ORF » Species Summary » Xenopus tropicalis » myo16 cDNA ORF clone

myo16 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following myo16 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the myo16 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
OXa42805 XM_018091647.1
Latest version!		 Xenopus tropicalis myosin XVI (myo16), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa52524 XM_031897042.1
Latest version!		 Xenopus tropicalis myosin XVI (myo16), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    myo16 ( XM_018091647.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947136.1 Xenopus tropicalis myosin XVI (myo16), mRNA.
    Price & Availability↑
    CloneID OXa42805
    Clone ID Related Accession (Same CDS sequence) XM_018091647.1
    Accession Version XM_018091647.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5523bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product LOW QUALITY PROTEIN: unconventional myosin-XVI
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGAAATTG ACCAGTGTTT GCTGGAGTCC CTACCTTTGG GGCAGCGTCA GCGGCTGGTA 
    AGGCGTATGC GCTGTGATCA AATTAAGGCA TATTACGAAA GAGAAAAGGC TCTACAAAAA 
    CAAGATGGAT ACAAAAGAAG AAGCAAGCAA AGAAAAAATT GCAAAGTGCA TTTTCCATTG 
    TCTGAGAAAA TACAAGATGC AATCATTCAC CATAATGACA AAGAAGTTCT ACAGTTATTA 
    AAGGATGGGG CTGACCCTCA TATTCTTATT ACTTCTGGAG GATGTCTTCT ACATCTGTGC 
    GCACGATATG ATAATGCTTT TGCTGCAGAA ATTTTAATTG ACAGAGGAGT TCATGTAAAT 
    CACCAAGATG AGGAGCTTTG GACCCCAATG CATGTTGCTT GTGCATGTGA TAATCCTGAT 
    ATTGTTCTTC TGCTGCTTCT TTCGGGGGCT AACGTACTAC TACAGGATAT TAATGGCAAC 
    ATTGCTCTTG ACTATGCTGT TGAAGGAACA GAATCCCGAA GTATACTTTT GGCTTATTTG 
    GAAGAAAATG GTATTGATCT TTCATCGCTG CGTCAGATGA GGATGCAGAG AGCAATGGTT 
    ATGTTATCAG ATATTAAGCA ATTAGTAGCT ACAGGTGGAA GTGTGAGTGA GAAGAATGAT 
    GAAGGTGTAA CTCTTCTTCA TATAGCATGT GCTTGTGGCT ACAAAGATGT TACATGCCAG 
    TTGCTAGAAA ATGGTGCTGA TCCAGATTCC ACTGATGATC ATTACTGGAC TCCTCTTCAT 
    TTAGCTGCAA AATATGGACA GACAAGCCTT GTAAAAATCC TTCTGGCTCA TCAAGCAAAT 
    CCTAACATGT TAAATTGCAA TGAAGATAAG CCATCAGATG TTGCTGTTAC AGAAGGTATT 
    CAAGACATGC TGCTCAAAGC TGAACATCTT GCTGATGAAA GAAAGAAAAA TGGAACACCC 
    TTATGCACAG AATTCCAAGA AGAGCCATAT GAGGAGATTG CACATGATAT TCCTCTCGCT 
    GCTAATAAAC TACGTCCTTT GGCTTTACCA ATTTCAAAAC AGGATAGTTT TCTGGAAAAA 
    GACACAATGT TCAAAGATTC GGGGAAAACA CTGAGCAAGA TCCCACAAGA AACTGCATCA 
    GAAAAAATAA CAATCAGTAG CACCACTAAA CTAGAGCAGA TTAAATTAAT GCCTCCAGCC 
    CCAAATGATG ACTTGGCAAC GCTGAGTGAG CTCACAGACA GCAGTCTGTT GTATGAAATT 
    CAAAAGAGGT TCAACAATAA TCAAATATAT ACTTACATTG GAAATATTCT TCTGCTTGTT 
    AATCCATACA AGAACCTGCC TATATACTCA GCCCTGGTTA CCCAATTATA CAACAATAAC 
    TCTGGAAGAT TATGTTCCTC TCTTCCCCCA CACATTTTTG CTTGTTCTGA GAGAGCTTAC 
    CATATGCTTT TCCAAGAGAG ACGATCCCAG TGTTTTATCT TAAGTGGAGA AAGTGGTTCT 
    GGGAAGACAG AATCTTGTAA GCACATAGTT AAACATTTGG CCTTCAGGTG TGGATCCAGC 
    AAAAATTCAC TTTATTCAAA GATTAAACAC GTAAACTGCA TTTTAGAGGC TTTTGGACAT 
    GCCAGAACAT CAATTAATAA TTCTTCTAGC CGTTTCATAA ATTTCCTTGA GCTACAATTT 
    TGTGAAAAGA AACAAACTCT GTCAGGAGCC AGAGTGTACA CATATATGCT GGAGAAGTCC 
    CGTCTCCTTA GTACCCCCNC AGGACAAAGC AATTTCCTTA TTTTCTATAT TATGATGGAT 
    GGATTATCTG CTGAAGAAAA GTACAGCTTA TACCTCAAGA GTTTATCTGC ACATAGGTAT 
    CTGAACCAGA ATGTACCAGA GGATACAATA TCACTATCAG CAAGTACTCA GAATAGAGAG 
    AAATTAGATA ACTTGAAACA AGCCCTAATT GCTCTGGGAT ATAACAACCT TGAGATTGAG 
    AACCTGTTTG TTATCCTCTC TGCTATTTTG CACATTGGAG ATATACGGTT TACAGCCCTG 
    ACAGATGCTG AAACAGCTTT TGTATCTGAC CTGCAGCTCA TTGAGCAAGT TGCAGGAATG 
    CTGCAGGTGT CTCCCGATGA GCTGTCTGCT GCCTTAACAA CAGAAGTTCA ATACTTCAAA 
    GGAGACATGA TAACTCGCAG ACATTCTGTG GATACAGCTG AATTTTACCG AGACCTTCTG 
