATCGA ATTGGCCGAA TAAAAGAAAT CTTCTGTATC 
    AAGAAGAGCA ACGGCAGGCC CAACGAGACT GACATCAAGA TCAGAATCAA CAAATTTTAT 
    AGGCCAGAGA ACACCCACAA GTCTACCCCA GCAAGCTACC ATGCAGACAT CAACCTGCTT 
    TACTGGAGCG ATGAGGAGGT GGTCGTGGAC TTCAAGGCCG TGCAGGGCCG CTGTACCGTG 
    GAGTACGGGG AGGACCTGCC TGGGGGCCTC CAGGACTTCT CTGCAGGGGG GCCGGACCGC 
    TTCTACTTCC TTGAGGCCTA TAATGCGAAG AACAAAAGCT TTGAAGATCC TCCAAACCAT 
    GCCCGCAGCC CTGGAAATAA AGGGAAAGGG AAGGGTAAAG GGAAGGGCAG GGCAAAGTCT 
    CAGACATGTG AGCCGAGTGA GCCCGAGACC GAAATTAAAC TGCCTAAGCT TCGGACCTTG 
    GATGTGTTTT CCGGCTGCGG GGGCTTGTCA GAAGGCTTCC ACCAAGCAGG CATCTCGGAA 
    ACACTGTGGG CCATTGAGAT GTGGGACCCT GCGGCCCAGG CATTTCGGCT CAACAATCCC 
    GGGTCCACGG TGTTCACGGA GGACTGCAAC GTACTGCTGA AGCTGGTCAT GGCCGGGGAG 
    GCAACCAACT CCCGGGGTCA GAAGCTGCCT CAGAAGGGAG ACGTGGAGAT GCTGTGCGGT 
    GGGCCGCCTT GCCAAGGGTT TAGTGGCATG AACCGCTTCA ACTCTCGGAC CTACTCCAAG 
    TTCAAGAACT CCCTGGTGGT TTCCTTTCTC AGCTACTGTG ACTACTACCG GCCCCGCTAC 
    TTCCTGCTGG AGAACGTGCG GAACTTCGTC TCCTTCAAGC GCTCCATGGT CCTGAAGCTC 
    ACTCTCCGCT GCCTGGTCCG CATGGGCTAC CAGTGCACCT TCGGCGTGCT GCAGGCTGGT 
    CAGTACGGCG TGGCCCAGAC GCGGAGGCGG GCCATCATCC TGGCTGCGGC CCCCGGAGAG 
    CAGCTTCCCC TGTTCCCAGA GCCGCTGCAC GTGTTCGCGC CGCGGGCCTG CCAGCTGAGC 
    GTCGTAGTGG ACGACAAGAA GTTCGTCAGC AACATCACCA GGTTAAGCTC AGGCCCGTTC 
    CGGACCATCA CCGTGCGGGA CACCATGTCT GACCTCCCTG AGGTCCGGAA TGGAGCTTCG 
    TCCCTTGAGA TCTTGTACAA CGGGGAGCCT CAGTCCTGGT TCCAGAGGCA GCTCAGGGGG 
    GCACAGTACC AGCCCATCCT CAGGGACCAC ATCTGTAAGG ACATGAGTGC GTTGGTGGCG 
    GCCCGCATGC GGCACATCCC TCTGGCGCCC GGCTCTGACT GGCGCGACCT GCCGAATATC 
    GAGGTGCGGC TCTCCGACGG CACCATGGCC AGGAAGCTGC GCTACACGTA CCACGACAAG 
    AAGAATGGCT GCAGCAGCAC CGGGGCCCTC CGCGGAGTCT GCTCCTGCGT GGAAGCGGGC 
    AAAGCCTGTG ACTCTGCAGC TAGACAGTTC AACACCCTCA TCCCCTGGTG CTTGCCCCAC 
    ACCGGGAACA GGCACAACCA CTGGGCCGGC CTCTACGGAC GGCTGGAGTG GGACGGCTTC 
    TTCAGCACGA CTGTCACCAA CCCTGAGCCC ATGGGCAAGC AGGGCCGCGT TCTCCACCCC 
    GAGCAGCACC GCGTCGTGAG TGTGCGGGAG TGTGCCCGCT CCCAGGGCTT CCCGGACACC 
    TACCGGCTGT TCGGCAACAT CCTCGATAAG CACCGGCAGG TGGGTAACGC TGTGCCACCG 
    CCTCTGGCCA AAGCCATTGG CTTGGAGATC AAGCGCTGTA TGTTGGCCAA AGCTCGAGAG 
    AGTGCCTCAG TTAAAACCAA GGAAGAGGAG TCTGCTAAGG ACTAG

