LOC105947716 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC105947716 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105947716 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
OXa40148 XM_012965762.2
Latest version!
Xenopus tropicalis obscurin-like (LOC105947716), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $1161.30
$1659.00
OXa40149 XM_012965763.2
Latest version!
Xenopus tropicalis obscurin-like (LOC105947716), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $1161.30
$1659.00

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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 OXa40148
    Clone ID Related Accession (Same CDS sequence) XM_012965762.2
    Accession Version XM_012965762.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6132bp)
    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 obscurin-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012965762.1. ##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
    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
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGACCTTTA TAGATCAGTA TCATATCAAT GCCTCTAGAT CAATATCAAA TGACTTAAGA 
    CAGTGTTTAT GTTCCTGTAT AAAATCAGGT GTGGGGGGCT CCATCAGGGC CTCACTGGAG
    CGAGCAGATC AGGAGATAAG GCAAGTTCTA CAGAAGCTGG TAGAGACACC AGGGACCGGC
    TTGATGCCAC CCCAACTGGT ATCTCCCAAG GGTCTTGGAA CAAAGAAATC AGCGGCTGTC
    CAGTCTTCAG TAGAAGAACG CAAAGCAATG GACATGTTTA GAGATGCCAA CACACAGACC
    CCGGAAGACC AAGGTGAAGA GAAGAAACAA ATGGAACAGA AGGAGACGAC AGAAACACAT
    GAGATCCCTA CGGCTTCCCA AAAACAGGAG GCGCCCGGGG TGCCGGAGCT TCATATTCCC
    ATCAGGTTGG GGATGGAAGC GTCGGACTGG TACCTCCGGA GGGCGCCGGC ACACATTTGG
    GATGTTCGCA GCCAGGTGTA TATCGAGAGC ACGGAGACAA CTTGTGTCCA CTTTAAGGAT
    GACAAAGCAA CAAGGCCTCC GTACATGCAG GTGACCATAG AAGATGTCCA TACCCAGTGC
    GGAGATGCAG CCAGATTTGA TGCCGTGATA GAGGGGACAG CGCCGCTCAC TATTGCCTGG
    TACAAGAACA ACGTCCCACT AACTGAGTGT GAAAGAATTC AGATTGTGAA AGAAGACAGA
    AAATATTCTT TAATCCTCCG AGACACAAAA CCAGACGATG GCGCTATATA CACTTGTGTT
    GCTAGAAATA TGGGGGGAGA GGTGTCCTGC AAGGCTGAGC TCGTTATGCA TGAAGATACA
    AAAGAACACG TGACAGAGAC AGTTCAGAAA AGGAGAAAAC TGAAATCCTT CTTTGAGGTG
    AAGGAAGAAA TTGGAAGAGG CTGTTTTGGT TTTGTGAAAC GAGTTGTGCA CAAAGGAAAT
    GGTGCCAACT GTGCCGCCAA GTTCATCCCT CTGAGAAGCA AAACGCGACA GCGAGCCTAC
    AGGGAAAGGG AACTGCTCTC CGAGATATCC CACAGCAACA TCACCTGCCT GCTCGATGCC
    TTTGAGACAA GGAAAACACT GATCCTTATC ATGGATATAT GCTGCGGCGA AGAACTGCTC
    GACCGTCTAT TCAAGAAAAG TATTGTCTCT GAAAGAGAGG TAAAGGTGTA CATTAGACAG
    CTTGTTGAAG CCATTGGGTA TCTCCATGAC AAGGACATTC TTCACCTGGA CGTTAAGCCG
    GCCAATATTC TCATGGTTAA TACAGACCAG GACGATATCA AACTCTGTGA CTTTGGATTC
    GCTCAGAAAC GGCGGCGCTC AGAGCCTCAG TACAGTAAAT ACGGCTCCCC TGAGTTTGTC
    TCCCCAGAAA TTGCCAGTCA GTTGCCCGTG TCCGAAGCCT CCGATATATG GCCCATCGGT
    GTGATCACCT ACCTATGTTT GGTGTGCGCG TCGCCGTTTG CGGGGCAGAA TGACAGAGAG
    ACCCTACTCA GCGTGCAGCA GGGCAAGATC AGTTGGCACA ACCAGGGATT TATAGAGCTG
    AGTGAAGAAG CGAAGGATTT CATAAGAAGA ACGATCCAAA TGTCTCCAGA ATCTCGGCCC
    AGTGCCGTGG AATGTTCCAA CCATAAGTGG TTCCAGGGAT GTTCCGGTGA AAAAGACACG
    CGACCCATTA TTACAAAAGG CCTCAAATTC CTGGTGGCGC GGAGCAGATG GCAGCGTTCC
    TTGATGTGCT ACAGATCGAT TCTGGTGATG AGATCCATCC CGGAGCTTCT GCAAGGAAAC
    GTGGAGAGAA CATCTTTGGG GGTTCCTCGA CACTTAGTTG AAGGAAGCAG CTCTTCCAGC
    AGCAGTGGAT CCTCTTCTGA TAATGAGAGC GACATCAGCC CAACGGCAAG GGGCTCCAAT
    CCTTCCCTAG AGCTCCACTT GTCTATTTTT AAAATGTATG ATAGGGATAC TTTTCAAGAA
    GTGAGCCAAA AGGCGGACAT TATCACCCAA GAAGAGAAGA GAAGCCAAGA GGCAACCCTA
    GTGTGTTCTG ATAAATCGGG AGCTCAAGAG ACTGATAAGG TTAACTTTGC AGAAGATACA
    GTGAACCTTG AGCAAACAGA CAAAATGCTG GTGGAGTCAG TGGAAACATC TCCAGGAAAA
    CGACCTTTCT GCAAAGCAGC GACTATTGAA GTTGGCGATT TAGCGTCAAA AAAGGGCAAG
    TCTGGATGCT TTGTAAGAGG TTCATCGGCA GACAGTGCAT TGCTAGGAGT TGATAGACAC
    ACCTTAGTAT GTGTGCCAAG GCAAAGCATC ATTAATAGCA CCTTCTACAG CCAATCGGGT
    GAGGGCGCTG GCTTGACTCC CAGAGATGGG GCACTGAGGG AGAAAGAATT CATCAAGCAT
