ORF » Species Summary » Alligator mississippiensis » YTHDC2 cDNA ORF clone

YTHDC2 cDNA ORF clone, Alligator mississippiensis(American alligator)

The following YTHDC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the YTHDC2 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
OAl46569 XM_019484495.1
Latest version!		 Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAl46570 XM_019484498.1
Latest version!		 Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OAl46568 XM_006258928.3
Latest version!		 Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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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)
    YTHDC2 ( XM_019484495.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019340040.1 Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAl46569
    Clone ID Related Accession (Same CDS sequence) XM_019484495.1
    Accession Version XM_019484495.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4104bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product probable ATP-dependent RNA helicase YTHDC2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707593.1) 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 :: Alligator mississippiensis Annotation Release 102 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
    ATGGAATTTC CCTCTTCTTT GACTAGTACG GAACGAGCTT TTATTCACCG ACTGAGTCAG 
    TCCCTTGGCC TCATCTCCAA AAGCAAAGGG AAAGGAGCAA ACAGATACCT AACTGTAAGG 
    AAAAAAGATG GTTCAGAATT GGCACATACA GTAATGACTT GCAGTTTGAT TCCCAATACA 
    AAACATGCTA TTAGGAGTCT AATTCAGAGA TTTCCTGTCA CCAATAAAGA ACGCACTGAA 
    CTTTTGCCAA AAACAGAACG AGGAAATGTG TTTGCTGTCG AAGCTGAGAA TCGAGAAATG 
    AGCAAGACAA GTGGGAGACT TAACAATGGC ATCCCTCAGA TTCCAGTGAA AAGGGGAGAA 
    TCTGAATTTG ATTCCTTCAG GCAATCTCTA CCAGTTTTTG AGAAACAGGA AGAAATTGTC 
    AGAATTATTA AAGAAAATAA AGTTATTTTG ATTGTGGGAG AAACTGGATC AGGAAAAACG 
    ACTCAGATTC CTCAGTTCCT TCTTGATGAT TGTTATAAAA ATGGAATTCC ATGTCGCATA 
    TTTTGCACTC AGCCAAGACG TTTGGCAGCA ATTGCTGTAG CTGAAAGGGT TGCTGCAGAA 
    AGAAGAGAAA AGATTGGCCA GACAATTGGT TATCAGATCA GATTAGAAAG CAGGGTTTCT 
    CCGAAGACAC TATTAACATT TTGCACTAAT GGTGTTTTAC TTCGCACACT AATGGCAGGA 
    GATAGCACGC TATCAACAGT GACACATGTT ATTGTGGATG AATTACATGA GAGGGATAGA 
    TTTAGTGATT TCTTGTTAAT AAAACTGAGA GACATATTGC AAAAACAAGC AAATTTGAAA 
    CTGATTCTAT CTAGTGCTGC CCTAGATGTG AATCTGTTTA TCAGATATTT TGGAAGTTGC 
    CCGGTAATTC ACATACAAGG AAGACCATTT GAAGTTAAGG AGATGTTTTT AGAAGACATT 
    TTACGAAGTA CTGGATATAC AAATAAAGAA ATGATGAAAT ACAAAAAAGA AAAACAACGA 
    GAAGAGAAAC AGCAAACAAC CCTCACAGAA TGGTATTCTG CTCAAGACAG TAGTAGTAAA 
    CCAGAGGCTC AAAGACAAAG ATCTGTCCCG AGTGTAGCTG AAGAATATGA CCTGTTGGAT 
    GATGGTGGTG ACACAGTATT CAGTCAGCTG ACTGAAAAAG ATGTGAACTG TCTTGAACCT 
    TGGTTAATAA AAGAAATGGA TTCCTGTCTC TCTGACATAT GGTTGCATAA AGATGTTGAT 
    GCCTTTGCTC AGGTGTTTCA CCTTATTTTA ACTGAAAATG TCAGTGTTGA TTATAGGCAC 
    AGTGAAACCA GTGCAACTGC GCTAATGGTT GCTTCAGGGA GAGGCTTCTT GAGTCAAGTA 
    GAGCAGCTAG TCAGTATGGG AGCAAATGTG CACTGCAAAT CATCCAATGG CTGGATGGCT 
    TTGGATTGGG CTAAGCACTT TGGACAGACT GAGGTGGTTG ACCTTCTGGA ATCCTATAGT 
    GCTTCCTTGG AGTTTGGAAA TCTGGATGAA AGTTCTCTGG TCCAGGCAAA TGATGGTGAC 
    CTTAGTGCAG AAGACAGAGA GCTACTGAAA GCATACCATC ACAGTTTTGA TGATGAGAAA 
    GTGGATCTGG ACTTGATTAT GCACCTACTT TACAACATCT GTCATAGTTG TGATGCTGGA 
    GCAATTTTAA TTTTTCTACC TGGCTACGAT GAAATAGTTA GCTTGAGGGA TCGCATTCTG 
    TTTGATGACA AGAGATTTGC TGATAATGTT CACAGGTACC AGGTTTTTAT GCTGCATTCA 
    AATATGCAAA CATCAGATCA GAAGAAGGTG CTGAAAACTC CACCCCCAGG CATCCGCAAA 
    ATAATTCTTT CAACTAACAT TGCAGAAACC AGCATTACAG TCAATGATGT TGTGTTTGTT 
    ATTGACTCTG GCAAGATGAA AGAGAAATCC TTTGATGCAT TGAACTGTGT TACAATGTTA 
    AAAATGGTAT GGATTTCAAA AGCTAGTGCC CTCCAGCGAA AAGGCAGGGC TGGGCGCTGC 
    CGGCCTGGAA TCTGTTTCCG ACTCTTCAGC AGGCTCCGAT TTCAGAATAT GTTGGAATTC 
    CAGACTCCAG AACTTCTAAG AATGCCATTG CAGGAGCTTT GTTTGCACAC AAAACTGTTG 
    GCTCCAATTA ACTGTCCTAT TGCTGATTTT CTGATGAAAG CCCCAGATCC TCCACCAGGC 
    TTAATTGTCA GAAATGCTGT TCAAATGCTT AAGACAATAG ATGCCATGGA TACCTGGGAA 
    GATCTCACGG AACTTGGTTA TCATCTTGCT GACCTCCCAG TAGAGCCACA CCTTGGTAAA 
    ATGGTGTTGT GTGCTGTTGT TTTGAAGTGC CTGGATCCTA TTCTTACCAT TGCTTGCACT 
    CTTGCATATC GAGACCCTTT TGTCCTACCT ACACAGGCCT CACAAAAACG TGCAGCTATG 
    CTGTGTAGAA AACGTTTTAC TGCGGGAACA TTTAGTGACC ATATGGCGCT TCTCAGGGCT 
    TTTCAGGCAT GGCAAAAGGC ACGGAGTGAT GGGTGGGAGA GAGCCTTCTG TGAGAAGAAC 
    TTTCTTTCCC AGGCTACAAT GGAAATAATC ATAGGGATGA GGACACAGTT ACTTGGTCAG 
    CTCAGAGCTT CAGGTTTTGT GAGGGCTAGA GGTGGAGGTG ATATTCGGGA TGTTAACACC 
    AACTCTGAAA ACTGGGCTGT AGTTAAAGGT GCTCTAGTAG CTGGGATGTA TCCAAACCTT 
    GTCCATGTGG ACAGAGAGAA CCTTGTATTA ACTGGACCAA AAGAGAAGAA AGTGCGATTT 
    CACCCAACCT CTGTTCTTAG TCAGCCTCAG TATAAAAAGA TTCCTCCAGC AAATGGCCAA 
    GCTGCAGCTA TTCAGGCGCT CCCCACAGAT TGGCTAATAT ATGATGAAAT GACTAGAGCA 
    CACAGAATAG CAAACATCCG ATGCTGTTCT GCTGTGACAC CTGTTACAGT GTGCCTCTTT 
    TGTGGACCAG CAAGATTACC AAGTAATGCT TTACAGGAGC CCTCATCTTT CAGAGTGGAT 
    GGTGCACCTA ATGATAGTAG TGATAGTGAG ATGGAAGACA AAACAACTGC TAATCTGGCT 
    GTATTGAAGC TAGATGAATG GCTGCATTTC AAACTAGATC CTGAGGCTTC CAGTCTGCTG 
    TTACAACTCA GACAGAAATG GCACAGCTTA TTTCTTCGCC GCATGAGAGC CCCTTCTAAA 
    CCTTGGTCTC AAGTTGATGA AGCAACTATA AGAGCAATCA TAGCTGTTTT AAGTACTGAA 
    GAGCAGTCTG CAGGTTTACA GCAGCCTTCA GGAATTGGAC AAAGACCAAG ACCAATGTCT 
    TCTGAAGAGC TTCCCTTAGC ATCTTCATGG AGATCAAATA CCAGCAGAAA AAGCTCAGCA 
    GAAACAGAAT TCTCTGATGA CTCTTCTAAT GCTGAAAAAG TCTTAATGAA ATCTATATCG 
    CCAGCATTTC ACCAGCCACA GAAATACAAA GAAAGAGGTA TCTTACATTC CAAACGAAGT 
    TCAGAAGACA GGTCAGATCA GTCATCTGTG AAATCCACAG ACAGTAGCAG TTATCCCAGC 
    CCATGTGCCA GTCCTTCTCC TCCATTATCT GGAAAGGGCT CCAAGTCTCC TTCACCAAGA 
    CCAAATATGC CAGTTCGGTA CTTCATAATG AAGAGCAGCA ATCTGAGAAA CCTTGATATT 
    TCTCAGCAAA AGGGTATATG GTCTACAACC CCAAGCAATG AGCGGAAATT AAATCGAGCT 
    TTCTGGGAGA GCAGTATAGT TTACTTGGTA TTTTCAGTTC AAGGATCTGG ACATTTTCAG 
    GGTTTTGCTA GAATGTCTTC AGAGATAGGA CGTGAGAAAA GTCAGGAGTG GGGCTCCACA 
    GGCTTAGGAG GAGTGTTTAA GGTGGAGTGG ATCCGGAAAG AAAGTCTTCC CTTTCAATTT 
    GCGCATCACT TACTCAACCC TTGGAACGAC AATAAGAAAG TACAAATAAG CAGAGATGGC 
    CAGGAACTGG AACCACAGGT TGGAGAACAG TTGCTACAGC TTTGGGATCA TATTCCTGTG 
    GTTGGAAAAA ACACAACTGA TTGA

