LOC101731243 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC101731243 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101731243 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
OXa62389 XM_004915856.4
Latest version!
Xenopus tropicalis uncharacterized LOC101731243 (LOC101731243), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa37643 XM_004915856.3
Latest version!
Xenopus tropicalis uncharacterized LOC101731243 (LOC101731243), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa62389
    Clone ID Related Accession (Same CDS sequence) XM_004915856.4
    Accession Version XM_004915856.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4029bp)
    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 uncharacterized protein LOC101731243
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.2) 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_004915856.3. ##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
    3961
    4021
    ATGCATCCGA GCGGCTTAAA AAATCAAGGA ACAGATATAG CACCTTCTGC TTCAGGTTTT 
    TCCAGAGCTG AAAGCTCAGT GGATGAACTT AGTGTAATGT ATCCCATCAC TACTGAGACA
    GATATTGATA TTACTGCTGT ATTATTGCCA TCTGGAGGTA TTCAAAGCCA TCATCATGCC
    ATGAGGACCG CAGTCAGTGA GACACAGCCT CCTGCTTTTG CCTTACCACC AATCAATTCC
    CATCAAGACA AGCCTAGATT ACTTCTGAAA ATGCAGCCTG CTATGAAAGA CACCAATGGC
    AGTTCAACTC TACCATTTAG TCTTGGAACA CACTTGGGTT CACTAGTTAT GGAAGGCGTC
    CCACTAGAGA AATTTCTTGA AGAGAAGCAG ACAAAGAAAC CAGGTGTATG TGAGGAACAT
    GCTGAATCTT TGGGTAAACC AGAGCATATG ATATCTGAAG AGCTTGGTTT TTATTATTCA
    GATTTACATA TTAAGGCAGA AAAAAATCCA CAAGATATCC TTTCCGTGCT GCAGAATACT
    GATAAGACAA GTCTTCAGAG AGAATGTAGA ACCTTTATGA CATCTGAAGG TCCTAAAATA
    ATACCCATTG ACAAGACAGA ATGTCCTGAC CTGTACTGCG GTGAACATGA TAATAATGGG
    GGAATTATGA AACCCCCAAC CTATGTAAAC TATCAGGATC AAACACTTAA AAGAGAAGAG
    ACAGTCTCTG ATGAACAAAA CCAAACTGCT ACAATACCAG AACAGTTTGT AAAGGGAGAA
    AAATGTGTTG ATTTATTAAA AGATCAAGTA ATAACCAGTG ACTCAGACAC CAAATATAAA
    TTTGAAACAA ATAGACTGAA TCCACAAGAA CAATCCATGC AAATACATTT CTTGCCTAAC
    AGCGTGTATG GTAGCATACC CCAAGAGAAT GACAACAATA ATCTGTATGA AGCAACTCAC
    ATTGAAGTTA ATGAAAAAGC ACCCAAAAAT GATCATTACG GTATTAATAA AAGGACAGTA
    TTTGAAGAGA CTAAAATTGA AGAAAATGGA AATAATTACC AAAAGCTACA CGGTAGTAAA
    AACAAAAGTG TTCAGAGTGA AGAGCCTGAT GTTCAAGAAG ATGACGTTAT ACAGACAAAT
    GATAATTATG CTGTTAACAC AAGAGCCATA TGTGAAAAAA CCCAAGTTAA GGACAACATT
    TATAGAAAGG ATCAATGTGG AATGAATAAA AGCATGCAGT TTGAAGAGAC TAAAGGGGGA
    CAAGTGGAAA ATATTGACAC ACAGTATAAT ACTGTTGATA AAAGTGACCA ACTGGAAGAG
    ATGGAAGTTG GAGAGAATTC TGTGAAAGAT CAACCCATCC CTTGGCTTAA AGACACGGGG
    CAGAAGGGCA CACATAGTAC CTGTCCTGTT GAACTAGACC TGGATGTTGA AGATGTTAAT