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

    LOC111162394 ( XM_022526786.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022382494.1 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OEn53797
    Clone ID Related Accession (Same CDS sequence) XM_022526786.1
    Accession Version XM_022526786.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4860bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product DNA (cytosine-5)-methyltransferase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154176.1) 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 :: Enhydra lutris kenyoni 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
    ATGCCTGCCC GCACCGCCCC GGCCCGGGTG CCCACGCTGG CCTCCCGAGC CATCTCCCTG 
    CCCGATGATG TCCGTAGGCG GCTCAAAGAT TTGGAAAGAG ATAGCCTAAC AGAAAAGGAA 
    TGTGTGAAGG AGAAACTGAA TCTCTTGCAT GAATTTCTGC AAACAGAAAT AAAAAATCAG 
    TTATGTGACT TGGAAACCAA ATTACATAAA GAAGAATTAT CAGAGGAGGG CTACCTGGCT 
    AAAGTCAAAT CCCTTTTAAA TAAAGATTTA TCCTTGGAGA ACGGAGCTCA TGCTTTCAGC 
    CGGGAAGTGA ACGGACGTCT AGAAAACGGG AGCCAGACAA GCGGCGAGGA CCGCAGAGTG 
    GGAATGGCAG AGGAAAAGAA GTCTCCCAAA CCCGTTTCCA AACTTCCCAC ACCCAGACGA 
    AGCAAGGCCG ATGGAGAGAC CAAGTCTGAA GCTGCTTCTT CTAGCCCCAG GATTACAAGG 
    CAAACTACCA GGCAGACCAC CATCCTATCT CATTTCTCAA GGGGCCCTGC CAAACGGAAG 
    CCCGAGGAAG AGCAGGAAAA AGCGAAATCG GATGAGTCTC CTGAGGAAGA AAAAGACCAG 
    GAGGAAAAGA GACGGAGAGT TACATCTAGA GAACAAGTTG CTAGACCGCT CCCTGCAGAA 
    GAACCGGAAA GAGTAAAACC TGGAACACAC ATGGAAGAAG AGGAAGAAAG AGATGAAAAA 
    GAAGAAAAGC GGCTCAGAAG TCAAGCCAAA GAACCAACAC CTAAACCGAA GCCTAAGGAG 
    GAGCCAGACA GAGAAGGGAG AGCGGGGGCG CAGGCTGAAA TGAATGAAGG AGACGAGAGG 
    GATGAAAAGA GACCCAGAAG TCAACCCAAA GATCTAGCTG CCAAACGGAG ACCTGAAGAG 
    AAAGAACCTG AAAGAGTAAA ACCACAAGTT TCTGAGGAAA AAGATGAGGA TGAAAAGGAA 
    GAGAAGAGAC GCAAAACTAC ATCCAAAGAA CCAATGGAGA AGAAAATGGC CCGAGCCAAA 
    ACAGTAGTGT CCTCCAAGAC CAACCCTCTG CGGTGCGTGC AGTGCGGACA GTACCTGGAC 
    GACGCGGATC TGAAGTACGA GCAGCACCCT CCCGACGCGG TGGACGAGCC ACAGCTGCTG 
    ACCAGCGAGA AGCTCTCCAT CTTCGATGCC AACGAGTCTG GCTTTGAGAG CTACGAGGCT 
    CTTCCCCAGC ACAAACTGAC CTGCTTCAGC GTGTACTGCA AGCGCGGTCA CCTGTGCCCG 
    ATCGACACCG GCCTCATAGA GAAGAACGTT GAACTCTTCT TCTCCGGTTA CGCGAAGCCA 
    ATATATGATG ATGACCCATC TCTCGAAGGT GGTGTTAATG GCAAAAATCT TGGCCCCATA 
    AACGAATGGT GGATCACTGG CTTTGACGGG GGCGAAAAGG CGCTCATTGG CTTCAGCACT 
    TCTTTTGCCG AGTACATTCT GATGGACCCC AACCCCGAGT ACGCGCCGCT GTTCAGTGTG 
    ATGCAGGAGA AGATCTACAT AAGTAAGATT GTGGTCGAGT TCCTGCAGGG CAACCCAGAC 
    TCCACCTATG AAGACTTGAT CAACAAAATT GAGACCACTG TTCCTCCTTC TGTGCTCAAC 
    CTGAATCGAT TCACAGAGGA CTCTCTCCTT CGACACGCCC AGTTTGTGGT AGAACAAGTA 
    GAGAGTTACG ATGAGGCTGG GGACAGTGAC GAGCAGCCCA TCTTTCTGAC CCCTTGCATG 
    AGAGACCTGA TCAAGTTGGC TGGGGTCACC CTTGGGAAAA GGCGAGCTGA AAGACGTCGG 
    ACCATTGGGC ATTCTGCCAA AGAGAAGGAC AAAGGTCCCA CTAAAGCCAC CACGACCAAG 
    CTGGTCTACC AGATCTTCGA CACTTTCTTC GCAGAGCAAA TCGAAAAGGA CGACAAAGAG 
    GACAAGGAGA ATGCCTTCAA GCGCCGGCGG TGCGGCGTCT GTGAGGTTTG TCAGCAGCCC 
    GAATGTGGAC AGTGTAAAGC CTGTAAAGAC ATGGTTAAGT TCGGCGGTAG CGGGCGGAGC 
    AAACAGGCTT GCCAGGAGAG GAGGTGCCCC AACATGGCCA TGAAGGAGGC AGATGACGAT 
    GAAGAGGTCG ATGATAATAT TCCAGAGATG CCATCACCCA AAAAAATGCA TCAGGGGAAG 