    GCAAAGTCAT TGTATTGTCG TTTATTTAGT TTTCTAGTGA ACAACATCAA CTACTACCTC 
    CAACAACAAA GTGATCAAAC CAGTTACCCA CCACTGACTG TTGGAATATT GGATATATTT 
    GGCTTTGAAG ATTTTCAGAA AAATTCCTTT GAACAGTTGT GCATTAATCT GACCAACGAA 
    AAGATCCACC AGCATATAAC CGAAGTGTTA TTTTTCCAAG AGCAAACAGA ATGTGCACAA 
    GAGGGGATTT CCATGGAAAC CATATATTGC CTTGGCAACC ATACAACAGT GCTGGATTTT 
    TTTTTCCAGA AACCAATGGG ATTCATGTCG GTGCTAGATG AGGAAAGCCA GTCTATTCAC 
    ACAATGGAGC ACAGTCTCTC CAAACGTCTC CAGTCGCTTT TAGAAACATC AAATACAAAT 
    GCCATATATT TCTCTTCAAA AGATGGAAAT GGCAATGTCA CATCCAAGGA CCATGGCCCT 
    ACTTTTGCAG TTATGCATTA TGCAGGAAGG GTCACTTACA ATATATTCGG AGCAACTGAG 
    AAAAACAAAG ATGTACTGTC TCAGAATCTT CTTTTCGTCA TGAAAACCAG TGAAAACCTA 
    GTGATCAATA AAATGTTCCA GTCCAAACTG ACTCAGACAG GATCACTGAT TCCTCCTTAT 
    CCTCCACTCA AACTTAGAGG ACCAAAAGCA GCCTTACTTT TTAAAAAAAA TTCCGCTTCT 
    AGTGGTGAAA CAAAAAAGAT CCTGGAACTT GGTAAGTTGA TTAAAAAGAA AGGATCCTAT 
    TCATTTCTTC AGAAGCTAGA AAGAGGCGGA CCAACCACTG TGAGCATACA ACTCAGGAAA 
    TCTTTTACGG AGATCATTGG CAAGGTTCAG AGCAGTACGC CACATCTTAT GCATTGTATC 
    AAGCCTAACA GTACTAAGCT TGCTGAAACA TTTGATAACT TTTATGTGTC TGCACAACTA 
    CAGTATATTG GAGTACTGGA AATGGTCAAA ATAATTCGCT ATGGTTATCC AATACGCCTT 
    GCTTTTTCCG ACTTCTTGTC CAGGTACAAA AACTTGGTTG AAATCTTAGC ATGGGAAAAA 
    CAGAAGACAT CAGCTGAAGA GAAATGTCGC CATGTTCTTC TACAATGCAA ACAACAAGGG 
    TGGCAGATGG GTACAAGAAA AGTATTTCTG AAATATTGGC AAGCTGACCA ACTCAGTGAC 
    ATGTGCCTTC AGTTACAGAA AAAGATTATA CTTTGCCAGA AAGTTATAAG AAGATTTCTA 
    GCCCGGCAGC ATTTGCAGAA GAAATTGGAC ACTAAAGAGA ATGAGGATAC CTTTATAAAA 
    GACTTCATTC AAACCATAGA AAACATGGGA CAGCAATCTT ACCATTCTTT GGTAATCCAG 
    AATGCATCTG ACATTGCTCG AGAAAAAGTA GCACTTCAGA TTGAATCCAA CACTGCCTAT 
    AGTGCCATGG AATCCATTTG TAATAAAGAA GAGATGTTGA AGAGTACTGA AGACAGTGAT 
    TTAAAGCCAA CTGGAAACAT TTTTGTTGGA TGTCGTATTT CAACTCTCTG CCAGCCTGGT 
    TCTATTACAG TCCCTATAAA TCCTGTGTCT TCCTCAGCTA TTAGATCTCT TTCATTGCAC 
    TCTGTCTTGA GCATGGATGA TGGAAACTGC CTCCAGTCTC CTCGGAAACA GCCTCCTCCA 
    AAACCAAAAA GAAATCCCAC TACCAGACTA AGTGCTTCTT ACGAAGCAGT GAGTGCGTGC 
    CTTTTTGCAG CTTCTGTGGA CATAGATAAT GAAGCTCTTT CTCGACCTAG ACCTCATAGT 
    GATGATTACA GCACAATGAA AAAAATTCCA CCACCTAAGC CAAAAAGAAG TCCTAACACA 
    AAGCTTAGCA GCTCATTTGA GGAGATATCA GCTCATAACT CAGGAGAATT GAATACTTTC 
    AGTACCATTG TCAGGAAGGT GCATCGTGAT ATTGGTACTA TACAAAGGGC AGCCTCTGCA 
    GATGGTCCTC ACCATGGGAT TTTGACTTTG TGTATGTCAG AAGAAGAAGA TGAAGCTGAG 
    CCAGTGTACA TTGAAATGGC TGGCACTGCT GGGAAGTGTC ACTTCATAGA AAGAAGCAGC 
    CCAGAACAAG GAGAGGCTGT GTATGAAGAA ATGAAATACC ATCATCCTGA TCATATTAAT 
    ATTAATAATC TAGCAATGGG TAGCTCATTG CTACAGAACA TGAACCTAGC AACATTTGAG 
    AACCTAGATG CTGATATAAA AAATGAGCAA TGTTCTAAAG AAAGTTGTGA TATCCCTGCT 
    CCGTTTCCCA ATCTCCTTCC TCATCGCCCT CCTCTTCTGG TTTTTCCACC AGCTACAGTT 
    ACTTCCTCTC CTGCCTCTGA TGAATCTCCA CTAACACCAC TTGAAATGAT AAAACTCCCT 
    GTGCTTGAAA CAAACATAAA CTACACTATA CAAACAGATA TGTCAAGTCC CATCTCATCT 
    CAATGTTTAA AGCACCAAAG AGACAATGAA AGACCATCAT CACCTGCATT ATCTGTATTT 
    AGTGTTTCAA GCAAAGTTTC TCCACCTTGC ACTCCACCTC TTCCCCAGAC ACCAACCTCC 
    TTCCAGTTTC CAACACATTT TAGTTTTCCT ATGGAGAGTT CCTATGCATT GCTTGTAGGG 
    AAGAACTTAA AGACAACCAA TGCAGATTCT GTAAAAATTG CTCCAAAATC AAATGCAGTT 
    ATAACAGAAG AATCTTGTGG TTCATTGACT AAACTGACTT TCTCTTCTCC AATAAAAAAT 
    GCAAGGACAA TGCAGAACAA ATCCCATTTA GGTTCCCCTT CATTAGCAAC AAGTCTTACT 
    AATATTAGCC ATATAACAAG TCCACTTGAT GAATTAACTA CTTTATTCAG TTCAGGAAGA 
    AGTCTCCTGA GAAAATCTGC TGCTGGTAGA AAAATACGAG AGCAAGAAGG TGTTGAAATG 
    AATTTGAATG TATGTGGTGG TGAGGATGTT GCAATGCCTG ATACCCAAGA TAACAATGCA 
    AATAATCAAG ATAATCGAGG ACCAAATTCA AGATCTAGTT GTGCAGCCTT TGAGAATGGA 
    AATTCTGTTA CTAATGGTAT GGCTGAAGAA GACCTGAACT GCAAGTTACA AAACACCATA 
