ORF » Species Summary » Xenopus laevis » LOC108703232 cDNA ORF clone

LOC108703232 cDNA ORF clone, Xenopus laevis(African clawed frog)

The following LOC108703232 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108703232 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
OAf49027 XM_018239314.1
Latest version!		 Xenopus laevis unconventional myosin-XV-like (LOC108703232), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

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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)
    LOC108703232 ( XM_018239314.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018094803.1 Xenopus laevis unconventional myosin-XV-like (LOC108703232), mRNA.
    Price & Availability↑
    CloneID OAf49027
    Clone ID Related Accession (Same CDS sequence) XM_018239314.1
    Accession Version XM_018239314.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6003bp)
    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 1474214400000
    Organism Xenopus laevis(African clawed frog)
    Product unconventional myosin-XV-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030741.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 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
    ATGAGAGAAA AAATCTTAAC TCCGCTGACA GTGGAAAGTG CTGTTGATGC CAGAGATGCT 
    ATTGCCAAGA TTTTATACTC CCTGCTGTTC AGCTGGCTCA CAGAAAGGAT CAACAAGCTG 
    GTGTATCCCA AGCAGGATGC ATTGTCCATT GCTATACTGG ACATATTCGG GTTTGAGGAT 
    CTCAGTTTTA ATAGCTTCGA GCAGCTGTGC ATCAATTATG CAAATGAATA CCTGCAATTC 
    TTCTTCAACA AGATTATATT CAGGGAGGAA CAGGAGGAGT ACATCCGTGA GCAGATCGAC 
    TGGAGGGAAA TTTCTTTCAG TGATAATCAA GCGTGTATAG ACATCATTTC CCAGAAGCCC 
    CATGGAATTC TCAGGATATT GGATGACCAA AGCGGCTTTC CTCAGGCCAC AGACCACACG 
    TTTCTACAGA AGTGCCATTA CCAGCATGGC ACCAGTGACT TGTACTGTAA GCCAAAGATG 
    CCTTTACCTG AGTTTGGAAT CAAGCATTTT GCTGGAAAAG TGACTTACCA GGTCCACCAA 
    TTCTTGGACA AAAATTATGA CCAGGTTAGA CAAGATGTCC TGGATCTTTT TGTCAACAGC 
    AAAATTAAGG TGGTAGCCAA CTTGTTCTTC AGCCATGCCC AGGTTCTGGC CCAGCAGAAA 
    ACCATGATGG GGAAGGGCAA CACAGTCACC CGGAAGTACA AGGCCTCCAC CGTGGCTGCA 
    AAGTTCCAGC AATCCCTGCT AGAGCTTGTG GAAAAGATGG AGAGGTGTAA TCCATTTTTT 
    GTGAGATGTA TGAAACCCAA CAGTAGGAAG GAACCAAATC TGTTTGAAGC AGACATTGTT 
    ACCAGTCAGC TCAAGTACTC TGGTATTTTA GAGACCATTC GAATCCGGAA GGAGGGTTTT 