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

    RefSeq XP_019340040.1
    CDS69..4172
    Translation

    Target ORF information:

    RefSeq Version XM_019484495.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019484495.1

    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
    ATGGAATTTC CCTCTTCTTT GACTAGTACG GAACGAGCTT TTATTCACCG ACTGAGTCAG 
    TCCCTTGGCC TCATCTCCAA AAGCAAAGGG AAAGGAGCAA ACAGATACCT AACTGTAAGG 
    AAAAAAGATG GTTCAGAATT GGCACATACA GTAATGACTT GCAGTTTGAT TCCCAATACA 
    AAACATGCTA TTAGGAGTCT AATTCAGAGA TTTCCTGTCA CCAATAAAGA ACGCACTGAA 
    CTTTTGCCAA AAACAGAACG AGGAAATGTG TTTGCTGTCG AAGCTGAGAA TCGAGAAATG 
    AGCAAGACAA GTGGGAGACT TAACAATGGC ATCCCTCAGA TTCCAGTGAA AAGGGGAGAA 
    TCTGAATTTG ATTCCTTCAG GCAATCTCTA CCAGTTTTTG AGAAACAGGA AGAAATTGTC 
    AGAATTATTA AAGAAAATAA AGTTATTTTG ATTGTGGGAG AAACTGGATC AGGAAAAACG 
    ACTCAGATTC CTCAGTTCCT TCTTGATGAT TGTTATAAAA ATGGAATTCC ATGTCGCATA 
    TTTTGCACTC AGCCAAGACG TTTGGCAGCA ATTGCTGTAG CTGAAAGGGT TGCTGCAGAA 
    AGAAGAGAAA AGATTGGCCA GACAATTGGT TATCAGATCA GATTAGAAAG CAGGGTTTCT 
    CCGAAGACAC TATTAACATT TTGCACTAAT GGTGTTTTAC TTCGCACACT AATGGCAGGA 
    GATAGCACGC TATCAACAGT GACACATGTT ATTGTGGATG AATTACATGA GAGGGATAGA 
    TTTAGTGATT TCTTGTTAAT AAAACTGAGA GACATATTGC AAAAACAAGC AAATTTGAAA 
    CTGATTCTAT CTAGTGCTGC CCTAGATGTG AATCTGTTTA TCAGATATTT TGGAAGTTGC 
    CCGGTAATTC ACATACAAGG AAGACCATTT GAAGTTAAGG AGATGTTTTT AGAAGACATT 
    TTACGAAGTA CTGGATATAC AAATAAAGAA ATGATGAAAT ACAAAAAAGA AAAACAACGA 
    GAAGAGAAAC AGCAAACAAC CCTCACAGAA TGGTATTCTG CTCAAGACAG TAGTAGTAAA 
    CCAGAGGCTC AAAGACAAAG ATCTGTCCCG AGTGTAGCTG AAGAATATGA CCTGTTGGAT 
    GATGGTGGTG ACACAGTATT CAGTCAGCTG ACTGAAAAAG ATGTGAACTG TCTTGAACCT 
    TGGTTAATAA AAGAAATGGA TTCCTGTCTC TCTGACATAT GGTTGCATAA AGATGTTGAT 
    GCCTTTGCTC AGGTGTTTCA CCTTATTTTA ACTGAAAATG TCAGTGTTGA TTATAGGCAC 
    AGTGAAACCA GTGCAACTGC GCTAATGGTT GCTTCAGGGA GAGGCTTCTT GAGTCAAGTA 
    GAGCAGCTAG TCAGTATGGG AGCAAATGTG CACTGCAAAT CATCCAATGG CTGGATGGCT 
    TTGGATTGGG CTAAGCACTT TGGACAGACT GAGGTGGTTG ACCTTCTGGA ATCCTATAGT 
    GCTTCCTTGG AGTTTGGAAA TCTGGATGAA AGTTCTCTGG TCCAGGCAAA TGATGGTGAC 
    CTTAGTGCAG AAGACAGAGA GCTACTGAAA GCATACCATC ACAGTTTTGA TGATGAGAAA 
    GTGGATCTGG ACTTGATTAT GCACCTACTT TACAACATCT GTCATAGTTG TGATGCTGGA 
    GCAATTTTAA TTTTTCTACC TGGCTACGAT GAAATAGTTA GCTTGAGGGA TCGCATTCTG 
    TTTGATGACA AGAGATTTGC TGATAATGTT CACAGGTACC AGGTTTTTAT GCTGCATTCA 
    AATATGCAAA CATCAGATCA GAAGAAGGTG CTGAAAACTC CACCCCCAGG CATCCGCAAA 
    ATAATTCTTT CAACTAACAT TGCAGAAACC AGCATTACAG TCAATGATGT TGTGTTTGTT 
    ATTGACTCTG GCAAGATGAA AGAGAAATCC TTTGATGCAT TGAACTGTGT TACAATGTTA 
    AAAATGGTAT GGATTTCAAA AGCTAGTGCC CTCCAGCGAA AAGGCAGGGC TGGGCGCTGC 
    CGGCCTGGAA TCTGTTTCCG ACTCTTCAGC AGGCTCCGAT TTCAGAATAT GTTGGAATTC 
    CAGACTCCAG AACTTCTAAG AATGCCATTG CAGGAGCTTT GTTTGCACAC AAAACTGTTG 
    GCTCCAATTA ACTGTCCTAT TGCTGATTTT CTGATGAAAG CCCCAGATCC TCCACCAGGC 
    TTAATTGTCA GAAATGCTGT TCAAATGCTT AAGACAATAG ATGCCATGGA TACCTGGGAA 
    GATCTCACGG AACTTGGTTA TCATCTTGCT GACCTCCCAG TAGAGCCACA CCTTGGTAAA 
    ATGGTGTTGT GTGCTGTTGT TTTGAAGTGC CTGGATCCTA TTCTTACCAT TGCTTGCACT 
    CTTGCATATC GAGACCCTTT TGTCCTACCT ACACAGGCCT CACAAAAACG TGCAGCTATG 
    CTGTGTAGAA AACGTTTTAC TGCGGGAACA TTTAGTGACC ATATGGCGCT TCTCAGGGCT 
    TTTCAGGCAT GGCAAAAGGC ACGGAGTGAT GGGTGGGAGA GAGCCTTCTG TGAGAAGAAC 
    TTTCTTTCCC AGGCTACAAT GGAAATAATC ATAGGGATGA GGACACAGTT ACTTGGTCAG 
    CTCAGAGCTT CAGGTTTTGT GAGGGCTAGA GGTGGAGGTG ATATTCGGGA TGTTAACACC 
    AACTCTGAAA ACTGGGCTGT AGTTAAAGGT GCTCTAGTAG CTGGGATGTA TCCAAACCTT 
    GTCCATGTGG ACAGAGAGAA CCTTGTATTA ACTGGACCAA AAGAGAAGAA AGTGCGATTT 
    CACCCAACCT CTGTTCTTAG TCAGCCTCAG TATAAAAAGA TTCCTCCAGC AAATGGCCAA 
    GCTGCAGCTA TTCAGGCGCT CCCCACAGAT TGGCTAATAT ATGATGAAAT GACTAGAGCA 
    CACAGAATAG CAAACATCCG ATGCTGTTCT GCTGTGACAC CTGTTACAGT GTGCCTCTTT 
    TGTGGACCAG CAAGATTACC AAGTAATGCT TTACAGGAGC CCTCATCTTT CAGAGTGGAT 
    GGTGCACCTA ATGATAGTAG TGATAGTGAG ATGGAAGACA AAACAACTGC TAATCTGGCT 
    GTATTGAAGC TAGATGAATG GCTGCATTTC AAACTAGATC CTGAGGCTTC CAGTCTGCTG 
    TTACAACTCA GACAGAAATG GCACAGCTTA TTTCTTCGCC GCATGAGAGC CCCTTCTAAA 
    CCTTGGTCTC AAGTTGATGA AGCAACTATA AGAGCAATCA TAGCTGTTTT AAGTACTGAA 
    GAGCAGTCTG CAGGTTTACA GCAGCCTTCA GGAATTGGAC AAAGACCAAG ACCAATGTCT 
    TCTGAAGAGC TTCCCTTAGC ATCTTCATGG AGATCAAATA CCAGCAGAAA AAGCTCAGCA 
    GAAACAGAAT TCTCTGATGA CTCTTCTAAT GCTGAAAAAG TCTTAATGAA ATCTATATCG 
    CCAGCATTTC ACCAGCCACA GAAATACAAA GAAAGAGGTA TCTTACATTC CAAACGAAGT 
    TCAGAAGACA GGTCAGATCA GTCATCTGTG AAATCCACAG ACAGTAGCAG TTATCCCAGC 
    CCATGTGCCA GTCCTTCTCC TCCATTATCT GGAAAGGGCT CCAAGTCTCC TTCACCAAGA 
    CCAAATATGC CAGTTCGGTA CTTCATAATG AAGAGCAGCA ATCTGAGAAA CCTTGATATT 
    TCTCAGCAAA AGGGTATATG GTCTACAACC CCAAGCAATG AGCGGAAATT AAATCGAGCT 
    TTCTGGGAGA GCAGTATAGT TTACTTGGTA TTTTCAGTTC AAGGATCTGG ACATTTTCAG 
    GGTTTTGCTA GAATGTCTTC AGAGATAGGA CGTGAGAAAA GTCAGGAGTG GGGCTCCACA 
    GGCTTAGGAG GAGTGTTTAA GGTGGAGTGG ATCCGGAAAG AAAGTCTTCC CTTTCAATTT 
    GCGCATCACT TACTCAACCC TTGGAACGAC AATAAGAAAG TACAAATAAG CAGAGATGGC 
    CAGGAACTGG AACCACAGGT TGGAGAACAG TTGCTACAGC TTTGGGATCA TATTCCTGTG 
    GTTGGAAAAA ACACAACTGA TTGA