    CGTGAAAAGG CACGAAGGAG CTTAATGAAA GCAGGATATT CCCAAAAGAT ACTGAGTGGC
    TTGAGAGAGC CTCTGCTTGA ACAGTTTGCA ATGGAGCAAA GAATAATTGC CCAGGACAAG
    GCTCAGGCCA CACAAGAAGG ACCGTCTGGT TCTCTGAAAA AATCAGTTTC GTTTGATGGC
    TCCAAAGGTT CCCCGAGGTC TTCTTTCAAG GCCTCCAGCA GAAGCCGCTC TCTGGACGAC
    TGCAAATCAA GACCACTTAC TGTTTATAAA GGAGTTCTCC TGGAGGAAGG AGGTCAAAAA
    GTTTCAGTAG GAGATAAAAT TCTTCATACA AATACTCAGT GTCATTCTGA AGAGACTGCA
    ACACAAAGTG ACTTTACTCA GGGCATAACT GATTCTATAC ACAGTAGGGT CCAACCGGAA
    GTACCACATG CAGCCAAAGA ACATCAAGCA CCTCTCTTCA TCTCTTCTAC ACAAAGACCA
    CTCTCTGCTA CGACAGTTGA TAGTGAAAAT ACAATAATTG CAGTTTTACA TCAACAACCA
    ATATTCGACT CTGGTTCAGT AAAAGAGAGG CCACCTTCTC TTGCACTGGA GGTTGAGGAA
    AGCACAGTCA TAGCATTTCT GCAACAAAAA CCACTGCTGT TTGCAGAACC TTCCAAAACA
    CATGTTGATA CTGAGGGCAT AAAAGACTCA ATTCAACCCC AAGAAACTGG ACTACCCAGT
    CAGTTTGAAG GACCAACTCC TCATTTAGGA GGCAGTGTTA CATTTACAGT GAAGACCACC
    TCTGATACAA ATTACTTTCT TGCTTCCCAA CCACCAGTAG AAAAATACCA AGTCGGTTCT
    GAGGTTGGCA CCGAAACGAG TGTAAACCAA GAGAGCACAG TTTCTCCAGA CTCCACAATG
    GAGAGTACTC CATATGTTGT GCAGTTTACT GACTCTAAAT CCAGCACCGC GATAATACCT
    CAAGGTCTGC AGAAAGATCC ACCTCTTTTA AAAGCTACCA AAGAACGTGC AGTAGTAACA
    GTAACTGAAG CAACAGCGGT CACTGAAAAA GTAGAAGAAA AATGTTCCAT CACTAACTTG
    GATACATTTT CTCCTGAAAA CCTACATTTA TCCACCCAAC ATGGAGATGT TATTCTTAAA
    CCATCAATAT CAGAGCACCA AGAACTTGGA TCTACTTCTG AAAGGCACTG TGAGATCATC
    AAGGATGTTT CTAGGCAAAA TACAGATGAA AACCGAGGTT CTTCCCTTTA CAGCGATGAA
    CAAAGTGCTG CATTAGAAGA TCTGGTTGGC GAAATGACCT ACTTGTCGGA ACAGATGAAT
    GTATTGGCGG GCAACCAAGA GCAGATATCC AATATAAAAT CGACTGAAGG CAAGACTCAG
    GTGGAAAGAG GTCCCCTAGA CCCTGGTCTT GCAATGGAAA CAGAAGTTCT GATTGTACAA
    ACCAGTGCAT CACCTCAAGC ATCCAAAGAA CCCCAACTGA CATCAGTCTC ACAGTGCAGT
    TTCTACGACT CCCTGTGTCC AGCCCAAGCC TCTCCTCTAC TTCATGAGGA GGAGTTTAGC
    ATCGAAAGTC GTAGCTCCAG CAAAACATTT ATTTCCCATT CAGACAGCTC TGAGACAGGG
    AGAAGATCTG ATAATTTCTC TGACTTTGAA GAAGCGGGCA GGCATTCTGA AGTCTCCCTG
    CTGGAGATTG AGGAACTGAA TTACAACAGT CCATCCACCA GTTCAGTTGG GCCATTTCAT
    TTTGAGCCCA CACAGTCCCA TCTTTTGGAT TTTTATGGTA TCAAAGAATC CCCTCGGAAC
    TCAGAAGATC CGAGTCAAGA AAAACCTCTC TCTGATAACG AGAAGTTAAA TCTGAACTCC
    CAGCCATTAC TGGGTGGAAA GCATGACACG AAAATTGATG AAAGAACAAT GGAAAAAGTG
    TCGAAGAAAG AAGAAATCAA GGAGAGGAAA AGTAGCTCAT CAAGGAAAAG GATCAAGCTC
    TTTAGGCCTC ATTCAAAGAC CGACTCTTCA GGAAAGTCTT CAGACCAAAG TCTAAAGCAA
    AAGGTGAAAG CCTCAGTGGC CAACATTTCC CGTATTATCA AAGGGAAGCC CAGCAATGGT
    CAGGAGAGAA AGGAAGGTAT CGAAGGACCA AAGGCCGATT CTCTAGTGCA GGCAGCTACA
    GAAAGAATAG CAGTACACAT GAAGAAAAAA TCATTCAAAC TTACCAGTCT GTCACCGAAA
    GACAAAGGTA ATTCAGTAGC TCCAGCTTTT GTCGAGGAAC TCACGGACCA GACGGTTGTC
    GTTGGTCACT TAGTGACTTT GTCCTGTAGA ACTTCTGAAC CTGTGACTGA GGTTGAGTGG
    TTTAAAGACG GGGTACCCAT CCAGGGCAAT GAAAGAGTCC TCATCTCTTC TACTCTGAAG
    AACTATCATC TTCTCACTAT CCTCGTCGTG ATGGCGCAAG ACCTGGGGAT CTATGCCTGT
    GTGGCATCCA ACTCTCTTGG CAGTGCCTCA ACATGCTGCA TTCTAAAGAG AGCTGAGATA
    CCATGCTGTC CCACCAGCCC TGAAGTTGCC CAGGTATATA AAGATGGAGC CCTAATTGTC
    TGGAAGCCGG TGGAGTCTGC AAGCCCTGTC ACCTACTTTG TACAATACAG GAAGGAAGGT
    GAGGAATGGA GACCCCTGAC TCTCGACATC TCCGACTGCT GCTACTCTAC CCATGTTCTC
    TCTGAAGGAC AAGTCTACTC CTTTAGGATC GCTTGTATCA GCAAAGCTGG AATGGGCCCT
    TACAGCAACC CGTCTGCTGG AGTCAGGATT GGTAGGCCCA GCCAGACATT CTCAAAAGAG
    ATGGGTAGCA CAGAAGAGAC AGTCGCAGCC GACAGAACAA GCACCCTACA GACTGGAGTA
    ACGAGGGGGC GCTTCAGTAG TGTTAGACCC TGCAAGGAGA AGTCAAGTGG AAGACTGTTT
    GCTGCAAAAA TCATACCATA CACAGACAAA AGCAAAGAGT CTACCCTGCA GGAGTATCTG
    ATCCTGAAGC AACTTCATCA TTCCAACATT GTCCAGTTAC ACGGAGCATT CCTGAGCCCC
    CATGATCTTG TCCTGATCCT TGAACTGTGT GAGGGACTGG AGCTACTGCA GTTCCTCTCT
    CTTGGGCCGT CGTACTCAGA GCTGGAAGTG CGAGACTACC TGTGGCAGAT GCTAAGCGCA
    GTGGAGTTTC TCCATGCCAA ACAAATCCTC CATCTGGATC TGAGATCTGA AAACACAATA
    GTAACTGAAC ACAAGCTGCT GAAAATCCTG GATTTTGGGA ACGCGTGTGT CTATTCTCCA
    GACAAGCTCA GCGCTCCACA GAGATACAGG GATTACGTGG AAACTATGGC TCCAGAAGTT
