LOC100496327 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC100496327 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100496327 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
OXa55016 XM_002938880.4
Latest version!
Xenopus tropicalis rho-associated protein kinase 1 (LOC100496327), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa55017 XM_012966921.2
Latest version!
Xenopus tropicalis rho-associated protein kinase 1 (LOC100496327), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa55018 XM_031899137.1
Latest version!
Xenopus tropicalis rho-associated protein kinase 1 (LOC100496327), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa13783 XM_002938880.3
Latest version!
Xenopus tropicalis myosin-11-like (LOC100496327), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa36524 XM_012966921.1
Latest version!
Xenopus tropicalis myosin-11-like (LOC100496327), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00

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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)
    CloneID OXa55016
    Clone ID Related Accession (Same CDS sequence) XM_002938880.4
    Accession Version XM_002938880.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    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 myosin-11 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002938880.3. ##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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGAAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCG TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTAAAGT ATCAGAAGAC TCCAATGGAC TTAAAGGAAA ATGATGAACT AAGTCGAGAA
    CTAAGAACTG CACGTGAGAA TCTACTCTAC CTTCGAAATC GAGTCAAAGT CCTGGACGCA
    GAGAAGACTC AATCTGTTGA GGAACTAAGG ATATTGAGAG AGGGGAGTCA GCAGGCCTTT
    AGCCAAACCA ATGATGCAAA CCAGAGGGTA ACAGACACAC TCCGGGCTCA AAAAGATCTG
    CAAGAAGAGC TGGCAAATCT GCAACTGAAC CTAAACACTA CCAGTCTGGA GAAGGAGCTC
    GTGTCCTCAA AGATTATGAG ATTGGAGGAA AAGGTTAAAG ATCTGAATTT AAGGCTAAAT
    ATTGCACATT CTGACAGGGA ACGGGTTCTG CAGGACAAGG TGGAGCTGAC TAGGCGAAAT
    CAGGAATTGT CTCTCGAACT AGAACGGGCT CAGAGGGGTC AGGAGGGGTT TAATGACCAG
    GTCAGTGACC TTCACATTGA GCTGGTAGGA GCTAAAGCCC AGTCAAACCG TCAGGACCAG
    GAGAAGGTTC AGATGAAGGA GGAGCTGGTG ATGCTGAAAC AGGTGAATGA GAAACTGACT
    GCTGAACTGG GACAGACACA GCATACACTC CAGCGCACCC TGGATGAACT GCATCAGCTC
    CAGGCAGAAC ACAAGATTTC AACCAACCTT ACAGCTGCCT TGGAGGCAGA ACGTTCCCAG
    CTCTTGGGTG AGAAAGAGCT GCTGATGTCA ACTGTGGAGG AACATGGGGA GAGCCAGAGC
    ATCCAAGAGC TCAGATCTTC TCAGGCGCAG TTAATAGAAG AGAGGGATAA CCTACGTACC
    CATTGCCAGA ACCTGCAGGT TTCACTGGAA CAAGCACATG AACAGCTCGG CTCCCAGATC
    CAGGAGCAGC AGCAGCTCAC TCTGTATTGG AAGGAAAGGT GGCAGCAGAC TGCTGTTAAT
    TTAAAAAGCA CAGAAGAACA ACTGGAACAG GCAAAGGCTC TTTGCTCTAG TACAACAAAT
    AAGCACTCTG AGATCCTCCA AGATTATGAA CTCCTACAAA CAGATGCAGA GGAGCTGGCT
    GAACTCAGGA TGGCTATCAG CAGCCTGAAG AAAGAAAACA GCCTTTTAAA AGAGCAGATA
    AAGGAGCAGG AACAGAACAA GCATCTGCAG TGTCTTCAGA GCCACATCCA GGCTAATGTG
    GACAGCCCAG AGGATATGAA TTCGAAACTT GGCAAGCTGT ATAAAGAATT ACAGCAGGCT
    CACGAAAGGT TAAAATTCTT GGAGAGAGAA AGGTCTGAAA AAGAACTGGA AATAAAAAAA
    CTTAAGGCTG AGAGTGGATC CATACTTCGC ATTGAGCTAG ATGCCTGCAA ACAACAGTTG
    GAATTGGAGA GAAGTCGAAC AGCGACTCTA CAGGCCAAGA TTTCAGTCAT GGATTCCAGA
    AACAAAATGG AGGTTGCAAG TAGTCAGGAT CGTGTAGACA GTTTGCAGAA CCACAGCTTG
    TCCCTTCTAT CAGAAAGGTT AACATCAGAC GAATTGAGTT CTGAGATTGA GAATCTTCGT
    CAGCAGCTAG AAGAGGAGAG AGATGCAAAA AAGAAGAAAG AAGAACTGAT ATTTAATCTA
    AAAGAAGAGC TTGATGATCT CAAGCACAAG AAGCCTGGAG AAATCAAGGC ATCTCTGGAG
    GAAGTGGACT CAGAGCTAAT GTTTGTGCGA GAAGAACTGC AGAAAGTCTG GGAAATGTTG
    AAGACAAAAG ATACAGAACT TGAGGAACAG TATCAGGAGC TGGAGTCTGC TCGAGGCCAG
    TACACAGAGT GCAGCACAGA AAAAATGCGA CTGGAGCAAG TTCTTGCCAC CTTGCAGCAG
    CAGTTGACTG AGAAAGAGCA GACAATGAAA CATCTCAAGC AAATGAGAGA AATGGAGAAA
    ACTGAAATGG ATATTGAGAG GTCCTCATTG CAACTGAAGC TGGCAGAGCT ACAAGGACAA
    AAAGGAGATG TCACAACTCA GGCTGGGCAG CCGATAGAGG AGACTGGGCC TAAATGGTGG
    CGTTCAAAGG GAATGAAGGT TGTAGAGTCA TCAAAGAAAT GTATTCGCTG TGAAGCATTT
    TTGCAACAGT TGGATGAGAC AATCAAGGGT TGCCAGGAAC ACAATGCCGA GTTACAAGAA
    GAGAAGAACC AAACCTTGGC ATCCCTATAC CAGTTACAAG AAGTCCTAAC AAACCTCTCA
    AAACAATCAA AAGTAAATGA ACACGTGGCC CAGAGTCTAC AGGCGGACAA TGACTCTCTG
    AAAAAACAAC ACAGACTGGT GACAGAACAG CTTAAATGTC TGTTCAAAGA GAAAGAATCT
    CTGGGAAAAG CCTACCATAA GCTTCCAAAG AAGGATAAGC CAACGGAGGA CTGGAATGTT
    CAGTCCAGAT TAGTAAAGAA TATGCTGAGT TCTATAAAAA GCCATAAAAA CCAGCAAGAA
    GAGCTAACAG AAGAGGCAGG CCATCAACCA ATGGAATTCG ATGCTGTGCA GATGGAAACT
    AATGAAAGAG ACATGAGGAA CTTGCAAAGA CAGCTTGAGG AAAAGTCTGA GCAGATATTG
    AAAATGGCTT CAGAAATGAA ACTGTTACAA GAAAAAAATG AGTCTTTAAT GAAAGCTAAG
    ATGCGTTTTC AACAACAAGT CCAGCAAATT CGGAGCATGC CACATCTAAG TCATCAAAGA
    GAAAAGACAG ATCCTACTGT ACCACCTCTG TCTGGAGACA TCAACACCTC CTTTCACAAA
    AAGAATGAGT TTTTGGCAGC AGAGAGCCAA GATTGTTCTG GTAGAATGCA GGGAACACCA
    ACTTCATTTC AGAGTGCCTC AGAGGGGTCC TGGACATCAT CACCTCAAAA CTCAAGACCT
    CCAACACCCA TCAACCAAAA GGTTATGCCA TCTGCATCTT TACTGAGAGT TCAGCTTCCT
    GGCACAGTGG GGAAACACTG GGTAAAATCA AAAGTGGAAT CTCCTTTAAG CCCCAGAAGC
    CTAGCAGACA GTGAAGGTAA CAGTGATACT CCAGGGTCAG TTACTCCAAG GACTTCTGCA
    TTGCTGTCTC CCAGACCTTT CCATTCACCA AAATCGGCAC AGGCCTTCAG ATATGGAAAG
    AATGTGCAAC ACACAAACAG CTAA

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

    RefSeq XP_002938926.3
    CDS285..4208
    Translation

    Target ORF information:

    RefSeq Version XM_002938880.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis rho-associated protein kinase 1 (LOC100496327), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002938880.4