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

    YTHDC2 ( XM_019484498.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019340043.1 Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAl46570
    Clone ID Related Accession (Same CDS sequence) XM_019484498.1
    Accession Version XM_019484498.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3837bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product probable ATP-dependent RNA helicase YTHDC2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707593.1) 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 :: Alligator mississippiensis Annotation Release 102 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
    ATGTGTTTGC TGTCGAAGCT GAATCGAGAA ATGAGCAAGA CAAGTGGGAG ACTTAACAAT 
    GGCATCCCTC AGATTCCAGT GAAAAGGGGA GAATCTGAAT TTGATTCCTT CAGGCAATCT 
    CTACCAGTTT TTGAGAAACA GGAAGAAATT GTCAGAATTA TTAAAGAAAA TAAAGTTATT 
    TTGATTGTGG GAGAAACTGG ATCAGGAAAA ACGACTCAGA TTCCTCAGTT CCTTCTTGAT 
    GATTGTTATA AAAATGGAAT TCCATGTCGC ATATTTTGCA CTCAGCCAAG ACGTTTGGCA 
    GCAATTGCTG TAGCTGAAAG GGTTGCTGCA GAAAGAAGAG AAAAGATTGG CCAGACAATT 
    GGTTATCAGA TCAGATTAGA AAGCAGGGTT TCTCCGAAGA CACTATTAAC ATTTTGCACT 
    AATGGTGTTT TACTTCGCAC ACTAATGGCA GGAGATAGCA CGCTATCAAC AGTGACACAT 
    GTTATTGTGG ATGAATTACA TGAGAGGGAT AGATTTAGTG ATTTCTTGTT AATAAAACTG 
    AGAGACATAT TGCAAAAACA AGCAAATTTG AAACTGATTC TATCTAGTGC TGCCCTAGAT 
    GTGAATCTGT TTATCAGATA TTTTGGAAGT TGCCCGGTAA TTCACATACA AGGAAGACCA 
    TTTGAAGTTA AGGAGATGTT TTTAGAAGAC ATTTTACGAA GTACTGGATA TACAAATAAA 
    GAAATGATGA AATACAAAAA AGAAAAACAA CGAGAAGAGA AACAGCAAAC AACCCTCACA 
    GAATGGTATT CTGCTCAAGA CAGTAGTAGT AAACCAGAGG CTCAAAGACA AAGATCTGTC 
    CCGAGTGTAG CTGAAGAATA TGACCTGTTG GATGATGGTG GTGACACAGT ATTCAGTCAG 
    CTGACTGAAA AAGATGTGAA CTGTCTTGAA CCTTGGTTAA TAAAAGAAAT GGATTCCTGT 
    CTCTCTGACA TATGGTTGCA TAAAGATGTT GATGCCTTTG CTCAGGTGTT TCACCTTATT 
    TTAACTGAAA ATGTCAGTGT TGATTATAGG CACAGTGAAA CCAGTGCAAC TGCGCTAATG 
    GTTGCTTCAG GGAGAGGCTT CTTGAGTCAA GTAGAGCAGC TAGTCAGTAT GGGAGCAAAT 
    GTGCACTGCA AATCATCCAA TGGCTGGATG GCTTTGGATT GGGCTAAGCA CTTTGGACAG 
    ACTGAGGTGG TTGACCTTCT GGAATCCTAT AGTGCTTCCT TGGAGTTTGG AAATCTGGAT 
    GAAAGTTCTC TGGTCCAGGC AAATGATGGT GACCTTAGTG CAGAAGACAG AGAGCTACTG 
    AAAGCATACC ATCACAGTTT TGATGATGAG AAAGTGGATC TGGACTTGAT TATGCACCTA 
    CTTTACAACA TCTGTCATAG TTGTGATGCT GGAGCAATTT TAATTTTTCT ACCTGGCTAC 
    GATGAAATAG TTAGCTTGAG GGATCGCATT CTGTTTGATG ACAAGAGATT TGCTGATAAT 
    GTTCACAGGT ACCAGGTTTT TATGCTGCAT TCAAATATGC AAACATCAGA TCAGAAGAAG 
    GTGCTGAAAA CTCCACCCCC AGGCATCCGC AAAATAATTC TTTCAACTAA CATTGCAGAA 
    ACCAGCATTA CAGTCAATGA TGTTGTGTTT GTTATTGACT CTGGCAAGAT GAAAGAGAAA 
    TCCTTTGATG CATTGAACTG TGTTACAATG TTAAAAATGG TATGGATTTC AAAAGCTAGT 
    GCCCTCCAGC GAAAAGGCAG GGCTGGGCGC TGCCGGCCTG GAATCTGTTT CCGACTCTTC 
    AGCAGGCTCC GATTTCAGAA TATGTTGGAA TTCCAGACTC CAGAACTTCT AAGAATGCCA 
    TTGCAGGAGC TTTGTTTGCA CACAAAACTG TTGGCTCCAA TTAACTGTCC TATTGCTGAT 
    TTTCTGATGA AAGCCCCAGA TCCTCCACCA GGCTTAATTG TCAGAAATGC TGTTCAAATG 
    CTTAAGACAA TAGATGCCAT GGATACCTGG GAAGATCTCA CGGAACTTGG TTATCATCTT 
    GCTGACCTCC CAGTAGAGCC ACACCTTGGT AAAATGGTGT TGTGTGCTGT TGTTTTGAAG 
    TGCCTGGATC CTATTCTTAC CATTGCTTGC ACTCTTGCAT ATCGAGACCC TTTTGTCCTA 
    CCTACACAGG CCTCACAAAA ACGTGCAGCT ATGCTGTGTA GAAAACGTTT TACTGCGGGA 
    ACATTTAGTG ACCATATGGC GCTTCTCAGG GCTTTTCAGG CATGGCAAAA GGCACGGAGT 
    GATGGGTGGG AGAGAGCCTT CTGTGAGAAG AACTTTCTTT CCCAGGCTAC AATGGAAATA 
    ATCATAGGGA TGAGGACACA GTTACTTGGT CAGCTCAGAG CTTCAGGTTT TGTGAGGGCT 
    AGAGGTGGAG GTGATATTCG GGATGTTAAC ACCAACTCTG AAAACTGGGC TGTAGTTAAA 
    GGTGCTCTAG TAGCTGGGAT GTATCCAAAC CTTGTCCATG TGGACAGAGA GAACCTTGTA 
    TTAACTGGAC CAAAAGAGAA GAAAGTGCGA TTTCACCCAA CCTCTGTTCT TAGTCAGCCT 
    CAGTATAAAA AGATTCCTCC AGCAAATGGC CAAGCTGCAG CTATTCAGGC GCTCCCCACA 
    GATTGGCTAA TATATGATGA AATGACTAGA GCACACAGAA TAGCAAACAT CCGATGCTGT 
    TCTGCTGTGA CACCTGTTAC AGTGTGCCTC TTTTGTGGAC CAGCAAGATT ACCAAGTAAT 
    GCTTTACAGG AGCCCTCATC TTTCAGAGTG GATGGTGCAC CTAATGATAG TAGTGATAGT 
    GAGATGGAAG ACAAAACAAC TGCTAATCTG GCTGTATTGA AGCTAGATGA ATGGCTGCAT 
    TTCAAACTAG ATCCTGAGGC TTCCAGTCTG CTGTTACAAC TCAGACAGAA ATGGCACAGC 
    TTATTTCTTC GCCGCATGAG AGCCCCTTCT AAACCTTGGT CTCAAGTTGA TGAAGCAACT 
    ATAAGAGCAA TCATAGCTGT TTTAAGTACT GAAGAGCAGT CTGCAGGTTT ACAGCAGCCT 
    TCAGGAATTG GACAAAGACC AAGACCAATG TCTTCTGAAG AGCTTCCCTT AGCATCTTCA 
    TGGAGATCAA ATACCAGCAG AAAAAGCTCA GCAGAAACAG AATTCTCTGA TGACTCTTCT 
    AATGCTGAAA AAGTCTTAAT GAAATCTATA TCGCCAGCAT TTCACCAGCC ACAGAAATAC 
    AAAGAAAGAG GTATCTTACA TTCCAAACGA AGTTCAGAAG ACAGGTCAGA TCAGTCATCT 
    GTGAAATCCA CAGACAGTAG CAGTTATCCC AGCCCATGTG CCAGTCCTTC TCCTCCATTA 
    TCTGGAAAGG GCTCCAAGTC TCCTTCACCA AGACCAAATA TGCCAGTTCG GTACTTCATA 
    ATGAAGAGCA GCAATCTGAG AAACCTTGAT ATTTCTCAGC AAAAGGGTAT ATGGTCTACA 
    ACCCCAAGCA ATGAGCGGAA ATTAAATCGA GCTTTCTGGG AGAGCAGTAT AGTTTACTTG 
    GTATTTTCAG TTCAAGGATC TGGACATTTT CAGGGTTTTG CTAGAATGTC TTCAGAGATA 
    GGACGTGAGA AAAGTCAGGA GTGGGGCTCC ACAGGCTTAG GAGGAGTGTT TAAGGTGGAG 
    TGGATCCGGA AAGAAAGTCT TCCCTTTCAA TTTGCGCATC ACTTACTCAA CCCTTGGAAC 
    GACAATAAGA AAGTACAAAT AAGCAGAGAT GGCCAGGAAC TGGAACCACA GGTTGGAGAA 
    CAGTTGCTAC AGCTTTGGGA TCATATTCCT GTGGTTGGAA AAAACACAAC TGATTGA

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

    RefSeq XP_019340043.1
    CDS89..3925
    Translation

    Target ORF information:

    RefSeq Version XM_019484498.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019484498.1