    AAAAAGAAAC AAAACAAGAA CCGGATCTCT TGGGTTGGAG ACGCTGTCAA GACTGATGGG 
    AAGAAGAGTT ACTTTAAGAA GGTGTGCATC GACTCAGAAA CCCTGGAAGT GGGGGACTGT 
    GTCTCTGTTA TTCCAGATGA CTCCTCAAAA CCGCTGTATT TGGCAAGGGT CACTGCGCTG 
    TGGGAGGACA GCAGCAACGG GCAGATGTTC CATGCCCACT GGTTCTGCGC CGGGACAGAC 
    ACGGTCCTCG GAGCCACGTC GGACCCCTTG GAGCTGTTCC TGGTGGACGA ATGTGAGGAC 
    ATGCAGCTTT CGTATATCCA CAGCAAGGTG AAGGTCGTCT ATAAAGCTCC ATCGGAGAAC 
    TGGGCCTTGG AGGGAGGCTT GGATCCCGAG GCCATGATAG CGGAGGATGA CGGAAAGACC 
    TACTTCTACC AGCTGTGGTA TGATCAAGAC TACGCCAGAT TCGAGTCCCC TCCGAAAACC 
    CAGCCGACGG AGGAGAACAA GTACAAATTC TGTGTAAGCT GTGCCCGTCT GGCTGAAATG 
    AGGCAGAAAG AAATTCCCAG GGTCCTAGAA CAGCTTGAGG ACCTGGACAC CCGGGTTCTC 
    TACAGCTCGG CCACCAAGAA CGGCATCCAG TATCGAGTGG GTGATGGCGT GTACCTCCTC 
    CCTGAGGCCT TCACGTTCAA CATCAAGCTG TCCAGTCCCG TCAAACGCCC GCGGAAGGAG 
    CCTGTGGACG AAGATCTGTA TCCAGAACAC TACCGGAAGT ACTCGGATTA CATCAAAGGC 
    AGTAACCTGG ATGCTCCTGA GCCATATCGA ATTGGCCGAA TAAAAGAAAT CTTCTGTATC 
    AAGAAGAGCA ACGGCAGGCC CAACGAGACT GACATCAAGA TCAGAATCAA CAAATTTTAT 
    AGGCCAGAGA ACACCCACAA GTCTACCCCA GCAAGCTACC ATGCAGACAT CAACCTGCTT 
    TACTGGAGCG ATGAGGAGGT GGTCGTGGAC TTCAAGGCCG TGCAGGGCCG CTGTACCGTG 
    GAGTACGGGG AGGACCTGCC TGGGGGCCTC CAGGACTTCT CTGCAGGGGG GCCGGACCGC 
    TTCTACTTCC TTGAGGCCTA TAATGCGAAG AACAAAAGCT TTGAAGATCC TCCAAACCAT 
    GCCCGCAGCC CTGGAAATAA AGGGAAAGGG AAGGGTAAAG GGAAGGGCAG GGCAAAGTCT 
    CAGACATGTG AGCCGAGTGA GCCCGAGACC GAAATTAAAC TGCCTAAGCT TCGGACCTTG 
    GATGTGTTTT CCGGCTGCGG GGGCTTGTCA GAAGGCTTCC ACCAAGCAGG CATCTCGGAA 
    ACACTGTGGG CCATTGAGAT GTGGGACCCT GCGGCCCAGG CATTTCGGCT CAACAATCCC 
    GGGTCCACGG TGTTCACGGA GGACTGCAAC GTACTGCTGA AGCTGGTCAT GGCCGGGGAG 
    GCAACCAACT CCCGGGGTCA GAAGCTGCCT CAGAAGGGAG ACGTGGAGAT GCTGTGCGGT 
    GGGCCGCCTT GCCAAGGGTT TAGTGGCATG AACCGCTTCA ACTCTCGGAC CTACTCCAAG 
    TTCAAGAACT CCCTGGTGGT TTCCTTTCTC AGCTACTGTG ACTACTACCG GCCCCGCTAC 
    TTCCTGCTGG AGAACGTGCG GAACTTCGTC TCCTTCAAGC GCTCCATGGT CCTGAAGCTC 
    ACTCTCCGCT GCCTGGTCCG CATGGGCTAC CAGTGCACCT TCGGCGTGCT GCAGGCTGGT 
    CAGTACGGCG TGGCCCAGAC GCGGAGGCGG GCCATCATCC TGGCTGCGGC CCCCGGAGAG 
    CAGCTTCCCC TGTTCCCAGA GCCGCTGCAC GTGTTCGCGC CGCGGGCCTG CCAGCTGAGC 
    GTCGTAGTGG ACGACAAGAA GTTCGTCAGC AACATCACCA GGTTAAGCTC AGGCCCGTTC 
    CGGACCATCA CCGTGCGGGA CACCATGTCT GACCTCCCTG AGGTCCGGAA TGGAGCTTCG 
    TCCCTTGAGA TCTTGTACAA CGGGGAGCCT CAGTCCTGGT TCCAGAGGCA GCTCAGGGGG 
    GCACAGTACC AGCCCATCCT CAGGGACCAC ATCTGTAAGG ACATGAGTGC GTTGGTGGCG 
    GCCCGCATGC GGCACATCCC TCTGGCGCCC GGCTCTGACT GGCGCGACCT GCCGAATATC 
    GAGGTGCGGC TCTCCGACGG CACCATGGCC AGGAAGCTGC GCTACACGTA CCACGACAAG 
    AAGAATGGCT GCAGCAGCAC CGGGGCCCTC CGCGGAGTCT GCTCCTGCGT GGAAGGTGGG 
    GACCCTGCCG CGGGCAAAGC CTGTGACTCT GCAGCTAGAC AGTTCAACAC CCTCATCCCC 
    TGGTGCTTGC CCCACACCGG GAACAGGCAC AACCACTGGG CCGGCCTCTA CGGACGGCTG 
    GAGTGGGACG GCTTCTTCAG CACGACTGTC ACCAACCCTG AGCCCATGGG CAAGCAGGGC 
    CGCGTTCTCC ACCCCGAGCA GCACCGCGTC GTGAGTGTGC GGGAGTGTGC CCGCTCCCAG 
    GGCTTCCCGG ACACCTACCG GCTGTTCGGC AACATCCTCG ATAAGCACCG GCAGGTGGGT 
    AACGCTGTGC CACCGCCTCT GGCCAAAGCC ATTGGCTTGG AGATCAAGCG CTGTATGTTG 
    GCCAAAGCTC GAGAGAGTGC CTCAGTTAAA ACCAAGGAAG AGGAGTCTGC TAAGGACTAG