    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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGAAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCG TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTAAAGT ATCAGAAGAC TCCAATGGAC TTAAAGGAAA ATGATGAACT AAGTCGAGAA
    CTAAGAACTG CACGTGAGAA TCTACTCTAC CTTCGAAATC GAGTCAAAGT CCTGGACGCA
    GAGAAGACTC AATCTGTTGA GGAACTAAGG ATATTGAGAG AGGGGAGTCA GCAGGCCTTT
    AGCCAAACCA ATGATGCAAA CCAGAGGGTA ACAGACACAC TCCGGGCTCA AAAAGATCTG
    CAAGAAGAGC TGGCAAATCT GCAACTGAAC CTAAACACTA CCAGTCTGGA GAAGGAGCTC
    GTGTCCTCAA AGATTATGAG ATTGGAGGAA AAGGTTAAAG ATCTGAATTT AAGGCTAAAT
    ATTGCACATT CTGACAGGGA ACGGGTTCTG CAGGACAAGG TGGAGCTGAC TAGGCGAAAT
    CAGGAATTGT CTCTCGAACT AGAACGGGCT CAGAGGGGTC AGGAGGGGTT TAATGACCAG
    GTCAGTGACC TTCACATTGA GCTGGTAGGA GCTAAAGCCC AGTCAAACCG TCAGGACCAG
    GAGAAGGTTC AGATGAAGGA GGAGCTGGTG ATGCTGAAAC AGGTGAATGA GAAACTGACT
    GCTGAACTGG GACAGACACA GCATACACTC CAGCGCACCC TGGATGAACT GCATCAGCTC
    CAGGCAGAAC ACAAGATTTC AACCAACCTT ACAGCTGCCT TGGAGGCAGA ACGTTCCCAG
    CTCTTGGGTG AGAAAGAGCT GCTGATGTCA ACTGTGGAGG AACATGGGGA GAGCCAGAGC
    ATCCAAGAGC TCAGATCTTC TCAGGCGCAG TTAATAGAAG AGAGGGATAA CCTACGTACC
    CATTGCCAGA ACCTGCAGGT TTCACTGGAA CAAGCACATG AACAGCTCGG CTCCCAGATC
    CAGGAGCAGC AGCAGCTCAC TCTGTATTGG AAGGAAAGGT GGCAGCAGAC TGCTGTTAAT
    TTAAAAAGCA CAGAAGAACA ACTGGAACAG GCAAAGGCTC TTTGCTCTAG TACAACAAAT
    AAGCACTCTG AGATCCTCCA AGATTATGAA CTCCTACAAA CAGATGCAGA GGAGCTGGCT
    GAACTCAGGA TGGCTATCAG CAGCCTGAAG AAAGAAAACA GCCTTTTAAA AGAGCAGATA
    AAGGAGCAGG AACAGAACAA GCATCTGCAG TGTCTTCAGA GCCACATCCA GGCTAATGTG
    GACAGCCCAG AGGATATGAA TTCGAAACTT GGCAAGCTGT ATAAAGAATT ACAGCAGGCT
    CACGAAAGGT TAAAATTCTT GGAGAGAGAA AGGTCTGAAA AAGAACTGGA AATAAAAAAA
    CTTAAGGCTG AGAGTGGATC CATACTTCGC ATTGAGCTAG ATGCCTGCAA ACAACAGTTG
    GAATTGGAGA GAAGTCGAAC AGCGACTCTA CAGGCCAAGA TTTCAGTCAT GGATTCCAGA
    AACAAAATGG AGGTTGCAAG TAGTCAGGAT CGTGTAGACA GTTTGCAGAA CCACAGCTTG
    TCCCTTCTAT CAGAAAGGTT AACATCAGAC GAATTGAGTT CTGAGATTGA GAATCTTCGT
    CAGCAGCTAG AAGAGGAGAG AGATGCAAAA AAGAAGAAAG AAGAACTGAT ATTTAATCTA
    AAAGAAGAGC TTGATGATCT CAAGCACAAG AAGCCTGGAG AAATCAAGGC ATCTCTGGAG
    GAAGTGGACT CAGAGCTAAT GTTTGTGCGA GAAGAACTGC AGAAAGTCTG GGAAATGTTG
    AAGACAAAAG ATACAGAACT TGAGGAACAG TATCAGGAGC TGGAGTCTGC TCGAGGCCAG
    TACACAGAGT GCAGCACAGA AAAAATGCGA CTGGAGCAAG TTCTTGCCAC CTTGCAGCAG
    CAGTTGACTG AGAAAGAGCA GACAATGAAA CATCTCAAGC AAATGAGAGA AATGGAGAAA
    ACTGAAATGG ATATTGAGAG GTCCTCATTG CAACTGAAGC TGGCAGAGCT ACAAGGACAA
    AAAGGAGATG TCACAACTCA GGCTGGGCAG CCGATAGAGG AGACTGGGCC TAAATGGTGG
    CGTTCAAAGG GAATGAAGGT TGTAGAGTCA TCAAAGAAAT GTATTCGCTG TGAAGCATTT
    TTGCAACAGT TGGATGAGAC AATCAAGGGT TGCCAGGAAC ACAATGCCGA GTTACAAGAA
    GAGAAGAACC AAACCTTGGC ATCCCTATAC CAGTTACAAG AAGTCCTAAC AAACCTCTCA
    AAACAATCAA AAGTAAATGA ACACGTGGCC CAGAGTCTAC AGGCGGACAA TGACTCTCTG
    AAAAAACAAC ACAGACTGGT GACAGAACAG CTTAAATGTC TGTTCAAAGA GAAAGAATCT
    CTGGGAAAAG CCTACCATAA GCTTCCAAAG AAGGATAAGC CAACGGAGGA CTGGAATGTT
    CAGTCCAGAT TAGTAAAGAA TATGCTGAGT TCTATAAAAA GCCATAAAAA CCAGCAAGAA
    GAGCTAACAG AAGAGGCAGG CCATCAACCA ATGGAATTCG ATGCTGTGCA GATGGAAACT
    AATGAAAGAG ACATGAGGAA CTTGCAAAGA CAGCTTGAGG AAAAGTCTGA GCAGATATTG
    AAAATGGCTT CAGAAATGAA ACTGTTACAA GAAAAAAATG AGTCTTTAAT GAAAGCTAAG
    ATGCGTTTTC AACAACAAGT CCAGCAAATT CGGAGCATGC CACATCTAAG TCATCAAAGA
    GAAAAGACAG ATCCTACTGT ACCACCTCTG TCTGGAGACA TCAACACCTC CTTTCACAAA
    AAGAATGAGT TTTTGGCAGC AGAGAGCCAA GATTGTTCTG GTAGAATGCA GGGAACACCA
    ACTTCATTTC AGAGTGCCTC AGAGGGGTCC TGGACATCAT CACCTCAAAA CTCAAGACCT
    CCAACACCCA TCAACCAAAA GGTTATGCCA TCTGCATCTT TACTGAGAGT TCAGCTTCCT
    GGCACAGTGG GGAAACACTG GGTAAAATCA AAAGTGGAAT CTCCTTTAAG CCCCAGAAGC
    CTAGCAGACA GTGAAGGTAA CAGTGATACT CCAGGGTCAG TTACTCCAAG GACTTCTGCA
    TTGCTGTCTC CCAGACCTTT CCATTCACCA AAATCGGCAC AGGCCTTCAG ATATGGAAAG
    AATGTGCAAC ACACAAACAG CTAA