    CTAGAAGGCC AGGGGGCGGT TCCACCCACT GATATTTGGG CCGTGGGCAT TACAGCTTTC
    ATCATGCTGA GCTCTGACTA TCCATTCAGC AGCGATACAA CGTCGGAATT GGAGAAAGGC
    ATCAAGAAAG GGCTGATCAG GTTCACGCGG TGTTACGCTG GCTTGTCCGG GGGAGCCGTG
    TCCTTTCTTC AGAGCACCTT GTGGGCGAAT CCGTGGGGAA GGCCCTCCGC CTCCGATTGC
    CTGAAGTTTC TATGGTTACA GGAAGCCGGA CTGGCCACGT TTCAGCAGGC TCCAATATTT
    TTCCCCAGCT CCAAGCTTAA GAACTTCCTG AGAGAGAGAA GGAAAAGAAC CCAGCAGTTG
    GCTACTCTGT GA

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

    RefSeq XP_012821216.1
    CDS501..6632
    Translation

    Target ORF information:

    RefSeq Version XM_012965762.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis obscurin-like (LOC105947716), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012965762.2

    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
    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
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGACCTTTA TAGATCAGTA TCATATCAAT GCCTCTAGAT CAATATCAAA TGACTTAAGA 
    CAGTGTTTAT GTTCCTGTAT AAAATCAGGT GTGGGGGGCT CCATCAGGGC CTCACTGGAG
    CGAGCAGATC AGGAGATAAG GCAAGTTCTA CAGAAGCTGG TAGAGACACC AGGGACCGGC
    TTGATGCCAC CCCAACTGGT ATCTCCCAAG GGTCTTGGAA CAAAGAAATC AGCGGCTGTC
    CAGTCTTCAG TAGAAGAACG CAAAGCAATG GACATGTTTA GAGATGCCAA CACACAGACC
    CCGGAAGACC AAGGTGAAGA GAAGAAACAA ATGGAACAGA AGGAGACGAC AGAAACACAT
    GAGATCCCTA CGGCTTCCCA AAAACAGGAG GCGCCCGGGG TGCCGGAGCT TCATATTCCC
    ATCAGGTTGG GGATGGAAGC GTCGGACTGG TACCTCCGGA GGGCGCCGGC ACACATTTGG
    GATGTTCGCA GCCAGGTGTA TATCGAGAGC ACGGAGACAA CTTGTGTCCA CTTTAAGGAT
    GACAAAGCAA CAAGGCCTCC GTACATGCAG GTGACCATAG AAGATGTCCA TACCCAGTGC
    GGAGATGCAG CCAGATTTGA TGCCGTGATA GAGGGGACAG CGCCGCTCAC TATTGCCTGG
    TACAAGAACA ACGTCCCACT AACTGAGTGT GAAAGAATTC AGATTGTGAA AGAAGACAGA
    AAATATTCTT TAATCCTCCG AGACACAAAA CCAGACGATG GCGCTATATA CACTTGTGTT
    GCTAGAAATA TGGGGGGAGA GGTGTCCTGC AAGGCTGAGC TCGTTATGCA TGAAGATACA
    AAAGAACACG TGACAGAGAC AGTTCAGAAA AGGAGAAAAC TGAAATCCTT CTTTGAGGTG
    AAGGAAGAAA TTGGAAGAGG CTGTTTTGGT TTTGTGAAAC GAGTTGTGCA CAAAGGAAAT
    GGTGCCAACT GTGCCGCCAA GTTCATCCCT CTGAGAAGCA AAACGCGACA GCGAGCCTAC
    AGGGAAAGGG AACTGCTCTC CGAGATATCC CACAGCAACA TCACCTGCCT GCTCGATGCC
    TTTGAGACAA GGAAAACACT GATCCTTATC ATGGATATAT GCTGCGGCGA AGAACTGCTC
    GACCGTCTAT TCAAGAAAAG TATTGTCTCT GAAAGAGAGG TAAAGGTGTA CATTAGACAG
    CTTGTTGAAG CCATTGGGTA TCTCCATGAC AAGGACATTC TTCACCTGGA CGTTAAGCCG
    GCCAATATTC TCATGGTTAA TACAGACCAG GACGATATCA AACTCTGTGA CTTTGGATTC
    GCTCAGAAAC GGCGGCGCTC AGAGCCTCAG TACAGTAAAT ACGGCTCCCC TGAGTTTGTC
    TCCCCAGAAA TTGCCAGTCA GTTGCCCGTG TCCGAAGCCT CCGATATATG GCCCATCGGT
    GTGATCACCT ACCTATGTTT GGTGTGCGCG TCGCCGTTTG CGGGGCAGAA TGACAGAGAG
    ACCCTACTCA GCGTGCAGCA GGGCAAGATC AGTTGGCACA ACCAGGGATT TATAGAGCTG
    AGTGAAGAAG CGAAGGATTT CATAAGAAGA ACGATCCAAA TGTCTCCAGA ATCTCGGCCC
    AGTGCCGTGG AATGTTCCAA CCATAAGTGG TTCCAGGGAT GTTCCGGTGA AAAAGACACG
    CGACCCATTA TTACAAAAGG CCTCAAATTC CTGGTGGCGC GGAGCAGATG GCAGCGTTCC
    TTGATGTGCT ACAGATCGAT TCTGGTGATG AGATCCATCC CGGAGCTTCT GCAAGGAAAC
    GTGGAGAGAA CATCTTTGGG GGTTCCTCGA CACTTAGTTG AAGGAAGCAG CTCTTCCAGC
    AGCAGTGGAT CCTCTTCTGA TAATGAGAGC GACATCAGCC CAACGGCAAG GGGCTCCAAT
    CCTTCCCTAG AGCTCCACTT GTCTATTTTT AAAATGTATG ATAGGGATAC TTTTCAAGAA
    GTGAGCCAAA AGGCGGACAT TATCACCCAA GAAGAGAAGA GAAGCCAAGA GGCAACCCTA
    GTGTGTTCTG ATAAATCGGG AGCTCAAGAG ACTGATAAGG TTAACTTTGC AGAAGATACA
    GTGAACCTTG AGCAAACAGA CAAAATGCTG GTGGAGTCAG TGGAAACATC TCCAGGAAAA
    CGACCTTTCT GCAAAGCAGC GACTATTGAA GTTGGCGATT TAGCGTCAAA AAAGGGCAAG
    TCTGGATGCT TTGTAAGAGG TTCATCGGCA GACAGTGCAT TGCTAGGAGT TGATAGACAC
    ACCTTAGTAT GTGTGCCAAG GCAAAGCATC ATTAATAGCA CCTTCTACAG CCAATCGGGT
    GAGGGCGCTG GCTTGACTCC CAGAGATGGG GCACTGAGGG AGAAAGAATT CATCAAGCAT
    CGTGAAAAGG CACGAAGGAG CTTAATGAAA GCAGGATATT CCCAAAAGAT ACTGAGTGGC
    TTGAGAGAGC CTCTGCTTGA ACAGTTTGCA ATGGAGCAAA GAATAATTGC CCAGGACAAG
    GCTCAGGCCA CACAAGAAGG ACCGTCTGGT TCTCTGAAAA AATCAGTTTC GTTTGATGGC