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

    RefSeq XP_022382494.1
    CDS41..4900
    Translation

    Target ORF information:

    RefSeq Version XM_022526786.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022526786.1

    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
    ATGCCTGCCC GCACCGCCCC GGCCCGGGTG CCCACGCTGG CCTCCCGAGC CATCTCCCTG 
    CCCGATGATG TCCGTAGGCG GCTCAAAGAT TTGGAAAGAG ATAGCCTAAC AGAAAAGGAA 
    TGTGTGAAGG AGAAACTGAA TCTCTTGCAT GAATTTCTGC AAACAGAAAT AAAAAATCAG 
    TTATGTGACT TGGAAACCAA ATTACATAAA GAAGAATTAT CAGAGGAGGG CTACCTGGCT 
    AAAGTCAAAT CCCTTTTAAA TAAAGATTTA TCCTTGGAGA ACGGAGCTCA TGCTTTCAGC 
    CGGGAAGTGA ACGGACGTCT AGAAAACGGG AGCCAGACAA GCGGCGAGGA CCGCAGAGTG 
    GGAATGGCAG AGGAAAAGAA GTCTCCCAAA CCCGTTTCCA AACTTCCCAC ACCCAGACGA 
    AGCAAGGCCG ATGGAGAGAC CAAGTCTGAA GCTGCTTCTT CTAGCCCCAG GATTACAAGG 
    CAAACTACCA GGCAGACCAC CATCCTATCT CATTTCTCAA GGGGCCCTGC CAAACGGAAG 
    CCCGAGGAAG AGCAGGAAAA AGCGAAATCG GATGAGTCTC CTGAGGAAGA AAAAGACCAG 
    GAGGAAAAGA GACGGAGAGT TACATCTAGA GAACAAGTTG CTAGACCGCT CCCTGCAGAA 
    GAACCGGAAA GAGTAAAACC TGGAACACAC ATGGAAGAAG AGGAAGAAAG AGATGAAAAA 
    GAAGAAAAGC GGCTCAGAAG TCAAGCCAAA GAACCAACAC CTAAACCGAA GCCTAAGGAG 
    GAGCCAGACA GAGAAGGGAG AGCGGGGGCG CAGGCTGAAA TGAATGAAGG AGACGAGAGG 
    GATGAAAAGA GACCCAGAAG TCAACCCAAA GATCTAGCTG CCAAACGGAG ACCTGAAGAG 
    AAAGAACCTG AAAGAGTAAA ACCACAAGTT TCTGAGGAAA AAGATGAGGA TGAAAAGGAA 
    GAGAAGAGAC GCAAAACTAC ATCCAAAGAA CCAATGGAGA AGAAAATGGC CCGAGCCAAA 
    ACAGTAGTGT CCTCCAAGAC CAACCCTCTG CGGTGCGTGC AGTGCGGACA GTACCTGGAC 
    GACGCGGATC TGAAGTACGA GCAGCACCCT CCCGACGCGG TGGACGAGCC ACAGCTGCTG 
    ACCAGCGAGA AGCTCTCCAT CTTCGATGCC AACGAGTCTG GCTTTGAGAG CTACGAGGCT 
    CTTCCCCAGC ACAAACTGAC CTGCTTCAGC GTGTACTGCA AGCGCGGTCA CCTGTGCCCG 
    ATCGACACCG GCCTCATAGA GAAGAACGTT GAACTCTTCT TCTCCGGTTA CGCGAAGCCA 
    ATATATGATG ATGACCCATC TCTCGAAGGT GGTGTTAATG GCAAAAATCT TGGCCCCATA 
    AACGAATGGT GGATCACTGG CTTTGACGGG GGCGAAAAGG CGCTCATTGG CTTCAGCACT 
    TCTTTTGCCG AGTACATTCT GATGGACCCC AACCCCGAGT ACGCGCCGCT GTTCAGTGTG 
    ATGCAGGAGA AGATCTACAT AAGTAAGATT GTGGTCGAGT TCCTGCAGGG CAACCCAGAC 
    TCCACCTATG AAGACTTGAT CAACAAAATT GAGACCACTG TTCCTCCTTC TGTGCTCAAC 
    CTGAATCGAT TCACAGAGGA CTCTCTCCTT CGACACGCCC AGTTTGTGGT AGAACAAGTA 
    GAGAGTTACG ATGAGGCTGG GGACAGTGAC GAGCAGCCCA TCTTTCTGAC CCCTTGCATG 
    AGAGACCTGA TCAAGTTGGC TGGGGTCACC CTTGGGAAAA GGCGAGCTGA AAGACGTCGG 
    ACCATTGGGC ATTCTGCCAA AGAGAAGGAC AAAGGTCCCA CTAAAGCCAC CACGACCAAG 
    CTGGTCTACC AGATCTTCGA CACTTTCTTC GCAGAGCAAA TCGAAAAGGA CGACAAAGAG 
    GACAAGGAGA ATGCCTTCAA GCGCCGGCGG TGCGGCGTCT GTGAGGTTTG TCAGCAGCCC 
    GAATGTGGAC AGTGTAAAGC CTGTAAAGAC ATGGTTAAGT TCGGCGGTAG CGGGCGGAGC 
    AAACAGGCTT GCCAGGAGAG GAGGTGCCCC AACATGGCCA TGAAGGAGGC AGATGACGAT 
    GAAGAGGTCG ATGATAATAT TCCAGAGATG CCATCACCCA AAAAAATGCA TCAGGGGAAG 
    AAAAAGAAAC AAAACAAGAA CCGGATCTCT TGGGTTGGAG ACGCTGTCAA GACTGATGGG 
    AAGAAGAGTT ACTTTAAGAA GGTGTGCATC GACTCAGAAA CCCTGGAAGT GGGGGACTGT 