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

    CloneID OXa55017
    Clone ID Related Accession (Same CDS sequence) XM_012966921.2
    Accession Version XM_012966921.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    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 myosin-11 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012966921.1. ##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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGAAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCG TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTAAAGT ATCAGAAGAC TCCAATGGAA AATGATGAAC TAAGTCGAGA ACTAAGAACT
    GCACGTGAGA ATCTACTCTA CCTTCGAAAT CGAGTCAAAG TCCTGGACGC AGAGAAGACT
    CAATCTGTTG AGGAACTAAG GATATTGAGA GAGGGGAGTC AGCAGGCCTT TAGCCAAACC
    AATGATGCAA ACCAGAGGGT AACAGACACA CTCCGGGCTC AAAAAGATCT GCAAGAAGAG
    CTGGCAAATC TGCAACTGAA CCTAAACACT ACCAGTCTGG AGAAGGAGCT CGTGTCCTCA
    AAGATTATGA GATTGGAGGA AAAGGTTAAA GATCTGAATT TAAGGCTAAA TATTGCACAT
    TCTGACAGGG AACGGGTTCT GCAGGACAAG GTGGAGCTGA CTAGGCGAAA TCAGGAATTG
    TCTCTCGAAC TAGAACGGGC TCAGAGGGGT CAGGAGGGGT TTAATGACCA GGTCAGTGAC
    CTTCACATTG AGCTGGTAGG AGCTAAAGCC CAGTCAAACC GTCAGGACCA GGAGAAGGTT
    CAGATGAAGG AGGAGCTGGT GATGCTGAAA CAGGTGAATG AGAAACTGAC TGCTGAACTG
    GGACAGACAC AGCATACACT CCAGCGCACC CTGGATGAAC TGCATCAGCT CCAGGCAGAA
    CACAAGATTT CAACCAACCT TACAGCTGCC TTGGAGGCAG AACGTTCCCA GCTCTTGGGT
    GAGAAAGAGC TGCTGATGTC AACTGTGGAG GAACATGGGG AGAGCCAGAG CATCCAAGAG
    CTCAGATCTT CTCAGGCGCA GTTAATAGAA GAGAGGGATA ACCTACGTAC CCATTGCCAG
    AACCTGCAGG TTTCACTGGA ACAAGCACAT GAACAGCTCG GCTCCCAGAT CCAGGAGCAG
    CAGCAGCTCA CTCTGTATTG GAAGGAAAGG TGGCAGCAGA CTGCTGTTAA TTTAAAAAGC
    ACAGAAGAAC AACTGGAACA GGCAAAGGCT CTTTGCTCTA GTACAACAAA TAAGCACTCT
    GAGATCCTCC AAGATTATGA ACTCCTACAA ACAGATGCAG AGGAGCTGGC TGAACTCAGG
    ATGGCTATCA GCAGCCTGAA GAAAGAAAAC AGCCTTTTAA AAGAGCAGAT AAAGGAGCAG
    GAACAGAACA AGCATCTGCA GTGTCTTCAG AGCCACATCC AGGCTAATGT GGACAGCCCA
    GAGGATATGA ATTCGAAACT TGGCAAGCTG TATAAAGAAT TACAGCAGGC TCACGAAAGG
    TTAAAATTCT TGGAGAGAGA AAGGTCTGAA AAAGAACTGG AAATAAAAAA ACTTAAGGCT
    GAGAGTGGAT CCATACTTCG CATTGAGCTA GATGCCTGCA AACAACAGTT GGAATTGGAG
    AGAAGTCGAA CAGCGACTCT ACAGGCCAAG ATTTCAGTCA TGGATTCCAG AAACAAAATG
    GAGGTTGCAA GTAGTCAGGA TCGTGTAGAC AGTTTGCAGA ACCACAGCTT GTCCCTTCTA
    TCAGAAAGGT TAACATCAGA CGAATTGAGT TCTGAGATTG AGAATCTTCG TCAGCAGCTA
    GAAGAGGAGA GAGATGCAAA AAAGAAGAAA GAAGAACTGA TATTTAATCT AAAAGAAGAG
    CTTGATGATC TCAAGCACAA GAAGCCTGGA GAAATCAAGG CATCTCTGGA GGAAGTGGAC
    TCAGAGCTAA TGTTTGTGCG AGAAGAACTG CAGAAAGTCT GGGAAATGTT GAAGACAAAA
    GATACAGAAC TTGAGGAACA GTATCAGGAG CTGGAGTCTG CTCGAGGCCA GTACACAGAG
    TGCAGCACAG AAAAAATGCG ACTGGAGCAA GTTCTTGCCA CCTTGCAGCA GCAGTTGACT
    GAGAAAGAGC AGACAATGAA ACATCTCAAG CAAATGAGAG AAATGGAGAA AACTGAAATG
    GATATTGAGA GGTCCTCATT GCAACTGAAG CTGGCAGAGC TACAAGGACA AAAAGGAGAT
    GTCACAACTC AGGCTGGGCA GCCGATAGAG GAGACTGGGC CTAAATGGTG GCGTTCAAAG
    GGAATGAAGG TTGTAGAGTC ATCAAAGAAA TGTATTCGCT GTGAAGCATT TTTGCAACAG
    TTGGATGAGA CAATCAAGGG TTGCCAGGAA CACAATGCCG AGTTACAAGA AGAGAAGAAC
    CAAACCTTGG CATCCCTATA CCAGTTACAA GAAGTCCTAA CAAACCTCTC AAAACAATCA
    AAAGTAAATG AACACGTGGC CCAGAGTCTA CAGGCGGACA ATGACTCTCT GAAAAAACAA
    CACAGACTGG TGACAGAACA GCTTAAATGT CTGTTCAAAG AGAAAGAATC TCTGGGAAAA
    GCCTACCATA AGCTTCCAAA GAAGGATAAG CCAACGGAGG ACTGGAATGT TCAGTCCAGA
    TTAGTAAAGA ATATGCTGAG TTCTATAAAA AGCCATAAAA ACCAGCAAGA AGAGCTAACA
    GAAGAGGCAG GCCATCAACC AATGGAATTC GATGCTGTGC AGATGGAAAC TAATGAAAGA
    GACATGAGGA ACTTGCAAAG ACAGCTTGAG GAAAAGTCTG AGCAGATATT GAAAATGGCT
    TCAGAAATGA AACTGTTACA AGAAAAAAAT GAGTCTTTAA TGAAAGCTAA GATGCGTTTT
    CAACAACAAG TCCAGCAAAT TCGGAGCATG CCACATCTAA GTCATCAAAG AGAAAAGACA
    GATCCTACTG TACCACCTCT GTCTGGAGAC ATCAACACCT CCTTTCACAA AAAGAATGAG
    TTTTTGGCAG CAGAGAGCCA AGATTGTTCT GGTAGAATGC AGGGAACACC AACTTCATTT
    CAGAGTGCCT CAGAGGGGTC CTGGACATCA TCACCTCAAA ACTCAAGACC TCCAACACCC
    ATCAACCAAA AGGTTATGCC ATCTGCATCT TTACTGAGAG TTCAGCTTCC TGGCACAGTG
    GGGAAACACT GGGTAAAATC AAAAGTGGAA TCTCCTTTAA GCCCCAGAAG CCTAGCAGAC
    AGTGAAGGTA ACAGTGATAC TCCAGGGTCA GTTACTCCAA GGACTTCTGC ATTGCTGTCT
    CCCAGACCTT TCCATTCACC AAAATCGGCA CAGGCCTTCA GATATGGAAA GAATGTGCAA
    CACACAAACA GCTAA

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

    RefSeq XP_012822375.2
    CDS285..4199
    Translation

    Target ORF information:

    RefSeq Version XM_012966921.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis rho-associated protein kinase 1 (LOC100496327), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012966921.2

    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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGAAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCG TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTAAAGT ATCAGAAGAC TCCAATGGAA AATGATGAAC TAAGTCGAGA ACTAAGAACT
    GCACGTGAGA ATCTACTCTA CCTTCGAAAT CGAGTCAAAG TCCTGGACGC AGAGAAGACT
    CAATCTGTTG AGGAACTAAG GATATTGAGA GAGGGGAGTC AGCAGGCCTT TAGCCAAACC
    AATGATGCAA ACCAGAGGGT AACAGACACA CTCCGGGCTC AAAAAGATCT GCAAGAAGAG
    CTGGCAAATC TGCAACTGAA CCTAAACACT ACCAGTCTGG AGAAGGAGCT CGTGTCCTCA
    AAGATTATGA GATTGGAGGA AAAGGTTAAA GATCTGAATT TAAGGCTAAA TATTGCACAT
    TCTGACAGGG AACGGGTTCT GCAGGACAAG GTGGAGCTGA CTAGGCGAAA TCAGGAATTG
    TCTCTCGAAC TAGAACGGGC TCAGAGGGGT CAGGAGGGGT TTAATGACCA GGTCAGTGAC
    CTTCACATTG AGCTGGTAGG AGCTAAAGCC CAGTCAAACC GTCAGGACCA GGAGAAGGTT
    CAGATGAAGG AGGAGCTGGT GATGCTGAAA CAGGTGAATG AGAAACTGAC TGCTGAACTG
    GGACAGACAC AGCATACACT CCAGCGCACC CTGGATGAAC TGCATCAGCT CCAGGCAGAA
    CACAAGATTT CAACCAACCT TACAGCTGCC TTGGAGGCAG AACGTTCCCA GCTCTTGGGT
    GAGAAAGAGC TGCTGATGTC AACTGTGGAG GAACATGGGG AGAGCCAGAG CATCCAAGAG
    CTCAGATCTT CTCAGGCGCA GTTAATAGAA GAGAGGGATA ACCTACGTAC CCATTGCCAG
    AACCTGCAGG TTTCACTGGA ACAAGCACAT GAACAGCTCG GCTCCCAGAT CCAGGAGCAG
    CAGCAGCTCA CTCTGTATTG GAAGGAAAGG TGGCAGCAGA CTGCTGTTAA TTTAAAAAGC
    ACAGAAGAAC AACTGGAACA GGCAAAGGCT CTTTGCTCTA GTACAACAAA TAAGCACTCT
    GAGATCCTCC AAGATTATGA ACTCCTACAA ACAGATGCAG AGGAGCTGGC TGAACTCAGG
    ATGGCTATCA GCAGCCTGAA GAAAGAAAAC AGCCTTTTAA AAGAGCAGAT AAAGGAGCAG
    GAACAGAACA AGCATCTGCA GTGTCTTCAG AGCCACATCC AGGCTAATGT GGACAGCCCA
    GAGGATATGA ATTCGAAACT TGGCAAGCTG TATAAAGAAT TACAGCAGGC TCACGAAAGG
    TTAAAATTCT TGGAGAGAGA AAGGTCTGAA AAAGAACTGG AAATAAAAAA ACTTAAGGCT
    GAGAGTGGAT CCATACTTCG CATTGAGCTA GATGCCTGCA AACAACAGTT GGAATTGGAG
    AGAAGTCGAA CAGCGACTCT ACAGGCCAAG ATTTCAGTCA TGGATTCCAG AAACAAAATG
    GAGGTTGCAA GTAGTCAGGA TCGTGTAGAC AGTTTGCAGA ACCACAGCTT GTCCCTTCTA
    TCAGAAAGGT TAACATCAGA CGAATTGAGT TCTGAGATTG AGAATCTTCG TCAGCAGCTA
    GAAGAGGAGA GAGATGCAAA AAAGAAGAAA GAAGAACTGA TATTTAATCT AAAAGAAGAG
    CTTGATGATC TCAAGCACAA GAAGCCTGGA GAAATCAAGG CATCTCTGGA GGAAGTGGAC
    TCAGAGCTAA TGTTTGTGCG AGAAGAACTG CAGAAAGTCT GGGAAATGTT GAAGACAAAA
    GATACAGAAC TTGAGGAACA GTATCAGGAG CTGGAGTCTG CTCGAGGCCA GTACACAGAG
    TGCAGCACAG AAAAAATGCG ACTGGAGCAA GTTCTTGCCA CCTTGCAGCA GCAGTTGACT
    GAGAAAGAGC AGACAATGAA ACATCTCAAG CAAATGAGAG AAATGGAGAA AACTGAAATG
    GATATTGAGA GGTCCTCATT GCAACTGAAG CTGGCAGAGC TACAAGGACA AAAAGGAGAT
    GTCACAACTC AGGCTGGGCA GCCGATAGAG GAGACTGGGC CTAAATGGTG GCGTTCAAAG
    GGAATGAAGG TTGTAGAGTC ATCAAAGAAA TGTATTCGCT GTGAAGCATT TTTGCAACAG
    TTGGATGAGA CAATCAAGGG TTGCCAGGAA CACAATGCCG AGTTACAAGA AGAGAAGAAC
    CAAACCTTGG CATCCCTATA CCAGTTACAA GAAGTCCTAA CAAACCTCTC AAAACAATCA
    AAAGTAAATG AACACGTGGC CCAGAGTCTA CAGGCGGACA ATGACTCTCT GAAAAAACAA
    CACAGACTGG TGACAGAACA GCTTAAATGT CTGTTCAAAG AGAAAGAATC TCTGGGAAAA
    GCCTACCATA AGCTTCCAAA GAAGGATAAG CCAACGGAGG ACTGGAATGT TCAGTCCAGA
    TTAGTAAAGA ATATGCTGAG TTCTATAAAA AGCCATAAAA ACCAGCAAGA AGAGCTAACA
    GAAGAGGCAG GCCATCAACC AATGGAATTC GATGCTGTGC AGATGGAAAC TAATGAAAGA
    GACATGAGGA ACTTGCAAAG ACAGCTTGAG GAAAAGTCTG AGCAGATATT GAAAATGGCT
    TCAGAAATGA AACTGTTACA AGAAAAAAAT GAGTCTTTAA TGAAAGCTAA GATGCGTTTT
    CAACAACAAG TCCAGCAAAT TCGGAGCATG CCACATCTAA GTCATCAAAG AGAAAAGACA
    GATCCTACTG TACCACCTCT GTCTGGAGAC ATCAACACCT CCTTTCACAA AAAGAATGAG
    TTTTTGGCAG CAGAGAGCCA AGATTGTTCT GGTAGAATGC AGGGAACACC AACTTCATTT
    CAGAGTGCCT CAGAGGGGTC CTGGACATCA TCACCTCAAA ACTCAAGACC TCCAACACCC
    ATCAACCAAA AGGTTATGCC ATCTGCATCT TTACTGAGAG TTCAGCTTCC TGGCACAGTG
    GGGAAACACT GGGTAAAATC AAAAGTGGAA TCTCCTTTAA GCCCCAGAAG CCTAGCAGAC
    AGTGAAGGTA ACAGTGATAC TCCAGGGTCA GTTACTCCAA GGACTTCTGC ATTGCTGTCT
    CCCAGACCTT TCCATTCACC AAAATCGGCA CAGGCCTTCA GATATGGAAA GAATGTGCAA
    CACACAAACA GCTAA