    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
    ATGTGTTTGC TGTCGAAGCT GAATCGAGAA ATGAGCAAGA CAAGTGGGAG ACTTAACAAT 
    GGCATCCCTC AGATTCCAGT GAAAAGGGGA GAATCTGAAT TTGATTCCTT CAGGCAATCT 
    CTACCAGTTT TTGAGAAACA GGAAGAAATT GTCAGAATTA TTAAAGAAAA TAAAGTTATT 
    TTGATTGTGG GAGAAACTGG ATCAGGAAAA ACGACTCAGA TTCCTCAGTT CCTTCTTGAT 
    GATTGTTATA AAAATGGAAT TCCATGTCGC ATATTTTGCA CTCAGCCAAG ACGTTTGGCA 
    GCAATTGCTG TAGCTGAAAG GGTTGCTGCA GAAAGAAGAG AAAAGATTGG CCAGACAATT 
    GGTTATCAGA TCAGATTAGA AAGCAGGGTT TCTCCGAAGA CACTATTAAC ATTTTGCACT 
    AATGGTGTTT TACTTCGCAC ACTAATGGCA GGAGATAGCA CGCTATCAAC AGTGACACAT 
    GTTATTGTGG ATGAATTACA TGAGAGGGAT AGATTTAGTG ATTTCTTGTT AATAAAACTG 
    AGAGACATAT TGCAAAAACA AGCAAATTTG AAACTGATTC TATCTAGTGC TGCCCTAGAT 
    GTGAATCTGT TTATCAGATA TTTTGGAAGT TGCCCGGTAA TTCACATACA AGGAAGACCA 
    TTTGAAGTTA AGGAGATGTT TTTAGAAGAC ATTTTACGAA GTACTGGATA TACAAATAAA 
    GAAATGATGA AATACAAAAA AGAAAAACAA CGAGAAGAGA AACAGCAAAC AACCCTCACA 
    GAATGGTATT CTGCTCAAGA CAGTAGTAGT AAACCAGAGG CTCAAAGACA AAGATCTGTC 
    CCGAGTGTAG CTGAAGAATA TGACCTGTTG GATGATGGTG GTGACACAGT ATTCAGTCAG 
    CTGACTGAAA AAGATGTGAA CTGTCTTGAA CCTTGGTTAA TAAAAGAAAT GGATTCCTGT 
    CTCTCTGACA TATGGTTGCA TAAAGATGTT GATGCCTTTG CTCAGGTGTT TCACCTTATT 
    TTAACTGAAA ATGTCAGTGT TGATTATAGG CACAGTGAAA CCAGTGCAAC TGCGCTAATG 
    GTTGCTTCAG GGAGAGGCTT CTTGAGTCAA GTAGAGCAGC TAGTCAGTAT GGGAGCAAAT 
    GTGCACTGCA AATCATCCAA TGGCTGGATG GCTTTGGATT GGGCTAAGCA CTTTGGACAG 
    ACTGAGGTGG TTGACCTTCT GGAATCCTAT AGTGCTTCCT TGGAGTTTGG AAATCTGGAT 
    GAAAGTTCTC TGGTCCAGGC AAATGATGGT GACCTTAGTG CAGAAGACAG AGAGCTACTG 
    AAAGCATACC ATCACAGTTT TGATGATGAG AAAGTGGATC TGGACTTGAT TATGCACCTA 
    CTTTACAACA TCTGTCATAG TTGTGATGCT GGAGCAATTT TAATTTTTCT ACCTGGCTAC 
    GATGAAATAG TTAGCTTGAG GGATCGCATT CTGTTTGATG ACAAGAGATT TGCTGATAAT 
    GTTCACAGGT ACCAGGTTTT TATGCTGCAT TCAAATATGC AAACATCAGA TCAGAAGAAG 
    GTGCTGAAAA CTCCACCCCC AGGCATCCGC AAAATAATTC TTTCAACTAA CATTGCAGAA 
    ACCAGCATTA CAGTCAATGA TGTTGTGTTT GTTATTGACT CTGGCAAGAT GAAAGAGAAA 
    TCCTTTGATG CATTGAACTG TGTTACAATG TTAAAAATGG TATGGATTTC AAAAGCTAGT 
    GCCCTCCAGC GAAAAGGCAG GGCTGGGCGC TGCCGGCCTG GAATCTGTTT CCGACTCTTC 
    AGCAGGCTCC GATTTCAGAA TATGTTGGAA TTCCAGACTC CAGAACTTCT AAGAATGCCA 
    TTGCAGGAGC TTTGTTTGCA CACAAAACTG TTGGCTCCAA TTAACTGTCC TATTGCTGAT 
    TTTCTGATGA AAGCCCCAGA TCCTCCACCA GGCTTAATTG TCAGAAATGC TGTTCAAATG 
    CTTAAGACAA TAGATGCCAT GGATACCTGG GAAGATCTCA CGGAACTTGG TTATCATCTT 
    GCTGACCTCC CAGTAGAGCC ACACCTTGGT AAAATGGTGT TGTGTGCTGT TGTTTTGAAG 
    TGCCTGGATC CTATTCTTAC CATTGCTTGC ACTCTTGCAT ATCGAGACCC TTTTGTCCTA 
    CCTACACAGG CCTCACAAAA ACGTGCAGCT ATGCTGTGTA GAAAACGTTT TACTGCGGGA 
    ACATTTAGTG ACCATATGGC GCTTCTCAGG GCTTTTCAGG CATGGCAAAA GGCACGGAGT 
    GATGGGTGGG AGAGAGCCTT CTGTGAGAAG AACTTTCTTT CCCAGGCTAC AATGGAAATA 
    ATCATAGGGA TGAGGACACA GTTACTTGGT CAGCTCAGAG CTTCAGGTTT TGTGAGGGCT 
    AGAGGTGGAG GTGATATTCG GGATGTTAAC ACCAACTCTG AAAACTGGGC TGTAGTTAAA 
    GGTGCTCTAG TAGCTGGGAT GTATCCAAAC CTTGTCCATG TGGACAGAGA GAACCTTGTA 
    TTAACTGGAC CAAAAGAGAA GAAAGTGCGA TTTCACCCAA CCTCTGTTCT TAGTCAGCCT 
    CAGTATAAAA AGATTCCTCC AGCAAATGGC CAAGCTGCAG CTATTCAGGC GCTCCCCACA 
    GATTGGCTAA TATATGATGA AATGACTAGA GCACACAGAA TAGCAAACAT CCGATGCTGT 
    TCTGCTGTGA CACCTGTTAC AGTGTGCCTC TTTTGTGGAC CAGCAAGATT ACCAAGTAAT 
    GCTTTACAGG AGCCCTCATC TTTCAGAGTG GATGGTGCAC CTAATGATAG TAGTGATAGT 
    GAGATGGAAG ACAAAACAAC TGCTAATCTG GCTGTATTGA AGCTAGATGA ATGGCTGCAT 
    TTCAAACTAG ATCCTGAGGC TTCCAGTCTG CTGTTACAAC TCAGACAGAA ATGGCACAGC 
    TTATTTCTTC GCCGCATGAG AGCCCCTTCT AAACCTTGGT CTCAAGTTGA TGAAGCAACT 
    ATAAGAGCAA TCATAGCTGT TTTAAGTACT GAAGAGCAGT CTGCAGGTTT ACAGCAGCCT 
    TCAGGAATTG GACAAAGACC AAGACCAATG TCTTCTGAAG AGCTTCCCTT AGCATCTTCA 
    TGGAGATCAA ATACCAGCAG AAAAAGCTCA GCAGAAACAG AATTCTCTGA TGACTCTTCT 
    AATGCTGAAA AAGTCTTAAT GAAATCTATA TCGCCAGCAT TTCACCAGCC ACAGAAATAC 
    AAAGAAAGAG GTATCTTACA TTCCAAACGA AGTTCAGAAG ACAGGTCAGA TCAGTCATCT 
    GTGAAATCCA CAGACAGTAG CAGTTATCCC AGCCCATGTG CCAGTCCTTC TCCTCCATTA 
    TCTGGAAAGG GCTCCAAGTC TCCTTCACCA AGACCAAATA TGCCAGTTCG GTACTTCATA 
    ATGAAGAGCA GCAATCTGAG AAACCTTGAT ATTTCTCAGC AAAAGGGTAT ATGGTCTACA 
    ACCCCAAGCA ATGAGCGGAA ATTAAATCGA GCTTTCTGGG AGAGCAGTAT AGTTTACTTG 
    GTATTTTCAG TTCAAGGATC TGGACATTTT CAGGGTTTTG CTAGAATGTC TTCAGAGATA 
    GGACGTGAGA AAAGTCAGGA GTGGGGCTCC ACAGGCTTAG GAGGAGTGTT TAAGGTGGAG 
    TGGATCCGGA AAGAAAGTCT TCCCTTTCAA TTTGCGCATC ACTTACTCAA CCCTTGGAAC 
    GACAATAAGA AAGTACAAAT AAGCAGAGAT GGCCAGGAAC TGGAACCACA GGTTGGAGAA 
    CAGTTGCTAC AGCTTTGGGA TCATATTCCT GTGGTTGGAA AAAACACAAC TGATTGA