    GTCTCTGTTA TTCCAGATGA CTCCTCAAAA CCGCTGTATT TGGCAAGGGT CACTGCGCTG 
    TGGGAGGACA GCAGCAACGG GCAGATGTTC CATGCCCACT GGTTCTGCGC CGGGACAGAC 
    ACGGTCCTCG GAGCCACGTC GGACCCCTTG GAGCTGTTCC TGGTGGACGA ATGTGAGGAC 
    ATGCAGCTTT CGTATATCCA CAGCAAGGTG AAGGTCGTCT ATAAAGCTCC ATCGGAGAAC 
    TGGGCCTTGG AGGGAGGCTT GGATCCCGAG GCCATGATAG CGGAGGATGA CGGAAAGACC 
    TACTTCTACC AGCTGTGGTA TGATCAAGAC TACGCCAGAT TCGAGTCCCC TCCGAAAACC 
    CAGCCGACGG AGGAGAACAA GTACAAATTC TGTGTAAGCT GTGCCCGTCT GGCTGAAATG 
    AGGCAGAAAG AAATTCCCAG GGTCCTAGAA CAGCTTGAGG ACCTGGACAC CCGGGTTCTC 
    TACAGCTCGG CCACCAAGAA CGGCATCCAG TATCGAGTGG GTGATGGCGT GTACCTCCTC 
    CCTGAGGCCT TCACGTTCAA CATCAAGCTG TCCAGTCCCG TCAAACGCCC GCGGAAGGAG 
    CCTGTGGACG AAGATCTGTA TCCAGAACAC TACCGGAAGT ACTCGGATTA CATCAAAGGC 
    AGTAACCTGG ATGCTCCTGA GCCATATCGA ATTGGCCGAA TAAAAGAAAT CTTCTGTATC 
    AAGAAGAGCA ACGGCAGGCC CAACGAGACT GACATCAAGA TCAGAATCAA CAAATTTTAT 
    AGGCCAGAGA ACACCCACAA GTCTACCCCA GCAAGCTACC ATGCAGACAT CAACCTGCTT 
    TACTGGAGCG ATGAGGAGGT GGTCGTGGAC TTCAAGGCCG TGCAGGGCCG CTGTACCGTG 
    GAGTACGGGG AGGACCTGCC TGGGGGCCTC CAGGACTTCT CTGCAGGGGG GCCGGACCGC 
    TTCTACTTCC TTGAGGCCTA TAATGCGAAG AACAAAAGCT TTGAAGATCC TCCAAACCAT 
    GCCCGCAGCC CTGGAAATAA AGGGAAAGGG AAGGGTAAAG GGAAGGGCAG GGCAAAGTCT 
    CAGACATGTG AGCCGAGTGA GCCCGAGACC GAAATTAAAC TGCCTAAGCT TCGGACCTTG 
    GATGTGTTTT CCGGCTGCGG GGGCTTGTCA GAAGGCTTCC ACCAAGCAGG CATCTCGGAA 
    ACACTGTGGG CCATTGAGAT GTGGGACCCT GCGGCCCAGG CATTTCGGCT CAACAATCCC 
    GGGTCCACGG TGTTCACGGA GGACTGCAAC GTACTGCTGA AGCTGGTCAT GGCCGGGGAG 
    GCAACCAACT CCCGGGGTCA GAAGCTGCCT CAGAAGGGAG ACGTGGAGAT GCTGTGCGGT 
    GGGCCGCCTT GCCAAGGGTT TAGTGGCATG AACCGCTTCA ACTCTCGGAC CTACTCCAAG 
    TTCAAGAACT CCCTGGTGGT TTCCTTTCTC AGCTACTGTG ACTACTACCG GCCCCGCTAC 
    TTCCTGCTGG AGAACGTGCG GAACTTCGTC TCCTTCAAGC GCTCCATGGT CCTGAAGCTC 
    ACTCTCCGCT GCCTGGTCCG CATGGGCTAC CAGTGCACCT TCGGCGTGCT GCAGGCTGGT 
    CAGTACGGCG TGGCCCAGAC GCGGAGGCGG GCCATCATCC TGGCTGCGGC CCCCGGAGAG 
    CAGCTTCCCC TGTTCCCAGA GCCGCTGCAC GTGTTCGCGC CGCGGGCCTG CCAGCTGAGC 
    GTCGTAGTGG ACGACAAGAA GTTCGTCAGC AACATCACCA GGTTAAGCTC AGGCCCGTTC 
    CGGACCATCA CCGTGCGGGA CACCATGTCT GACCTCCCTG AGGTCCGGAA TGGAGCTTCG 
    TCCCTTGAGA TCTTGTACAA CGGGGAGCCT CAGTCCTGGT TCCAGAGGCA GCTCAGGGGG 
    GCACAGTACC AGCCCATCCT CAGGGACCAC ATCTGTAAGG ACATGAGTGC GTTGGTGGCG 
    GCCCGCATGC GGCACATCCC TCTGGCGCCC GGCTCTGACT GGCGCGACCT GCCGAATATC 
    GAGGTGCGGC TCTCCGACGG CACCATGGCC AGGAAGCTGC GCTACACGTA CCACGACAAG 
    AAGAATGGCT GCAGCAGCAC CGGGGCCCTC CGCGGAGTCT GCTCCTGCGT GGAAGGTGGG 
    GACCCTGCCG CGGGCAAAGC CTGTGACTCT GCAGCTAGAC AGTTCAACAC CCTCATCCCC 
    TGGTGCTTGC CCCACACCGG GAACAGGCAC AACCACTGGG CCGGCCTCTA CGGACGGCTG 
    GAGTGGGACG GCTTCTTCAG CACGACTGTC ACCAACCCTG AGCCCATGGG CAAGCAGGGC 
    CGCGTTCTCC ACCCCGAGCA GCACCGCGTC GTGAGTGTGC GGGAGTGTGC CCGCTCCCAG 
    GGCTTCCCGG ACACCTACCG GCTGTTCGGC AACATCCTCG ATAAGCACCG GCAGGTGGGT 
    AACGCTGTGC CACCGCCTCT GGCCAAAGCC ATTGGCTTGG AGATCAAGCG CTGTATGTTG 
    GCCAAAGCTC GAGAGAGTGC CTCAGTTAAA ACCAAGGAAG AGGAGTCTGC TAAGGACTAG