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

    CloneID OXa55018
    Clone ID Related Accession (Same CDS sequence) XM_031899137.1
    Accession Version XM_031899137.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3819bp)
    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 rho-associated protein kinase 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGAAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCG TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTAAAGT ATCAGAAGAC TCCAATGGAC TTAAAGGAAA ATGATGAACT AAGTCGAGAA
    CTAAGAACTG CACGTGAGAA TCTACTCTAC CTTCGAAATC GAGTCAAAGT CCTGGACGCA
    GAGAAGACTC AATCTGTTGA GGAACTAAGG ATATTGAGAG AGGGGAGTCA GCAGGCCTTT
    AGCCAAACCA ATGATGCAAA CCAGAGGGTA ACAGACACAC TCCGGGCTCA AAAAGATCTG
    CAAGAAGAGC TGGCAAATCT GCAACTGAAC CTAAACACTA CCAGTCTGGA CAAGGTGGAG
    CTGACTAGGC GAAATCAGGA ATTGTCTCTC GAACTAGAAC GGGCTCAGAG GGGTCAGGAG
    GGGTTTAATG ACCAGGTCAG TGACCTTCAC ATTGAGCTGG TAGGAGCTAA AGCCCAGTCA
    AACCGTCAGG ACCAGGAGAA GGTTCAGATG AAGGAGGAGC TGGTGATGCT GAAACAGGTG
    AATGAGAAAC TGACTGCTGA ACTGGGACAG ACACAGCATA CACTCCAGCG CACCCTGGAT
    GAACTGCATC AGCTCCAGGC AGAACACAAG ATTTCAACCA ACCTTACAGC TGCCTTGGAG
    GCAGAACGTT CCCAGCTCTT GGGTGAGAAA GAGCTGCTGA TGTCAACTGT GGAGGAACAT
    GGGGAGAGCC AGAGCATCCA AGAGCTCAGA TCTTCTCAGG CGCAGTTAAT AGAAGAGAGG
    GATAACCTAC GTACCCATTG CCAGAACCTG CAGGTTTCAC TGGAACAAGC ACATGAACAG
    CTCGGCTCCC AGATCCAGGA GCAGCAGCAG CTCACTCTGT ATTGGAAGGA AAGGTGGCAG
    CAGACTGCTG TTAATTTAAA AAGCACAGAA GAACAACTGG AACAGGCAAA GGCTCTTTGC
    TCTAGTACAA CAAATAAGCA CTCTGAGATC CTCCAAGATT ATGAACTCCT ACAAACAGAT
    GCAGAGGAGC TGGCTGAACT CAGGATGGCT ATCAGCAGCC TGAAGAAAGA AAACAGCCTT
    TTAAAAGAGC AGATAAAGGA GCAGGAACAG AACAAGCATC TGCAGTGTCT TCAGAGCCAC
    ATCCAGGCTA ATGTGGACAG CCCAGAGGAT ATGAATTCGA AACTTGGCAA GCTGTATAAA
    GAATTACAGC AGGCTCACGA AAGGTTAAAA TTCTTGGAGA GAGAAAGGTC TGAAAAAGAA
    CTGGAAATAA AAAAACTTAA GGCTGAGAGT GGATCCATAC TTCGCATTGA GCTAGATGCC
    TGCAAACAAC AGTTGGAATT GGAGAGAAGT CGAACAGCGA CTCTACAGGC CAAGATTTCA
    GTCATGGATT CCAGAAACAA AATGGAGGTT GCAAGTAGTC AGGATCGTGT AGACAGTTTG
    CAGAACCACA GCTTGTCCCT TCTATCAGAA AGGTTAACAT CAGACGAATT GAGTTCTGAG
    ATTGAGAATC TTCGTCAGCA GCTAGAAGAG GAGAGAGATG CAAAAAAGAA GAAAGAAGAA
    CTGATATTTA ATCTAAAAGA AGAGCTTGAT GATCTCAAGC ACAAGAAGCC TGGAGAAATC
    AAGGCATCTC TGGAGGAAGT GGACTCAGAG CTAATGTTTG TGCGAGAAGA ACTGCAGAAA
    GTCTGGGAAA TGTTGAAGAC AAAAGATACA GAACTTGAGG AACAGTATCA GGAGCTGGAG
    TCTGCTCGAG GCCAGTACAC AGAGTGCAGC ACAGAAAAAA TGCGACTGGA GCAAGTTCTT
    GCCACCTTGC AGCAGCAGTT GACTGAGAAA GAGCAGACAA TGAAACATCT CAAGCAAATG
    AGAGAAATGG AGAAAACTGA AATGGATATT GAGAGGTCCT CATTGCAACT GAAGCTGGCA
    GAGCTACAAG GACAAAAAGG AGATGTCACA ACTCAGGCTG GGCAGCCGAT AGAGGAGACT
    GGGCCTAAAT GGTGGCGTTC AAAGGGAATG AAGGTTGTAG AGTCATCAAA GAAATGTATT
    CGCTGTGAAG CATTTTTGCA ACAGTTGGAT GAGACAATCA AGGGTTGCCA GGAACACAAT
    GCCGAGTTAC AAGAAGAGAA GAACCAAACC TTGGCATCCC TATACCAGTT ACAAGAAGTC
    CTAACAAACC TCTCAAAACA ATCAAAAGTA AATGAACACG TGGCCCAGAG TCTACAGGCG
    GACAATGACT CTCTGAAAAA ACAACACAGA CTGGTGACAG AACAGCTTAA ATGTCTGTTC
    AAAGAGAAAG AATCTCTGGG AAAAGCCTAC CATAAGCTTC CAAAGAAGGA TAAGCCAACG
    GAGGACTGGA ATGTTCAGTC CAGATTAGTA AAGAATATGC TGAGTTCTAT AAAAAGCCAT
    AAAAACCAGC AAGAAGAGCT AACAGAAGAG GCAGGCCATC AACCAATGGA ATTCGATGCT
    GTGCAGATGG AAACTAATGA AAGAGACATG AGGAACTTGC AAAGACAGCT TGAGGAAAAG
    TCTGAGCAGA TATTGAAAAT GGCTTCAGAA ATGAAACTGT TACAAGAAAA AAATGAGTCT
    TTAATGAAAG CTAAGATGCG TTTTCAACAA CAAGTCCAGC AAATTCGGAG CATGCCACAT
    CTAAGTCATC AAAGAGAAAA GACAGATCCT ACTGTACCAC CTCTGTCTGG AGACATCAAC
    ACCTCCTTTC ACAAAAAGAA TGAGTTTTTG GCAGCAGAGA GCCAAGATTG TTCTGGTAGA
    ATGCAGGGAA CACCAACTTC ATTTCAGAGT GCCTCAGAGG GGTCCTGGAC ATCATCACCT
    CAAAACTCAA GACCTCCAAC ACCCATCAAC CAAAAGGTTA TGCCATCTGC ATCTTTACTG
    AGAGTTCAGC TTCCTGGCAC AGTGGGGAAA CACTGGGTAA AATCAAAAGT GGAATCTCCT
    TTAAGCCCCA GAAGCCTAGC AGACAGTGAA GGTAACAGTG ATACTCCAGG GTCAGTTACT
    CCAAGGACTT CTGCATTGCT GTCTCCCAGA CCTTTCCATT CACCAAAATC GGCACAGGCC
    TTCAGATATG GAAAGAATGT GCAACACACA AACAGCTAA

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

    RefSeq XP_031754997.1
    CDS285..4103
    Translation

    Target ORF information:

    RefSeq Version XM_031899137.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis rho-associated protein kinase 1 (LOC100496327), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031899137.1