    AAACACAGAA ATTATATTAA TGCTGTTAAT AAAAAAGCCA AGTTTGAAGT GGCTAATTGG
    AGAAAAGTGG AGTATGTACA GGAAAAACAT CATGATAATC TCAGTAAAAA TAAAATAAAT
    GGCAAGGCTC AGGTTGGAGA AGGTAAGAAC ATACAAAAGA AAGAGCATTC TGTAAATAAA
    GGTGATGTGG AAGATAACAA TAAAGACCAA GTTGAAACTA AGAATTCACA CAGAACAAAT
    CATCATCCTA GCAAAAATGA AATGCTCAAA GAGACTCAAG GTGGAAAAGA TGAGAATAGA
    CACAAAAAGA ATAATTTTGT TGACAAAAGT GACCAATTGG ATGAGATGGA AGTTGAAGAG
    GATCCTGTGA AAGACCAATT CATCCCTTGG CTCAAAGACT CCGGGCAGAA GGGCACACAT
    AGTACCTTCA CTGAAAGGTC TGTTAAAGTA GAATCAGATG TTGAAGATGA TAATATACAC
    AAAATTGATA TTTATACTTT TAATCTAAGT GCCATAGATA AAGAAACTCA AGTTAAGGAA
    AAGGTTTGTA AAATGGATGA GTGTGGAATG AATACAAGTA TTCAGCTCAA AAAGACTCAA
    GGGGCGCAAA TGGAGAATGT TGAGGGAAAG GATAATTATG TTATCAGTAA TAATGACATG
    TATGACGGGG CTCAGGATGT AGAAGAAAAA AACATACAGA GAAAGGGTCA TTCTGTAAAC
    AAATGCAAGA CGGAAGATAT AAAAGACCAA GAGGCTGAGA GTTTAATCAG AACAAATCAT
    CATGCTTTCA AAAGTGAAGT GTTTCAAGAA GATCAGGATG GAGAAAATGA GAATATACAC
    ACAATGTATA ACTCTACTGA TAAAAGCGAC CAATTGCAAG AGATGAAAGA TGTAGAGGAT
    TCTGTGAAAG ACCAACCCAT CCCTTGGCTT GAAGACACAG GGCAGAATGG CACACATAGT
    ACCTTTAATG AAAGTCCTGA TAACCAACAC CCAGATGTTG AAGATAATAA TGTACACAGA
    AATTATATTT ACACTGGTAA TATAAGTGTC AAATGTGAAG AAATTCACAT TAAAGAAAAG
    ATTAATGGAA AGGAAAACTG TGGAAAAGAT AAGAGTATTC AGTTTGAAGA GACTCAAGGG
    GGGCAAGTAG AGACTGTACA GAGAAAAGCT CCTAATGATA TCAGTAAAAA TGACATGTAT
    GAGGGGGCTC ACGATGAAGA ACAAAAAAAC ATACATAGGA AGGAACATTC TGTAAATAAA
    GGTGACATAG AAGGTGAGAA TAAAGGCCAA GTGGAAGCTA AGAACTTACA CAGAACAAAT
    CATCATGCTA TCAAAAGTGA AATGCTCAAA GAGACTCAAA GTGGAGAACA TGAGAACATA
    TACACAAAGG ATAATACCAC TGATAAAAGT GACCAGTTGA AGGACATAGA AATAGGAAAA
    GAACTTGTGA AAGACCAACC TACCCCTTGG CAGAATGACA CAGGGCAGAA TGACACACAT
    AGTACCTTCA CCGAATGTCC TGTTGAACTA GGCCCAGGTA CTGAAGATGA TAAAGTTAAA
    TCCCTGGAAG AAAGCAATAT TATTACAAGT GCTCAGTTGT CGGTTATTGA TTGTGGTTCA
    GCTAGCCGGT GCACAGTCCA AGCTGAAGAT CAATCAACAT CTAAGACAGA TAAAAAAGAT
    GAAGAAATGG CAACTCCTCA TGTTTTTATC AAGACACCAA CACAAGATAC ATATGGAAAG
    ATCATTCGGG AAAGAGGACT TTCCCTTTTA GAAGATTTAA GGAGAAAATA TTTAGACTCT
    GAAGGTCATG GGTTCATCCT GTTAGATTCT GGAATGGTTT TAACTGGAGA GGACAATCAG
    AGAGAGCAAA ATATTGCTTT TGTTGCACTG AGAAATGGAT TAAAACTGGC AATGGCAATT
    CCCATATCTG GTCTTTTCCT CTATTACAAC TTGGGACTCC ATTTTTATAT TACTGAACAG
    CTGAACGAGG ACTGGTATTG TGTAAAAGAC AGAATAACCC AAGAAAGGAT GCTCATGAAA
    AAGGTCCCAG TTACCTCCAG CTGGGGAAAA CCACTGAATA ATTTCCTGTC CCTCCTGCAT
    CACCCCCGGC TCCTGGTCCC ATATGCTGTG CTGTATGACA GAAATGGATC CATTCACTAT
    CTCATGGAAT ACAAGCACGT CTTGGCAATG GGGAGACCCC CACCAGGACG CCAATTTGAT
    AAGGAAAAGT CGTTTTGGGA GGTGGTGGCG TTTTTGAGTT ATTGCAAACA AAATGGTCTG