    CCTGTCCGGA TGTCTTTCTC CTTTTTTCTG AGCAGGTACC GTTGTGTCAT GGATCTTGGG 
    CGGAATGTCC GAATAGATGG ACAGACGTGT GTCACTGCTC TAAAGAAGCT CTGCCCGTCG 
    GCTACTCCTT CCATGTACTG CATTGGCGTC AGCAAGCTGT TCATGAAGGA GAAGGTGTAT 
    CAGCTGCTGG AAAGCCAACG GGATCAGTTC ATGAACAAAT TTGCGGTGAC TCTACAGCGC 
    TACAGTCGTG GTTACCTGAC CCGAAAACGC TTCTACATCC TGAGATACAG GATCATCCAG 
    CTACAGGCCC TTGCACGGGG TTATCTGGCC AGGAGGAAAT TTTACAACTG GAGGAAGATA 
    ATGACGATGT TCAGGGCAGT GGTCCGTATT TATGTGAATC GGAGGAAGTT CCTGAGGATG 
    AAGGCAGAGG CTCGCAGGAT AGAAGAAGAA GAACACAAGA AGGCTGAGCG GGAGCTCACC 
    AAGAGAGAAG TGGTGAATGT GACCCACCTG GAACTCCCGG CAGAACTGGC AGGGCTATTG 
    CGTTCCACAA CAGCTACGAA AAACCTCACG TTGGATTTTG TCCTGCCCAT TCAAAGCCCC 
    CGGGTAGAAG CTGACACCCA ACTAACACTG CCCCTGGACA TCAACAACTA CCTTATGTTT 
    AAATATGTGC GGGTTTTCTT TAAGGAGCCA TTATTTGGGA TGCTTACCGT GCCTCATGGG 
    TCCTCGCTGC TTCCTGTGGA GGATGATCTG CGGCAGCATG CTATCTCTTC ATTTAAATTG 
    ATATTACGGT TCATGGGTGA TCCCTATCTC GGAGGAACCC AGGAGATTTT GTTCGGCAAT 
    TACATTGTCC AGAAAGGCCT CTCTAATATT GGGTTGAGGG ATGAGATCCT TGCTCAGGTA 
    GCCAATCAAG TGTGGAGAAA CAGCAACCCA AACAATGAAG AACGAGGCTG GTACCTGCTG 
    GCCTGCTGTC TAAGCACCTT CGCTCCATCG CCCAATCTGG ACAAGTATCT TCTCAAGTAT 
    GTTTCTGATT ATGCACACGA CGGATATAAA CCTGTCTGCC AGCATAAACT CATCCAGGCA 
    ATACAAAAGT CCCAGCAAGG TTCCGAAACA TCCAGGAATT TCCCTCCAAG CCAATTAGAG 
    TGGACGGCCA GCAGGGAGAG AGCAAATATG GCAATGGACG TCCATTTCTT TGACGGTGAG 
    AAAATCTCTT GTCCTATTCA TTCTTGGACT GATGGAGAGG AGATAGCAGG TGACGTACTC 
    CGGCACAGGG GTGTGAAAGA AGGCTACAGG GGATGGTCAG TGTCACTAAA AGAAGGAGGA 
    CAATGGACAG AGCTCGCTGG CCAAGATTAT GTCCTGGATT TAATTTGTAA TATGGAGCTG 
    CCAAGAGATT TCCCCAAACA GAAGTCATAT TTCATCACAA CATCAGAGAC TATCCAGGAG 
    AACATCAGCC ACCCCAGTGC AGTATTTGGG AACAGTGGAG AAGCTGGGGA ATCTGTTCCA 
    CCACCATCGA CAGCAAAGGC TCCTTCTGTA CCACGTCAAG ATTCTGAAGG TTATCACAAT 
    GCAGATTCCG ACTCTGTGAG TGAACCTCAG TCCCAGAAGG GAATGGATAA CTACCTCGAC 
    AGTCTGTTTG ATCCTGTTTT ATCCTATGGC AATGGAGACC TGGAGAAGTT AACTGCTTTG 
    TCCCAAAAGA TGAAGGGCGG TGGAGGGGTG GGAGGAAGAG ATGGCAGGGA GGTCCCCAGA 
    GACTCCAACT TTTCTGGCGA TGAGCCATAC AGTGCTGGTT TGGATGCCCA ACAGCAAGCC 
    TACATCAACC AACAAGCCAT ATTGTTGGCT CAGCAGATGA CTATGCAGGC CATGGCTATT 
    CAGCAACAGA TGGTGAACAA TCGTTCTGCT GAAATGATCA ACAGACCCAG ACTCCGCATG 