    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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGAAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCG TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTAAAGT ATCAGAAGAC TCCAATGGAC TTAAAGGAAA ATGATGAACT AAGTCGAGAA
    CTAAGAACTG CACGTGAGAA TCTACTCTAC CTTCGAAATC GAGTCAAAGT CCTGGACGCA
    GAGAAGACTC AATCTGTTGA GGAACTAAGG ATATTGAGAG AGGGGAGTCA GCAGGCCTTT
    AGCCAAACCA ATGATGCAAA CCAGAGGGTA ACAGACACAC TCCGGGCTCA AAAAGATCTG
    CAAGAAGAGC TGGCAAATCT GCAACTGAAC CTAAACACTA CCAGTCTGGA CAAGGTGGAG
    CTGACTAGGC GAAATCAGGA ATTGTCTCTC GAACTAGAAC GGGCTCAGAG GGGTCAGGAG
    GGGTTTAATG ACCAGGTCAG TGACCTTCAC ATTGAGCTGG TAGGAGCTAA AGCCCAGTCA
    AACCGTCAGG ACCAGGAGAA GGTTCAGATG AAGGAGGAGC TGGTGATGCT GAAACAGGTG
    AATGAGAAAC TGACTGCTGA ACTGGGACAG ACACAGCATA CACTCCAGCG CACCCTGGAT
    GAACTGCATC AGCTCCAGGC AGAACACAAG ATTTCAACCA ACCTTACAGC TGCCTTGGAG
    GCAGAACGTT CCCAGCTCTT GGGTGAGAAA GAGCTGCTGA TGTCAACTGT GGAGGAACAT
    GGGGAGAGCC AGAGCATCCA AGAGCTCAGA TCTTCTCAGG CGCAGTTAAT AGAAGAGAGG
    GATAACCTAC GTACCCATTG CCAGAACCTG CAGGTTTCAC TGGAACAAGC ACATGAACAG
    CTCGGCTCCC AGATCCAGGA GCAGCAGCAG CTCACTCTGT ATTGGAAGGA AAGGTGGCAG
    CAGACTGCTG TTAATTTAAA AAGCACAGAA GAACAACTGG AACAGGCAAA GGCTCTTTGC
    TCTAGTACAA CAAATAAGCA CTCTGAGATC CTCCAAGATT ATGAACTCCT ACAAACAGAT
    GCAGAGGAGC TGGCTGAACT CAGGATGGCT ATCAGCAGCC TGAAGAAAGA AAACAGCCTT
    TTAAAAGAGC AGATAAAGGA GCAGGAACAG AACAAGCATC TGCAGTGTCT TCAGAGCCAC
    ATCCAGGCTA ATGTGGACAG CCCAGAGGAT ATGAATTCGA AACTTGGCAA GCTGTATAAA
    GAATTACAGC AGGCTCACGA AAGGTTAAAA TTCTTGGAGA GAGAAAGGTC TGAAAAAGAA
    CTGGAAATAA AAAAACTTAA GGCTGAGAGT GGATCCATAC TTCGCATTGA GCTAGATGCC
    TGCAAACAAC AGTTGGAATT GGAGAGAAGT CGAACAGCGA CTCTACAGGC CAAGATTTCA
    GTCATGGATT CCAGAAACAA AATGGAGGTT GCAAGTAGTC AGGATCGTGT AGACAGTTTG
    CAGAACCACA GCTTGTCCCT TCTATCAGAA AGGTTAACAT CAGACGAATT GAGTTCTGAG
    ATTGAGAATC TTCGTCAGCA GCTAGAAGAG GAGAGAGATG CAAAAAAGAA GAAAGAAGAA
    CTGATATTTA ATCTAAAAGA AGAGCTTGAT GATCTCAAGC ACAAGAAGCC TGGAGAAATC
    AAGGCATCTC TGGAGGAAGT GGACTCAGAG CTAATGTTTG TGCGAGAAGA ACTGCAGAAA
    GTCTGGGAAA TGTTGAAGAC AAAAGATACA GAACTTGAGG AACAGTATCA GGAGCTGGAG
    TCTGCTCGAG GCCAGTACAC AGAGTGCAGC ACAGAAAAAA TGCGACTGGA GCAAGTTCTT
    GCCACCTTGC AGCAGCAGTT GACTGAGAAA GAGCAGACAA TGAAACATCT CAAGCAAATG
    AGAGAAATGG AGAAAACTGA AATGGATATT GAGAGGTCCT CATTGCAACT GAAGCTGGCA
    GAGCTACAAG GACAAAAAGG AGATGTCACA ACTCAGGCTG GGCAGCCGAT AGAGGAGACT
    GGGCCTAAAT GGTGGCGTTC AAAGGGAATG AAGGTTGTAG AGTCATCAAA GAAATGTATT
    CGCTGTGAAG CATTTTTGCA ACAGTTGGAT GAGACAATCA AGGGTTGCCA GGAACACAAT
    GCCGAGTTAC AAGAAGAGAA GAACCAAACC TTGGCATCCC TATACCAGTT ACAAGAAGTC
    CTAACAAACC TCTCAAAACA ATCAAAAGTA AATGAACACG TGGCCCAGAG TCTACAGGCG
    GACAATGACT CTCTGAAAAA ACAACACAGA CTGGTGACAG AACAGCTTAA ATGTCTGTTC
    AAAGAGAAAG AATCTCTGGG AAAAGCCTAC CATAAGCTTC CAAAGAAGGA TAAGCCAACG
    GAGGACTGGA ATGTTCAGTC CAGATTAGTA AAGAATATGC TGAGTTCTAT AAAAAGCCAT
    AAAAACCAGC AAGAAGAGCT AACAGAAGAG GCAGGCCATC AACCAATGGA ATTCGATGCT
    GTGCAGATGG AAACTAATGA AAGAGACATG AGGAACTTGC AAAGACAGCT TGAGGAAAAG
    TCTGAGCAGA TATTGAAAAT GGCTTCAGAA ATGAAACTGT TACAAGAAAA AAATGAGTCT
    TTAATGAAAG CTAAGATGCG TTTTCAACAA CAAGTCCAGC AAATTCGGAG CATGCCACAT
    CTAAGTCATC AAAGAGAAAA GACAGATCCT ACTGTACCAC CTCTGTCTGG AGACATCAAC
    ACCTCCTTTC ACAAAAAGAA TGAGTTTTTG GCAGCAGAGA GCCAAGATTG TTCTGGTAGA
    ATGCAGGGAA CACCAACTTC ATTTCAGAGT GCCTCAGAGG GGTCCTGGAC ATCATCACCT
    CAAAACTCAA GACCTCCAAC ACCCATCAAC CAAAAGGTTA TGCCATCTGC ATCTTTACTG
    AGAGTTCAGC TTCCTGGCAC AGTGGGGAAA CACTGGGTAA AATCAAAAGT GGAATCTCCT
    TTAAGCCCCA GAAGCCTAGC AGACAGTGAA GGTAACAGTG ATACTCCAGG GTCAGTTACT
    CCAAGGACTT CTGCATTGCT GTCTCCCAGA CCTTTCCATT CACCAAAATC GGCACAGGCC
    TTCAGATATG GAAAGAATGT GCAACACACA AACAGCTAA

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

    CloneID OXa13783
    Clone ID Related Accession (Same CDS sequence) XM_002938880.3
    Accession Version XM_002938880.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    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 myosin-11-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 23, 2015 this sequence version replaced XM_002938880.2. ##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##