    TTTCCTCCCA ACATTCAAGA AATAATACTG TACACAGAAC AGGGAGTTTG TTTTGATCCC
    AGCGGGCTCT GTAATTCTGA AGATCCCTGC ATTTTAAAGA AAAGTATTAA AAGTGTTTTA
    TTACTTTTCT TGGGCAGTGA ACATCAGGAA CACTTGGATC GAGAGTCGGA ACTCTTGCTT
    GAGAGAGCAT ACCAGTGCTT GGAGGACGAC ATGGGGTGGC CAGAGCAGCT GGTCCCAGAC
    ACTGGCCTTT CCCTACAGAG AGCCGGCCCT ATACCCTTTT CATTTCCTTG TTTTTCAGCA
    GGAAACTGA

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

    RefSeq XP_004915913.3
    CDS335..4363
    Translation

    Target ORF information:

    RefSeq Version XM_004915856.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis uncharacterized LOC101731243 (LOC101731243), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915856.4

    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
    3961
    4021
    ATGCATCCGA GCGGCTTAAA AAATCAAGGA ACAGATATAG CACCTTCTGC TTCAGGTTTT 
    TCCAGAGCTG AAAGCTCAGT GGATGAACTT AGTGTAATGT ATCCCATCAC TACTGAGACA
    GATATTGATA TTACTGCTGT ATTATTGCCA TCTGGAGGTA TTCAAAGCCA TCATCATGCC
    ATGAGGACCG CAGTCAGTGA GACACAGCCT CCTGCTTTTG CCTTACCACC AATCAATTCC
    CATCAAGACA AGCCTAGATT ACTTCTGAAA ATGCAGCCTG CTATGAAAGA CACCAATGGC
    AGTTCAACTC TACCATTTAG TCTTGGAACA CACTTGGGTT CACTAGTTAT GGAAGGCGTC
    CCACTAGAGA AATTTCTTGA AGAGAAGCAG ACAAAGAAAC CAGGTGTATG TGAGGAACAT
    GCTGAATCTT TGGGTAAACC AGAGCATATG ATATCTGAAG AGCTTGGTTT TTATTATTCA
    GATTTACATA TTAAGGCAGA AAAAAATCCA CAAGATATCC TTTCCGTGCT GCAGAATACT
    GATAAGACAA GTCTTCAGAG AGAATGTAGA ACCTTTATGA CATCTGAAGG TCCTAAAATA
    ATACCCATTG ACAAGACAGA ATGTCCTGAC CTGTACTGCG GTGAACATGA TAATAATGGG
    GGAATTATGA AACCCCCAAC CTATGTAAAC TATCAGGATC AAACACTTAA AAGAGAAGAG
    ACAGTCTCTG ATGAACAAAA CCAAACTGCT ACAATACCAG AACAGTTTGT AAAGGGAGAA
    AAATGTGTTG ATTTATTAAA AGATCAAGTA ATAACCAGTG ACTCAGACAC CAAATATAAA
    TTTGAAACAA ATAGACTGAA TCCACAAGAA CAATCCATGC AAATACATTT CTTGCCTAAC
    AGCGTGTATG GTAGCATACC CCAAGAGAAT GACAACAATA ATCTGTATGA AGCAACTCAC
    ATTGAAGTTA ATGAAAAAGC ACCCAAAAAT GATCATTACG GTATTAATAA AAGGACAGTA
    TTTGAAGAGA CTAAAATTGA AGAAAATGGA AATAATTACC AAAAGCTACA CGGTAGTAAA
    AACAAAAGTG TTCAGAGTGA AGAGCCTGAT GTTCAAGAAG ATGACGTTAT ACAGACAAAT
    GATAATTATG CTGTTAACAC AAGAGCCATA TGTGAAAAAA CCCAAGTTAA GGACAACATT
    TATAGAAAGG ATCAATGTGG AATGAATAAA AGCATGCAGT TTGAAGAGAC TAAAGGGGGA
    CAAGTGGAAA ATATTGACAC ACAGTATAAT ACTGTTGATA AAAGTGACCA ACTGGAAGAG
    ATGGAAGTTG GAGAGAATTC TGTGAAAGAT CAACCCATCC CTTGGCTTAA AGACACGGGG
    CAGAAGGGCA CACATAGTAC CTGTCCTGTT GAACTAGACC TGGATGTTGA AGATGTTAAT
    AAACACAGAA ATTATATTAA TGCTGTTAAT AAAAAAGCCA AGTTTGAAGT GGCTAATTGG
    AGAAAAGTGG AGTATGTACA GGAAAAACAT CATGATAATC TCAGTAAAAA TAAAATAAAT