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

    LOC111162394 ( XM_022526787.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022382495.1 Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OEn53798
    Clone ID Related Accession (Same CDS sequence) XM_022526787.1
    Accession Version XM_022526787.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4821bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product DNA (cytosine-5)-methyltransferase 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154176.1) 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 :: Enhydra lutris kenyoni 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
    ATGGCGGCCT CCAGAGACAG ACGTCGCCGC TTGGGGCCCG GGCGCGGCCG GCTCAGGCTC 
    AAAGATTTGG AAAGAGATAG CCTAACAGAA AAGGAATGTG TGAAGGAGAA ACTGAATCTC 
    TTGCATGAAT TTCTGCAAAC AGAAATAAAA AATCAGTTAT GTGACTTGGA AACCAAATTA 
    CATAAAGAAG AATTATCAGA GGAGGGCTAC CTGGCTAAAG TCAAATCCCT TTTAAATAAA 
    GATTTATCCT TGGAGAACGG AGCTCATGCT TTCAGCCGGG AAGTGAACGG ACGTCTAGAA 
    AACGGGAGCC AGACAAGCGG CGAGGACCGC AGAGTGGGAA TGGCAGAGGA AAAGAAGTCT 
    CCCAAACCCG TTTCCAAACT TCCCACACCC AGACGAAGCA AGGCCGATGG AGAGACCAAG 
    TCTGAAGCTG CTTCTTCTAG CCCCAGGATT ACAAGGCAAA CTACCAGGCA GACCACCATC 
    CTATCTCATT TCTCAAGGGG CCCTGCCAAA CGGAAGCCCG AGGAAGAGCA GGAAAAAGCG 
    AAATCGGATG AGTCTCCTGA GGAAGAAAAA GACCAGGAGG AAAAGAGACG GAGAGTTACA 
    TCTAGAGAAC AAGTTGCTAG ACCGCTCCCT GCAGAAGAAC CGGAAAGAGT AAAACCTGGA 
    ACACACATGG AAGAAGAGGA AGAAAGAGAT GAAAAAGAAG AAAAGCGGCT CAGAAGTCAA 
    GCCAAAGAAC CAACACCTAA ACCGAAGCCT AAGGAGGAGC CAGACAGAGA AGGGAGAGCG 
    GGGGCGCAGG CTGAAATGAA TGAAGGAGAC GAGAGGGATG AAAAGAGACC CAGAAGTCAA 
    CCCAAAGATC TAGCTGCCAA ACGGAGACCT GAAGAGAAAG AACCTGAAAG AGTAAAACCA 
    CAAGTTTCTG AGGAAAAAGA TGAGGATGAA AAGGAAGAGA AGAGACGCAA AACTACATCC 
    AAAGAACCAA TGGAGAAGAA AATGGCCCGA GCCAAAACAG TAGTGTCCTC CAAGACCAAC 
    CCTCTGCGGT GCGTGCAGTG CGGACAGTAC CTGGACGACG CGGATCTGAA GTACGAGCAG 
    CACCCTCCCG ACGCGGTGGA CGAGCCACAG CTGCTGACCA GCGAGAAGCT CTCCATCTTC 
    GATGCCAACG AGTCTGGCTT TGAGAGCTAC GAGGCTCTTC CCCAGCACAA ACTGACCTGC 
    TTCAGCGTGT ACTGCAAGCG CGGTCACCTG TGCCCGATCG ACACCGGCCT CATAGAGAAG 
    AACGTTGAAC TCTTCTTCTC CGGTTACGCG AAGCCAATAT ATGATGATGA CCCATCTCTC 
    GAAGGTGGTG TTAATGGCAA AAATCTTGGC CCCATAAACG AATGGTGGAT CACTGGCTTT 
    GACGGGGGCG AAAAGGCGCT CATTGGCTTC AGCACTTCTT TTGCCGAGTA CATTCTGATG 
    GACCCCAACC CCGAGTACGC GCCGCTGTTC AGTGTGATGC AGGAGAAGAT CTACATAAGT 
    AAGATTGTGG TCGAGTTCCT GCAGGGCAAC CCAGACTCCA CCTATGAAGA CTTGATCAAC 
    AAAATTGAGA CCACTGTTCC TCCTTCTGTG CTCAACCTGA ATCGATTCAC AGAGGACTCT 
    CTCCTTCGAC ACGCCCAGTT TGTGGTAGAA CAAGTAGAGA GTTACGATGA GGCTGGGGAC 
    AGTGACGAGC AGCCCATCTT TCTGACCCCT TGCATGAGAG ACCTGATCAA GTTGGCTGGG 
    GTCACCCTTG GGAAAAGGCG AGCTGAAAGA CGTCGGACCA TTGGGCATTC TGCCAAAGAG 
    AAGGACAAAG GTCCCACTAA AGCCACCACG ACCAAGCTGG TCTACCAGAT CTTCGACACT 
    TTCTTCGCAG AGCAAATCGA AAAGGACGAC AAAGAGGACA AGGAGAATGC CTTCAAGCGC 
    CGGCGGTGCG GCGTCTGTGA GGTTTGTCAG CAGCCCGAAT GTGGACAGTG TAAAGCCTGT 
    AAAGACATGG TTAAGTTCGG CGGTAGCGGG CGGAGCAAAC AGGCTTGCCA GGAGAGGAGG 
    TGCCCCAACA TGGCCATGAA GGAGGCAGAT GACGATGAAG AGGTCGATGA TAATATTCCA 
    GAGATGCCAT CACCCAAAAA AATGCATCAG GGGAAGAAAA AGAAACAAAA CAAGAACCGG 