    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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGCAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCA TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTTAAGT ATCAGAAGAC TCCAATGGAC TTAAAGGAAA ATGATGAACT AAGTCGAGAA
    CTAAGAACTG CACGTGAGAA TCTACTCTAC CTTCGAAATC GAGTCAAAGT CCTGGACGCA
    GAGAAGACTC AATCTGTTGA GGAACTAAGG ATATTGAGAG AGGGGAGTCA GCAGGCCTTT
    AGCCAAACCA ATGATGCAAA CCAGAGGGTA ACAGACACAC TCCGGGCTCA AAAAGATCTG
    CAAGAAGAGC TGGCAAATCT GCAACTGAAA CTAAACACTA CCAGTCTGGA GAAGGAGCTC
    GTGTCCTCAA AGATTATGAG ATTGGAGGAA AAGGTTAAAG ATCTGAATTT AAGGCTAAAT
    ATTGCACATT CTGACAGGGA ACGGGTTCTG CAGGACAAGG TGGAGCTGAC TAGGCGAAAT
    CAGGAATTGT CTCTCGAACT AGAACGGGCT CAGAGGGGTC AGGAGGGGTT TAATGACCAG
    GTCAGTGACC TTCACATTGA GCTGGTAGGA GCTAAAGCCC AGTCAAACCG TCAGGACCAG
    GAGAAGGTTC AGATGAAGGA GGAGCTGGTG ATGCTGAAAC AGGTGAATGA GAAACTGACT
    GCTGAACTGG GACAGACACA GCATACACTC CAGCGCACCC TGGATGAACT GCATCAGCTC
    CAGGCAGAAC ACAAGATTTC AACCAACCTT ACAGCTGCCT TGGAGGCAGA ACGTTCCCAG
    CTCTTGGGTG AGAAAGAGCT GCTGATGTCA ACTGTGGAGG AACATGGGGA GAGCCAGAGC
    ATCCAAGAGC TCAGATCTTC TCAGGCGCAG TTAATAGAAG AGAGGGATAA CCTACGTACC
    CATTGCCAGA ACCTGCAGGT TTCACTGGAA CAAGCACATG AACAGCTCGG CTCCCAGATC
    CAGGAGCAGC AGCAGCTCAC TCTGTATTGG AAGGAAAGGT GGCAGCAGAC TGCTGTTAAT
    TTAAAAAGCA CAGAAGAACA ACTGGAACAG GCAAAGGCTC TTTGCTCTAG TACAACAAAT
    AAGCACTCTG AGATCCTCCA AGATTATGAA CTCCTACAAA CAGATGCAGA GGAGCTGGCT
    GAACTCAGGA TGGCTATCAG CAGCCTGAAG AAAGAAAACA GCCTTTTAAA AGAGCAGATA
    AAGGAGCAGG AACAGAACAA GCATCTGCAG TGTCTTCAGA GCCACATCCA GGCTAATGTG
    GACAGCCCAG AGGATATGAA TTCGAAACTT GGCAAGCTGT ATAAAGAATT ACAGCAGGCT
    CACGAAAGGT TAAAATTCTT GGAGAGAGAA AGGTCTGAAA AAGAACTGGA AATAAAAAAA
    CTTAAGGCTG AGAGTGGATC CATACTTCGC ATTGAGCTAG ATGCCTGCAA ACAACAGTTG
    GAATTGGAGA GAAGTCGAAC AGCGACTCTA CAGGCCAAGA TTTCAGTCAT GGATTCCAGA
    AACAAAATGG AGGTTGCAAG TAGTCAGGAT CGTGTAGACA GTTTGCAGAA CCACAGCTTG
    TCCCTTCTAT CAGAAAGGTT AACATCAGAC GAATTGAGTT CTGAGATTGA GAATCTTCGT
    CAGCAGCTAG AAGAGGAGAG AGATGCAAAA AAGAAGAAAG AAGAACTGAT ATTTAATCTA
    AAAGAAGAGC TTGATGATCT CAAGCACAAG AAGCCTGGAG AAATCAAGGC ATCTCTGGAG
    GAAGTGGACT CAGAGCTAAT GTTTGTGCGA GAAGAACTGC AGAAAGTCTG GGAAATGTTG
    AAGACAAAAG ATACAGAACT TGAGGAACAG TATCAGGAGC TGGAGTCTGC TCGAGGCCAG
    TACACAGAGT GCAGCACAGA AAAAATGCGA CTGGAGCAAG TTCTTGCCAC CTTGCAGCAG
    CAGTTGACTG AGAAAGAGCA GACAATGAAA CATCTCAAGC AAATGAGAGA AATGGAGAAA
    ACTGAAATGG ATATTGAGAG GTCCTCATTG CAACTGAAGC TGGCAGAGCT ACAAGGACAA
    AAAGGAGATG TCACAACTCA GGCTGGGCAG CCGATAGAGG AGACTGGGCC TAAATGGTGG
    CGTTCAAAGG GAATGAAGGT TGTAGAGTCA TCAAAGAAAT GTATTCGCTG TGAAGCATTT
    TTGCAACAGT TGGATGAGAC AATCAAGGGT TGCCAGGAAC ACAATGCCGA GTTACAAGAA
    GAGAAGAACC AAACCTTGGC ATCCCTATAC CAGTTACAAG AAGTCCTAAC AAACCTCTCA
    AAACAATCAA AAGTAAATGA ACACGTGGCC CAGAGTCTAC AGGCGGACAA TGACTCTCTG
    AAAAAACAAC ACAGACTGGT GACAGAACAG CTTAAATGTC TGTTCAAAGA GAAAGAATCT
    CTGGGAAAAG CCTACCATAA GCTTCCAAAG AAGGATAAGC CAACGGAGGA CTGGAATGTT
    CAGTCCAGAT TAGTAAAGAA TGTGCTGAGT TCTATAAAAA GCCATAAAAA CCAGCAAGAA
    GAGCTAACAG AAGAGGCAGG CCATCAACCA ATGGAATTCG ATGCTGTGCA GATGGAAACT
    AATGAAAGAG ACATGAGGAA CTTGCAAAGA CAGCTTGAGG AAAAGTCTGA GCAGATATTG
    AAAATGGCTT CAGAAATGAA ACTGTTACAA GAAAAAAATG AGTCTTTAAT GAAAGCTAAG
    ATGCGTTTTC AACAACAAGT CCAGCAAATT CGGAGCATGC CACATCTAAG TCATCAAAGA
    GAAAAGACAG ATCCTACTGT ACCACCTCTG TCTGGAGACA TCAACACCTC CTTTCACAAA
    AAGAATGAGT TTTTGGCAGC AGAGAGCCAA GATTGTTCTG GTAGAATGCA GGGAACACCA
    ACTTCATTTC AGAGTGCCTC AGAGGGGTCC TGGACATCAT CACCTCAAAA CTCAAGACCT
    CCAACACCCA TCAACCAAAA GGTTATGCCA TCTGCATCTT TACTGAGAGT TCAGCTTCCT
    GGCACAGTGG GGAAACACTG GGTAAAATCA AAAGTGGAAT CTCCTTTAAG CCCCAGAAGC
    CTAGCAGACA GTGAAGGTAA CAGTGATACT CCAGGGTCAG TTACTCCAAG GACTTCTGCA
    TTGCTGTCTC CCAGACCTTT CCATCCACCA AAATCGGCAC AGGCCTTCAG ATATGGAAAG
    AATGTGCAAC ACACAAACAG CTAA

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

    RefSeq XP_002938926.2
    CDS280..4203
    Translation

    Target ORF information:

    RefSeq Version XM_002938880.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis myosin-11-like (LOC100496327), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002938880.3

    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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGCAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCA TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTTAAGT ATCAGAAGAC TCCAATGGAC TTAAAGGAAA ATGATGAACT AAGTCGAGAA
    CTAAGAACTG CACGTGAGAA TCTACTCTAC CTTCGAAATC GAGTCAAAGT CCTGGACGCA
    GAGAAGACTC AATCTGTTGA GGAACTAAGG ATATTGAGAG AGGGGAGTCA GCAGGCCTTT
    AGCCAAACCA ATGATGCAAA CCAGAGGGTA ACAGACACAC TCCGGGCTCA AAAAGATCTG
    CAAGAAGAGC TGGCAAATCT GCAACTGAAA CTAAACACTA CCAGTCTGGA GAAGGAGCTC
    GTGTCCTCAA AGATTATGAG ATTGGAGGAA AAGGTTAAAG ATCTGAATTT AAGGCTAAAT
    ATTGCACATT CTGACAGGGA ACGGGTTCTG CAGGACAAGG TGGAGCTGAC TAGGCGAAAT
    CAGGAATTGT CTCTCGAACT AGAACGGGCT CAGAGGGGTC AGGAGGGGTT TAATGACCAG
    GTCAGTGACC TTCACATTGA GCTGGTAGGA GCTAAAGCCC AGTCAAACCG TCAGGACCAG
    GAGAAGGTTC AGATGAAGGA GGAGCTGGTG ATGCTGAAAC AGGTGAATGA GAAACTGACT
    GCTGAACTGG GACAGACACA GCATACACTC CAGCGCACCC TGGATGAACT GCATCAGCTC
    CAGGCAGAAC ACAAGATTTC AACCAACCTT ACAGCTGCCT TGGAGGCAGA ACGTTCCCAG
    CTCTTGGGTG AGAAAGAGCT GCTGATGTCA ACTGTGGAGG AACATGGGGA GAGCCAGAGC
    ATCCAAGAGC TCAGATCTTC TCAGGCGCAG TTAATAGAAG AGAGGGATAA CCTACGTACC
    CATTGCCAGA ACCTGCAGGT TTCACTGGAA CAAGCACATG AACAGCTCGG CTCCCAGATC
    CAGGAGCAGC AGCAGCTCAC TCTGTATTGG AAGGAAAGGT GGCAGCAGAC TGCTGTTAAT
    TTAAAAAGCA CAGAAGAACA ACTGGAACAG GCAAAGGCTC TTTGCTCTAG TACAACAAAT
    AAGCACTCTG AGATCCTCCA AGATTATGAA CTCCTACAAA CAGATGCAGA GGAGCTGGCT
    GAACTCAGGA TGGCTATCAG CAGCCTGAAG AAAGAAAACA GCCTTTTAAA AGAGCAGATA
    AAGGAGCAGG AACAGAACAA GCATCTGCAG TGTCTTCAGA GCCACATCCA GGCTAATGTG
    GACAGCCCAG AGGATATGAA TTCGAAACTT GGCAAGCTGT ATAAAGAATT ACAGCAGGCT
    CACGAAAGGT TAAAATTCTT GGAGAGAGAA AGGTCTGAAA AAGAACTGGA AATAAAAAAA
    CTTAAGGCTG AGAGTGGATC CATACTTCGC ATTGAGCTAG ATGCCTGCAA ACAACAGTTG
    GAATTGGAGA GAAGTCGAAC AGCGACTCTA CAGGCCAAGA TTTCAGTCAT GGATTCCAGA
    AACAAAATGG AGGTTGCAAG TAGTCAGGAT CGTGTAGACA GTTTGCAGAA CCACAGCTTG
    TCCCTTCTAT CAGAAAGGTT AACATCAGAC GAATTGAGTT CTGAGATTGA GAATCTTCGT
    CAGCAGCTAG AAGAGGAGAG AGATGCAAAA AAGAAGAAAG AAGAACTGAT ATTTAATCTA
    AAAGAAGAGC TTGATGATCT CAAGCACAAG AAGCCTGGAG AAATCAAGGC ATCTCTGGAG
    GAAGTGGACT CAGAGCTAAT GTTTGTGCGA GAAGAACTGC AGAAAGTCTG GGAAATGTTG
    AAGACAAAAG ATACAGAACT TGAGGAACAG TATCAGGAGC TGGAGTCTGC TCGAGGCCAG
    TACACAGAGT GCAGCACAGA AAAAATGCGA CTGGAGCAAG TTCTTGCCAC CTTGCAGCAG
    CAGTTGACTG AGAAAGAGCA GACAATGAAA CATCTCAAGC AAATGAGAGA AATGGAGAAA
    ACTGAAATGG ATATTGAGAG GTCCTCATTG CAACTGAAGC TGGCAGAGCT ACAAGGACAA
    AAAGGAGATG TCACAACTCA GGCTGGGCAG CCGATAGAGG AGACTGGGCC TAAATGGTGG
    CGTTCAAAGG GAATGAAGGT TGTAGAGTCA TCAAAGAAAT GTATTCGCTG TGAAGCATTT
    TTGCAACAGT TGGATGAGAC AATCAAGGGT TGCCAGGAAC ACAATGCCGA GTTACAAGAA
    GAGAAGAACC AAACCTTGGC ATCCCTATAC CAGTTACAAG AAGTCCTAAC AAACCTCTCA
    AAACAATCAA AAGTAAATGA ACACGTGGCC CAGAGTCTAC AGGCGGACAA TGACTCTCTG
    AAAAAACAAC ACAGACTGGT GACAGAACAG CTTAAATGTC TGTTCAAAGA GAAAGAATCT
    CTGGGAAAAG CCTACCATAA GCTTCCAAAG AAGGATAAGC CAACGGAGGA CTGGAATGTT
    CAGTCCAGAT TAGTAAAGAA TGTGCTGAGT TCTATAAAAA GCCATAAAAA CCAGCAAGAA
    GAGCTAACAG AAGAGGCAGG CCATCAACCA ATGGAATTCG ATGCTGTGCA GATGGAAACT
    AATGAAAGAG ACATGAGGAA CTTGCAAAGA CAGCTTGAGG AAAAGTCTGA GCAGATATTG
    AAAATGGCTT CAGAAATGAA ACTGTTACAA GAAAAAAATG AGTCTTTAAT GAAAGCTAAG
    ATGCGTTTTC AACAACAAGT CCAGCAAATT CGGAGCATGC CACATCTAAG TCATCAAAGA
    GAAAAGACAG ATCCTACTGT ACCACCTCTG TCTGGAGACA TCAACACCTC CTTTCACAAA
    AAGAATGAGT TTTTGGCAGC AGAGAGCCAA GATTGTTCTG GTAGAATGCA GGGAACACCA
    ACTTCATTTC AGAGTGCCTC AGAGGGGTCC TGGACATCAT CACCTCAAAA CTCAAGACCT
    CCAACACCCA TCAACCAAAA GGTTATGCCA TCTGCATCTT TACTGAGAGT TCAGCTTCCT
    GGCACAGTGG GGAAACACTG GGTAAAATCA AAAGTGGAAT CTCCTTTAAG CCCCAGAAGC
    CTAGCAGACA GTGAAGGTAA CAGTGATACT CCAGGGTCAG TTACTCCAAG GACTTCTGCA
    TTGCTGTCTC CCAGACCTTT CCATCCACCA AAATCGGCAC AGGCCTTCAG ATATGGAAAG
    AATGTGCAAC ACACAAACAG CTAA