    GGCAAGGCTC AGGTTGGAGA AGGTAAGAAC ATACAAAAGA AAGAGCATTC TGTAAATAAA
    GGTGATGTGG AAGATAACAA TAAAGACCAA GTTGAAACTA AGAATTCACA CAGAACAAAT
    CATCATCCTA GCAAAAATGA AATGCTCAAA GAGACTCAAG GTGGAAAAGA TGAGAATAGA
    CACAAAAAGA ATAATTTTGT TGACAAAAGT GACCAATTGG ATGAGATGGA AGTTGAAGAG
    GATCCTGTGA AAGACCAATT CATCCCTTGG CTCAAAGACT CCGGGCAGAA GGGCACACAT
    AGTACCTTCA CTGAAAGGTC TGTTAAAGTA GAATCAGATG TTGAAGATGA TAATATACAC
    AAAATTGATA TTTATACTTT TAATCTAAGT GCCATAGATA AAGAAACTCA AGTTAAGGAA
    AAGGTTTGTA AAATGGATGA GTGTGGAATG AATACAAGTA TTCAGCTCAA AAAGACTCAA
    GGGGCGCAAA TGGAGAATGT TGAGGGAAAG GATAATTATG TTATCAGTAA TAATGACATG
    TATGACGGGG CTCAGGATGT AGAAGAAAAA AACATACAGA GAAAGGGTCA TTCTGTAAAC
    AAATGCAAGA CGGAAGATAT AAAAGACCAA GAGGCTGAGA GTTTAATCAG AACAAATCAT
    CATGCTTTCA AAAGTGAAGT GTTTCAAGAA GATCAGGATG GAGAAAATGA GAATATACAC
    ACAATGTATA ACTCTACTGA TAAAAGCGAC CAATTGCAAG AGATGAAAGA TGTAGAGGAT
    TCTGTGAAAG ACCAACCCAT CCCTTGGCTT GAAGACACAG GGCAGAATGG CACACATAGT
    ACCTTTAATG AAAGTCCTGA TAACCAACAC CCAGATGTTG AAGATAATAA TGTACACAGA
    AATTATATTT ACACTGGTAA TATAAGTGTC AAATGTGAAG AAATTCACAT TAAAGAAAAG
    ATTAATGGAA AGGAAAACTG TGGAAAAGAT AAGAGTATTC AGTTTGAAGA GACTCAAGGG
    GGGCAAGTAG AGACTGTACA GAGAAAAGCT CCTAATGATA TCAGTAAAAA TGACATGTAT
    GAGGGGGCTC ACGATGAAGA ACAAAAAAAC ATACATAGGA AGGAACATTC TGTAAATAAA
    GGTGACATAG AAGGTGAGAA TAAAGGCCAA GTGGAAGCTA AGAACTTACA CAGAACAAAT
    CATCATGCTA TCAAAAGTGA AATGCTCAAA GAGACTCAAA GTGGAGAACA TGAGAACATA
    TACACAAAGG ATAATACCAC TGATAAAAGT GACCAGTTGA AGGACATAGA AATAGGAAAA
    GAACTTGTGA AAGACCAACC TACCCCTTGG CAGAATGACA CAGGGCAGAA TGACACACAT
    AGTACCTTCA CCGAATGTCC TGTTGAACTA GGCCCAGGTA CTGAAGATGA TAAAGTTAAA
    TCCCTGGAAG AAAGCAATAT TATTACAAGT GCTCAGTTGT CGGTTATTGA TTGTGGTTCA
    GCTAGCCGGT GCACAGTCCA AGCTGAAGAT CAATCAACAT CTAAGACAGA TAAAAAAGAT
    GAAGAAATGG CAACTCCTCA TGTTTTTATC AAGACACCAA CACAAGATAC ATATGGAAAG
    ATCATTCGGG AAAGAGGACT TTCCCTTTTA GAAGATTTAA GGAGAAAATA TTTAGACTCT
    GAAGGTCATG GGTTCATCCT GTTAGATTCT GGAATGGTTT TAACTGGAGA GGACAATCAG
    AGAGAGCAAA ATATTGCTTT TGTTGCACTG AGAAATGGAT TAAAACTGGC AATGGCAATT
    CCCATATCTG GTCTTTTCCT CTATTACAAC TTGGGACTCC ATTTTTATAT TACTGAACAG
    CTGAACGAGG ACTGGTATTG TGTAAAAGAC AGAATAACCC AAGAAAGGAT GCTCATGAAA
    AAGGTCCCAG TTACCTCCAG CTGGGGAAAA CCACTGAATA ATTTCCTGTC CCTCCTGCAT
    CACCCCCGGC TCCTGGTCCC ATATGCTGTG CTGTATGACA GAAATGGATC CATTCACTAT
    CTCATGGAAT ACAAGCACGT CTTGGCAATG GGGAGACCCC CACCAGGACG CCAATTTGAT
    AAGGAAAAGT CGTTTTGGGA GGTGGTGGCG TTTTTGAGTT ATTGCAAACA AAATGGTCTG
    TTTCCTCCCA ACATTCAAGA AATAATACTG TACACAGAAC AGGGAGTTTG TTTTGATCCC
    AGCGGGCTCT GTAATTCTGA AGATCCCTGC ATTTTAAAGA AAAGTATTAA AAGTGTTTTA