    AGTACAAGTT CTTCAACAAA GAATAAAGAG CAACACAGCA ATCAGGTTAT TCATCAGTTA 
    CGTTTATCAA AGAATGAAAG CGCTGCATTA CAAGAACTAA TGGACTGGAG AAGAAAACTT 
    TGTGAAGGGA ATGGAGAGTG GCAAACTGAA CAGAGAAATT CTGCTTCTAC TCACTCATCG 
    TAG

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

    RefSeq XP_017947136.1
    CDS34..5556
    Translation

    Target ORF information:

    RefSeq Version XM_018091647.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis myosin XVI (myo16), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091647.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGAAATTG ACCAGTGTTT GCTGGAGTCC CTACCTTTGG GGCAGCGTCA GCGGCTGGTA 
    AGGCGTATGC GCTGTGATCA AATTAAGGCA TATTACGAAA GAGAAAAGGC TCTACAAAAA 
    CAAGATGGAT ACAAAAGAAG AAGCAAGCAA AGAAAAAATT GCAAAGTGCA TTTTCCATTG 
    TCTGAGAAAA TACAAGATGC AATCATTCAC CATAATGACA AAGAAGTTCT ACAGTTATTA 
    AAGGATGGGG CTGACCCTCA TATTCTTATT ACTTCTGGAG GATGTCTTCT ACATCTGTGC 
    GCACGATATG ATAATGCTTT TGCTGCAGAA ATTTTAATTG ACAGAGGAGT TCATGTAAAT 
    CACCAAGATG AGGAGCTTTG GACCCCAATG CATGTTGCTT GTGCATGTGA TAATCCTGAT 
    ATTGTTCTTC TGCTGCTTCT TTCGGGGGCT AACGTACTAC TACAGGATAT TAATGGCAAC 
    ATTGCTCTTG ACTATGCTGT TGAAGGAACA GAATCCCGAA GTATACTTTT GGCTTATTTG 
    GAAGAAAATG GTATTGATCT TTCATCGCTG CGTCAGATGA GGATGCAGAG AGCAATGGTT 
    ATGTTATCAG ATATTAAGCA ATTAGTAGCT ACAGGTGGAA GTGTGAGTGA GAAGAATGAT 
    GAAGGTGTAA CTCTTCTTCA TATAGCATGT GCTTGTGGCT ACAAAGATGT TACATGCCAG 
    TTGCTAGAAA ATGGTGCTGA TCCAGATTCC ACTGATGATC ATTACTGGAC TCCTCTTCAT 
    TTAGCTGCAA AATATGGACA GACAAGCCTT GTAAAAATCC TTCTGGCTCA TCAAGCAAAT 
    CCTAACATGT TAAATTGCAA TGAAGATAAG CCATCAGATG TTGCTGTTAC AGAAGGTATT 
    CAAGACATGC TGCTCAAAGC TGAACATCTT GCTGATGAAA GAAAGAAAAA TGGAACACCC 
    TTATGCACAG AATTCCAAGA AGAGCCATAT GAGGAGATTG CACATGATAT TCCTCTCGCT 
    GCTAATAAAC TACGTCCTTT GGCTTTACCA ATTTCAAAAC AGGATAGTTT TCTGGAAAAA 
    GACACAATGT TCAAAGATTC GGGGAAAACA CTGAGCAAGA TCCCACAAGA AACTGCATCA 
    GAAAAAATAA CAATCAGTAG CACCACTAAA CTAGAGCAGA TTAAATTAAT GCCTCCAGCC 
    CCAAATGATG ACTTGGCAAC GCTGAGTGAG CTCACAGACA GCAGTCTGTT GTATGAAATT 
    CAAAAGAGGT TCAACAATAA TCAAATATAT ACTTACATTG GAAATATTCT TCTGCTTGTT 
    AATCCATACA AGAACCTGCC TATATACTCA GCCCTGGTTA CCCAATTATA CAACAATAAC 
    TCTGGAAGAT TATGTTCCTC TCTTCCCCCA CACATTTTTG CTTGTTCTGA GAGAGCTTAC 
    CATATGCTTT TCCAAGAGAG ACGATCCCAG TGTTTTATCT TAAGTGGAGA AAGTGGTTCT 
    GGGAAGACAG AATCTTGTAA GCACATAGTT AAACATTTGG CCTTCAGGTG TGGATCCAGC 
    AAAAATTCAC TTTATTCAAA GATTAAACAC GTAAACTGCA TTTTAGAGGC TTTTGGACAT 
    GCCAGAACAT CAATTAATAA TTCTTCTAGC CGTTTCATAA ATTTCCTTGA GCTACAATTT 
    TGTGAAAAGA AACAAACTCT GTCAGGAGCC AGAGTGTACA CATATATGCT GGAGAAGTCC 
    CGTCTCCTTA GTACCCCCNC AGGACAAAGC AATTTCCTTA TTTTCTATAT TATGATGGAT 
    GGATTATCTG CTGAAGAAAA GTACAGCTTA TACCTCAAGA GTTTATCTGC ACATAGGTAT 
    CTGAACCAGA ATGTACCAGA GGATACAATA TCACTATCAG CAAGTACTCA GAATAGAGAG 
    AAATTAGATA ACTTGAAACA AGCCCTAATT GCTCTGGGAT ATAACAACCT TGAGATTGAG 
    AACCTGTTTG TTATCCTCTC TGCTATTTTG CACATTGGAG ATATACGGTT TACAGCCCTG 
    ACAGATGCTG AAACAGCTTT TGTATCTGAC CTGCAGCTCA TTGAGCAAGT TGCAGGAATG 
    CTGCAGGTGT CTCCCGATGA GCTGTCTGCT GCCTTAACAA CAGAAGTTCA ATACTTCAAA 
    GGAGACATGA TAACTCGCAG ACATTCTGTG GATACAGCTG AATTTTACCG AGACCTTCTG 
    GCAAAGTCAT TGTATTGTCG TTTATTTAGT TTTCTAGTGA ACAACATCAA CTACTACCTC 
    CAACAACAAA GTGATCAAAC CAGTTACCCA CCACTGACTG TTGGAATATT GGATATATTT 
    GGCTTTGAAG ATTTTCAGAA AAATTCCTTT GAACAGTTGT GCATTAATCT GACCAACGAA 
    AAGATCCACC AGCATATAAC CGAAGTGTTA TTTTTCCAAG AGCAAACAGA ATGTGCACAA 
    GAGGGGATTT CCATGGAAAC CATATATTGC CTTGGCAACC ATACAACAGT GCTGGATTTT 
    TTTTTCCAGA AACCAATGGG ATTCATGTCG GTGCTAGATG AGGAAAGCCA GTCTATTCAC 