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

    CloneID OXa36524
    Clone ID Related Accession (Same CDS sequence) XM_012966921.1
    Accession Version XM_012966921.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    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 myosin-11-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) 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##

    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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGCAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCA TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTTAAGT ATCAGAAGAC TCCAATGGAA AATGATGAAC TAAGTCGAGA ACTAAGAACT
    GCACGTGAGA ATCTACTCTA CCTTCGAAAT CGAGTCAAAG TCCTGGACGC AGAGAAGACT
    CAATCTGTTG AGGAACTAAG GATATTGAGA GAGGGGAGTC AGCAGGCCTT TAGCCAAACC
    AATGATGCAA ACCAGAGGGT AACAGACACA CTCCGGGCTC AAAAAGATCT GCAAGAAGAG
    CTGGCAAATC TGCAACTGAA ACTAAACACT ACCAGTCTGG AGAAGGAGCT CGTGTCCTCA
    AAGATTATGA GATTGGAGGA AAAGGTTAAA GATCTGAATT TAAGGCTAAA TATTGCACAT
    TCTGACAGGG AACGGGTTCT GCAGGACAAG GTGGAGCTGA CTAGGCGAAA TCAGGAATTG
    TCTCTCGAAC TAGAACGGGC TCAGAGGGGT CAGGAGGGGT TTAATGACCA GGTCAGTGAC
    CTTCACATTG AGCTGGTAGG AGCTAAAGCC CAGTCAAACC GTCAGGACCA GGAGAAGGTT
    CAGATGAAGG AGGAGCTGGT GATGCTGAAA CAGGTGAATG AGAAACTGAC TGCTGAACTG
    GGACAGACAC AGCATACACT CCAGCGCACC CTGGATGAAC TGCATCAGCT CCAGGCAGAA
    CACAAGATTT CAACCAACCT TACAGCTGCC TTGGAGGCAG AACGTTCCCA GCTCTTGGGT
    GAGAAAGAGC TGCTGATGTC AACTGTGGAG GAACATGGGG AGAGCCAGAG CATCCAAGAG
    CTCAGATCTT CTCAGGCGCA GTTAATAGAA GAGAGGGATA ACCTACGTAC CCATTGCCAG
    AACCTGCAGG TTTCACTGGA ACAAGCACAT GAACAGCTCG GCTCCCAGAT CCAGGAGCAG
    CAGCAGCTCA CTCTGTATTG GAAGGAAAGG TGGCAGCAGA CTGCTGTTAA TTTAAAAAGC
    ACAGAAGAAC AACTGGAACA GGCAAAGGCT CTTTGCTCTA GTACAACAAA TAAGCACTCT
    GAGATCCTCC AAGATTATGA ACTCCTACAA ACAGATGCAG AGGAGCTGGC TGAACTCAGG
    ATGGCTATCA GCAGCCTGAA GAAAGAAAAC AGCCTTTTAA AAGAGCAGAT AAAGGAGCAG
    GAACAGAACA AGCATCTGCA GTGTCTTCAG AGCCACATCC AGGCTAATGT GGACAGCCCA
    GAGGATATGA ATTCGAAACT TGGCAAGCTG TATAAAGAAT TACAGCAGGC TCACGAAAGG
    TTAAAATTCT TGGAGAGAGA AAGGTCTGAA AAAGAACTGG AAATAAAAAA ACTTAAGGCT
    GAGAGTGGAT CCATACTTCG CATTGAGCTA GATGCCTGCA AACAACAGTT GGAATTGGAG
    AGAAGTCGAA CAGCGACTCT ACAGGCCAAG ATTTCAGTCA TGGATTCCAG AAACAAAATG
    GAGGTTGCAA GTAGTCAGGA TCGTGTAGAC AGTTTGCAGA ACCACAGCTT GTCCCTTCTA
    TCAGAAAGGT TAACATCAGA CGAATTGAGT TCTGAGATTG AGAATCTTCG TCAGCAGCTA
    GAAGAGGAGA GAGATGCAAA AAAGAAGAAA GAAGAACTGA TATTTAATCT AAAAGAAGAG
    CTTGATGATC TCAAGCACAA GAAGCCTGGA GAAATCAAGG CATCTCTGGA GGAAGTGGAC
    TCAGAGCTAA TGTTTGTGCG AGAAGAACTG CAGAAAGTCT GGGAAATGTT GAAGACAAAA
    GATACAGAAC TTGAGGAACA GTATCAGGAG CTGGAGTCTG CTCGAGGCCA GTACACAGAG
    TGCAGCACAG AAAAAATGCG ACTGGAGCAA GTTCTTGCCA CCTTGCAGCA GCAGTTGACT
    GAGAAAGAGC AGACAATGAA ACATCTCAAG CAAATGAGAG AAATGGAGAA AACTGAAATG
    GATATTGAGA GGTCCTCATT GCAACTGAAG CTGGCAGAGC TACAAGGACA AAAAGGAGAT
    GTCACAACTC AGGCTGGGCA GCCGATAGAG GAGACTGGGC CTAAATGGTG GCGTTCAAAG
    GGAATGAAGG TTGTAGAGTC ATCAAAGAAA TGTATTCGCT GTGAAGCATT TTTGCAACAG
    TTGGATGAGA CAATCAAGGG TTGCCAGGAA CACAATGCCG AGTTACAAGA AGAGAAGAAC
    CAAACCTTGG CATCCCTATA CCAGTTACAA GAAGTCCTAA CAAACCTCTC AAAACAATCA
    AAAGTAAATG AACACGTGGC CCAGAGTCTA CAGGCGGACA ATGACTCTCT GAAAAAACAA
    CACAGACTGG TGACAGAACA GCTTAAATGT CTGTTCAAAG AGAAAGAATC TCTGGGAAAA
    GCCTACCATA AGCTTCCAAA GAAGGATAAG CCAACGGAGG ACTGGAATGT TCAGTCCAGA
    TTAGTAAAGA ATGTGCTGAG TTCTATAAAA AGCCATAAAA ACCAGCAAGA AGAGCTAACA
    GAAGAGGCAG GCCATCAACC AATGGAATTC GATGCTGTGC AGATGGAAAC TAATGAAAGA
    GACATGAGGA ACTTGCAAAG ACAGCTTGAG GAAAAGTCTG AGCAGATATT GAAAATGGCT
    TCAGAAATGA AACTGTTACA AGAAAAAAAT GAGTCTTTAA TGAAAGCTAA GATGCGTTTT
    CAACAACAAG TCCAGCAAAT TCGGAGCATG CCACATCTAA GTCATCAAAG AGAAAAGACA
    GATCCTACTG TACCACCTCT GTCTGGAGAC ATCAACACCT CCTTTCACAA AAAGAATGAG
    TTTTTGGCAG CAGAGAGCCA AGATTGTTCT GGTAGAATGC AGGGAACACC AACTTCATTT
    CAGAGTGCCT CAGAGGGGTC CTGGACATCA TCACCTCAAA ACTCAAGACC TCCAACACCC
    ATCAACCAAA AGGTTATGCC ATCTGCATCT TTACTGAGAG TTCAGCTTCC TGGCACAGTG
    GGGAAACACT GGGTAAAATC AAAAGTGGAA TCTCCTTTAA GCCCCAGAAG CCTAGCAGAC
    AGTGAAGGTA ACAGTGATAC TCCAGGGTCA GTTACTCCAA GGACTTCTGC ATTGCTGTCT
    CCCAGACCTT TCCATCCACC AAAATCGGCA CAGGCCTTCA GATATGGAAA GAATGTGCAA
    CACACAAACA GCTAA