    TTACTTTTCT TGGGCAGTGA ACATCAGGAA CACTTGGATC GAGAGTCGGA ACTCTTGCTT
    GAGAGAGCAT ACCAGTGCTT GGAGGACGAC ATGGGGTGGC CAGAGCAGCT GGTCCCAGAC
    ACTGGCCTTT CCCTACAGAG AGCCGGCCCT ATACCCTTTT CATTTCCTTG TTTTTCAGCA
    GGAAACTGA

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

    CloneID OXa37643
    Clone ID Related Accession (Same CDS sequence) XM_004915856.3
    Accession Version XM_004915856.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4020bp)
    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 uncharacterized protein LOC101731243
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.1) 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_004915856.2. ##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
    3961
    ATGCATCCGA GCGGCTTAAA AAATCAAGGA ACAGATATAG CACCTTCTGC TTCAGGTTTT 
    TCCAGAGCTG AAAGCTCAGT GGATGAACTT AGTGTAATGT ATCCCATCAC TACTGAGACA
    GATATTGATA TTACTGCTGT ATTATTGCCA TCTGGAGGTA TTCAAAGCCA TCATCATGCC
    ATGAGGACCG CAGTCAGTGA GACACAGCCT CCTGCTTTTG CCTTACCACC AATCAATTCC
    CATCAAGACA AGCCTAGATT ACTTCTGAAA ATGCAGCCTG CTATGAAAGA CACCAATGGC
    AGTTCAACTC TACCATTTAG TCTTGGAACA CACTTGGGTT CACTAGTTAT GGAAGGCGTC
    CCACTAGAGA AGTTTCTTGA AGAGAAGCAG ACAAAGAAAC CAGGTGGCAG TGAGGAACAT
    GCTGAATCTT TGGGTAAACC AGAGCATATG ATATCTGAAG AGCTTGGTTT TTATTATTCA
    GATTTACATA TTAAGGCAGA AAAAAATCCA CAAGATATCC TTTCCGTGCT GCAGAATACT
    GATAAGACAA GTCTTCAGAG AGAATGTAGA ACCTTTATGA CATCTGAAGG TCCTAAAATA
    ATACCCATTG ACAAGACAGA ATGTCCTGAC CTGTACTGCG GTGAACATGA TAATAATGGG
    GGAATTATGA AACCCCCAAC CTATGTAAAC TATCAGGATC AAACACTTAA AAGAGAAGAA
    ACAGTCTCTG ATGAACAAAA CCAAACTGCT ACAATACCAG AACAGTTTGT AAAGGGAGAA
    AAATGTGTTG ATTTATTAAA ATATCAAGTA ATAACCAGTG ACTCAGACAC CAAATATAAA
    TTTGAAACAA ATAGACTGAA TCCACAAGAA CAATCCATGC AAATACATTT CTTGCCTAAC
    AGCGTGTATG GTAGCATACC CCGAGAGAAT GACAACAATA ATCTGTATGA AGCAACTCAC
    ATTGAAGTTA ATGAAAAAGC ACCCAAAAAT GATCATTACG GTATTAATAA AAGGACAGTA
    TTTGAAGAGA CTAAAGTTGA ACAAAATGGG AATAATTACC AAAAGCTACA TGGTAGTAAA
    AACAAAAGTG TTCAGAGTGA AGAGCCTGAT GTTCAAGAAG ATGACGTTAT ACAGACAAAT
    GATAATTGTG CTGTTATCAC AAGAGCCATA TGTGAAAAAA CCCAAGTTAA GGACAACATT
    TATGGAAAGG ATCGACGTGG AATGAATAAA AGCATGCAGT TTGAAGAGAC TAAAGGGGGA
    CAAGTGGAAA ATACTGACAC ACAGTATAAT ACTGTTGATA AAAGTGACCA ACTGGAAGAG
    ATGGAAGTTG GAGAGAATTC TGTGAAAGAT CAACCCATCC CTTGGCTTAA AGACACGGGG
    CAGAAGGGCA CACATAGTAC CTGTCCTGTT GAACTAGACC TGGATGTTGA AGATGTTAAT
    AAACACAGAA ATTATATTAA TGCTGTTAAT AAAAAAGCCA AGTTTGAAGT GGCTAATTGG
    AGAAAAGTGG AGTATGTACA GGAAAAACAT CATGATAATC TCAGTAAAAA TAAAATAAAT
    GGCAAGGCTC AGGTTGGAGA AGGTAAGAAC ATACAAAAGA AAGAGCATTC TGTAAATAAA