    ACAATGGAGC ACAGTCTCTC CAAACGTCTC CAGTCGCTTT TAGAAACATC AAATACAAAT 
    GCCATATATT TCTCTTCAAA AGATGGAAAT GGCAATGTCA CATCCAAGGA CCATGGCCCT 
    ACTTTTGCAG TTATGCATTA TGCAGGAAGG GTCACTTACA ATATATTCGG AGCAACTGAG 
    AAAAACAAAG ATGTACTGTC TCAGAATCTT CTTTTCGTCA TGAAAACCAG TGAAAACCTA 
    GTGATCAATA AAATGTTCCA GTCCAAACTG ACTCAGACAG GATCACTGAT TCCTCCTTAT 
    CCTCCACTCA AACTTAGAGG ACCAAAAGCA GCCTTACTTT TTAAAAAAAA TTCCGCTTCT 
    AGTGGTGAAA CAAAAAAGAT CCTGGAACTT GGTAAGTTGA TTAAAAAGAA AGGATCCTAT 
    TCATTTCTTC AGAAGCTAGA AAGAGGCGGA CCAACCACTG TGAGCATACA ACTCAGGAAA 
    TCTTTTACGG AGATCATTGG CAAGGTTCAG AGCAGTACGC CACATCTTAT GCATTGTATC 
    AAGCCTAACA GTACTAAGCT TGCTGAAACA TTTGATAACT TTTATGTGTC TGCACAACTA 
    CAGTATATTG GAGTACTGGA AATGGTCAAA ATAATTCGCT ATGGTTATCC AATACGCCTT 
    GCTTTTTCCG ACTTCTTGTC CAGGTACAAA AACTTGGTTG AAATCTTAGC ATGGGAAAAA 
    CAGAAGACAT CAGCTGAAGA GAAATGTCGC CATGTTCTTC TACAATGCAA ACAACAAGGG 
    TGGCAGATGG GTACAAGAAA AGTATTTCTG AAATATTGGC AAGCTGACCA ACTCAGTGAC 
    ATGTGCCTTC AGTTACAGAA AAAGATTATA CTTTGCCAGA AAGTTATAAG AAGATTTCTA 
    GCCCGGCAGC ATTTGCAGAA GAAATTGGAC ACTAAAGAGA ATGAGGATAC CTTTATAAAA 
    GACTTCATTC AAACCATAGA AAACATGGGA CAGCAATCTT ACCATTCTTT GGTAATCCAG 
    AATGCATCTG ACATTGCTCG AGAAAAAGTA GCACTTCAGA TTGAATCCAA CACTGCCTAT 
    AGTGCCATGG AATCCATTTG TAATAAAGAA GAGATGTTGA AGAGTACTGA AGACAGTGAT 
    TTAAAGCCAA CTGGAAACAT TTTTGTTGGA TGTCGTATTT CAACTCTCTG CCAGCCTGGT 
    TCTATTACAG TCCCTATAAA TCCTGTGTCT TCCTCAGCTA TTAGATCTCT TTCATTGCAC 
    TCTGTCTTGA GCATGGATGA TGGAAACTGC CTCCAGTCTC CTCGGAAACA GCCTCCTCCA 
    AAACCAAAAA GAAATCCCAC TACCAGACTA AGTGCTTCTT ACGAAGCAGT GAGTGCGTGC 
    CTTTTTGCAG CTTCTGTGGA CATAGATAAT GAAGCTCTTT CTCGACCTAG ACCTCATAGT 
    GATGATTACA GCACAATGAA AAAAATTCCA CCACCTAAGC CAAAAAGAAG TCCTAACACA 
    AAGCTTAGCA GCTCATTTGA GGAGATATCA GCTCATAACT CAGGAGAATT GAATACTTTC 
    AGTACCATTG TCAGGAAGGT GCATCGTGAT ATTGGTACTA TACAAAGGGC AGCCTCTGCA 
    GATGGTCCTC ACCATGGGAT TTTGACTTTG TGTATGTCAG AAGAAGAAGA TGAAGCTGAG 
    CCAGTGTACA TTGAAATGGC TGGCACTGCT GGGAAGTGTC ACTTCATAGA AAGAAGCAGC 
    CCAGAACAAG GAGAGGCTGT GTATGAAGAA ATGAAATACC ATCATCCTGA TCATATTAAT 
    ATTAATAATC TAGCAATGGG TAGCTCATTG CTACAGAACA TGAACCTAGC AACATTTGAG 
    AACCTAGATG CTGATATAAA AAATGAGCAA TGTTCTAAAG AAAGTTGTGA TATCCCTGCT 
    CCGTTTCCCA ATCTCCTTCC TCATCGCCCT CCTCTTCTGG TTTTTCCACC AGCTACAGTT 
    ACTTCCTCTC CTGCCTCTGA TGAATCTCCA CTAACACCAC TTGAAATGAT AAAACTCCCT 
    GTGCTTGAAA CAAACATAAA CTACACTATA CAAACAGATA TGTCAAGTCC CATCTCATCT 
    CAATGTTTAA AGCACCAAAG AGACAATGAA AGACCATCAT CACCTGCATT ATCTGTATTT 
    AGTGTTTCAA GCAAAGTTTC TCCACCTTGC ACTCCACCTC TTCCCCAGAC ACCAACCTCC 
    TTCCAGTTTC CAACACATTT TAGTTTTCCT ATGGAGAGTT CCTATGCATT GCTTGTAGGG 
    AAGAACTTAA AGACAACCAA TGCAGATTCT GTAAAAATTG CTCCAAAATC AAATGCAGTT 
    ATAACAGAAG AATCTTGTGG TTCATTGACT AAACTGACTT TCTCTTCTCC AATAAAAAAT 
    GCAAGGACAA TGCAGAACAA ATCCCATTTA GGTTCCCCTT CATTAGCAAC AAGTCTTACT 
    AATATTAGCC ATATAACAAG TCCACTTGAT GAATTAACTA CTTTATTCAG TTCAGGAAGA 
    AGTCTCCTGA GAAAATCTGC TGCTGGTAGA AAAATACGAG AGCAAGAAGG TGTTGAAATG 
    AATTTGAATG TATGTGGTGG TGAGGATGTT GCAATGCCTG ATACCCAAGA TAACAATGCA 
    AATAATCAAG ATAATCGAGG ACCAAATTCA AGATCTAGTT GTGCAGCCTT TGAGAATGGA 
    AATTCTGTTA CTAATGGTAT GGCTGAAGAA GACCTGAACT GCAAGTTACA AAACACCATA 
    AGTACAAGTT CTTCAACAAA GAATAAAGAG CAACACAGCA ATCAGGTTAT TCATCAGTTA 
    CGTTTATCAA AGAATGAAAG CGCTGCATTA CAAGAACTAA TGGACTGGAG AAGAAAACTT 
    TGTGAAGGGA ATGGAGAGTG GCAAACTGAA CAGAGAAATT CTGCTTCTAC TCACTCATCG 
    TAG

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

    myo16 ( XM_031897042.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031752902.1 Xenopus tropicalis myosin XVI (myo16), mRNA.
