LOC100496491 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC100496491 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100496491 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
OXa11076 XM_012963220.2
Latest version!
Xenopus tropicalis coiled-coil domain-containing protein 162-like (LOC100496491), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OXa58304 XM_031902019.1
Latest version!
Xenopus tropicalis uncharacterized LOC100496491 (LOC100496491), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OXa58305 XM_031902020.1
Latest version!
Xenopus tropicalis uncharacterized LOC100496491 (LOC100496491), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OXa11076
    Clone ID Related Accession (Same CDS sequence) XM_012963220.2
    Accession Version XM_012963220.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
    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 coiled-coil domain-containing protein 162-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.1) 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_012963220.1. ##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## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGAATGTAA CTGTATATGA TATATTTTGC ATTGCCAAAC AGGGTATCCG CATAAAGGAA 
    GAAGTTGAAA AAGTTAAAAG AGATCTTGTG ACTAATTACT GTCAAAGGCT AAACAATCGA
    ACATGCAACC ACGCCCTTCG AGGACAGATC ATTGCTTATT GCAACAGTTT AAAAAACCTG
    CTTGAAGAAG TGCCGGTCAT CAAGAAATCA TATTTCATTA TAGGTCATCC TCAAAACAAA
    AAATCAGGCT TAAAGGAAGC GCCACAGGCA GACCCCAGAA CATTTAAGGA ACGACCATAT
    AGCTTGTTGA CAGAAGATGG ACAAACTTTC CTTAATTTAT GGTACATCCC CTCATCAGCA
    GAGGTGCTAG TCATGTTTAA AGCGTTACCA GAAAAGGCGG CATTCCGAGC ACTCTACCAA
    ACTCTGTACA TTATTGCTGC TGTGCATGAC ATAGTATCCT ATATATTTAG CTTTGCCCAG
    CTTGGAAATT TATGCAGCAA TTACAGGCAC TCAAAGCATA AGGCACTGGC TGCAGATTGG
    GGTGGAACAG AAGGCATTGG AGCAGAGTTG CTAGAGATAC AGAAATCAAT AGACAGCCTC
    AGCAATCCCC AAGATCCCAA AGAAGTTGCC TCGTTACTGC TTCTCAGACG GGAAGTAATA
    TTTCTTCAGT TTGAGGCAGC AGTTCGCTAC TTGATTCGGG AAGCTTTCTT ATCTACTGGT
    AATGTCTGTG CCTTCAATGT AACCACAGAC AATATGTACC ATGGCCTACA AGCCCTGAGT
    AATGCTGTGC GTGCAAGTGC CTTTTCCTCT TTGCTGCCTT TGCCAGAGCC TCTCGATCCT
    CACAGCCACA GAGCATTTAT GCTTTATCCA TGGAGGACAT TTTTAGCCAA TGGTGGCTTA
    TTTCCATTGG CAATAAGCAA TCTACATACT CTGGGATACC ACATGCAGTT GTGTCTGTGT
    GAAATGACTG ACCAAGAGCG CAGTGTAGCA CATGGGGAGC TGGTTGGTGT GAAGCTTTTA
    ATGGAGGATA TTCTTCAGAG TGACAACACT TTGATTTCCT TCACCATTGA GGGCAATCAG