    GGTGATGTGG AAGATAACAA TAAAGACCAA GTTGAAACTA AGAATTCACA CAGAACAAAT
    CATCATCCTA GCAAAAATGA AATGCTCAAA GAGAGAATAG ATGAGAATAG ACACAAAAAG
    AATAATTTTG TTGACAAAAG TGACCAATTG GATGAGATGG AAGTTGAAGA GGATCCTGTG
    AAAGACCAAT TCATCCCTTG GCTCAAAGAC TCCGGGCAGA AGGGCACACA TAGTACCTTC
    ACTGAAAGGT CTGTTAAAGT AGAATCAGAT GTTGAAGATG ATAATATACA CAAAATTGAT
    ATTTATACTT TTAATCTAAG TGCCATAGAT AAAGAAACTC AAGTTAAGGA AAAGGTTTGT
    AAAATGGATG AGTGTGGAAT GAATACAAGT ATTCAGCTCA AAAAGACTCA AGGGGCGCAA
    ATGGAGAATG TTGAGGGAAA GGATAATTAT GTTATCAGTA ATAATGACAT GTATGACGGG
    GCTCAGGATG TAGAAGAAAA AAACATACAG AGAAAGGGTC ATTCTGTAAA CAAATGCAAG
    ACGGAAGATA TAAAAGACCA AGAGGCTGAG AGTTTAATCA GAACAAATCA TCATGCTTTC
    AAAAGTGAAG TGTTTCAAGA AGATCAGGAT GGAGAAAATG AGAATATACA CACAATGTAT
    AACTCTACTG ATAAAAGCGA CCAATTGCAA GAGATGAAAG ATGTAGAGGA TTCTGTGAAA
    GACCAACCCA TCCCTTGGCT TGAAGACACA GGGCAGAATG GCACACATAG TACCTTTAAT
    GAAAGTCCTG ATAACCAACA CCCAGATGTT GAAGATAATA ATGTACACAG AAATGATATT
    TACACTGGTA ATATAAGTGT CAAATGTGAA GAAATTGACA TTAAAGAAAA GATTAATGGA
    AAGGAAAACT GTGGAAAAGA TAAGAGTATT CAGTTTGAAG AGACTCAAGG GGGGCAAGTA
    GAGACTGTAC AGAGAAAAGC TCCTAATGAT ATCAGTAAAA ATGACATGTA TGAGGGGGCT
    CACGATGAAG AACAAAAAAA CATACATAGG AAGGAACATT CTGTAAATAA AGGTGACATA
    GAAGGTGAGA ATAAAGGCCA AGTGGAAGCT AAGAATTTAC ACAGAACAAA TCATCATGCT
    ATCAAAAGTG AAATGCTCAA AGAGACTCAA AGTGGAGAAC ATGAGAACAT ATACACAAAG
    GATAATACCA CTGATAAAAG TGACCAGTTG AAGGAGATAG AAATAGGAAA AGAACTTGTG
    AAAGACCAAC CTACCCCTTG GCAGAATGAC ACAGGGCAGA ATGACACACA TAGTACCTTC
    ACCGAATGTC CTGTTGAACT ACACCCAGGT ACTGAAGATG ATAAAGTTAA ATCCCTGGAA
    GAAAGCAATA TTATTACAAG TGCTCAGTTG TCGGTTATTG ATTGTGGTTC AGCTAGCCGG
    TGCACAGTCC AAGCTGAAGA TCAATCAACA TCTAAGACAG ATAAAAAAGA TGAAGAAATG
    GCAACTCCTC ATGTTTTTAT CAAGACACCA ACACAAGATA CATATGGAAA GATCATTCGG
    GAAAGAGGAC TTTCCCTTTT AGAAGATTTA AGGAGAAAAT ATTTAGACTC TGAAGGTCAT
    GGGTTCATCC TGTTAGATTC TGGAATGGTT TTAACTGGAG AGGACAATCA GAGAGAGCAA
    AATATTGCTT TTGTTGCACT GAGAAATGGA TTAAAACTGG CAATGGCAAT TCCCATATCT
    GGTCTTTTCC TCTATTACAA CTTGGGACTC CATTTTTATA TTACTGAACA GCTGAACGAG
    GACTGGTATT GTGTAAAAGA CAGAATAACC CAAGAAAGGA TGCTCATGAA AAAGGTCCCA
    GTTACCTCCA GCTGGGGAAA ACCACTGAAT AATTTCCTGT CCCTCCTGCA TCACCCCCGG
    CTCCTGGTCC CATATGCTGT GCTGTATGAC AGAAATGGAT CCATTCACTA TCTCATGGAA
    TACAAGCACG TCTTGGCAAT GGGGAGACCC CCACCAGGAC GCCAATTTGA TAAGGAAAAG
    TCGTTTTGGG AGGTGGTGGC GTTTTTGAGT TATTGCAAAC AAAATGGTCT GTTTCCTCCC
    AACATTCAAG AAATAATACT GTACACAGAA CAGGGAGTTT GTTTTGATCC CAGCGGGCTC
    TGTAATTCTG AAGATCCCTG CATTTTAAAG AAAAGTATTA AAAGTGTTTT ATTACTTTTC
    TTGGGCAGTG AACATCAGGA ACACTTGGAT CGAGAGTCGG AACTCTTGCT TGAGAGAGCA