    TCCAAAGGTT CCCCGAGGTC TTCTTTCAAG GCCTCCAGCA GAAGCCGCTC TCTGGACGAC
    TGCAAATCAA GACCACTTAC TGTTTATAAA GGAGTTCTCC TGGAGGAAGG AGGTCAAAAA
    GTTTCAGTAG GAGATAAAAT TCTTCATACA AATACTCAGT GTCATTCTGA AGAGACTGCA
    ACACAAAGTG ACTTTACTCA GGGCATAACT GATTCTATAC ACAGTAGGGT CCAACCGGAA
    GTACCACATG CAGCCAAAGA ACATCAAGCA CCTCTCTTCA TCTCTTCTAC ACAAAGACCA
    CTCTCTGCTA CGACAGTTGA TAGTGAAAAT ACAATAATTG CAGTTTTACA TCAACAACCA
    ATATTCGACT CTGGTTCAGT AAAAGAGAGG CCACCTTCTC TTGCACTGGA GGTTGAGGAA
    AGCACAGTCA TAGCATTTCT GCAACAAAAA CCACTGCTGT TTGCAGAACC TTCCAAAACA
    CATGTTGATA CTGAGGGCAT AAAAGACTCA ATTCAACCCC AAGAAACTGG ACTACCCAGT
    CAGTTTGAAG GACCAACTCC TCATTTAGGA GGCAGTGTTA CATTTACAGT GAAGACCACC
    TCTGATACAA ATTACTTTCT TGCTTCCCAA CCACCAGTAG AAAAATACCA AGTCGGTTCT
    GAGGTTGGCA CCGAAACGAG TGTAAACCAA GAGAGCACAG TTTCTCCAGA CTCCACAATG
    GAGAGTACTC CATATGTTGT GCAGTTTACT GACTCTAAAT CCAGCACCGC GATAATACCT
    CAAGGTCTGC AGAAAGATCC ACCTCTTTTA AAAGCTACCA AAGAACGTGC AGTAGTAACA
    GTAACTGAAG CAACAGCGGT CACTGAAAAA GTAGAAGAAA AATGTTCCAT CACTAACTTG
    GATACATTTT CTCCTGAAAA CCTACATTTA TCCACCCAAC ATGGAGATGT TATTCTTAAA
    CCATCAATAT CAGAGCACCA AGAACTTGGA TCTACTTCTG AAAGGCACTG TGAGATCATC
    AAGGATGTTT CTAGGCAAAA TACAGATGAA AACCGAGGTT CTTCCCTTTA CAGCGATGAA
    CAAAGTGCTG CATTAGAAGA TCTGGTTGGC GAAATGACCT ACTTGTCGGA ACAGATGAAT
    GTATTGGCGG GCAACCAAGA GCAGATATCC AATATAAAAT CGACTGAAGG CAAGACTCAG
    GTGGAAAGAG GTCCCCTAGA CCCTGGTCTT GCAATGGAAA CAGAAGTTCT GATTGTACAA
    ACCAGTGCAT CACCTCAAGC ATCCAAAGAA CCCCAACTGA CATCAGTCTC ACAGTGCAGT
    TTCTACGACT CCCTGTGTCC AGCCCAAGCC TCTCCTCTAC TTCATGAGGA GGAGTTTAGC
    ATCGAAAGTC GTAGCTCCAG CAAAACATTT ATTTCCCATT CAGACAGCTC TGAGACAGGG
    AGAAGATCTG ATAATTTCTC TGACTTTGAA GAAGCGGGCA GGCATTCTGA AGTCTCCCTG
    CTGGAGATTG AGGAACTGAA TTACAACAGT CCATCCACCA GTTCAGTTGG GCCATTTCAT
    TTTGAGCCCA CACAGTCCCA TCTTTTGGAT TTTTATGGTA TCAAAGAATC CCCTCGGAAC
    TCAGAAGATC CGAGTCAAGA AAAACCTCTC TCTGATAACG AGAAGTTAAA TCTGAACTCC
    CAGCCATTAC TGGGTGGAAA GCATGACACG AAAATTGATG AAAGAACAAT GGAAAAAGTG
    TCGAAGAAAG AAGAAATCAA GGAGAGGAAA AGTAGCTCAT CAAGGAAAAG GATCAAGCTC
    TTTAGGCCTC ATTCAAAGAC CGACTCTTCA GGAAAGTCTT CAGACCAAAG TCTAAAGCAA
    AAGGTGAAAG CCTCAGTGGC CAACATTTCC CGTATTATCA AAGGGAAGCC CAGCAATGGT
    CAGGAGAGAA AGGAAGGTAT CGAAGGACCA AAGGCCGATT CTCTAGTGCA GGCAGCTACA
    GAAAGAATAG CAGTACACAT GAAGAAAAAA TCATTCAAAC TTACCAGTCT GTCACCGAAA
    GACAAAGGTA ATTCAGTAGC TCCAGCTTTT GTCGAGGAAC TCACGGACCA GACGGTTGTC
    GTTGGTCACT TAGTGACTTT GTCCTGTAGA ACTTCTGAAC CTGTGACTGA GGTTGAGTGG
    TTTAAAGACG GGGTACCCAT CCAGGGCAAT GAAAGAGTCC TCATCTCTTC TACTCTGAAG
    AACTATCATC TTCTCACTAT CCTCGTCGTG ATGGCGCAAG ACCTGGGGAT CTATGCCTGT
    GTGGCATCCA ACTCTCTTGG CAGTGCCTCA ACATGCTGCA TTCTAAAGAG AGCTGAGATA
    CCATGCTGTC CCACCAGCCC TGAAGTTGCC CAGGTATATA AAGATGGAGC CCTAATTGTC
    TGGAAGCCGG TGGAGTCTGC AAGCCCTGTC ACCTACTTTG TACAATACAG GAAGGAAGGT
    GAGGAATGGA GACCCCTGAC TCTCGACATC TCCGACTGCT GCTACTCTAC CCATGTTCTC
    TCTGAAGGAC AAGTCTACTC CTTTAGGATC GCTTGTATCA GCAAAGCTGG AATGGGCCCT
    TACAGCAACC CGTCTGCTGG AGTCAGGATT GGTAGGCCCA GCCAGACATT CTCAAAAGAG
    ATGGGTAGCA CAGAAGAGAC AGTCGCAGCC GACAGAACAA GCACCCTACA GACTGGAGTA
    ACGAGGGGGC GCTTCAGTAG TGTTAGACCC TGCAAGGAGA AGTCAAGTGG AAGACTGTTT
    GCTGCAAAAA TCATACCATA CACAGACAAA AGCAAAGAGT CTACCCTGCA GGAGTATCTG
    ATCCTGAAGC AACTTCATCA TTCCAACATT GTCCAGTTAC ACGGAGCATT CCTGAGCCCC
    CATGATCTTG TCCTGATCCT TGAACTGTGT GAGGGACTGG AGCTACTGCA GTTCCTCTCT
    CTTGGGCCGT CGTACTCAGA GCTGGAAGTG CGAGACTACC TGTGGCAGAT GCTAAGCGCA
    GTGGAGTTTC TCCATGCCAA ACAAATCCTC CATCTGGATC TGAGATCTGA AAACACAATA
    GTAACTGAAC ACAAGCTGCT GAAAATCCTG GATTTTGGGA ACGCGTGTGT CTATTCTCCA
    GACAAGCTCA GCGCTCCACA GAGATACAGG GATTACGTGG AAACTATGGC TCCAGAAGTT
    CTAGAAGGCC AGGGGGCGGT TCCACCCACT GATATTTGGG CCGTGGGCAT TACAGCTTTC
    ATCATGCTGA GCTCTGACTA TCCATTCAGC AGCGATACAA CGTCGGAATT GGAGAAAGGC