    Price & Availability↑
    CloneID OXa52524
    Clone ID Related Accession (Same CDS sequence) XM_031897042.1
    Accession Version XM_031897042.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5589bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product unconventional myosin-XVI
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGTCTCACT ATCATTTTAT CAAATGCTGC TGTTTTCAGC TTTGTAATGT TTTCCGATCA 
    CATGACATGG AAATTGACCA GTGTTTGCTG GAGTCCCTAC CTTTGGGGCA GCGTCAGCGG 
    CTGGTAAGGC GTATGCGCTG TGATCAAATT AAGGCATATT ACGAAAGAGA AAAGGCTCTA 
    CAAAAACAAG ATGGATACAA AAGAAGAAGC AAGCAAAGAA AAAATTGCAA AGTGCATTTT 
    CCATTGTCTG AGAAAATACA AGATGCAATC ATTCACCATA ATGACAAAGA AGTTCTACAG 
    TTATTAAAGG ATGGGGCTGA CCCTCATATT CTTATTACTT CTGGAGGATG TCTTCTACAT 
    CTGTGCGCAC GATATGATAA TGCTTTTGCT GCAGAAATTT TAATTGACAG AGGAGTTCAT 
    GTAAATCACC AAGATGAGGA GCTTTGGACC CCAATGCATG TTGCTTGTGC ATGTGATAAT 
    CCTGATATTG TTCTTCTGCT GCTTCTTTCG GGGGCTAACG TACTACTACA GGATATTAAT 
    GGCAACATTG CTCTTGACTA TGCTGTTGAA GGAACAGAAT CCCGAAGTAT ACTTTTGGCT 
    TATTTGGAAG AAAATGGTAT TGATCTTTCA TCGCTGCGTC AGATGAGGAT GCAGAGAGCA 
    ATGGTTATGT TATCAGATAT TAAGCAATTA GTAGCTACAG GTGGAAGTGT GAGTGAGAAG 
    AATGATGAAG GTGTAACTCT TCTTCATATA GCATGTGCTT GTGGCTACAA AGATGTTACA 
    TGCCAGTTGC TAGAAAATGG TGCTGATCCA GATTCCACTG ATGATCATTA CTGGACTCCT 
    CTTCATTTAG CTGCAAAATA TGGACAGACA AGCCTTGTAA AAATCCTTCT GGCTCATCAA 
    GCAAATCCTA ACATGTTAAA TTGCAATGAA GATAAGCCAT CAGATGTTGC TGTTACAGAA 
    GGTATTCAAG ACATGCTGCT CAAAGCTGAA CATCTTGCTG ATGAAAGAAA GAAAAATGGA 
    ACACCCTTAT GCACAGAATT CCAAGAAGAG CCATATGAGG AGATTGCACA TGATATTCCT 
    CTCGCTGCTA ATAAACTACG TCCTTTGGCT TTACCAATTT CAAAACAGGA TAGTTTTCTG 
    GAAAAAGACA CAATGTTCAA AGATTCGGGG AAAACACTGA GCAAGATCCC ACAAGAAACT 
    GCATCAGAAA AAATAACAAT CAGTAGCACC ACTAAACTAG AGCAGATTAA ATTAATGCCT 
    CCAGCCCCAA ATGATGACTT GGCAACGCTG AGTGAGCTCA CAGACAGCAG TCTGTTGTAT 
    GAAATTCAAA AGAGGTTCAA CAATAATCAA ATATATACTT ACATTGGAAA TATTCTTCTG 
    CTTGTTAATC CATACAAGAA CCTGCCTATA TACTCAGCCC TGGTTACCCA ATTATACAAC 
    AATAACTCTG GAAGATTATG TTCCTCTCTT CCCCCACACA TTTTTGCTTG TTCTGAGAGA 
    GCTTACCATA TGCTTTTCCA AGAGAGACGA TCCCAGTGTT TTATCTTAAG TGGAGAAAGT 
    GGTTCTGGGA AGACAGAATC TTGTAAGCAC ATAGTTAAAC ATTTGGCCTT CAGGTGTGGA 
    TCCAGCAAAA ATTCACTTTA TTCAAAGATT AAACACGTAA ACTGCATTTT AGAGGCTTTT 
    GGACATGCCA GAACATCAAT TAATAATTCT TCTAGCCGTT TCATAAATTT CCTTGAGCTA 
    CAATTTTGTG AAAAGAAACA AACTCTGTCA GGAGCCAGAG TGTACACATA TATGCTGGAG 
    AAGTCCCGTC TCCTTAGTTA CCCCCCAGGA CAAAGCAATT TCCTTATTTT CTATTTTATG 
    ATGGATGGAT TATCTGCTGA AGAAAAGTAC AGCTTATACC TCAAGAGTTT ATCTGCACAT 
    AGGTATCTGA ACCAGAATGT ACCAGAGGAT ACAATATCAC TATCAGCAAG TACTCAGAAT 
    AGAGAGAAAT TAGATAACTT GAAACAAGCC CTAATTGCTC TGGGATATAA CAACCTTGAG 
    ATTGAGAACC TGTTTGTTAT CCTCTCTGCT ATTTTGCACA TTGGAGATAT ACGGTTTACA 
    GCCCTGACAG ATGCTGAAAC AGCTTTTGTA TCTGACCTGC AGCTCATTGA GCAAGTTGCA 
    GGAATGCTGC AGGTGTCTCC CGATGAGCTG TCTGCTGCCT TAACAACAGA AGTTCAATAC 
    TTCAAAGGAG ACATGATAAC TCGCAGACAT TCTGTGGATA CAGCTGAATT TTACCGAGAC 
    CTTCTGGCAA AGTCATTGTA TTGTCGTTTA TTTAGTTTTC TAGTGAACAA CATCAACTAC 
    TACCTCCAAC AACAAAGTGA TCAAACCAGT TACCCACCAC TGACTGTTGG AATATTGGAT 
    ATATTTGGCT TTGAAGATTT TCAGAAAAAT TCCTTTGAAC AGTTGTGCAT TAATCTGACC 
    AACGAAAAGA TCCACCAGCA TATAACCGAA GTGTTATTTT TCCAAGAGCA AACAGAATGT 
    GCACAAGAGG GGATTTCCAT GGAAACCATA TATTGCCTTG GCAACCATAC AACAGTGCTG 
    GATTTTTTTT TCCAGAAACC AATGGGATTC ATGTCGGTGC TAGATGAGGA AAGCCAGTCT 
    ATTCACACAA TGGAGCACAG TCTCTCCAAA CGTCTCCAGT CGCTTTTAGA AACATCAAAT 