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

    YTHDC2 ( XM_006258928.3 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_006258990.1 Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAl46568
    Clone ID Related Accession (Same CDS sequence) XM_006258928.3
    Accession Version XM_006258928.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product probable ATP-dependent RNA helicase YTHDC2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707593.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_006258928.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 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
    ATGTCGCGGC CCAGCAGCGA GTCCCCGCGG CCTGCGCCGG GCGGTGGTGG CCGCGGCCGG 
    GCCAAGGGGC TGCGGGACAT CCGTGTGGAC GAGGAGGTGA AGATCGCCGT GAACTTGGCC 
    CTGGAGCGGT TCCGATACGG CGACCAGCGA GAAATGGAAT TTCCCTCTTC TTTGACTAGT 
    ACGGAACGAG CTTTTATTCA CCGACTGAGT CAGTCCCTTG GCCTCATCTC CAAAAGCAAA 
    GGGAAAGGAG CAAACAGATA CCTAACTGTA AGGAAAAAAG ATGGTTCAGA ATTGGCACAT 
    ACAGTAATGA CTTGCAGTTT GATTCCCAAT ACAAAACATG CTATTAGGAG TCTAATTCAG 
    AGATTTCCTG TCACCAATAA AGAACGCACT GAACTTTTGC CAAAAACAGA ACGAGGAAAT 
    GTGTTTGCTG TCGAAGCTGA GAATCGAGAA ATGAGCAAGA CAAGTGGGAG ACTTAACAAT 
    GGCATCCCTC AGATTCCAGT GAAAAGGGGA GAATCTGAAT TTGATTCCTT CAGGCAATCT 
    CTACCAGTTT TTGAGAAACA GGAAGAAATT GTCAGAATTA TTAAAGAAAA TAAAGTTATT 
    TTGATTGTGG GAGAAACTGG ATCAGGAAAA ACGACTCAGA TTCCTCAGTT CCTTCTTGAT 
    GATTGTTATA AAAATGGAAT TCCATGTCGC ATATTTTGCA CTCAGCCAAG ACGTTTGGCA 
    GCAATTGCTG TAGCTGAAAG GGTTGCTGCA GAAAGAAGAG AAAAGATTGG CCAGACAATT 
    GGTTATCAGA TCAGATTAGA AAGCAGGGTT TCTCCGAAGA CACTATTAAC ATTTTGCACT 
    AATGGTGTTT TACTTCGCAC ACTAATGGCA GGAGATAGCA CGCTATCAAC AGTGACACAT 
    GTTATTGTGG ATGAATTACA TGAGAGGGAT AGATTTAGTG ATTTCTTGTT AATAAAACTG 
    AGAGACATAT TGCAAAAACA AGCAAATTTG AAACTGATTC TATCTAGTGC TGCCCTAGAT 
    GTGAATCTGT TTATCAGATA TTTTGGAAGT TGCCCGGTAA TTCACATACA AGGAAGACCA 
    TTTGAAGTTA AGGAGATGTT TTTAGAAGAC ATTTTACGAA GTACTGGATA TACAAATAAA 
    GAAATGATGA AATACAAAAA AGAAAAACAA CGAGAAGAGA AACAGCAAAC AACCCTCACA 
    GAATGGTATT CTGCTCAAGA CAGTAGTAGT AAACCAGAGG CTCAAAGACA AAGATCTGTC 
    CCGAGTGTAG CTGAAGAATA TGACCTGTTG GATGATGGTG GTGACACAGT ATTCAGTCAG 
    CTGACTGAAA AAGATGTGAA CTGTCTTGAA CCTTGGTTAA TAAAAGAAAT GGATTCCTGT 
    CTCTCTGACA TATGGTTGCA TAAAGATGTT GATGCCTTTG CTCAGGTGTT TCACCTTATT 
    TTAACTGAAA ATGTCAGTGT TGATTATAGG CACAGTGAAA CCAGTGCAAC TGCGCTAATG 
    GTTGCTTCAG GGAGAGGCTT CTTGAGTCAA GTAGAGCAGC TAGTCAGTAT GGGAGCAAAT 
    GTGCACTGCA AATCATCCAA TGGCTGGATG GCTTTGGATT GGGCTAAGCA CTTTGGACAG 
    ACTGAGGTGG TTGACCTTCT GGAATCCTAT AGTGCTTCCT TGGAGTTTGG AAATCTGGAT 
    GAAAGTTCTC TGGTCCAGGC AAATGATGGT GACCTTAGTG CAGAAGACAG AGAGCTACTG 
    AAAGCATACC ATCACAGTTT TGATGATGAG AAAGTGGATC TGGACTTGAT TATGCACCTA 
    CTTTACAACA TCTGTCATAG TTGTGATGCT GGAGCAATTT TAATTTTTCT ACCTGGCTAC 