    ACAGCCCAGC CTGTCCGTTC AAACTCACAA CGAGTAACCC CAACAGTGGC ACCCATGCCC 
    AGAACTGGGG CTCCATTCCA GAGAAAAGTT GTTTATGGGA CTCCAAGTAG GATTCAGAGA 
    TCTCCTGCCA GAGAGAGCTC CCAACGCAGA CCTGTATGGG CAGGTCCATC CAACCCCCAC 
    CACCCAGATG ACCTTATACA ACACTCTGCA ATGAATTCTG AGCACCACCC AGAGTCAAGC 
    CACAACAAGA ACATACTTAA TCGTTATAAG CAACCTGGTG CCATCAGGCA ACCAGGACCT 
    GTTGTAAGAA AGCAACCAGA ACATTTTTTC GGTAGAATAA TAGATCCACA TGAAGAGGCC 
    CTAAATATGC TGAACAGACA GAGGCCAACC CATCTACTCA CAAGACCAAC ACCAGTCTCC 
    AATATGTCTT ATGTTCCCAA GGCACCTAGA GACACTGTGG CCTTTGTAAA GCCTGTTCCT 
    AGCATCAAGA CAAAGACACC CGTTGCCAAA CCACCAGTAA GCCATGTCAG ACCAACTACT 
    GCACCTACAG TCACTGTTAA CCGGGAACTG TCTGAGGAGC AGGAGAACAT CCAGACCCAA 
    CTGCATCGCC AGTATAGTGA AGAGTATTAC ACATACACTA ATGTTCTGTG GCGGATATAT 
    ATCAGGAAGG AGGTATTTTA TCCTAGAGAC AGTTTTAACA ACCCCCTGAC CCTTGATCTT 
    ATCTTCAAGC AGATTATCAA TGACACCCTC ACAGAGAACT GCATCAGGAT ATCCAAGGAA 
    GAGAGGCAAA AGATGAGGTC CCTACTAGCT GGTTTTAGGT TGGACTCCAT CAATGCCATT 
    GCTGATGAAA GTGTGAAAAA AAAGATTGTC ACGGTTGCCA GGGAGGAGCT GGAGGTATAC 
    TTCTCACGCC TTTTCCCGGC TGCGGGAAGT GAGGGCACAG GTGTTCAGTT CCTCGGAGTG 
    TCGCATGTTG GGATAAAACT ACTTAAGTTG CTGAAGAGAA GTGGTTCCAC CCCTGAGCAG 
    CTCAGAGTCT TAAGAAGTTA CAGTTACACA GACATCATGT TTGTAACTGT CCTCTCCAAA 
    AATATGCTGG AGTTCAACCT GACCAATGAG AAGCTCGTCT TGTTTTCATC GCGCTCAAGT 
    CAGGTGAAGA CCATGATAGA CTGCTTCCTG ACGGAACTGA AGAAGGATTC AAACTATGTT 
    GTTGCAGTGC AAAATTATGT GACGGAAGAT AAGTCTTTTC TGAGTTTTCA TAAAGGAGAC 
    ATTATCCGTC TCCAGGCATT AGATGGACTT GAGAAAGGAT GGAAGTTTGG TGCCATACAT 
    AGCCGTGCAG GCCTCTTACC AGCAGAGTGT GTGCAACCAG TGGCCGCTCC AGACTTTGTC 
    AATCTCCCAG CTGATAGGAA GGAAGAGCCA CGAAACCGGC AGAGCAGGGC TGCAGCATCA 
    GCAGCGGTGG CCGTGGCGGT CGCATCTACA GCTGTCGCTC ATGAATTTGA CAGAAAGATG 
    GATGGTTCTC CTACCCCCAG CGAATACGCA GAGAGTTTGG ACGAATATAC AGACCCTAAC 
    ACGTCAGAGA TTATGCTTCA AGGAAGTCCG TACAACATGG TGGAATTTGC CAAGAAGTAC 
    TTTAGAGAGG GTCAAAGGCT GGCCGCACAA GATAAGTCTC AGAAGATGTC AGGTGACTCT 
    AGTAAACAGG GTTCGAAGAA GAGCAAAGAG CCCAAAGATC TCGAGGAGAT GCTAAAATTC 
    ACTAAGACTC CCATTCAGGA GTCACTCATT GAGTTCAGTG ACGGAAGCAT GAACAGAATC 
    GCAGCTGATG TCTTCACAGG CATCATGAAG TTCATGGGAG ATCTGCCTCT GAAAGGACAG 
    TCTGAATTGG ATGCCGTCTA TTCAGTCCTA AAGCTCTGTG GGGAACATGA AGTCATGAAG 