    GAATCCAAGC AGACATCACT TGACATGTTT AGTGCAATCC AAGGATCTCA GGAGCCAGTC
    CAGAGCACAT GTCACCAGCC GATCCTTGTC CCTCATGATC CAATTGGCGT ATTTCAGCTG
    CTAAAATCCT TCTTAATTCT GTGGAAGCAG CTGGAAATGT TTAAAGAAAG ATGGGGGAAG
    CTAAAACTTC AGGTGGAGAA GATAAACACA GTACCTCTCT ATAAACAATT TAGTGAGCTT
    TATAGAGATG ACATTTTTTA TCCCACCATG AAAGTTATCG CTAGACAAAT GGGAAAAGAG
    GAAGAGTTTG AAGGAATCAC TTTAAGGACA CAGGTTGTGC TTCCTCCAAA AGGAGCTTCT
    GAAGCTAAAA TCAGGATTTG TCAGCTACAC AAAATATTGG AAGACATTGA GATTCACATG
    ATTCATGAAG TAAAGAAGAA AACTGCCAAA GAGTTGACCT TGGTAAAAAC AGAGAGGTCG
    AGAGAAGCAA GCCTTCCTAC AGAGCTGTGG AAGCAAAATG TCATGAAGGA ACATTATTCA
    CCTGTAAGAC CACAAATCGT AGAAAAATTT GTTCAGAATC TAATGAGCGA AGTCGAGGAA
    CGAACATCGC AAGTAACCTT TAGGAAAGAC CATTTAGAAG ACTGCCTTAA GTCTCTTGCC
    TGTGATGTAA TGGCAAGAGA AAGAAGTAAC TTTGAGACCT ACTCTATGTT TTATGAAAAC
    CTTCTTCATC AAGAGCATCA GTTACTTTAC CAAAAGGAGC AAGAAATTGC AGCCATAGAT
    GCAAACCAGA GGGAGAATGA AGAAAAGTTT GGTAAGACAG CGGAAATGAG CCATGAGCTG
    TTGTTGGAAG TCACAGCGCT CAGAGCCAAA CTCTCAGATC TAGAAGAAGA ATCTCTTTCC
    TCCAGAGAAA CCATTAGGAA AGAAATACAA GAAGAACATG AGGCTTTAGT AAGGTCTTTA
    TTTGCGCAGT GTGTATATCT CAAGTCAAAA CTAGAGGAAT ATTACATTAA CATGAAGCAG
    CACGTAAGTG AACTTATCAG TGGAGTCAGA AAAGAAGGAG TGGATGATAT AATCTTGCTG
    AAGAAAAAAT ATGGTTTTAC AAAGGATTAC AGTTCACTAG CCAACAGTTT GTCAAAGCAA
    AACATGCTAC AGTCTCTTAG AGAGGAAAAC AGCAGCCTGA ATGCACTGTT CTGTAAGATG
    AAAGCATTGC ACCACTGGAA AACAACAAGC AAGGAAGGAC AGCTACGCAG GAGCATTAGC
    AATGCTGAAA AGGAGGCGGC TCAGAACAAA AAGGAAGGCT TGAAATTAAA ATTGAGTGTG
    GCCCAAGAGG TGACCTTGTT ACGCCAGCAA TTGATGGTTG CAAGGACGAG TTTGACAAGG
    ACGCAGGCTG AGAACAGCCA TCTGAACCAA CAGTTGTGTA AGCAGAAAGA ACTGCTGAGT
    GGGCTGGAGC ACAGGTACTC TCAAGAGATG AGAAACAGGC AGCAGGCCGA AAGGGAGAAG
    TCAGCCAGTG TGGACAAGCT GCTGGGAGAT ATACAGGACA GGGAATCCAG GCTGCGTACT
    GTGACAGAAG AAGCTGAAAG ATCCTCCAGA ATGGGTCAAA TGGAGCAAAA TAAAATAAAA
    AGGGAAGTAA AGCAGATGAG ATCTCAGCTG ATACAGGAGC GCAGCTTAAA ACTAGATGCC
    TTTCACAGAG TCGACGAGCT ACAGACTCAG GTCTACGATT TGGAAATGTT TTCTATAAGG
    AATTCATCCA CAGGTATGAG GAAGACTTCA GCCTCTCTCT TATCCCCCAG TGGGAGGAGC
    CATTCTGCAG TCTCTTCCTC CTGGTCCTCA CAATCCACTC CTTTTGGCCA AGGTCCCATA
    GGAGACTTGC AGTGTTATGT GCCACCTGAT ACCACAGCAA GTAGCCGATT GGAAATGAGA
    ATGCAGAGGC CTAAAACGGT ACCAAGCAGG TGCAGAAACA CAACAGCTGG GACAGGGCTT
    CCCACTGTGG CAGACAGCAC TTCTCAGGCA ATCCTCACAC AACTGCTTGA CTTAAAGTTG