    GATGAAATAG TTAGCTTGAG GGATCGCATT CTGTTTGATG ACAAGAGATT TGCTGATAAT 
    GTTCACAGGT ACCAGGTTTT TATGCTGCAT TCAAATATGC AAACATCAGA TCAGAAGAAG 
    GTGCTGAAAA CTCCACCCCC AGGCATCCGC AAAATAATTC TTTCAACTAA CATTGCAGAA 
    ACCAGCATTA CAGTCAATGA TGTTGTGTTT GTTATTGACT CTGGCAAGAT GAAAGAGAAA 
    TCCTTTGATG CATTGAACTG TGTTACAATG TTAAAAATGG TATGGATTTC AAAAGCTAGT 
    GCCCTCCAGC GAAAAGGCAG GGCTGGGCGC TGCCGGCCTG GAATCTGTTT CCGACTCTTC 
    AGCAGGCTCC GATTTCAGAA TATGTTGGAA TTCCAGACTC CAGAACTTCT AAGAATGCCA 
    TTGCAGGAGC TTTGTTTGCA CACAAAACTG TTGGCTCCAA TTAACTGTCC TATTGCTGAT 
    TTTCTGATGA AAGCCCCAGA TCCTCCACCA GGCTTAATTG TCAGAAATGC TGTTCAAATG 
    CTTAAGACAA TAGATGCCAT GGATACCTGG GAAGATCTCA CGGAACTTGG TTATCATCTT 
    GCTGACCTCC CAGTAGAGCC ACACCTTGGT AAAATGGTGT TGTGTGCTGT TGTTTTGAAG 
    TGCCTGGATC CTATTCTTAC CATTGCTTGC ACTCTTGCAT ATCGAGACCC TTTTGTCCTA 
    CCTACACAGG CCTCACAAAA ACGTGCAGCT ATGCTGTGTA GAAAACGTTT TACTGCGGGA 
    ACATTTAGTG ACCATATGGC GCTTCTCAGG GCTTTTCAGG CATGGCAAAA GGCACGGAGT 
    GATGGGTGGG AGAGAGCCTT CTGTGAGAAG AACTTTCTTT CCCAGGCTAC AATGGAAATA 
    ATCATAGGGA TGAGGACACA GTTACTTGGT CAGCTCAGAG CTTCAGGTTT TGTGAGGGCT 
    AGAGGTGGAG GTGATATTCG GGATGTTAAC ACCAACTCTG AAAACTGGGC TGTAGTTAAA 
    GGTGCTCTAG TAGCTGGGAT GTATCCAAAC CTTGTCCATG TGGACAGAGA GAACCTTGTA 
    TTAACTGGAC CAAAAGAGAA GAAAGTGCGA TTTCACCCAA CCTCTGTTCT TAGTCAGCCT 
    CAGTATAAAA AGATTCCTCC AGCAAATGGC CAAGCTGCAG CTATTCAGGC GCTCCCCACA 
    GATTGGCTAA TATATGATGA AATGACTAGA GCACACAGAA TAGCAAACAT CCGATGCTGT 
    TCTGCTGTGA CACCTGTTAC AGTGTGCCTC TTTTGTGGAC CAGCAAGATT ACCAAGTAAT 
    GCTTTACAGG AGCCCTCATC TTTCAGAGTG GATGGTGCAC CTAATGATAG TAGTGATAGT 
    GAGATGGAAG ACAAAACAAC TGCTAATCTG GCTGTATTGA AGCTAGATGA ATGGCTGCAT 
    TTCAAACTAG ATCCTGAGGC TTCCAGTCTG CTGTTACAAC TCAGACAGAA ATGGCACAGC 
    TTATTTCTTC GCCGCATGAG AGCCCCTTCT AAACCTTGGT CTCAAGTTGA TGAAGCAACT 
    ATAAGAGCAA TCATAGCTGT TTTAAGTACT GAAGAGCAGT CTGCAGGTTT ACAGCAGCCT 
    TCAGGAATTG GACAAAGACC AAGACCAATG TCTTCTGAAG AGCTTCCCTT AGCATCTTCA 
    TGGAGATCAA ATACCAGCAG AAAAAGCTCA GCAGAAACAG AATTCTCTGA TGACTCTTCT 
    AATGCTGAAA AAGTCTTAAT GAAATCTATA TCGCCAGCAT TTCACCAGCC ACAGAAATAC 
    AAAGAAAGAG GTATCTTACA TTCCAAACGA AGTTCAGAAG ACAGGTCAGA TCAGTCATCT 
    GTGAAATCCA CAGACAGTAG CAGTTATCCC AGCCCATGTG CCAGTCCTTC TCCTCCATTA 
    TCTGGAAAGG GCTCCAAGTC TCCTTCACCA AGACCAAATA TGCCAGTTCG GTACTTCATA 
    ATGAAGAGCA GCAATCTGAG AAACCTTGAT ATTTCTCAGC AAAAGGGTAT ATGGTCTACA 
    ACCCCAAGCA ATGAGCGGAA ATTAAATCGA GCTTTCTGGG AGAGCAGTAT AGTTTACTTG 
    GTATTTTCAG TTCAAGGATC TGGACATTTT CAGGGTTTTG CTAGAATGTC TTCAGAGATA 
    GGACGTGAGA AAAGTCAGGA GTGGGGCTCC ACAGGCTTAG GAGGAGTGTT TAAGGTGGAG 
    TGGATCCGGA AAGAAAGTCT TCCCTTTCAA TTTGCGCATC ACTTACTCAA CCCTTGGAAC 
    GACAATAAGA AAGTACAAAT AAGCAGAGAT GGCCAGGAAC TGGAACCACA GGTTGGAGAA 
    CAGTTGCTAC AGCTTTGGGA TCATATTCCT GTGGTTGGAA AAAACACAAC TGATTGA