    TACCAGTGCT TGGAGGACGA CATGGGGTGG CCAGAGCAGC TGGTCCCAGA CACTGGCCTT
    TCCCTACAGA GAGCCGGCCC TATACCCTTT TCATTTCCTT GTTTTTCAGC AGGAAACTGA

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

    RefSeq XP_004915913.2
    CDS338..4357
    Translation

    Target ORF information:

    RefSeq Version XM_004915856.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis uncharacterized LOC101731243 (LOC101731243), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915856.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGCATCCGA GCGGCTTAAA AAATCAAGGA ACAGATATAG CACCTTCTGC TTCAGGTTTT 
    TCCAGAGCTG AAAGCTCAGT GGATGAACTT AGTGTAATGT ATCCCATCAC TACTGAGACA
    GATATTGATA TTACTGCTGT ATTATTGCCA TCTGGAGGTA TTCAAAGCCA TCATCATGCC
    ATGAGGACCG CAGTCAGTGA GACACAGCCT CCTGCTTTTG CCTTACCACC AATCAATTCC
    CATCAAGACA AGCCTAGATT ACTTCTGAAA ATGCAGCCTG CTATGAAAGA CACCAATGGC
    AGTTCAACTC TACCATTTAG TCTTGGAACA CACTTGGGTT CACTAGTTAT GGAAGGCGTC
    CCACTAGAGA AGTTTCTTGA AGAGAAGCAG ACAAAGAAAC CAGGTGGCAG TGAGGAACAT
    GCTGAATCTT TGGGTAAACC AGAGCATATG ATATCTGAAG AGCTTGGTTT TTATTATTCA
    GATTTACATA TTAAGGCAGA AAAAAATCCA CAAGATATCC TTTCCGTGCT GCAGAATACT
    GATAAGACAA GTCTTCAGAG AGAATGTAGA ACCTTTATGA CATCTGAAGG TCCTAAAATA
    ATACCCATTG ACAAGACAGA ATGTCCTGAC CTGTACTGCG GTGAACATGA TAATAATGGG
    GGAATTATGA AACCCCCAAC CTATGTAAAC TATCAGGATC AAACACTTAA AAGAGAAGAA
    ACAGTCTCTG ATGAACAAAA CCAAACTGCT ACAATACCAG AACAGTTTGT AAAGGGAGAA
    AAATGTGTTG ATTTATTAAA ATATCAAGTA ATAACCAGTG ACTCAGACAC CAAATATAAA
    TTTGAAACAA ATAGACTGAA TCCACAAGAA CAATCCATGC AAATACATTT CTTGCCTAAC
    AGCGTGTATG GTAGCATACC CCGAGAGAAT GACAACAATA ATCTGTATGA AGCAACTCAC
    ATTGAAGTTA ATGAAAAAGC ACCCAAAAAT GATCATTACG GTATTAATAA AAGGACAGTA
    TTTGAAGAGA CTAAAGTTGA ACAAAATGGG AATAATTACC AAAAGCTACA TGGTAGTAAA
    AACAAAAGTG TTCAGAGTGA AGAGCCTGAT GTTCAAGAAG ATGACGTTAT ACAGACAAAT
    GATAATTGTG CTGTTATCAC AAGAGCCATA TGTGAAAAAA CCCAAGTTAA GGACAACATT
    TATGGAAAGG ATCGACGTGG AATGAATAAA AGCATGCAGT TTGAAGAGAC TAAAGGGGGA
    CAAGTGGAAA ATACTGACAC ACAGTATAAT ACTGTTGATA AAAGTGACCA ACTGGAAGAG
    ATGGAAGTTG GAGAGAATTC TGTGAAAGAT CAACCCATCC CTTGGCTTAA AGACACGGGG
    CAGAAGGGCA CACATAGTAC CTGTCCTGTT GAACTAGACC TGGATGTTGA AGATGTTAAT
    AAACACAGAA ATTATATTAA TGCTGTTAAT AAAAAAGCCA AGTTTGAAGT GGCTAATTGG
    AGAAAAGTGG AGTATGTACA GGAAAAACAT CATGATAATC TCAGTAAAAA TAAAATAAAT
    GGCAAGGCTC AGGTTGGAGA AGGTAAGAAC ATACAAAAGA AAGAGCATTC TGTAAATAAA
    GGTGATGTGG AAGATAACAA TAAAGACCAA GTTGAAACTA AGAATTCACA CAGAACAAAT
    CATCATCCTA GCAAAAATGA AATGCTCAAA GAGAGAATAG ATGAGAATAG ACACAAAAAG
    AATAATTTTG TTGACAAAAG TGACCAATTG GATGAGATGG AAGTTGAAGA GGATCCTGTG