    AATTACAAGT GA

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

    RefSeq XP_012818674.1
    CDS1..3132
    Translation

    Target ORF information:

    RefSeq Version XM_012963220.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain-containing protein 162-like (LOC100496491), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012963220.2

    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
    ATGAATGTAA CTGTATATGA TATATTTTGC ATTGCCAAAC AGGGTATCCG CATAAAGGAA 
    GAAGTTGAAA AAGTTAAAAG AGATCTTGTG ACTAATTACT GTCAAAGGCT AAACAATCGA
    ACATGCAACC ACGCCCTTCG AGGACAGATC ATTGCTTATT GCAACAGTTT AAAAAACCTG
    CTTGAAGAAG TGCCGGTCAT CAAGAAATCA TATTTCATTA TAGGTCATCC TCAAAACAAA
    AAATCAGGCT TAAAGGAAGC GCCACAGGCA GACCCCAGAA CATTTAAGGA ACGACCATAT
    AGCTTGTTGA CAGAAGATGG ACAAACTTTC CTTAATTTAT GGTACATCCC CTCATCAGCA
    GAGGTGCTAG TCATGTTTAA AGCGTTACCA GAAAAGGCGG CATTCCGAGC ACTCTACCAA
    ACTCTGTACA TTATTGCTGC TGTGCATGAC ATAGTATCCT ATATATTTAG CTTTGCCCAG
    CTTGGAAATT TATGCAGCAA TTACAGGCAC TCAAAGCATA AGGCACTGGC TGCAGATTGG
    GGTGGAACAG AAGGCATTGG AGCAGAGTTG CTAGAGATAC AGAAATCAAT AGACAGCCTC
    AGCAATCCCC AAGATCCCAA AGAAGTTGCC TCGTTACTGC TTCTCAGACG GGAAGTAATA
    TTTCTTCAGT TTGAGGCAGC AGTTCGCTAC TTGATTCGGG AAGCTTTCTT ATCTACTGGT
    AATGTCTGTG CCTTCAATGT AACCACAGAC AATATGTACC ATGGCCTACA AGCCCTGAGT
    AATGCTGTGC GTGCAAGTGC CTTTTCCTCT TTGCTGCCTT TGCCAGAGCC TCTCGATCCT
    CACAGCCACA GAGCATTTAT GCTTTATCCA TGGAGGACAT TTTTAGCCAA TGGTGGCTTA
    TTTCCATTGG CAATAAGCAA TCTACATACT CTGGGATACC ACATGCAGTT GTGTCTGTGT
    GAAATGACTG ACCAAGAGCG CAGTGTAGCA CATGGGGAGC TGGTTGGTGT GAAGCTTTTA
    ATGGAGGATA TTCTTCAGAG TGACAACACT TTGATTTCCT TCACCATTGA GGGCAATCAG
    GAATCCAAGC AGACATCACT TGACATGTTT AGTGCAATCC AAGGATCTCA GGAGCCAGTC
    CAGAGCACAT GTCACCAGCC GATCCTTGTC CCTCATGATC CAATTGGCGT ATTTCAGCTG
    CTAAAATCCT TCTTAATTCT GTGGAAGCAG CTGGAAATGT TTAAAGAAAG ATGGGGGAAG
    CTAAAACTTC AGGTGGAGAA GATAAACACA GTACCTCTCT ATAAACAATT TAGTGAGCTT
    TATAGAGATG ACATTTTTTA TCCCACCATG AAAGTTATCG CTAGACAAAT GGGAAAAGAG
    GAAGAGTTTG AAGGAATCAC TTTAAGGACA CAGGTTGTGC TTCCTCCAAA AGGAGCTTCT
    GAAGCTAAAA TCAGGATTTG TCAGCTACAC AAAATATTGG AAGACATTGA GATTCACATG
    ATTCATGAAG TAAAGAAGAA AACTGCCAAA GAGTTGACCT TGGTAAAAAC AGAGAGGTCG
    AGAGAAGCAA GCCTTCCTAC AGAGCTGTGG AAGCAAAATG TCATGAAGGA ACATTATTCA
    CCTGTAAGAC CACAAATCGT AGAAAAATTT GTTCAGAATC TAATGAGCGA AGTCGAGGAA