    GATGAGGGCT ACTGCCAGAT CATGAAGCAG ATCACGGACA ACACCAGCAG CAACACGGAC 
    AGCTGCCAGC GAGGGTGGAG GCTTCTCTTC ATCCTTACGG CCTACTATAA GTGCTCAGAA 
    GTGCTGAAGC CTTACCTCTT CAATTTCCTC CAAGATACAT GCAGGAGCCC CGGGTTGCAC 
    TACCAAGGGA TTGCCAAGGC ATGTGAGCAG AATCTGCGCA AGACCATTCA ATATGGAGGG 
    CGCACTGAAT ATCCAAGTGC CATAGAGCTG AAAGCCATGG TGGCTGGAAG AAGCTCCAAG 
    CGACAGCTGT TCCTTCTGCC CGGGGGAATC GAGAGACACC TTAAGATCAA GACATGTTCG 
    GTGGCCTTTG ATGTGATTGA GGAGATCTGT ATGGAAATGG GGGTGCACAA GGACGAAGCC 
    TTCCATGAAT ACGCCATATT TGCTGTTACC AACAGGGGGC AGAATGTGAG GCCCCTGAAC 
    AGGAAAGAAT ATATCCTGGA TGTATCTGCA GAGATGGAAC AGACCGACAG TAACTACATG 
    TTCTGGTTCA GGCGCATTAT CTGGGCCCAG CAGCTGAAAT TTGAGAATGA GCTGTATGTG 
    ACGATGCATT ATAACCAGGT GCTTCCAGAT TACCTGAAGG GGTTATTCAA TGTTGTGGCT 
    CACATAAAAC CCACCGAGCA GCAGTTCCAA CAGATCTCGA GGCTAGCGGC CCTGCAACAT 
    CGGGCTAAAG ACAGTGTCTA CCTGCCCACT GCCCGGGAAG TTCAGGACTA CATCCCCAGT 
    CAGTTCTACA AGGTCCTGAA GCCCCAGTCT TGGCTGAATA TGGTCATGCA GCACATGCAG 
    CAAATCCAAC CGCTCAGCCC GCACCAAGGA CGAGCTCAGT TCTTAGGTAT AGTGAGCGAT 
    TTCCCCATGT TTGGCTCGTC CTTCTTCTAC ATCCAGAGCT GCAGCAACAA CACAGTCATC 
    GCCCCCTGTA TCTTGGCCGT CAACCAGAAC GGACTGAACT TCCTCAATAA GGAAACGCAT 
    GAGCTGGTTG TGACATTCCC ACTGAGCAAC ATCCAGAGCA CTAGGACCCA GCGACCTGCA 
    TCAGGGTTCA GCTACCCGTA TGTCGATGTC ATGCTGGGTG ATGTGATGTC ACAGAGAGTT 
    ACGCAGCTCC AGCTCGAGCA GGGCCTGGAG CTGTGCAGGG TGGTCGCTAC GCACATGGAG 
    AATCTGCTTC AGAGCCGGGA TAAGCACCTC ACCCTCCCAC CCAGTGACAT TACTCTTCTC 
    TGA

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

    RefSeq XP_018094803.1
    CDS78..6080
    Translation

    Target ORF information:

    RefSeq Version XM_018239314.1
    Organism Xenopus laevis(African clawed frog)
    Definition Xenopus laevis unconventional myosin-XV-like (LOC108703232), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018239314.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGAGAGAAA AAATCTTAAC TCCGCTGACA GTGGAAAGTG CTGTTGATGC CAGAGATGCT 
    ATTGCCAAGA TTTTATACTC CCTGCTGTTC AGCTGGCTCA CAGAAAGGAT CAACAAGCTG 
    GTGTATCCCA AGCAGGATGC ATTGTCCATT GCTATACTGG ACATATTCGG GTTTGAGGAT 
    CTCAGTTTTA ATAGCTTCGA GCAGCTGTGC ATCAATTATG CAAATGAATA CCTGCAATTC 
    TTCTTCAACA AGATTATATT CAGGGAGGAA CAGGAGGAGT ACATCCGTGA GCAGATCGAC 