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

    RefSeq XP_006258990.1
    CDS62..4318
    Translation

    Target ORF information:

    RefSeq Version XM_006258928.3
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis YTH domain containing 2 (YTHDC2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006258928.3

    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
    ATGTCGCGGC CCAGCAGCGA GTCCCCGCGG CCTGCGCCGG GCGGTGGTGG CCGCGGCCGG 
    GCCAAGGGGC TGCGGGACAT CCGTGTGGAC GAGGAGGTGA AGATCGCCGT GAACTTGGCC 
    CTGGAGCGGT TCCGATACGG CGACCAGCGA GAAATGGAAT TTCCCTCTTC TTTGACTAGT 
    ACGGAACGAG CTTTTATTCA CCGACTGAGT CAGTCCCTTG GCCTCATCTC CAAAAGCAAA 
    GGGAAAGGAG CAAACAGATA CCTAACTGTA AGGAAAAAAG ATGGTTCAGA ATTGGCACAT 
    ACAGTAATGA CTTGCAGTTT GATTCCCAAT ACAAAACATG CTATTAGGAG TCTAATTCAG 
    AGATTTCCTG TCACCAATAA AGAACGCACT GAACTTTTGC CAAAAACAGA ACGAGGAAAT 
    GTGTTTGCTG TCGAAGCTGA GAATCGAGAA ATGAGCAAGA CAAGTGGGAG ACTTAACAAT 
    GGCATCCCTC AGATTCCAGT GAAAAGGGGA GAATCTGAAT TTGATTCCTT CAGGCAATCT 
    CTACCAGTTT TTGAGAAACA GGAAGAAATT GTCAGAATTA TTAAAGAAAA TAAAGTTATT 
    TTGATTGTGG GAGAAACTGG ATCAGGAAAA ACGACTCAGA TTCCTCAGTT CCTTCTTGAT 
    GATTGTTATA AAAATGGAAT TCCATGTCGC ATATTTTGCA CTCAGCCAAG ACGTTTGGCA 
    GCAATTGCTG TAGCTGAAAG GGTTGCTGCA GAAAGAAGAG AAAAGATTGG CCAGACAATT 
    GGTTATCAGA TCAGATTAGA AAGCAGGGTT TCTCCGAAGA CACTATTAAC ATTTTGCACT 
    AATGGTGTTT TACTTCGCAC ACTAATGGCA GGAGATAGCA CGCTATCAAC AGTGACACAT 
    GTTATTGTGG ATGAATTACA TGAGAGGGAT AGATTTAGTG ATTTCTTGTT AATAAAACTG 
    AGAGACATAT TGCAAAAACA AGCAAATTTG AAACTGATTC TATCTAGTGC TGCCCTAGAT 
    GTGAATCTGT TTATCAGATA TTTTGGAAGT TGCCCGGTAA TTCACATACA AGGAAGACCA 
    TTTGAAGTTA AGGAGATGTT TTTAGAAGAC ATTTTACGAA GTACTGGATA TACAAATAAA 
    GAAATGATGA AATACAAAAA AGAAAAACAA CGAGAAGAGA AACAGCAAAC AACCCTCACA 
    GAATGGTATT CTGCTCAAGA CAGTAGTAGT AAACCAGAGG CTCAAAGACA AAGATCTGTC 
    CCGAGTGTAG CTGAAGAATA TGACCTGTTG GATGATGGTG GTGACACAGT ATTCAGTCAG 
    CTGACTGAAA AAGATGTGAA CTGTCTTGAA CCTTGGTTAA TAAAAGAAAT GGATTCCTGT 
    CTCTCTGACA TATGGTTGCA TAAAGATGTT GATGCCTTTG CTCAGGTGTT TCACCTTATT 
    TTAACTGAAA ATGTCAGTGT TGATTATAGG CACAGTGAAA CCAGTGCAAC TGCGCTAATG 
    GTTGCTTCAG GGAGAGGCTT CTTGAGTCAA GTAGAGCAGC TAGTCAGTAT GGGAGCAAAT 
    GTGCACTGCA AATCATCCAA TGGCTGGATG GCTTTGGATT GGGCTAAGCA CTTTGGACAG 
    ACTGAGGTGG TTGACCTTCT GGAATCCTAT AGTGCTTCCT TGGAGTTTGG AAATCTGGAT 
    GAAAGTTCTC TGGTCCAGGC AAATGATGGT GACCTTAGTG CAGAAGACAG AGAGCTACTG 
    AAAGCATACC ATCACAGTTT TGATGATGAG AAAGTGGATC TGGACTTGAT TATGCACCTA 
    CTTTACAACA TCTGTCATAG TTGTGATGCT GGAGCAATTT TAATTTTTCT ACCTGGCTAC 
    GATGAAATAG TTAGCTTGAG GGATCGCATT CTGTTTGATG ACAAGAGATT TGCTGATAAT 
    GTTCACAGGT ACCAGGTTTT TATGCTGCAT TCAAATATGC AAACATCAGA TCAGAAGAAG 
    GTGCTGAAAA CTCCACCCCC AGGCATCCGC AAAATAATTC TTTCAACTAA CATTGCAGAA 