    ACAAATGCCA TATATTTCTC TTCAAAAGAT GGAAATGGCA ATGTCACATC CAAGGACCAT 
    GGCCCTACTT TTGCAGTTAT GCATTATGCA GGAAGGGTCA CTTACAATAT ATTCGGAGCA 
    ACTGAGAAAA ACAAAGATGT ACTGTCTCAG AATCTTCTTT TCGTCATGAA AACCAGTGAA 
    AACCTAGTGA TCAATCAAAT GTTCCAGTCC AAACTGACTC AGACAGGATC ACTGATTCCT 
    CCTTATCCTC CACTCAAACT TAGAGGACCA AAAGCAGCCT TACTTTTTAA AAAAAATTCC 
    GCTTCTAGTG GTGAAACAAA AAAGATCCTG GAACTTGGTA AGTTGATTAA AAAGAAAGGA 
    TCCTATTCAT TTCTTCAGAA GCTAGAAAGA GGCGGACCAA CCACTGTGAG CATACAACTC 
    AGGAAATCTT TTACGGAGAT CATTGGCAAG GTTCAGAGCA GTACGCCACA TCTTATGCAT 
    TGTATCAAGC CTAACAGTAC TAAGCTTGCT GAAACATTTG ATAACTTTTA TGTGTCTGCA 
    CAACTACAGT ATATTGGAGT ACTGGAAATG GTCAAAATAA TTCGCTATGG TTATCCAATA 
    CGTCTTGCTT TTTCCGACTT CTTGTCCAGG TACAAAAACT TGGTTGAAAT CTTAGCATGG 
    GAAAAACAGA AGACATCAGC TGAAGAGAAA TGTCGCCATG TTCTTCTACA ATGCAAACAA 
    CAAGGGTGGC AGATGGGTAC AAGAAAAGTA TTTCTGAAAT ATTGGCAAGC TGACCAACTC 
    AGTGACATGT GCCTTCAGTT ACAGAAAAAG ATTATACTTT GCCAGAAAGT TATAAGAAGA 
    TTTCTAGCCC GGCAGCATTT GCAGAAGAAA TTGGACACTA AAGAGAATGA GGATACCTTT 
    ATAAAAGACT TCATTCAAAC CATAGAAAAC ATGGGACAGC AATCTTACCA TTCTTTGGTA 
    ATCCAGAATG CATCTGACAT TGCTCGAGAA AAAGTAGCAC TTCAGATTGA ATCCAACACT 
    GCCTATAGTG CCATGGAATC CATTTGTAAT AAAGAAGAGA TGTTGAAGAG TACTGAAGAC 
    AGTGATTTAA AGCCAACTGG AAACATTTTT GTTGGATGTC GTATTTCAAC TCTCTGCCAG 
    CCTGGTTCTA TTACAGTCCC TATAAATCCT GTGTCTTCCT CAGCTATTAG ATCTCTTTCA 
    TTGCACTCTG TCTTGAGCAT GGATGATGGA AACTGCCTCC AGTCTCCTCG GAAACAGCCT 
    CCTCCAAAAC CAAAAAGAAA TCCCACTACC AGACTAAGTG CTTCTTACGA AGCAGTGAGT 
    GCGTGCCTTT TTGCAGCTTC TGTGGACATA GATAATGAAG CTCTTTCTCG ACCTAGACCT 
    CATAGTGATG ATTACAGCAC AATGAAAAAA ATTCCACCAC CTAAGCCAAA AAGAAGTCCT 
    AACACAAAGC TTAGCAGCTC ATTTGAGGAG ATATCAGCTC ATAACTCAGG AGAATTGAAT 
    ACTTTCAGTA CCATTGTCAG GAAGGTGCAT CGTGATATTG GTACTATACA AAGGGCAGCC 
    TCTGCAGATG GTCCTCACCA TGGGATTTTG ACTTTGTGTA TGTCAGAAGA AGAAGATGAA 
    GCTGAGCCAG TGTACATTGA AATGGCTGGC ACTGCTGGGA AGTGTCACTT CATAGAAAGA 
    AGCAGCCCAG AACAAGGAGA GGCTGTGTAT GAAGAAATGA AATACCATCA TCCTGATCAT 
    ATTAATATTA ATAATCTAGC AATGGGTAGC TCATTGCTAC AGAACATGAA CCTAGCAACA 
    TTTGAGAACC TAGATGCTGA TATAAAAAAT GAGCAATGTT CTAAAGAAAG TTGTGATATC 
    CCTGCTCCGT TTCCCAATCT CCTTCCTCAT CGCCCTCCTC TTCTGGTTTT TCCACCAGCT 
    ACAGTTACTT CCTCTCCTGC CTCTGATGAA TCTCCACTAA CACCACTTGA AATGATAAAA 
    CTCCCTGTGC TTGAAACAAA CATAAACTAC ACTATACAAA CAGATATGTC AAGTCCCATC 
    TCATCTCAAT GTTTAAAGCA CCAAAGAGAC AATGAAAGAC CATCATCACC TGCATTATCT 
    GTATTTAGTG TTTCAAGCAA AGTTTCTCCA CCTTGCACTC CACCTCTTCC CCAGACACCA 
    ACCTCCTTCC AGTTTCCAAC ACATTTTAGT TTTCCTATGG AGAGTTCCTA TGCATTGCTT 
    GTAGGGAAGA ACTTAAAGAC AACCAATGCA GATTCTGTAA AAATTGCTCC AAAATCAAAT 
    GCAGTTATAA CAGAAGAATC TTGTGGTTCA TTGACTAAAC TGACTTTCTC TTCTCCAATA 
    AAAAATGCAA GGACAATGCA GAACAAATCC CATTTAGGTT CCCCTTCATT AGCAACAAGT 
    CTTACTAATA TTAGCCATAT AACAAGTCCA CTTGATGAAT TAACTACTTT ATTCAGTTCA 
    GGAAGAAGTC TCCTGAGAAA ATCTGCTGCT GGTAGAAAAA TACGAGAGCA AGAAGGTGTT 
    GAAATGAATT TGAATGTATG TGGTGGTGAG GATGTTGCAA TGCCTGATAC CCAAGATAAC 
    AATGCAAATA ATCAAGATAA TCGAGGACCA AATTCAAGAT CTAGTTGTGC AGCCTTTGAG 
    AATGGAAATT CTGTTACTAA TGGTATGGCT GAAGAAGACC TGAACTGCAA GTTACAAAAC 
    ACCATAAGTA CAAGTTCTTC AACAAAGAAT AAAGAGCAAC ACAGCAATCA GGTTATTCAT 
    CAGTTACGTT TATCAAAGAA TGAAAGCGCT GCATTACAAG AACTAATGGA CTGGAGAAGA 
    AAACTTTGTG AAGGGAATGG AGAGTGGCAA ACTGAACAGA GAAATTCTGC TTCTACTCAC 
    TCATCGTAG

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