    TGGAGGGAAA TTTCTTTCAG TGATAATCAA GCGTGTATAG ACATCATTTC CCAGAAGCCC 
    CATGGAATTC TCAGGATATT GGATGACCAA AGCGGCTTTC CTCAGGCCAC AGACCACACG 
    TTTCTACAGA AGTGCCATTA CCAGCATGGC ACCAGTGACT TGTACTGTAA GCCAAAGATG 
    CCTTTACCTG AGTTTGGAAT CAAGCATTTT GCTGGAAAAG TGACTTACCA GGTCCACCAA 
    TTCTTGGACA AAAATTATGA CCAGGTTAGA CAAGATGTCC TGGATCTTTT TGTCAACAGC 
    AAAATTAAGG TGGTAGCCAA CTTGTTCTTC AGCCATGCCC AGGTTCTGGC CCAGCAGAAA 
    ACCATGATGG GGAAGGGCAA CACAGTCACC CGGAAGTACA AGGCCTCCAC CGTGGCTGCA 
    AAGTTCCAGC AATCCCTGCT AGAGCTTGTG GAAAAGATGG AGAGGTGTAA TCCATTTTTT 
    GTGAGATGTA TGAAACCCAA CAGTAGGAAG GAACCAAATC TGTTTGAAGC AGACATTGTT 
    ACCAGTCAGC TCAAGTACTC TGGTATTTTA GAGACCATTC GAATCCGGAA GGAGGGTTTT 
    CCTGTCCGGA TGTCTTTCTC CTTTTTTCTG AGCAGGTACC GTTGTGTCAT GGATCTTGGG 
    CGGAATGTCC GAATAGATGG ACAGACGTGT GTCACTGCTC TAAAGAAGCT CTGCCCGTCG 
    GCTACTCCTT CCATGTACTG CATTGGCGTC AGCAAGCTGT TCATGAAGGA GAAGGTGTAT 
    CAGCTGCTGG AAAGCCAACG GGATCAGTTC ATGAACAAAT TTGCGGTGAC TCTACAGCGC 
    TACAGTCGTG GTTACCTGAC CCGAAAACGC TTCTACATCC TGAGATACAG GATCATCCAG 
    CTACAGGCCC TTGCACGGGG TTATCTGGCC AGGAGGAAAT TTTACAACTG GAGGAAGATA 
    ATGACGATGT TCAGGGCAGT GGTCCGTATT TATGTGAATC GGAGGAAGTT CCTGAGGATG 
    AAGGCAGAGG CTCGCAGGAT AGAAGAAGAA GAACACAAGA AGGCTGAGCG GGAGCTCACC 
    AAGAGAGAAG TGGTGAATGT GACCCACCTG GAACTCCCGG CAGAACTGGC AGGGCTATTG 
    CGTTCCACAA CAGCTACGAA AAACCTCACG TTGGATTTTG TCCTGCCCAT TCAAAGCCCC 
    CGGGTAGAAG CTGACACCCA ACTAACACTG CCCCTGGACA TCAACAACTA CCTTATGTTT 
    AAATATGTGC GGGTTTTCTT TAAGGAGCCA TTATTTGGGA TGCTTACCGT GCCTCATGGG 
    TCCTCGCTGC TTCCTGTGGA GGATGATCTG CGGCAGCATG CTATCTCTTC ATTTAAATTG 
    ATATTACGGT TCATGGGTGA TCCCTATCTC GGAGGAACCC AGGAGATTTT GTTCGGCAAT 
    TACATTGTCC AGAAAGGCCT CTCTAATATT GGGTTGAGGG ATGAGATCCT TGCTCAGGTA 
    GCCAATCAAG TGTGGAGAAA CAGCAACCCA AACAATGAAG AACGAGGCTG GTACCTGCTG 
    GCCTGCTGTC TAAGCACCTT CGCTCCATCG CCCAATCTGG ACAAGTATCT TCTCAAGTAT 
    GTTTCTGATT ATGCACACGA CGGATATAAA CCTGTCTGCC AGCATAAACT CATCCAGGCA 
    ATACAAAAGT CCCAGCAAGG TTCCGAAACA TCCAGGAATT TCCCTCCAAG CCAATTAGAG 
    TGGACGGCCA GCAGGGAGAG AGCAAATATG GCAATGGACG TCCATTTCTT TGACGGTGAG 
    AAAATCTCTT GTCCTATTCA TTCTTGGACT GATGGAGAGG AGATAGCAGG TGACGTACTC 
    CGGCACAGGG GTGTGAAAGA AGGCTACAGG GGATGGTCAG TGTCACTAAA AGAAGGAGGA 