    ATCTCTTGGG TTGGAGACGC TGTCAAGACT GATGGGAAGA AGAGTTACTT TAAGAAGGTG 
    TGCATCGACT CAGAAACCCT GGAAGTGGGG GACTGTGTCT CTGTTATTCC AGATGACTCC 
    TCAAAACCGC TGTATTTGGC AAGGGTCACT GCGCTGTGGG AGGACAGCAG CAACGGGCAG 
    ATGTTCCATG CCCACTGGTT CTGCGCCGGG ACAGACACGG TCCTCGGAGC CACGTCGGAC 
    CCCTTGGAGC TGTTCCTGGT GGACGAATGT GAGGACATGC AGCTTTCGTA TATCCACAGC 
    AAGGTGAAGG TCGTCTATAA AGCTCCATCG GAGAACTGGG CCTTGGAGGG AGGCTTGGAT 
    CCCGAGGCCA TGATAGCGGA GGATGACGGA AAGACCTACT TCTACCAGCT GTGGTATGAT 
    CAAGACTACG CCAGATTCGA GTCCCCTCCG AAAACCCAGC CGACGGAGGA GAACAAGTAC 
    AAATTCTGTG TAAGCTGTGC CCGTCTGGCT GAAATGAGGC AGAAAGAAAT TCCCAGGGTC 
    CTAGAACAGC TTGAGGACCT GGACACCCGG GTTCTCTACA GCTCGGCCAC CAAGAACGGC 
    ATCCAGTATC GAGTGGGTGA TGGCGTGTAC CTCCTCCCTG AGGCCTTCAC GTTCAACATC 
    AAGCTGTCCA GTCCCGTCAA ACGCCCGCGG AAGGAGCCTG TGGACGAAGA TCTGTATCCA 
    GAACACTACC GGAAGTACTC GGATTACATC AAAGGCAGTA ACCTGGATGC TCCTGAGCCA 
    TATCGAATTG GCCGAATAAA AGAAATCTTC TGTATCAAGA AGAGCAACGG CAGGCCCAAC 
    GAGACTGACA TCAAGATCAG AATCAACAAA TTTTATAGGC CAGAGAACAC CCACAAGTCT 
    ACCCCAGCAA GCTACCATGC AGACATCAAC CTGCTTTACT GGAGCGATGA GGAGGTGGTC 
    GTGGACTTCA AGGCCGTGCA GGGCCGCTGT ACCGTGGAGT ACGGGGAGGA CCTGCCTGGG 
    GGCCTCCAGG ACTTCTCTGC AGGGGGGCCG GACCGCTTCT ACTTCCTTGA GGCCTATAAT 
    GCGAAGAACA AAAGCTTTGA AGATCCTCCA AACCATGCCC GCAGCCCTGG AAATAAAGGG 
    AAAGGGAAGG GTAAAGGGAA GGGCAGGGCA AAGTCTCAGA CATGTGAGCC GAGTGAGCCC 
    GAGACCGAAA TTAAACTGCC TAAGCTTCGG ACCTTGGATG TGTTTTCCGG CTGCGGGGGC 
    TTGTCAGAAG GCTTCCACCA AGCAGGCATC TCGGAAACAC TGTGGGCCAT TGAGATGTGG 
    GACCCTGCGG CCCAGGCATT TCGGCTCAAC AATCCCGGGT CCACGGTGTT CACGGAGGAC 
    TGCAACGTAC TGCTGAAGCT GGTCATGGCC GGGGAGGCAA CCAACTCCCG GGGTCAGAAG 
    CTGCCTCAGA AGGGAGACGT GGAGATGCTG TGCGGTGGGC CGCCTTGCCA AGGGTTTAGT 
    GGCATGAACC GCTTCAACTC TCGGACCTAC TCCAAGTTCA AGAACTCCCT GGTGGTTTCC 
    TTTCTCAGCT ACTGTGACTA CTACCGGCCC CGCTACTTCC TGCTGGAGAA CGTGCGGAAC 
    TTCGTCTCCT TCAAGCGCTC CATGGTCCTG AAGCTCACTC TCCGCTGCCT GGTCCGCATG 
    GGCTACCAGT GCACCTTCGG CGTGCTGCAG GCTGGTCAGT ACGGCGTGGC CCAGACGCGG 
    AGGCGGGCCA TCATCCTGGC TGCGGCCCCC GGAGAGCAGC TTCCCCTGTT CCCAGAGCCG 
    CTGCACGTGT TCGCGCCGCG GGCCTGCCAG CTGAGCGTCG TAGTGGACGA CAAGAAGTTC 
    GTCAGCAACA TCACCAGGTT AAGCTCAGGC CCGTTCCGGA CCATCACCGT GCGGGACACC 
    ATGTCTGACC TCCCTGAGGT CCGGAATGGA GCTTCGTCCC TTGAGATCTT GTACAACGGG 
    GAGCCTCAGT CCTGGTTCCA GAGGCAGCTC AGGGGGGCAC AGTACCAGCC CATCCTCAGG 
    GACCACATCT GTAAGGACAT GAGTGCGTTG GTGGCGGCCC GCATGCGGCA CATCCCTCTG 
    GCGCCCGGCT CTGACTGGCG CGACCTGCCG AATATCGAGG TGCGGCTCTC CGACGGCACC 
    ATGGCCAGGA AGCTGCGCTA CACGTACCAC GACAAGAAGA ATGGCTGCAG CAGCACCGGG 
    GCCCTCCGCG GAGTCTGCTC CTGCGTGGAA GCGGGCAAAG CCTGTGACTC TGCAGCTAGA 
    CAGTTCAACA CCCTCATCCC CTGGTGCTTG CCCCACACCG GGAACAGGCA CAACCACTGG 
    GCCGGCCTCT ACGGACGGCT GGAGTGGGAC GGCTTCTTCA GCACGACTGT CACCAACCCT 
    GAGCCCATGG GCAAGCAGGG CCGCGTTCTC CACCCCGAGC AGCACCGCGT CGTGAGTGTG 
    CGGGAGTGTG CCCGCTCCCA GGGCTTCCCG GACACCTACC GGCTGTTCGG CAACATCCTC 
    GATAAGCACC GGCAGGTGGG TAACGCTGTG CCACCGCCTC TGGCCAAAGC CATTGGCTTG 
    GAGATCAAGC GCTGTATGTT GGCCAAAGCT CGAGAGAGTG CCTCAGTTAA AACCAAGGAA 
    GAGGAGTCTG CTAAGGACTA G