    ATCAAGAAAG GGCTGATCAG GTTCACGCGG TGTTACGCTG GCTTGTCCGG GGGAGCCGTG
    TCCTTTCTTC AGAGCACCTT GTGGGCGAAT CCGTGGGGAA GGCCCTCCGC CTCCGATTGC
    CTGAAGTTTC TATGGTTACA GGAAGCCGGA CTGGCCACGT TTCAGCAGGC TCCAATATTT
    TTCCCCAGCT CCAAGCTTAA GAACTTCCTG AGAGAGAGAA GGAAAAGAAC CCAGCAGTTG
    GCTACTCTGT GA

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

    CloneID OXa40149
    Clone ID Related Accession (Same CDS sequence) XM_012965763.2
    Accession Version XM_012965763.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6120bp)
    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 obscurin-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012965763.1. ##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
    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
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGACCTTTA TAGATCAGTA TCATATCAAT GCCTCTAGAT CAATATCAAA TGACTTAAGA 
    CAGTGTTTAT GTTCCTGTAT AAAATCAGGT GTGGGGGGCT CCATCAGGGC CTCACTGGAG
    CGAGCAGATC AGGAGATAAG GCAAGTTCTA CAGAAGCTGG TAGAGACACC AGGGACCGGC
    TTGATGCCAC CCCAACTGGT ATCTCCCAAG GGTCTTGGAA CAAAGAAATC AGCGGCTGTC
    CAGTCTTCAG TAGAAGAACG CAAAGCAATG GACATGTTTA GAGATGCCAA CACACAGACC
    CCGGAAGACC AAGGTGAAGA GAAGAAACAA ATGGAACAGA AGGAGACGAC AGAAACACAT
    GAGATCCCTA CGGCTTCCCA AAAACAGGAG GCGCCCGGGG TGCCGGAGCT TCATATTCCC
    ATCAGGTTGG GGATGGAAGC GTCGGACTGG TACCTCCGGA GGGCGCCGGC ACACATTTGG
    GATGTTCGCA GCCAGGTGTA TATCGAGAGC ACGGAGACAA CTTGTGTCCA CTTTAAGGAT
    GACAAAGCAA CAAGGCCTCC GTACATGCAG GTGACCATAG AAGATGTCCA TACCCAGTGC
    GGAGATGCAG CCAGATTTGA TGCCGTGATA GAGGGGACAG CGCCGCTCAC TATTGCCTGG
    TACAAGAACA ACGTCCCACT AACTGAGTGT GAAAGAATTC AGATTGTGAA AGAAGACAGA
    AAATATTCTT TAATCCTCCG AGACACAAAA CCAGACGATG GCGCTATATA CACTTGTGTT
    GCTAGAAATA TGGGGGGAGA GGTGTCCTGC AAGGCTGAGC TCGTTATGCA TGAAGATACA
    AAAGAACACG TGACAGAGAC AGTTCAGAAA AGGAGAAAAC TGAAATCCTT CTTTGAGGTG
    AAGGAAGAAA TTGGAAGAGG CTGTTTTGGT TTTGTGAAAC GAGTTGTGCA CAAAGGAAAT
    GGTGCCAACT GTGCCGCCAA GTTCATCCCT CTGAGAAGCA AAACGCGACA GCGAGCCTAC
    AGGGAAAGGG AACTGCTCTC CGAGATATCC CACAGCAACA TCACCTGCCT GCTCGATGCC
    TTTGAGACAA GGAAAACACT GATCCTTATC ATGGATATAT GCTGCGGCGA AGAACTGCTC
    GACCGTCTAT TCAAGAAAAG TATTGTCTCT GAAAGAGAGG TAAAGGTGTA CATTAGACAG
    CTTGTTGAAG CCATTGGGTA TCTCCATGAC AAGGACATTC TTCACCTGGA CGTTAAGCCG
    GCCAATATTC TCATGGTTAA TACAGACCAG GACGATATCA AACTCTGTGA CTTTGGATTC
    GCTCAGAAAC GGCGGCGCTC AGAGCCTCAG TACAGTAAAT ACGGCTCCCC TGAGTTTGTC
    TCCCCAGAAA TTGCCAGTCA GTTGCCCGTG TCCGAAGCCT CCGATATATG GCCCATCGGT
    GTGATCACCT ACCTATGTTT GGTGTGCGCG TCGCCGTTTG CGGGGCAGAA TGACAGAGAG
    ACCCTACTCA GCGTGCAGCA GGGCAAGATC AGTTGGCACA ACCAGGGATT TATAGAGCTG
    AGTGAAGAAG CGAAGGATTT CATAAGAAGA ACGATCCAAA TGTCTCCAGA ATCTCGGCCC
    AGTGCCGTGG AATGTTCCAA CCATAAGTGG TTCCAGGGAT GTTCCGGTGA AAAAGACACG
    CGACCCATTA TTACAAAAGG CCTCAAATTC CTGGTGGCGC GGAGCAGATG GCAGCGTTCC
    TTGATGTGCT ACAGATCGAT TCTGGTGATG AGATCCATCC CGGAGCTTCT GCAAGGAAAC
    GTGGAGAGAA CATCTTTGGG GGTTCCTCGA CACTTAGTTG AAGGAAGCAG CTCTTCCAGC
    AGCAGTGGAT CCTCTTCTGA TAATGAGAGC GACATCAGCC CAACGGCAAG GGGCTCCAAT
    CCTTCCCTAG AGCTCCACTT GTCTATTTTT AAAATGTATG ATAGGGATAC TTTTCAAGAA
    GTGAGCCAAA AGGCGGACAT TATCACCCAA GAAGAGAAGA GAAGCCAAGA GGCAACCCTA
    GTGTGTTCTG ATAAATCGGG AGCTCAAGAG ACTGATAAGG TTAACTTTGC AGAAGATACA
    GTGAACCTTG AGCAAACAGA CAAAATGCTG GTGGAGTCAG TGGAAACATC TCCAGGAAAA
    CGACCTTTCT GCAAAGCAGC GACTATTGAA GTTGGCGATT TAGCGTCAAA AAAGGGCAAG
    TCTGGATGCT TTGTAAGAGG TTCATCGGCA GACAGTGCAT TGCTAGGAGT TGATAGACAC
    ACCTTAGTAT GTGTGCCAAG GCAAAGCATC ATTAATAGCA CCTTCTACAG CCAATCGGGT
    GAGGGCGCTG GCTTGACTCC CAGAGATGGG GCACTGAGGG AGAAAGAATT CATCAAGCAT
    CGTGAAAAGG CACGAAGGAG CTTAATGAAA GCAGGATATT CCCAAAAGAT ACTGAGTGGC
    TTGAGAGAGC CTCTGCTTGA ACAGTTTGCA ATGGAGCAAA GAATAATTGC CCAGGACAAG
    GCTCAGGCCA CACAAGAAGG ACCGTCTGGT TCTCTGAAAA AATCAGTTTC GTTTGATGGC
    TCCAAAGGTT CCCCGAGGTC TTCTTTCAAG GCCTCCAGCA GAAGCCGCTC TCTGGACGAC