    RefSeq XP_031752902.1
    CDS395..5983
    Translation

    Target ORF information:

    RefSeq Version XM_031897042.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis myosin XVI (myo16), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031897042.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGTCTCACT ATCATTTTAT CAAATGCTGC TGTTTTCAGC TTTGTAATGT TTTCCGATCA 
    CATGACATGG AAATTGACCA GTGTTTGCTG GAGTCCCTAC CTTTGGGGCA GCGTCAGCGG 
    CTGGTAAGGC GTATGCGCTG TGATCAAATT AAGGCATATT ACGAAAGAGA AAAGGCTCTA 
    CAAAAACAAG ATGGATACAA AAGAAGAAGC AAGCAAAGAA AAAATTGCAA AGTGCATTTT 
    CCATTGTCTG AGAAAATACA AGATGCAATC ATTCACCATA ATGACAAAGA AGTTCTACAG 
    TTATTAAAGG ATGGGGCTGA CCCTCATATT CTTATTACTT CTGGAGGATG TCTTCTACAT 
    CTGTGCGCAC GATATGATAA TGCTTTTGCT GCAGAAATTT TAATTGACAG AGGAGTTCAT 
    GTAAATCACC AAGATGAGGA GCTTTGGACC CCAATGCATG TTGCTTGTGC ATGTGATAAT 
    CCTGATATTG TTCTTCTGCT GCTTCTTTCG GGGGCTAACG TACTACTACA GGATATTAAT 
    GGCAACATTG CTCTTGACTA TGCTGTTGAA GGAACAGAAT CCCGAAGTAT ACTTTTGGCT 
    TATTTGGAAG AAAATGGTAT TGATCTTTCA TCGCTGCGTC AGATGAGGAT GCAGAGAGCA 
    ATGGTTATGT TATCAGATAT TAAGCAATTA GTAGCTACAG GTGGAAGTGT GAGTGAGAAG 
    AATGATGAAG GTGTAACTCT TCTTCATATA GCATGTGCTT GTGGCTACAA AGATGTTACA 
    TGCCAGTTGC TAGAAAATGG TGCTGATCCA GATTCCACTG ATGATCATTA CTGGACTCCT 
    CTTCATTTAG CTGCAAAATA TGGACAGACA AGCCTTGTAA AAATCCTTCT GGCTCATCAA 
    GCAAATCCTA ACATGTTAAA TTGCAATGAA GATAAGCCAT CAGATGTTGC TGTTACAGAA 
    GGTATTCAAG ACATGCTGCT CAAAGCTGAA CATCTTGCTG ATGAAAGAAA GAAAAATGGA 
    ACACCCTTAT GCACAGAATT CCAAGAAGAG CCATATGAGG AGATTGCACA TGATATTCCT 
    CTCGCTGCTA ATAAACTACG TCCTTTGGCT TTACCAATTT CAAAACAGGA TAGTTTTCTG 
    GAAAAAGACA CAATGTTCAA AGATTCGGGG AAAACACTGA GCAAGATCCC ACAAGAAACT 
    GCATCAGAAA AAATAACAAT CAGTAGCACC ACTAAACTAG AGCAGATTAA ATTAATGCCT 
    CCAGCCCCAA ATGATGACTT GGCAACGCTG AGTGAGCTCA CAGACAGCAG TCTGTTGTAT 
    GAAATTCAAA AGAGGTTCAA CAATAATCAA ATATATACTT ACATTGGAAA TATTCTTCTG 
    CTTGTTAATC CATACAAGAA CCTGCCTATA TACTCAGCCC TGGTTACCCA ATTATACAAC 
    AATAACTCTG GAAGATTATG TTCCTCTCTT CCCCCACACA TTTTTGCTTG TTCTGAGAGA 
    GCTTACCATA TGCTTTTCCA AGAGAGACGA TCCCAGTGTT TTATCTTAAG TGGAGAAAGT 
    GGTTCTGGGA AGACAGAATC TTGTAAGCAC ATAGTTAAAC ATTTGGCCTT CAGGTGTGGA 
    TCCAGCAAAA ATTCACTTTA TTCAAAGATT AAACACGTAA ACTGCATTTT AGAGGCTTTT 
    GGACATGCCA GAACATCAAT TAATAATTCT TCTAGCCGTT TCATAAATTT CCTTGAGCTA 
    CAATTTTGTG AAAAGAAACA AACTCTGTCA GGAGCCAGAG TGTACACATA TATGCTGGAG 
    AAGTCCCGTC TCCTTAGTTA CCCCCCAGGA CAAAGCAATT TCCTTATTTT CTATTTTATG 
    ATGGATGGAT TATCTGCTGA AGAAAAGTAC AGCTTATACC TCAAGAGTTT ATCTGCACAT 
    AGGTATCTGA ACCAGAATGT ACCAGAGGAT ACAATATCAC TATCAGCAAG TACTCAGAAT 
    AGAGAGAAAT TAGATAACTT GAAACAAGCC CTAATTGCTC TGGGATATAA CAACCTTGAG 
    ATTGAGAACC TGTTTGTTAT CCTCTCTGCT ATTTTGCACA TTGGAGATAT ACGGTTTACA 
    GCCCTGACAG ATGCTGAAAC AGCTTTTGTA TCTGACCTGC AGCTCATTGA GCAAGTTGCA 
    GGAATGCTGC AGGTGTCTCC CGATGAGCTG TCTGCTGCCT TAACAACAGA AGTTCAATAC 
    TTCAAAGGAG ACATGATAAC TCGCAGACAT TCTGTGGATA CAGCTGAATT TTACCGAGAC 
    CTTCTGGCAA AGTCATTGTA TTGTCGTTTA TTTAGTTTTC TAGTGAACAA CATCAACTAC 
    TACCTCCAAC AACAAAGTGA TCAAACCAGT TACCCACCAC TGACTGTTGG AATATTGGAT 
    ATATTTGGCT TTGAAGATTT TCAGAAAAAT TCCTTTGAAC AGTTGTGCAT TAATCTGACC 
    AACGAAAAGA TCCACCAGCA TATAACCGAA GTGTTATTTT TCCAAGAGCA AACAGAATGT 
    GCACAAGAGG GGATTTCCAT GGAAACCATA TATTGCCTTG GCAACCATAC AACAGTGCTG 
    GATTTTTTTT TCCAGAAACC AATGGGATTC ATGTCGGTGC TAGATGAGGA AAGCCAGTCT 
    ATTCACACAA TGGAGCACAG TCTCTCCAAA CGTCTCCAGT CGCTTTTAGA AACATCAAAT 