    CGAACATCGC AAGTAACCTT TAGGAAAGAC CATTTAGAAG ACTGCCTTAA GTCTCTTGCC
    TGTGATGTAA TGGCAAGAGA AAGAAGTAAC TTTGAGACCT ACTCTATGTT TTATGAAAAC
    CTTCTTCATC AAGAGCATCA GTTACTTTAC CAAAAGGAGC AAGAAATTGC AGCCATAGAT
    GCAAACCAGA GGGAGAATGA AGAAAAGTTT GGTAAGACAG CGGAAATGAG CCATGAGCTG
    TTGTTGGAAG TCACAGCGCT CAGAGCCAAA CTCTCAGATC TAGAAGAAGA ATCTCTTTCC
    TCCAGAGAAA CCATTAGGAA AGAAATACAA GAAGAACATG AGGCTTTAGT AAGGTCTTTA
    TTTGCGCAGT GTGTATATCT CAAGTCAAAA CTAGAGGAAT ATTACATTAA CATGAAGCAG
    CACGTAAGTG AACTTATCAG TGGAGTCAGA AAAGAAGGAG TGGATGATAT AATCTTGCTG
    AAGAAAAAAT ATGGTTTTAC AAAGGATTAC AGTTCACTAG CCAACAGTTT GTCAAAGCAA
    AACATGCTAC AGTCTCTTAG AGAGGAAAAC AGCAGCCTGA ATGCACTGTT CTGTAAGATG
    AAAGCATTGC ACCACTGGAA AACAACAAGC AAGGAAGGAC AGCTACGCAG GAGCATTAGC
    AATGCTGAAA AGGAGGCGGC TCAGAACAAA AAGGAAGGCT TGAAATTAAA ATTGAGTGTG
    GCCCAAGAGG TGACCTTGTT ACGCCAGCAA TTGATGGTTG CAAGGACGAG TTTGACAAGG
    ACGCAGGCTG AGAACAGCCA TCTGAACCAA CAGTTGTGTA AGCAGAAAGA ACTGCTGAGT
    GGGCTGGAGC ACAGGTACTC TCAAGAGATG AGAAACAGGC AGCAGGCCGA AAGGGAGAAG
    TCAGCCAGTG TGGACAAGCT GCTGGGAGAT ATACAGGACA GGGAATCCAG GCTGCGTACT
    GTGACAGAAG AAGCTGAAAG ATCCTCCAGA ATGGGTCAAA TGGAGCAAAA TAAAATAAAA
    AGGGAAGTAA AGCAGATGAG ATCTCAGCTG ATACAGGAGC GCAGCTTAAA ACTAGATGCC
    TTTCACAGAG TCGACGAGCT ACAGACTCAG GTCTACGATT TGGAAATGTT TTCTATAAGG
    AATTCATCCA CAGGTATGAG GAAGACTTCA GCCTCTCTCT TATCCCCCAG TGGGAGGAGC
    CATTCTGCAG TCTCTTCCTC CTGGTCCTCA CAATCCACTC CTTTTGGCCA AGGTCCCATA
    GGAGACTTGC AGTGTTATGT GCCACCTGAT ACCACAGCAA GTAGCCGATT GGAAATGAGA
    ATGCAGAGGC CTAAAACGGT ACCAAGCAGG TGCAGAAACA CAACAGCTGG GACAGGGCTT
    CCCACTGTGG CAGACAGCAC TTCTCAGGCA ATCCTCACAC AACTGCTTGA CTTAAAGTTG
    AATTACAAGT GA

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

    CloneID OXa58304
    Clone ID Related Accession (Same CDS sequence) XM_031902019.1
    Accession Version XM_031902019.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6561bp)
    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 LOC100496491 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGAGTGAAG CATACAAAAT GTCATCCACT GAAAAGATCC AGCTACTGGA AAGAGCATTA 
    GCATCAGATC TGGCCGAGCT AAAGACAGAA ATAGAAGAAA ATGGAGTGCT GCAAGGTGCA
    TCTAATCAAA TCTACAGCTC TGTTCCAAAA CCCAGGGATG TTTTTTACTT CAGAAGTGAA
    AGAGAGATGA TTCTGAAGAA AGGGCTAAAG GTGGCTGGTG GAAAATCTAT TGATATCCAG
    GCTGATGTTA TGCAGAAAGA GATGGAAACC TGCCTGAGGA GGGAATACAC TCTGGAGAAT