    TGCAAATCAA GACCACTTAC TGTTTATAAA GGAGTTCTCC TGGAGGAAGG AGGTCAAAAA
    GTTTCAGTAG GAGATAAAAT TCTTCATACA AATACTCAGT GTCATTCTGA AGAGACTGCA
    ACACAAAGTG ACTTTACTCA GGGCATAACT GATTCTATAC ACAGTAGGGT CCAACCGGAA
    GTACCACATG CAGCCAAAGA ACATCAAGCA CCTCTCTTCA TCTCTTCTAC ACAAAGACCA
    CTCTCTGCTA CGACAGTTGA TAGTGAAAAT ACAATAATTG CAGTTTTACA TCAACAACCA
    ATATTCGACT CTGGTTCAGT AAAAGAGAGG CCACCTTCTC TTGCACTGGA GGTTGAGGAA
    AGCACAGTCA TAGCATTTCT GCAACAAAAA CCACTGCTGT TTGCAGAACC TTCCAAAACA
    CATGTTGATA CTGAGGGCAT AAAAGACTCA ATTCAACCCC AAGAAACTGG ACTACCCAGT
    CAGTTTGAAG GACCAACTCC TCATTTAGGA GGCAGTGTTA CATTTACAGT GAAGACCACC
    TCTGATACAA ATTACTTTCT TGCTTCCCAA CCACCAGTAG AAAAATACCA AGTCGGTTCT
    GAGGTTGGCA CCGAAACGAG TGTAAACCAA GAGAGCACAG TTTCTCCAGA CTCCACAATG
    GAGAGTACTC CATATGTTGT GCAGTTTACT GACTCTAAAT CCAGCACCGC GATAATACCT
    CAAGGTCTGC AGAAAGATCC ACCTCTTTTA AAAGCTACCA AAGAACGTGC AGTAGTAACA
    GTAACTGAAG CAACAGCGGT CACTGAAAAA GTAGAAGAAA AATGTTCCAT CACTAACTTG
    GATACATTTT CTCCTGAAAA CCTACATTTA TCCACCCAAC ATGGAGATGT TATTCTTAAA
    CCATCAATAT CAGAGCACCA AGAACTTGGA TCTACTTCTG AAAGGCACTG TGAGATCATC
    AAGGATGTTT CTAGGCAAAA TACAGATGAA AACCGAGGTT CTTCCCTTTA CAGCGATGAA
    CAAAGTGCTG CATTAGAAGA TCTGGTTGGC GAAATGACCT ACTTGTCGGA ACAGATGAAT
    GTATTGGCGG GCAACCAAGA GCAGATATCC AATATAAAAT CGACTGAAGG CAAGACTCAG
    GTGGAAAGAG GTCCCCTAGA CCCTGGTCTT GCAATGGAAA CAGAAGTTCT GATTGTACAA
    ACCAGTGCAT CACCTCAAGC ATCCAAAGAA CCCCAACTGA CATCAGTCTC ACAGTGCAGT
    TTCTACGACT CCCTGTGTCC AGCCCAAGCC TCTCCTCTAC TTCATGAGGA GGAGTTTAGC
    ATCGAAAGTC GTAGCTCCAG CAAAACATTT ATTTCCCATT CAGACAGCTC TGAGACAGGG
    AGAAGATCTG ATAATTTCTC TGACTTTGAA GAAGCGGGCA GGCATTCTGA AGTCTCCCTG
    CTGGAGATTG AGGAACTGAA TTACAACAGT CCATCCACCA GTTCAGTTGG GCCATTTCAT
    TTTGAGCCCA CACAGTCCCA TCTTTTGGAT TTTTATGGTA TCAAAGAATC CCCTCGGAAC
    TCAGAAGATC CGAGTCAAGA AAAACCTCTC TCTGATAACG AGAAGTTAAA TCTGAACTCC
    CAGCCATTAC TGGGTGGAAA GCATGACACG AAAATTGATG AAAGAACAAT GGAAAAAGTG
    TCGAAGAAAG AAGAAATCAA GGAGAGGAAA AGTAGCTCAT CAAGGAAAAG GATCAAGCTC
    TTTAGGCCTC ATTCAAAGAC CGACTCTTCA GGAAAGTCTT CAGACCAAAG TCTAAAGCAA
    AAGGTGAAAG CCTCAGTGGC CAACATTTCC CGTATTATCA AAGGGAAGCC CAGCAATGGT
    CAGGAGAGAA AGGAAGGTAT CGAAGGACCA AAGGCCGATT CTCTAGTGCA GGCAGCTACA
    GAAAGAATAG CAGTACACAT GAAGAAAAAA TCATTCAAAC TTACCAGTCT GTCACCGAAA
    GACAAAGCTC CAGCTTTTGT CGAGGAACTC ACGGACCAGA CGGTTGTCGT TGGTCACTTA
    GTGACTTTGT CCTGTAGAAC TTCTGAACCT GTGACTGAGG TTGAGTGGTT TAAAGACGGG
    GTACCCATCC AGGGCAATGA AAGAGTCCTC ATCTCTTCTA CTCTGAAGAA CTATCATCTT
    CTCACTATCC TCGTCGTGAT GGCGCAAGAC CTGGGGATCT ATGCCTGTGT GGCATCCAAC
    TCTCTTGGCA GTGCCTCAAC ATGCTGCATT CTAAAGAGAG CTGAGATACC ATGCTGTCCC
    ACCAGCCCTG AAGTTGCCCA GGTATATAAA GATGGAGCCC TAATTGTCTG GAAGCCGGTG
    GAGTCTGCAA GCCCTGTCAC CTACTTTGTA CAATACAGGA AGGAAGGTGA GGAATGGAGA
    CCCCTGACTC TCGACATCTC CGACTGCTGC TACTCTACCC ATGTTCTCTC TGAAGGACAA
    GTCTACTCCT TTAGGATCGC TTGTATCAGC AAAGCTGGAA TGGGCCCTTA CAGCAACCCG
    TCTGCTGGAG TCAGGATTGG TAGGCCCAGC CAGACATTCT CAAAAGAGAT GGGTAGCACA
    GAAGAGACAG TCGCAGCCGA CAGAACAAGC ACCCTACAGA CTGGAGTAAC GAGGGGGCGC
    TTCAGTAGTG TTAGACCCTG CAAGGAGAAG TCAAGTGGAA GACTGTTTGC TGCAAAAATC
    ATACCATACA CAGACAAAAG CAAAGAGTCT ACCCTGCAGG AGTATCTGAT CCTGAAGCAA
    CTTCATCATT CCAACATTGT CCAGTTACAC GGAGCATTCC TGAGCCCCCA TGATCTTGTC
    CTGATCCTTG AACTGTGTGA GGGACTGGAG CTACTGCAGT TCCTCTCTCT TGGGCCGTCG
    TACTCAGAGC TGGAAGTGCG AGACTACCTG TGGCAGATGC TAAGCGCAGT GGAGTTTCTC
    CATGCCAAAC AAATCCTCCA TCTGGATCTG AGATCTGAAA ACACAATAGT AACTGAACAC
    AAGCTGCTGA AAATCCTGGA TTTTGGGAAC GCGTGTGTCT ATTCTCCAGA CAAGCTCAGC
    GCTCCACAGA GATACAGGGA TTACGTGGAA ACTATGGCTC CAGAAGTTCT AGAAGGCCAG
    GGGGCGGTTC CACCCACTGA TATTTGGGCC GTGGGCATTA CAGCTTTCAT CATGCTGAGC
    TCTGACTATC CATTCAGCAG CGATACAACG TCGGAATTGG AGAAAGGCAT CAAGAAAGGG
    CTGATCAGGT TCACGCGGTG TTACGCTGGC TTGTCCGGGG GAGCCGTGTC CTTTCTTCAG
    AGCACCTTGT GGGCGAATCC GTGGGGAAGG CCCTCCGCCT CCGATTGCCT GAAGTTTCTA