    ACCAGCATTA CAGTCAATGA TGTTGTGTTT GTTATTGACT CTGGCAAGAT GAAAGAGAAA 
    TCCTTTGATG CATTGAACTG TGTTACAATG TTAAAAATGG TATGGATTTC AAAAGCTAGT 
    GCCCTCCAGC GAAAAGGCAG GGCTGGGCGC TGCCGGCCTG GAATCTGTTT CCGACTCTTC 
    AGCAGGCTCC GATTTCAGAA TATGTTGGAA TTCCAGACTC CAGAACTTCT AAGAATGCCA 
    TTGCAGGAGC TTTGTTTGCA CACAAAACTG TTGGCTCCAA TTAACTGTCC TATTGCTGAT 
    TTTCTGATGA AAGCCCCAGA TCCTCCACCA GGCTTAATTG TCAGAAATGC TGTTCAAATG 
    CTTAAGACAA TAGATGCCAT GGATACCTGG GAAGATCTCA CGGAACTTGG TTATCATCTT 
    GCTGACCTCC CAGTAGAGCC ACACCTTGGT AAAATGGTGT TGTGTGCTGT TGTTTTGAAG 
    TGCCTGGATC CTATTCTTAC CATTGCTTGC ACTCTTGCAT ATCGAGACCC TTTTGTCCTA 
    CCTACACAGG CCTCACAAAA ACGTGCAGCT ATGCTGTGTA GAAAACGTTT TACTGCGGGA 
    ACATTTAGTG ACCATATGGC GCTTCTCAGG GCTTTTCAGG CATGGCAAAA GGCACGGAGT 
    GATGGGTGGG AGAGAGCCTT CTGTGAGAAG AACTTTCTTT CCCAGGCTAC AATGGAAATA 
    ATCATAGGGA TGAGGACACA GTTACTTGGT CAGCTCAGAG CTTCAGGTTT TGTGAGGGCT 
    AGAGGTGGAG GTGATATTCG GGATGTTAAC ACCAACTCTG AAAACTGGGC TGTAGTTAAA 
    GGTGCTCTAG TAGCTGGGAT GTATCCAAAC CTTGTCCATG TGGACAGAGA GAACCTTGTA 
    TTAACTGGAC CAAAAGAGAA GAAAGTGCGA TTTCACCCAA CCTCTGTTCT TAGTCAGCCT 
    CAGTATAAAA AGATTCCTCC AGCAAATGGC CAAGCTGCAG CTATTCAGGC GCTCCCCACA 
    GATTGGCTAA TATATGATGA AATGACTAGA GCACACAGAA TAGCAAACAT CCGATGCTGT 
    TCTGCTGTGA CACCTGTTAC AGTGTGCCTC TTTTGTGGAC CAGCAAGATT ACCAAGTAAT 
    GCTTTACAGG AGCCCTCATC TTTCAGAGTG GATGGTGCAC CTAATGATAG TAGTGATAGT 
    GAGATGGAAG ACAAAACAAC TGCTAATCTG GCTGTATTGA AGCTAGATGA ATGGCTGCAT 
    TTCAAACTAG ATCCTGAGGC TTCCAGTCTG CTGTTACAAC TCAGACAGAA ATGGCACAGC 
    TTATTTCTTC GCCGCATGAG AGCCCCTTCT AAACCTTGGT CTCAAGTTGA TGAAGCAACT 
    ATAAGAGCAA TCATAGCTGT TTTAAGTACT GAAGAGCAGT CTGCAGGTTT ACAGCAGCCT 
    TCAGGAATTG GACAAAGACC AAGACCAATG TCTTCTGAAG AGCTTCCCTT AGCATCTTCA 
    TGGAGATCAA ATACCAGCAG AAAAAGCTCA GCAGAAACAG AATTCTCTGA TGACTCTTCT 
    AATGCTGAAA AAGTCTTAAT GAAATCTATA TCGCCAGCAT TTCACCAGCC ACAGAAATAC 
    AAAGAAAGAG GTATCTTACA TTCCAAACGA AGTTCAGAAG ACAGGTCAGA TCAGTCATCT 
    GTGAAATCCA CAGACAGTAG CAGTTATCCC AGCCCATGTG CCAGTCCTTC TCCTCCATTA 
    TCTGGAAAGG GCTCCAAGTC TCCTTCACCA AGACCAAATA TGCCAGTTCG GTACTTCATA 
    ATGAAGAGCA GCAATCTGAG AAACCTTGAT ATTTCTCAGC AAAAGGGTAT ATGGTCTACA 
    ACCCCAAGCA ATGAGCGGAA ATTAAATCGA GCTTTCTGGG AGAGCAGTAT AGTTTACTTG 
    GTATTTTCAG TTCAAGGATC TGGACATTTT CAGGGTTTTG CTAGAATGTC TTCAGAGATA 
    GGACGTGAGA AAAGTCAGGA GTGGGGCTCC ACAGGCTTAG GAGGAGTGTT TAAGGTGGAG 
    TGGATCCGGA AAGAAAGTCT TCCCTTTCAA TTTGCGCATC ACTTACTCAA CCCTTGGAAC 
    GACAATAAGA AAGTACAAAT AAGCAGAGAT GGCCAGGAAC TGGAACCACA GGTTGGAGAA 
    CAGTTGCTAC AGCTTTGGGA TCATATTCCT GTGGTTGGAA AAAACACAAC TGATTGA

    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

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03-6811-6573
050-3174-7589(受注専用)

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