    CAATGGACAG AGCTCGCTGG CCAAGATTAT GTCCTGGATT TAATTTGTAA TATGGAGCTG 
    CCAAGAGATT TCCCCAAACA GAAGTCATAT TTCATCACAA CATCAGAGAC TATCCAGGAG 
    AACATCAGCC ACCCCAGTGC AGTATTTGGG AACAGTGGAG AAGCTGGGGA ATCTGTTCCA 
    CCACCATCGA CAGCAAAGGC TCCTTCTGTA CCACGTCAAG ATTCTGAAGG TTATCACAAT 
    GCAGATTCCG ACTCTGTGAG TGAACCTCAG TCCCAGAAGG GAATGGATAA CTACCTCGAC 
    AGTCTGTTTG ATCCTGTTTT ATCCTATGGC AATGGAGACC TGGAGAAGTT AACTGCTTTG 
    TCCCAAAAGA TGAAGGGCGG TGGAGGGGTG GGAGGAAGAG ATGGCAGGGA GGTCCCCAGA 
    GACTCCAACT TTTCTGGCGA TGAGCCATAC AGTGCTGGTT TGGATGCCCA ACAGCAAGCC 
    TACATCAACC AACAAGCCAT ATTGTTGGCT CAGCAGATGA CTATGCAGGC CATGGCTATT 
    CAGCAACAGA TGGTGAACAA TCGTTCTGCT GAAATGATCA ACAGACCCAG ACTCCGCATG 
    ACAGCCCAGC CTGTCCGTTC AAACTCACAA CGAGTAACCC CAACAGTGGC ACCCATGCCC 
    AGAACTGGGG CTCCATTCCA GAGAAAAGTT GTTTATGGGA CTCCAAGTAG GATTCAGAGA 
    TCTCCTGCCA GAGAGAGCTC CCAACGCAGA CCTGTATGGG CAGGTCCATC CAACCCCCAC 
    CACCCAGATG ACCTTATACA ACACTCTGCA ATGAATTCTG AGCACCACCC AGAGTCAAGC 
    CACAACAAGA ACATACTTAA TCGTTATAAG CAACCTGGTG CCATCAGGCA ACCAGGACCT 
    GTTGTAAGAA AGCAACCAGA ACATTTTTTC GGTAGAATAA TAGATCCACA TGAAGAGGCC 
    CTAAATATGC TGAACAGACA GAGGCCAACC CATCTACTCA CAAGACCAAC ACCAGTCTCC 
    AATATGTCTT ATGTTCCCAA GGCACCTAGA GACACTGTGG CCTTTGTAAA GCCTGTTCCT 
    AGCATCAAGA CAAAGACACC CGTTGCCAAA CCACCAGTAA GCCATGTCAG ACCAACTACT 
    GCACCTACAG TCACTGTTAA CCGGGAACTG TCTGAGGAGC AGGAGAACAT CCAGACCCAA 
    CTGCATCGCC AGTATAGTGA AGAGTATTAC ACATACACTA ATGTTCTGTG GCGGATATAT 
    ATCAGGAAGG AGGTATTTTA TCCTAGAGAC AGTTTTAACA ACCCCCTGAC CCTTGATCTT 
    ATCTTCAAGC AGATTATCAA TGACACCCTC ACAGAGAACT GCATCAGGAT ATCCAAGGAA 
    GAGAGGCAAA AGATGAGGTC CCTACTAGCT GGTTTTAGGT TGGACTCCAT CAATGCCATT 
    GCTGATGAAA GTGTGAAAAA AAAGATTGTC ACGGTTGCCA GGGAGGAGCT GGAGGTATAC 
    TTCTCACGCC TTTTCCCGGC TGCGGGAAGT GAGGGCACAG GTGTTCAGTT CCTCGGAGTG 
    TCGCATGTTG GGATAAAACT ACTTAAGTTG CTGAAGAGAA GTGGTTCCAC CCCTGAGCAG 
    CTCAGAGTCT TAAGAAGTTA CAGTTACACA GACATCATGT TTGTAACTGT CCTCTCCAAA 
    AATATGCTGG AGTTCAACCT GACCAATGAG AAGCTCGTCT TGTTTTCATC GCGCTCAAGT 
    CAGGTGAAGA CCATGATAGA CTGCTTCCTG ACGGAACTGA AGAAGGATTC AAACTATGTT 
    GTTGCAGTGC AAAATTATGT GACGGAAGAT AAGTCTTTTC TGAGTTTTCA TAAAGGAGAC 
    ATTATCCGTC TCCAGGCATT AGATGGACTT GAGAAAGGAT GGAAGTTTGG TGCCATACAT 