    TGGTTACAGG AAGCCGGACT GGCCACGTTT CAGCAGGCTC CAATATTTTT CCCCAGCTCC
    AAGCTTAAGA ACTTCCTGAG AGAGAGAAGG AAAAGAACCC AGCAGTTGGC TACTCTGTGA

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

    RefSeq XP_012821217.1
    CDS501..6620
    Translation

    Target ORF information:

    RefSeq Version XM_012965763.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis obscurin-like (LOC105947716), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012965763.2

    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
    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
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGACCTTTA TAGATCAGTA TCATATCAAT GCCTCTAGAT CAATATCAAA TGACTTAAGA 
    CAGTGTTTAT GTTCCTGTAT AAAATCAGGT GTGGGGGGCT CCATCAGGGC CTCACTGGAG
    CGAGCAGATC AGGAGATAAG GCAAGTTCTA CAGAAGCTGG TAGAGACACC AGGGACCGGC
    TTGATGCCAC CCCAACTGGT ATCTCCCAAG GGTCTTGGAA CAAAGAAATC AGCGGCTGTC
    CAGTCTTCAG TAGAAGAACG CAAAGCAATG GACATGTTTA GAGATGCCAA CACACAGACC
    CCGGAAGACC AAGGTGAAGA GAAGAAACAA ATGGAACAGA AGGAGACGAC AGAAACACAT
    GAGATCCCTA CGGCTTCCCA AAAACAGGAG GCGCCCGGGG TGCCGGAGCT TCATATTCCC
    ATCAGGTTGG GGATGGAAGC GTCGGACTGG TACCTCCGGA GGGCGCCGGC ACACATTTGG
    GATGTTCGCA GCCAGGTGTA TATCGAGAGC ACGGAGACAA CTTGTGTCCA CTTTAAGGAT
    GACAAAGCAA CAAGGCCTCC GTACATGCAG GTGACCATAG AAGATGTCCA TACCCAGTGC
    GGAGATGCAG CCAGATTTGA TGCCGTGATA GAGGGGACAG CGCCGCTCAC TATTGCCTGG
    TACAAGAACA ACGTCCCACT AACTGAGTGT GAAAGAATTC AGATTGTGAA AGAAGACAGA
    AAATATTCTT TAATCCTCCG AGACACAAAA CCAGACGATG GCGCTATATA CACTTGTGTT
    GCTAGAAATA TGGGGGGAGA GGTGTCCTGC AAGGCTGAGC TCGTTATGCA TGAAGATACA
    AAAGAACACG TGACAGAGAC AGTTCAGAAA AGGAGAAAAC TGAAATCCTT CTTTGAGGTG
    AAGGAAGAAA TTGGAAGAGG CTGTTTTGGT TTTGTGAAAC GAGTTGTGCA CAAAGGAAAT
    GGTGCCAACT GTGCCGCCAA GTTCATCCCT CTGAGAAGCA AAACGCGACA GCGAGCCTAC
    AGGGAAAGGG AACTGCTCTC CGAGATATCC CACAGCAACA TCACCTGCCT GCTCGATGCC
    TTTGAGACAA GGAAAACACT GATCCTTATC ATGGATATAT GCTGCGGCGA AGAACTGCTC
    GACCGTCTAT TCAAGAAAAG TATTGTCTCT GAAAGAGAGG TAAAGGTGTA CATTAGACAG
    CTTGTTGAAG CCATTGGGTA TCTCCATGAC AAGGACATTC TTCACCTGGA CGTTAAGCCG
    GCCAATATTC TCATGGTTAA TACAGACCAG GACGATATCA AACTCTGTGA CTTTGGATTC
    GCTCAGAAAC GGCGGCGCTC AGAGCCTCAG TACAGTAAAT ACGGCTCCCC TGAGTTTGTC
    TCCCCAGAAA TTGCCAGTCA GTTGCCCGTG TCCGAAGCCT CCGATATATG GCCCATCGGT
    GTGATCACCT ACCTATGTTT GGTGTGCGCG TCGCCGTTTG CGGGGCAGAA TGACAGAGAG
    ACCCTACTCA GCGTGCAGCA GGGCAAGATC AGTTGGCACA ACCAGGGATT TATAGAGCTG
    AGTGAAGAAG CGAAGGATTT CATAAGAAGA ACGATCCAAA TGTCTCCAGA ATCTCGGCCC
    AGTGCCGTGG AATGTTCCAA CCATAAGTGG TTCCAGGGAT GTTCCGGTGA AAAAGACACG
    CGACCCATTA TTACAAAAGG CCTCAAATTC CTGGTGGCGC GGAGCAGATG GCAGCGTTCC
    TTGATGTGCT ACAGATCGAT TCTGGTGATG AGATCCATCC CGGAGCTTCT GCAAGGAAAC
    GTGGAGAGAA CATCTTTGGG GGTTCCTCGA CACTTAGTTG AAGGAAGCAG CTCTTCCAGC
    AGCAGTGGAT CCTCTTCTGA TAATGAGAGC GACATCAGCC CAACGGCAAG GGGCTCCAAT
    CCTTCCCTAG AGCTCCACTT GTCTATTTTT AAAATGTATG ATAGGGATAC TTTTCAAGAA
    GTGAGCCAAA AGGCGGACAT TATCACCCAA GAAGAGAAGA GAAGCCAAGA GGCAACCCTA
    GTGTGTTCTG ATAAATCGGG AGCTCAAGAG ACTGATAAGG TTAACTTTGC AGAAGATACA
    GTGAACCTTG AGCAAACAGA CAAAATGCTG GTGGAGTCAG TGGAAACATC TCCAGGAAAA
    CGACCTTTCT GCAAAGCAGC GACTATTGAA GTTGGCGATT TAGCGTCAAA AAAGGGCAAG
    TCTGGATGCT TTGTAAGAGG TTCATCGGCA GACAGTGCAT TGCTAGGAGT TGATAGACAC
    ACCTTAGTAT GTGTGCCAAG GCAAAGCATC ATTAATAGCA CCTTCTACAG CCAATCGGGT
    GAGGGCGCTG GCTTGACTCC CAGAGATGGG GCACTGAGGG AGAAAGAATT CATCAAGCAT
    CGTGAAAAGG CACGAAGGAG CTTAATGAAA GCAGGATATT CCCAAAAGAT ACTGAGTGGC
    TTGAGAGAGC CTCTGCTTGA ACAGTTTGCA ATGGAGCAAA GAATAATTGC CCAGGACAAG
    GCTCAGGCCA CACAAGAAGG ACCGTCTGGT TCTCTGAAAA AATCAGTTTC GTTTGATGGC
    TCCAAAGGTT CCCCGAGGTC TTCTTTCAAG GCCTCCAGCA GAAGCCGCTC TCTGGACGAC
    TGCAAATCAA GACCACTTAC TGTTTATAAA GGAGTTCTCC TGGAGGAAGG AGGTCAAAAA
    GTTTCAGTAG GAGATAAAAT TCTTCATACA AATACTCAGT GTCATTCTGA AGAGACTGCA
    ACACAAAGTG ACTTTACTCA GGGCATAACT GATTCTATAC ACAGTAGGGT CCAACCGGAA