    ACAAATGCCA TATATTTCTC TTCAAAAGAT GGAAATGGCA ATGTCACATC CAAGGACCAT 
    GGCCCTACTT TTGCAGTTAT GCATTATGCA GGAAGGGTCA CTTACAATAT ATTCGGAGCA 
    ACTGAGAAAA ACAAAGATGT ACTGTCTCAG AATCTTCTTT TCGTCATGAA AACCAGTGAA 
    AACCTAGTGA TCAATCAAAT GTTCCAGTCC AAACTGACTC AGACAGGATC ACTGATTCCT 
    CCTTATCCTC CACTCAAACT TAGAGGACCA AAAGCAGCCT TACTTTTTAA AAAAAATTCC 
    GCTTCTAGTG GTGAAACAAA AAAGATCCTG GAACTTGGTA AGTTGATTAA AAAGAAAGGA 
    TCCTATTCAT TTCTTCAGAA GCTAGAAAGA GGCGGACCAA CCACTGTGAG CATACAACTC 
    AGGAAATCTT TTACGGAGAT CATTGGCAAG GTTCAGAGCA GTACGCCACA TCTTATGCAT 
    TGTATCAAGC CTAACAGTAC TAAGCTTGCT GAAACATTTG ATAACTTTTA TGTGTCTGCA 
    CAACTACAGT ATATTGGAGT ACTGGAAATG GTCAAAATAA TTCGCTATGG TTATCCAATA 
    CGTCTTGCTT TTTCCGACTT CTTGTCCAGG TACAAAAACT TGGTTGAAAT CTTAGCATGG 
    GAAAAACAGA AGACATCAGC TGAAGAGAAA TGTCGCCATG TTCTTCTACA ATGCAAACAA 
    CAAGGGTGGC AGATGGGTAC AAGAAAAGTA TTTCTGAAAT ATTGGCAAGC TGACCAACTC 
    AGTGACATGT GCCTTCAGTT ACAGAAAAAG ATTATACTTT GCCAGAAAGT TATAAGAAGA 
    TTTCTAGCCC GGCAGCATTT GCAGAAGAAA TTGGACACTA AAGAGAATGA GGATACCTTT 
    ATAAAAGACT TCATTCAAAC CATAGAAAAC ATGGGACAGC AATCTTACCA TTCTTTGGTA 
    ATCCAGAATG CATCTGACAT TGCTCGAGAA AAAGTAGCAC TTCAGATTGA ATCCAACACT 
    GCCTATAGTG CCATGGAATC CATTTGTAAT AAAGAAGAGA TGTTGAAGAG TACTGAAGAC 
    AGTGATTTAA AGCCAACTGG AAACATTTTT GTTGGATGTC GTATTTCAAC TCTCTGCCAG 
    CCTGGTTCTA TTACAGTCCC TATAAATCCT GTGTCTTCCT CAGCTATTAG ATCTCTTTCA 
    TTGCACTCTG TCTTGAGCAT GGATGATGGA AACTGCCTCC AGTCTCCTCG GAAACAGCCT 
    CCTCCAAAAC CAAAAAGAAA TCCCACTACC AGACTAAGTG CTTCTTACGA AGCAGTGAGT 
    GCGTGCCTTT TTGCAGCTTC TGTGGACATA GATAATGAAG CTCTTTCTCG ACCTAGACCT 
    CATAGTGATG ATTACAGCAC AATGAAAAAA ATTCCACCAC CTAAGCCAAA AAGAAGTCCT 
    AACACAAAGC TTAGCAGCTC ATTTGAGGAG ATATCAGCTC ATAACTCAGG AGAATTGAAT 
    ACTTTCAGTA CCATTGTCAG GAAGGTGCAT CGTGATATTG GTACTATACA AAGGGCAGCC 
    TCTGCAGATG GTCCTCACCA TGGGATTTTG ACTTTGTGTA TGTCAGAAGA AGAAGATGAA 
    GCTGAGCCAG TGTACATTGA AATGGCTGGC ACTGCTGGGA AGTGTCACTT CATAGAAAGA 
    AGCAGCCCAG AACAAGGAGA GGCTGTGTAT GAAGAAATGA AATACCATCA TCCTGATCAT 
    ATTAATATTA ATAATCTAGC AATGGGTAGC TCATTGCTAC AGAACATGAA CCTAGCAACA 
    TTTGAGAACC TAGATGCTGA TATAAAAAAT GAGCAATGTT CTAAAGAAAG TTGTGATATC 
    CCTGCTCCGT TTCCCAATCT CCTTCCTCAT CGCCCTCCTC TTCTGGTTTT TCCACCAGCT 
    ACAGTTACTT CCTCTCCTGC CTCTGATGAA TCTCCACTAA CACCACTTGA AATGATAAAA 
    CTCCCTGTGC TTGAAACAAA CATAAACTAC ACTATACAAA CAGATATGTC AAGTCCCATC 
    TCATCTCAAT GTTTAAAGCA CCAAAGAGAC AATGAAAGAC CATCATCACC TGCATTATCT 
    GTATTTAGTG TTTCAAGCAA AGTTTCTCCA CCTTGCACTC CACCTCTTCC CCAGACACCA 
    ACCTCCTTCC AGTTTCCAAC ACATTTTAGT TTTCCTATGG AGAGTTCCTA TGCATTGCTT 
    GTAGGGAAGA ACTTAAAGAC AACCAATGCA GATTCTGTAA AAATTGCTCC AAAATCAAAT 
    GCAGTTATAA CAGAAGAATC TTGTGGTTCA TTGACTAAAC TGACTTTCTC TTCTCCAATA 
    AAAAATGCAA GGACAATGCA GAACAAATCC CATTTAGGTT CCCCTTCATT AGCAACAAGT 
    CTTACTAATA TTAGCCATAT AACAAGTCCA CTTGATGAAT TAACTACTTT ATTCAGTTCA 
    GGAAGAAGTC TCCTGAGAAA ATCTGCTGCT GGTAGAAAAA TACGAGAGCA AGAAGGTGTT 
    GAAATGAATT TGAATGTATG TGGTGGTGAG GATGTTGCAA TGCCTGATAC CCAAGATAAC 
    AATGCAAATA ATCAAGATAA TCGAGGACCA AATTCAAGAT CTAGTTGTGC AGCCTTTGAG 
    AATGGAAATT CTGTTACTAA TGGTATGGCT GAAGAAGACC TGAACTGCAA GTTACAAAAC 
    ACCATAAGTA CAAGTTCTTC AACAAAGAAT AAAGAGCAAC ACAGCAATCA GGTTATTCAT 
    CAGTTACGTT TATCAAAGAA TGAAAGCGCT GCATTACAAG AACTAATGGA CTGGAGAAGA 
    AAACTTTGTG AAGGGAATGG AGAGTGGCAA ACTGAACAGA GAAATTCTGC TTCTACTCAC 
    TCATCGTAG

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

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