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

    RefSeq XP_022382495.1
    CDS134..4954
    Translation

    Target ORF information:

    RefSeq Version XM_022526787.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni DNA methyltransferase 1 (LOC111162394), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022526787.1

    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
    ATGGCGGCCT CCAGAGACAG ACGTCGCCGC TTGGGGCCCG GGCGCGGCCG GCTCAGGCTC 
    AAAGATTTGG AAAGAGATAG CCTAACAGAA AAGGAATGTG TGAAGGAGAA ACTGAATCTC 
    TTGCATGAAT TTCTGCAAAC AGAAATAAAA AATCAGTTAT GTGACTTGGA AACCAAATTA 
    CATAAAGAAG AATTATCAGA GGAGGGCTAC CTGGCTAAAG TCAAATCCCT TTTAAATAAA 
    GATTTATCCT TGGAGAACGG AGCTCATGCT TTCAGCCGGG AAGTGAACGG ACGTCTAGAA 
    AACGGGAGCC AGACAAGCGG CGAGGACCGC AGAGTGGGAA TGGCAGAGGA AAAGAAGTCT 
    CCCAAACCCG TTTCCAAACT TCCCACACCC AGACGAAGCA AGGCCGATGG AGAGACCAAG 
    TCTGAAGCTG CTTCTTCTAG CCCCAGGATT ACAAGGCAAA CTACCAGGCA GACCACCATC 
    CTATCTCATT TCTCAAGGGG CCCTGCCAAA CGGAAGCCCG AGGAAGAGCA GGAAAAAGCG 
    AAATCGGATG AGTCTCCTGA GGAAGAAAAA GACCAGGAGG AAAAGAGACG GAGAGTTACA 
    TCTAGAGAAC AAGTTGCTAG ACCGCTCCCT GCAGAAGAAC CGGAAAGAGT AAAACCTGGA 
    ACACACATGG AAGAAGAGGA AGAAAGAGAT GAAAAAGAAG AAAAGCGGCT CAGAAGTCAA 
    GCCAAAGAAC CAACACCTAA ACCGAAGCCT AAGGAGGAGC CAGACAGAGA AGGGAGAGCG 
    GGGGCGCAGG CTGAAATGAA TGAAGGAGAC GAGAGGGATG AAAAGAGACC CAGAAGTCAA 
    CCCAAAGATC TAGCTGCCAA ACGGAGACCT GAAGAGAAAG AACCTGAAAG AGTAAAACCA 
    CAAGTTTCTG AGGAAAAAGA TGAGGATGAA AAGGAAGAGA AGAGACGCAA AACTACATCC 
    AAAGAACCAA TGGAGAAGAA AATGGCCCGA GCCAAAACAG TAGTGTCCTC CAAGACCAAC 
    CCTCTGCGGT GCGTGCAGTG CGGACAGTAC CTGGACGACG CGGATCTGAA GTACGAGCAG 
    CACCCTCCCG ACGCGGTGGA CGAGCCACAG CTGCTGACCA GCGAGAAGCT CTCCATCTTC 
    GATGCCAACG AGTCTGGCTT TGAGAGCTAC GAGGCTCTTC CCCAGCACAA ACTGACCTGC 
    TTCAGCGTGT ACTGCAAGCG CGGTCACCTG TGCCCGATCG ACACCGGCCT CATAGAGAAG 
    AACGTTGAAC TCTTCTTCTC CGGTTACGCG AAGCCAATAT ATGATGATGA CCCATCTCTC 
    GAAGGTGGTG TTAATGGCAA AAATCTTGGC CCCATAAACG AATGGTGGAT CACTGGCTTT 
    GACGGGGGCG AAAAGGCGCT CATTGGCTTC AGCACTTCTT TTGCCGAGTA CATTCTGATG 
    GACCCCAACC CCGAGTACGC GCCGCTGTTC AGTGTGATGC AGGAGAAGAT CTACATAAGT 
    AAGATTGTGG TCGAGTTCCT GCAGGGCAAC CCAGACTCCA CCTATGAAGA CTTGATCAAC 
    AAAATTGAGA CCACTGTTCC TCCTTCTGTG CTCAACCTGA ATCGATTCAC AGAGGACTCT 
    CTCCTTCGAC ACGCCCAGTT TGTGGTAGAA CAAGTAGAGA GTTACGATGA GGCTGGGGAC 
    AGTGACGAGC AGCCCATCTT TCTGACCCCT TGCATGAGAG ACCTGATCAA GTTGGCTGGG 
    GTCACCCTTG GGAAAAGGCG AGCTGAAAGA CGTCGGACCA TTGGGCATTC TGCCAAAGAG 
    AAGGACAAAG GTCCCACTAA AGCCACCACG ACCAAGCTGG TCTACCAGAT CTTCGACACT 
    TTCTTCGCAG AGCAAATCGA AAAGGACGAC AAAGAGGACA AGGAGAATGC CTTCAAGCGC 
    CGGCGGTGCG GCGTCTGTGA GGTTTGTCAG CAGCCCGAAT GTGGACAGTG TAAAGCCTGT 
    AAAGACATGG TTAAGTTCGG CGGTAGCGGG CGGAGCAAAC AGGCTTGCCA GGAGAGGAGG 
    TGCCCCAACA TGGCCATGAA GGAGGCAGAT GACGATGAAG AGGTCGATGA TAATATTCCA 
    GAGATGCCAT CACCCAAAAA AATGCATCAG GGGAAGAAAA AGAAACAAAA CAAGAACCGG 
    ATCTCTTGGG TTGGAGACGC TGTCAAGACT GATGGGAAGA AGAGTTACTT TAAGAAGGTG 
    TGCATCGACT CAGAAACCCT GGAAGTGGGG GACTGTGTCT CTGTTATTCC AGATGACTCC 
    TCAAAACCGC TGTATTTGGC AAGGGTCACT GCGCTGTGGG AGGACAGCAG CAACGGGCAG 
    ATGTTCCATG CCCACTGGTT CTGCGCCGGG ACAGACACGG TCCTCGGAGC CACGTCGGAC 
    CCCTTGGAGC TGTTCCTGGT GGACGAATGT GAGGACATGC AGCTTTCGTA TATCCACAGC 
    AAGGTGAAGG TCGTCTATAA AGCTCCATCG GAGAACTGGG CCTTGGAGGG AGGCTTGGAT 
    CCCGAGGCCA TGATAGCGGA GGATGACGGA AAGACCTACT TCTACCAGCT GTGGTATGAT 
    CAAGACTACG CCAGATTCGA GTCCCCTCCG AAAACCCAGC CGACGGAGGA GAACAAGTAC 
    AAATTCTGTG TAAGCTGTGC CCGTCTGGCT GAAATGAGGC AGAAAGAAAT TCCCAGGGTC 
    CTAGAACAGC TTGAGGACCT GGACACCCGG GTTCTCTACA GCTCGGCCAC CAAGAACGGC 
    ATCCAGTATC GAGTGGGTGA TGGCGTGTAC CTCCTCCCTG AGGCCTTCAC GTTCAACATC 
    AAGCTGTCCA GTCCCGTCAA ACGCCCGCGG AAGGAGCCTG TGGACGAAGA TCTGTATCCA 
    GAACACTACC GGAAGTACTC GGATTACATC AAAGGCAGTA ACCTGGATGC TCCTGAGCCA 
    TATCGAATTG GCCGAATAAA AGAAATCTTC TGTATCAAGA AGAGCAACGG CAGGCCCAAC 
    GAGACTGACA TCAAGATCAG AATCAACAAA TTTTATAGGC CAGAGAACAC CCACAAGTCT 
    ACCCCAGCAA GCTACCATGC AGACATCAAC CTGCTTTACT GGAGCGATGA GGAGGTGGTC 
    GTGGACTTCA AGGCCGTGCA GGGCCGCTGT ACCGTGGAGT ACGGGGAGGA CCTGCCTGGG 
    GGCCTCCAGG ACTTCTCTGC AGGGGGGCCG GACCGCTTCT ACTTCCTTGA GGCCTATAAT 
    GCGAAGAACA AAAGCTTTGA AGATCCTCCA AACCATGCCC GCAGCCCTGG AAATAAAGGG 
    AAAGGGAAGG GTAAAGGGAA GGGCAGGGCA AAGTCTCAGA CATGTGAGCC GAGTGAGCCC 
    GAGACCGAAA TTAAACTGCC TAAGCTTCGG ACCTTGGATG TGTTTTCCGG CTGCGGGGGC 
    TTGTCAGAAG GCTTCCACCA AGCAGGCATC TCGGAAACAC TGTGGGCCAT TGAGATGTGG 
    GACCCTGCGG CCCAGGCATT TCGGCTCAAC AATCCCGGGT CCACGGTGTT CACGGAGGAC 
    TGCAACGTAC TGCTGAAGCT GGTCATGGCC GGGGAGGCAA CCAACTCCCG GGGTCAGAAG 
    CTGCCTCAGA AGGGAGACGT GGAGATGCTG TGCGGTGGGC CGCCTTGCCA AGGGTTTAGT 
    GGCATGAACC GCTTCAACTC TCGGACCTAC TCCAAGTTCA AGAACTCCCT GGTGGTTTCC 
    TTTCTCAGCT ACTGTGACTA CTACCGGCCC CGCTACTTCC TGCTGGAGAA CGTGCGGAAC 
    TTCGTCTCCT TCAAGCGCTC CATGGTCCTG AAGCTCACTC TCCGCTGCCT GGTCCGCATG 
    GGCTACCAGT GCACCTTCGG CGTGCTGCAG GCTGGTCAGT ACGGCGTGGC CCAGACGCGG 
    AGGCGGGCCA TCATCCTGGC TGCGGCCCCC GGAGAGCAGC TTCCCCTGTT CCCAGAGCCG 
    CTGCACGTGT TCGCGCCGCG GGCCTGCCAG CTGAGCGTCG TAGTGGACGA CAAGAAGTTC 
    GTCAGCAACA TCACCAGGTT AAGCTCAGGC CCGTTCCGGA CCATCACCGT GCGGGACACC 
    ATGTCTGACC TCCCTGAGGT CCGGAATGGA GCTTCGTCCC TTGAGATCTT GTACAACGGG 
    GAGCCTCAGT CCTGGTTCCA GAGGCAGCTC AGGGGGGCAC AGTACCAGCC CATCCTCAGG 
    GACCACATCT GTAAGGACAT GAGTGCGTTG GTGGCGGCCC GCATGCGGCA CATCCCTCTG 
    GCGCCCGGCT CTGACTGGCG CGACCTGCCG AATATCGAGG TGCGGCTCTC CGACGGCACC 
    ATGGCCAGGA AGCTGCGCTA CACGTACCAC GACAAGAAGA ATGGCTGCAG CAGCACCGGG 
    GCCCTCCGCG GAGTCTGCTC CTGCGTGGAA GCGGGCAAAG CCTGTGACTC TGCAGCTAGA 
    CAGTTCAACA CCCTCATCCC CTGGTGCTTG CCCCACACCG GGAACAGGCA CAACCACTGG 
    GCCGGCCTCT ACGGACGGCT GGAGTGGGAC GGCTTCTTCA GCACGACTGT CACCAACCCT 
    GAGCCCATGG GCAAGCAGGG CCGCGTTCTC CACCCCGAGC AGCACCGCGT CGTGAGTGTG 
    CGGGAGTGTG CCCGCTCCCA GGGCTTCCCG GACACCTACC GGCTGTTCGG CAACATCCTC 
    GATAAGCACC GGCAGGTGGG TAACGCTGTG CCACCGCCTC TGGCCAAAGC CATTGGCTTG 
    GAGATCAAGC GCTGTATGTT GGCCAAAGCT CGAGAGAGTG CCTCAGTTAA AACCAAGGAA 
    GAGGAGTCTG CTAAGGACTA G

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

見積依頼

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03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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