    GTACCACATG CAGCCAAAGA ACATCAAGCA CCTCTCTTCA TCTCTTCTAC ACAAAGACCA
    CTCTCTGCTA CGACAGTTGA TAGTGAAAAT ACAATAATTG CAGTTTTACA TCAACAACCA
    ATATTCGACT CTGGTTCAGT AAAAGAGAGG CCACCTTCTC TTGCACTGGA GGTTGAGGAA
    AGCACAGTCA TAGCATTTCT GCAACAAAAA CCACTGCTGT TTGCAGAACC TTCCAAAACA
    CATGTTGATA CTGAGGGCAT AAAAGACTCA ATTCAACCCC AAGAAACTGG ACTACCCAGT
    CAGTTTGAAG GACCAACTCC TCATTTAGGA GGCAGTGTTA CATTTACAGT GAAGACCACC
    TCTGATACAA ATTACTTTCT TGCTTCCCAA CCACCAGTAG AAAAATACCA AGTCGGTTCT
    GAGGTTGGCA CCGAAACGAG TGTAAACCAA GAGAGCACAG TTTCTCCAGA CTCCACAATG
    GAGAGTACTC CATATGTTGT GCAGTTTACT GACTCTAAAT CCAGCACCGC GATAATACCT
    CAAGGTCTGC AGAAAGATCC ACCTCTTTTA AAAGCTACCA AAGAACGTGC AGTAGTAACA
    GTAACTGAAG CAACAGCGGT CACTGAAAAA GTAGAAGAAA AATGTTCCAT CACTAACTTG
    GATACATTTT CTCCTGAAAA CCTACATTTA TCCACCCAAC ATGGAGATGT TATTCTTAAA
    CCATCAATAT CAGAGCACCA AGAACTTGGA TCTACTTCTG AAAGGCACTG TGAGATCATC
    AAGGATGTTT CTAGGCAAAA TACAGATGAA AACCGAGGTT CTTCCCTTTA CAGCGATGAA
    CAAAGTGCTG CATTAGAAGA TCTGGTTGGC GAAATGACCT ACTTGTCGGA ACAGATGAAT
    GTATTGGCGG GCAACCAAGA GCAGATATCC AATATAAAAT CGACTGAAGG CAAGACTCAG
    GTGGAAAGAG GTCCCCTAGA CCCTGGTCTT GCAATGGAAA CAGAAGTTCT GATTGTACAA
    ACCAGTGCAT CACCTCAAGC ATCCAAAGAA CCCCAACTGA CATCAGTCTC ACAGTGCAGT
    TTCTACGACT CCCTGTGTCC AGCCCAAGCC TCTCCTCTAC TTCATGAGGA GGAGTTTAGC
    ATCGAAAGTC GTAGCTCCAG CAAAACATTT ATTTCCCATT CAGACAGCTC TGAGACAGGG
    AGAAGATCTG ATAATTTCTC TGACTTTGAA GAAGCGGGCA GGCATTCTGA AGTCTCCCTG
    CTGGAGATTG AGGAACTGAA TTACAACAGT CCATCCACCA GTTCAGTTGG GCCATTTCAT
    TTTGAGCCCA CACAGTCCCA TCTTTTGGAT TTTTATGGTA TCAAAGAATC CCCTCGGAAC
    TCAGAAGATC CGAGTCAAGA AAAACCTCTC TCTGATAACG AGAAGTTAAA TCTGAACTCC
    CAGCCATTAC TGGGTGGAAA GCATGACACG AAAATTGATG AAAGAACAAT GGAAAAAGTG
    TCGAAGAAAG AAGAAATCAA GGAGAGGAAA AGTAGCTCAT CAAGGAAAAG GATCAAGCTC
    TTTAGGCCTC ATTCAAAGAC CGACTCTTCA GGAAAGTCTT CAGACCAAAG TCTAAAGCAA
    AAGGTGAAAG CCTCAGTGGC CAACATTTCC CGTATTATCA AAGGGAAGCC CAGCAATGGT
    CAGGAGAGAA AGGAAGGTAT CGAAGGACCA AAGGCCGATT CTCTAGTGCA GGCAGCTACA
    GAAAGAATAG CAGTACACAT GAAGAAAAAA TCATTCAAAC TTACCAGTCT GTCACCGAAA
    GACAAAGCTC CAGCTTTTGT CGAGGAACTC ACGGACCAGA CGGTTGTCGT TGGTCACTTA
    GTGACTTTGT CCTGTAGAAC TTCTGAACCT GTGACTGAGG TTGAGTGGTT TAAAGACGGG
    GTACCCATCC AGGGCAATGA AAGAGTCCTC ATCTCTTCTA CTCTGAAGAA CTATCATCTT
    CTCACTATCC TCGTCGTGAT GGCGCAAGAC CTGGGGATCT ATGCCTGTGT GGCATCCAAC
    TCTCTTGGCA GTGCCTCAAC ATGCTGCATT CTAAAGAGAG CTGAGATACC ATGCTGTCCC
    ACCAGCCCTG AAGTTGCCCA GGTATATAAA GATGGAGCCC TAATTGTCTG GAAGCCGGTG
    GAGTCTGCAA GCCCTGTCAC CTACTTTGTA CAATACAGGA AGGAAGGTGA GGAATGGAGA
    CCCCTGACTC TCGACATCTC CGACTGCTGC TACTCTACCC ATGTTCTCTC TGAAGGACAA
    GTCTACTCCT TTAGGATCGC TTGTATCAGC AAAGCTGGAA TGGGCCCTTA CAGCAACCCG
    TCTGCTGGAG TCAGGATTGG TAGGCCCAGC CAGACATTCT CAAAAGAGAT GGGTAGCACA
    GAAGAGACAG TCGCAGCCGA CAGAACAAGC ACCCTACAGA CTGGAGTAAC GAGGGGGCGC
    TTCAGTAGTG TTAGACCCTG CAAGGAGAAG TCAAGTGGAA GACTGTTTGC TGCAAAAATC
    ATACCATACA CAGACAAAAG CAAAGAGTCT ACCCTGCAGG AGTATCTGAT CCTGAAGCAA
    CTTCATCATT CCAACATTGT CCAGTTACAC GGAGCATTCC TGAGCCCCCA TGATCTTGTC
    CTGATCCTTG AACTGTGTGA GGGACTGGAG CTACTGCAGT TCCTCTCTCT TGGGCCGTCG
    TACTCAGAGC TGGAAGTGCG AGACTACCTG TGGCAGATGC TAAGCGCAGT GGAGTTTCTC
    CATGCCAAAC AAATCCTCCA TCTGGATCTG AGATCTGAAA ACACAATAGT AACTGAACAC
    AAGCTGCTGA AAATCCTGGA TTTTGGGAAC GCGTGTGTCT ATTCTCCAGA CAAGCTCAGC
    GCTCCACAGA GATACAGGGA TTACGTGGAA ACTATGGCTC CAGAAGTTCT AGAAGGCCAG
    GGGGCGGTTC CACCCACTGA TATTTGGGCC GTGGGCATTA CAGCTTTCAT CATGCTGAGC
    TCTGACTATC CATTCAGCAG CGATACAACG TCGGAATTGG AGAAAGGCAT CAAGAAAGGG
    CTGATCAGGT TCACGCGGTG TTACGCTGGC TTGTCCGGGG GAGCCGTGTC CTTTCTTCAG
    AGCACCTTGT GGGCGAATCC GTGGGGAAGG CCCTCCGCCT CCGATTGCCT GAAGTTTCTA
    TGGTTACAGG AAGCCGGACT GGCCACGTTT CAGCAGGCTC CAATATTTTT CCCCAGCTCC
    AAGCTTAAGA ACTTCCTGAG AGAGAGAAGG AAAAGAACCC AGCAGTTGGC TACTCTGTGA

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