    AGCCGTGCAG GCCTCTTACC AGCAGAGTGT GTGCAACCAG TGGCCGCTCC AGACTTTGTC 
    AATCTCCCAG CTGATAGGAA GGAAGAGCCA CGAAACCGGC AGAGCAGGGC TGCAGCATCA 
    GCAGCGGTGG CCGTGGCGGT CGCATCTACA GCTGTCGCTC ATGAATTTGA CAGAAAGATG 
    GATGGTTCTC CTACCCCCAG CGAATACGCA GAGAGTTTGG ACGAATATAC AGACCCTAAC 
    ACGTCAGAGA TTATGCTTCA AGGAAGTCCG TACAACATGG TGGAATTTGC CAAGAAGTAC 
    TTTAGAGAGG GTCAAAGGCT GGCCGCACAA GATAAGTCTC AGAAGATGTC AGGTGACTCT 
    AGTAAACAGG GTTCGAAGAA GAGCAAAGAG CCCAAAGATC TCGAGGAGAT GCTAAAATTC 
    ACTAAGACTC CCATTCAGGA GTCACTCATT GAGTTCAGTG ACGGAAGCAT GAACAGAATC 
    GCAGCTGATG TCTTCACAGG CATCATGAAG TTCATGGGAG ATCTGCCTCT GAAAGGACAG 
    TCTGAATTGG ATGCCGTCTA TTCAGTCCTA AAGCTCTGTG GGGAACATGA AGTCATGAAG 
    GATGAGGGCT ACTGCCAGAT CATGAAGCAG ATCACGGACA ACACCAGCAG CAACACGGAC 
    AGCTGCCAGC GAGGGTGGAG GCTTCTCTTC ATCCTTACGG CCTACTATAA GTGCTCAGAA 
    GTGCTGAAGC CTTACCTCTT CAATTTCCTC CAAGATACAT GCAGGAGCCC CGGGTTGCAC 
    TACCAAGGGA TTGCCAAGGC ATGTGAGCAG AATCTGCGCA AGACCATTCA ATATGGAGGG 
    CGCACTGAAT ATCCAAGTGC CATAGAGCTG AAAGCCATGG TGGCTGGAAG AAGCTCCAAG 
    CGACAGCTGT TCCTTCTGCC CGGGGGAATC GAGAGACACC TTAAGATCAA GACATGTTCG 
    GTGGCCTTTG ATGTGATTGA GGAGATCTGT ATGGAAATGG GGGTGCACAA GGACGAAGCC 
    TTCCATGAAT ACGCCATATT TGCTGTTACC AACAGGGGGC AGAATGTGAG GCCCCTGAAC 
    AGGAAAGAAT ATATCCTGGA TGTATCTGCA GAGATGGAAC AGACCGACAG TAACTACATG 
    TTCTGGTTCA GGCGCATTAT CTGGGCCCAG CAGCTGAAAT TTGAGAATGA GCTGTATGTG 
    ACGATGCATT ATAACCAGGT GCTTCCAGAT TACCTGAAGG GGTTATTCAA TGTTGTGGCT 
    CACATAAAAC CCACCGAGCA GCAGTTCCAA CAGATCTCGA GGCTAGCGGC CCTGCAACAT 
    CGGGCTAAAG ACAGTGTCTA CCTGCCCACT GCCCGGGAAG TTCAGGACTA CATCCCCAGT 
    CAGTTCTACA AGGTCCTGAA GCCCCAGTCT TGGCTGAATA TGGTCATGCA GCACATGCAG 
    CAAATCCAAC CGCTCAGCCC GCACCAAGGA CGAGCTCAGT TCTTAGGTAT AGTGAGCGAT 
    TTCCCCATGT TTGGCTCGTC CTTCTTCTAC ATCCAGAGCT GCAGCAACAA CACAGTCATC 
    GCCCCCTGTA TCTTGGCCGT CAACCAGAAC GGACTGAACT TCCTCAATAA GGAAACGCAT 
    GAGCTGGTTG TGACATTCCC ACTGAGCAAC ATCCAGAGCA CTAGGACCCA GCGACCTGCA 
    TCAGGGTTCA GCTACCCGTA TGTCGATGTC ATGCTGGGTG ATGTGATGTC ACAGAGAGTT 
    ACGCAGCTCC AGCTCGAGCA GGGCCTGGAG CTGTGCAGGG TGGTCGCTAC GCACATGGAG 
    AATCTGCTTC AGAGCCGGGA TAAGCACCTC ACCCTCCCAC CCAGTGACAT TACTCTTCTC 
    TGA

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

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