    AAAGACCAAT TCATCCCTTG GCTCAAAGAC TCCGGGCAGA AGGGCACACA TAGTACCTTC
    ACTGAAAGGT CTGTTAAAGT AGAATCAGAT GTTGAAGATG ATAATATACA CAAAATTGAT
    ATTTATACTT TTAATCTAAG TGCCATAGAT AAAGAAACTC AAGTTAAGGA AAAGGTTTGT
    AAAATGGATG AGTGTGGAAT GAATACAAGT ATTCAGCTCA AAAAGACTCA AGGGGCGCAA
    ATGGAGAATG TTGAGGGAAA GGATAATTAT GTTATCAGTA ATAATGACAT GTATGACGGG
    GCTCAGGATG TAGAAGAAAA AAACATACAG AGAAAGGGTC ATTCTGTAAA CAAATGCAAG
    ACGGAAGATA TAAAAGACCA AGAGGCTGAG AGTTTAATCA GAACAAATCA TCATGCTTTC
    AAAAGTGAAG TGTTTCAAGA AGATCAGGAT GGAGAAAATG AGAATATACA CACAATGTAT
    AACTCTACTG ATAAAAGCGA CCAATTGCAA GAGATGAAAG ATGTAGAGGA TTCTGTGAAA
    GACCAACCCA TCCCTTGGCT TGAAGACACA GGGCAGAATG GCACACATAG TACCTTTAAT
    GAAAGTCCTG ATAACCAACA CCCAGATGTT GAAGATAATA ATGTACACAG AAATGATATT
    TACACTGGTA ATATAAGTGT CAAATGTGAA GAAATTGACA TTAAAGAAAA GATTAATGGA
    AAGGAAAACT GTGGAAAAGA TAAGAGTATT CAGTTTGAAG AGACTCAAGG GGGGCAAGTA
    GAGACTGTAC AGAGAAAAGC TCCTAATGAT ATCAGTAAAA ATGACATGTA TGAGGGGGCT
    CACGATGAAG AACAAAAAAA CATACATAGG AAGGAACATT CTGTAAATAA AGGTGACATA
    GAAGGTGAGA ATAAAGGCCA AGTGGAAGCT AAGAATTTAC ACAGAACAAA TCATCATGCT
    ATCAAAAGTG AAATGCTCAA AGAGACTCAA AGTGGAGAAC ATGAGAACAT ATACACAAAG
    GATAATACCA CTGATAAAAG TGACCAGTTG AAGGAGATAG AAATAGGAAA AGAACTTGTG
    AAAGACCAAC CTACCCCTTG GCAGAATGAC ACAGGGCAGA ATGACACACA TAGTACCTTC
    ACCGAATGTC CTGTTGAACT ACACCCAGGT ACTGAAGATG ATAAAGTTAA ATCCCTGGAA
    GAAAGCAATA TTATTACAAG TGCTCAGTTG TCGGTTATTG ATTGTGGTTC AGCTAGCCGG
    TGCACAGTCC AAGCTGAAGA TCAATCAACA TCTAAGACAG ATAAAAAAGA TGAAGAAATG
    GCAACTCCTC ATGTTTTTAT CAAGACACCA ACACAAGATA CATATGGAAA GATCATTCGG
    GAAAGAGGAC TTTCCCTTTT AGAAGATTTA AGGAGAAAAT ATTTAGACTC TGAAGGTCAT
    GGGTTCATCC TGTTAGATTC TGGAATGGTT TTAACTGGAG AGGACAATCA GAGAGAGCAA
    AATATTGCTT TTGTTGCACT GAGAAATGGA TTAAAACTGG CAATGGCAAT TCCCATATCT
    GGTCTTTTCC TCTATTACAA CTTGGGACTC CATTTTTATA TTACTGAACA GCTGAACGAG
    GACTGGTATT GTGTAAAAGA CAGAATAACC CAAGAAAGGA TGCTCATGAA AAAGGTCCCA
    GTTACCTCCA GCTGGGGAAA ACCACTGAAT AATTTCCTGT CCCTCCTGCA TCACCCCCGG
    CTCCTGGTCC CATATGCTGT GCTGTATGAC AGAAATGGAT CCATTCACTA TCTCATGGAA
    TACAAGCACG TCTTGGCAAT GGGGAGACCC CCACCAGGAC GCCAATTTGA TAAGGAAAAG
    TCGTTTTGGG AGGTGGTGGC GTTTTTGAGT TATTGCAAAC AAAATGGTCT GTTTCCTCCC
    AACATTCAAG AAATAATACT GTACACAGAA CAGGGAGTTT GTTTTGATCC CAGCGGGCTC
    TGTAATTCTG AAGATCCCTG CATTTTAAAG AAAAGTATTA AAAGTGTTTT ATTACTTTTC
    TTGGGCAGTG AACATCAGGA ACACTTGGAT CGAGAGTCGG AACTCTTGCT TGAGAGAGCA
    TACCAGTGCT TGGAGGACGA CATGGGGTGG CCAGAGCAGC TGGTCCCAGA CACTGGCCTT
    TCCCTACAGA GAGCCGGCCC TATACCCTTT TCATTTCCTT GTTTTTCAGC AGGAAACTGA

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