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

    RefSeq XP_012822375.1
    CDS280..4194
    Translation

    Target ORF information:

    RefSeq Version XM_012966921.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis myosin-11-like (LOC100496327), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012966921.1

    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
    ATGTCTTATA GAGTGTGTAA CGGTTATGTG AGTTTGCCCT CCCGGTATGG AACAACTGGG 
    AACTCTCAGT ATCATGTTGA CAGCGGCAGG ATATCTCCTT GCTGGTCCTA CAAAGATCTT
    GGCAGCAGCA GACATGGTTT GGAGTTATCC AAATCCCCCA TTTTATCTGA CCTAGAGAAA
    AATATTGAGA CAGCGGTGAA TTTAGAATCT AGCTTTCTGC CTGGGCAATG GAAAGATTAC
    AGCAGGAGTT CAGTAAGTCC ACATCATTCA GAGAGAGCGA GGTCTACAAG TCCAATGCGG
    GGGATCCACT CTCTAGAATG TTCCAGAATC CAGTCCACTC CTCCCATTTC AAGAAGAAAT
    TCACTTTCCC GTCTACCAAC TTCATCTTCT GAGGATTTCA GTCTTGAGCT GCCATTGAGC
    CGCAGAGGGT GGAGTGGGTC AGAGTTGGAT CTAAAGGCAT CATTGACTGA AAGTGCCCAA
    AAGCGGGCTG ATCTGGTGCA GAGACTGAAA GATGCTCAGG TGAAGCTGGA GGGCCAATCA
    GAGGAGCTGC GGCACCGGGA TAAGGAGCTG GAGTTCAGCA GAGCTAAAAT TGAATTACTG
    GCAGTGAAGC AAAAGCAACT GGAAACATCA ATATCTCAGT TAGAGAAGGA AAAGGGTTGG
    TTAGAGGTGT CCCGCTATGA GGATAAGAGG CAACGTGGTG AACTGCAAGA CCGGATTATT
    AATCTAGAAA TGGAAGTGAT GAAGACCAAA TCTAACCTGG AAAATCTTAA CTACACCAGT
    GTACTTAAGT ATCAGAAGAC TCCAATGGAA AATGATGAAC TAAGTCGAGA ACTAAGAACT
    GCACGTGAGA ATCTACTCTA CCTTCGAAAT CGAGTCAAAG TCCTGGACGC AGAGAAGACT
    CAATCTGTTG AGGAACTAAG GATATTGAGA GAGGGGAGTC AGCAGGCCTT TAGCCAAACC
    AATGATGCAA ACCAGAGGGT AACAGACACA CTCCGGGCTC AAAAAGATCT GCAAGAAGAG
    CTGGCAAATC TGCAACTGAA ACTAAACACT ACCAGTCTGG AGAAGGAGCT CGTGTCCTCA
    AAGATTATGA GATTGGAGGA AAAGGTTAAA GATCTGAATT TAAGGCTAAA TATTGCACAT
    TCTGACAGGG AACGGGTTCT GCAGGACAAG GTGGAGCTGA CTAGGCGAAA TCAGGAATTG
    TCTCTCGAAC TAGAACGGGC TCAGAGGGGT CAGGAGGGGT TTAATGACCA GGTCAGTGAC
    CTTCACATTG AGCTGGTAGG AGCTAAAGCC CAGTCAAACC GTCAGGACCA GGAGAAGGTT
    CAGATGAAGG AGGAGCTGGT GATGCTGAAA CAGGTGAATG AGAAACTGAC TGCTGAACTG
    GGACAGACAC AGCATACACT CCAGCGCACC CTGGATGAAC TGCATCAGCT CCAGGCAGAA
    CACAAGATTT CAACCAACCT TACAGCTGCC TTGGAGGCAG AACGTTCCCA GCTCTTGGGT
    GAGAAAGAGC TGCTGATGTC AACTGTGGAG GAACATGGGG AGAGCCAGAG CATCCAAGAG
    CTCAGATCTT CTCAGGCGCA GTTAATAGAA GAGAGGGATA ACCTACGTAC CCATTGCCAG
    AACCTGCAGG TTTCACTGGA ACAAGCACAT GAACAGCTCG GCTCCCAGAT CCAGGAGCAG
    CAGCAGCTCA CTCTGTATTG GAAGGAAAGG TGGCAGCAGA CTGCTGTTAA TTTAAAAAGC
    ACAGAAGAAC AACTGGAACA GGCAAAGGCT CTTTGCTCTA GTACAACAAA TAAGCACTCT
    GAGATCCTCC AAGATTATGA ACTCCTACAA ACAGATGCAG AGGAGCTGGC TGAACTCAGG
    ATGGCTATCA GCAGCCTGAA GAAAGAAAAC AGCCTTTTAA AAGAGCAGAT AAAGGAGCAG
    GAACAGAACA AGCATCTGCA GTGTCTTCAG AGCCACATCC AGGCTAATGT GGACAGCCCA
    GAGGATATGA ATTCGAAACT TGGCAAGCTG TATAAAGAAT TACAGCAGGC TCACGAAAGG
    TTAAAATTCT TGGAGAGAGA AAGGTCTGAA AAAGAACTGG AAATAAAAAA ACTTAAGGCT
    GAGAGTGGAT CCATACTTCG CATTGAGCTA GATGCCTGCA AACAACAGTT GGAATTGGAG
    AGAAGTCGAA CAGCGACTCT ACAGGCCAAG ATTTCAGTCA TGGATTCCAG AAACAAAATG
    GAGGTTGCAA GTAGTCAGGA TCGTGTAGAC AGTTTGCAGA ACCACAGCTT GTCCCTTCTA
    TCAGAAAGGT TAACATCAGA CGAATTGAGT TCTGAGATTG AGAATCTTCG TCAGCAGCTA
    GAAGAGGAGA GAGATGCAAA AAAGAAGAAA GAAGAACTGA TATTTAATCT AAAAGAAGAG
    CTTGATGATC TCAAGCACAA GAAGCCTGGA GAAATCAAGG CATCTCTGGA GGAAGTGGAC
    TCAGAGCTAA TGTTTGTGCG AGAAGAACTG CAGAAAGTCT GGGAAATGTT GAAGACAAAA
    GATACAGAAC TTGAGGAACA GTATCAGGAG CTGGAGTCTG CTCGAGGCCA GTACACAGAG
    TGCAGCACAG AAAAAATGCG ACTGGAGCAA GTTCTTGCCA CCTTGCAGCA GCAGTTGACT
    GAGAAAGAGC AGACAATGAA ACATCTCAAG CAAATGAGAG AAATGGAGAA AACTGAAATG
    GATATTGAGA GGTCCTCATT GCAACTGAAG CTGGCAGAGC TACAAGGACA AAAAGGAGAT
    GTCACAACTC AGGCTGGGCA GCCGATAGAG GAGACTGGGC CTAAATGGTG GCGTTCAAAG
    GGAATGAAGG TTGTAGAGTC ATCAAAGAAA TGTATTCGCT GTGAAGCATT TTTGCAACAG
    TTGGATGAGA CAATCAAGGG TTGCCAGGAA CACAATGCCG AGTTACAAGA AGAGAAGAAC
    CAAACCTTGG CATCCCTATA CCAGTTACAA GAAGTCCTAA CAAACCTCTC AAAACAATCA
    AAAGTAAATG AACACGTGGC CCAGAGTCTA CAGGCGGACA ATGACTCTCT GAAAAAACAA
    CACAGACTGG TGACAGAACA GCTTAAATGT CTGTTCAAAG AGAAAGAATC TCTGGGAAAA
    GCCTACCATA AGCTTCCAAA GAAGGATAAG CCAACGGAGG ACTGGAATGT TCAGTCCAGA
    TTAGTAAAGA ATGTGCTGAG TTCTATAAAA AGCCATAAAA ACCAGCAAGA AGAGCTAACA
    GAAGAGGCAG GCCATCAACC AATGGAATTC GATGCTGTGC AGATGGAAAC TAATGAAAGA
    GACATGAGGA ACTTGCAAAG ACAGCTTGAG GAAAAGTCTG AGCAGATATT GAAAATGGCT
    TCAGAAATGA AACTGTTACA AGAAAAAAAT GAGTCTTTAA TGAAAGCTAA GATGCGTTTT
    CAACAACAAG TCCAGCAAAT TCGGAGCATG CCACATCTAA GTCATCAAAG AGAAAAGACA
    GATCCTACTG TACCACCTCT GTCTGGAGAC ATCAACACCT CCTTTCACAA AAAGAATGAG
    TTTTTGGCAG CAGAGAGCCA AGATTGTTCT GGTAGAATGC AGGGAACACC AACTTCATTT
    CAGAGTGCCT CAGAGGGGTC CTGGACATCA TCACCTCAAA ACTCAAGACC TCCAACACCC
    ATCAACCAAA AGGTTATGCC ATCTGCATCT TTACTGAGAG TTCAGCTTCC TGGCACAGTG
    GGGAAACACT GGGTAAAATC AAAAGTGGAA TCTCCTTTAA GCCCCAGAAG CCTAGCAGAC
    AGTGAAGGTA ACAGTGATAC TCCAGGGTCA GTTACTCCAA GGACTTCTGC ATTGCTGTCT
    CCCAGACCTT TCCATCCACC AAAATCGGCA CAGGCCTTCA GATATGGAAA GAATGTGCAA
    CACACAAACA GCTAA

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