    TTGCCACTTC TACTGCATCA GTTTTATACT GACAGGATTG AGCACTTAGT GAGATGTAAA
    TACTTGCACT TGATGAGATG GAAGAGATTT TGTCAGCACA CTAGTGCCAT GGAACAGTGT
    TATCCTGTTT ACCAGAAGCA GGTTGGTTTT ATTATGCAAG AATACAATGA TGCACTGCAG
    AGAGCACAGA GGTTGTCTGT TGCCAGAGAC AATTTAATAG CAGGACAGAA GAATTCTGTA
    CATTTAGTGA CACTTGAGGA CTTGGTAATT TATCTACAAT GGTTCATTTG CCATCTCCAT
    TCAGTGAAGT ACATACACAA CTATATCAGG ATGCTCCAGT ACTTGCCAGT CACTGACAAA
    GAGTCATTTA TTGAGACCCA ATCAGAGAAG GTGAAGTCTC AGTATGACAT TATGTGGGGA
    TCTGTCTCGT CTGGTCTACA GGAGGCTTTA GAACAAGCTG GACTGCACAC CAGTGAGAAG
    GACATGTCAC TGCCACGACA CCAGACCGAA AGAGAAGAAA TAAAATCTCT GCTTCACCAC
    TTGTTGCCTT GCTTTAATAT TCAGTATGAT ACAGATCGAC TCACCAGCAC AATCAGTGAA
    ATGGAGCTTC TCTCATTGGT ATCTTCCAAG TTCCGAACTA TGTTCAGCAA ACAGCAAACC
    ATGAGAACCT TTCCTGTATA TGATTCAGGA ACAGAAACAA CAGAAGGATG GGGATTTAAA
    GGCCCTAGTA TGGCATTAAA GAAGAAAGCC AGCTGGATTC CATATATCAG GTTTATGCCA
    AAACTAGATC CTTGGCAGCA AAAATGTCTG ACAAAATTCA AACAGAACAA AAAAGTGGAT
    GAACTTTTAC GGCTGCAGTC ACAGTTTATA GAGATTTCAA GAGCAGAGAA AGCAATGGAG
    ATATTACAAA CACATGCAGA AAATATACTT ATGCCCACCC CTGTGCAGCC AGTGTCAGCC
    AAAAGCAGCA TGGACATCTG GATAAAGATA TACAGCCTCC CAGATTTCCC ACAGAATGTA
    ACCCTAAGTG ATGGATTGTT GCCAGCTCAA ATTAGTGAGA CAAACCGTGA ACTTGGCCTC
    AGCAAACGTC CACAGTCATC TAGACAGAAG AAAGAGACTG AGTACAGCTA TCAAAGTACC
    CTCCAGCTAT TAGGATTGGA AGAGGCGGAA GACAGCAATA AAGATCCTGT AATGATTAAA
    GGAGCTTACC TTTCTCTACT CTACCTGCGT CACCTAAGAA TCAGGGAGTT GCAGCGTGTC
    TGCCTTGGAT TCCTAAATTA TTTCCGATCT ATCCAAAGAA CGATGACTTT TGATACGTGT
    GGTCTCACTG GCAAACCAAA TAGCTTGTCT TCCAACACAG GAGAGGATCA ATGCTGGATA
    AATGCGGCTC AGGGAGGATC TGGTGTACCT AATGGACTTG GTTCTCATCT TTACATGCAT
    TACACACCAG CAGATTTCAA GGTCCAAAGT TCTAATTTCA TGGAGTTTTC TGAAGTTGAG
    AATCAGAACG ACTTTTATAC AACGGAAGAT GGAATCATTC ACACCCAGGA TCAGAGAGGG
    GCATTTATTA TGTATGATGT TGCTTTGGAA GATCTACAGG AACTGCAAGA ACAATTGCTT
    CTTATGGCTA CCTGCTTAAT TGAGCAAGAG AAAGGAATCA AGTCAAATAT GATGGAAGAA
    AATGAGCTGG ATATTTCATC TTGGGCACAA ATAACTGTGG ACCGTTTTGC AATACTGCTA
    GACCTATGGA CGTGGGAGAC TGCTTTTCTA GAAAACAAAC AACAGCTTAT TGATAGTTAC
    TTTGAAGCCT ACCAGCATAC CTTTGACAAA GAAGAAAGAT TTGCTTTGGT ACAAGTAATC
    ACTGATATCA TGTTCCGGCG TCCTCGGTTT GACATTGGTT CCAAGTATTT TCTGAAGGCT
    TACAGTGACG AGTGCCAATG CTTGAGGCTT CATCTGCAGC TTGTGAGGAA CATATTAAAC
    AGCCAGATAG ACAGTCAAAG AGAATTCATT CAGAAGGTTT GGAGAAATGG ACAGGAAGGA
    AGTGTCTCTG AGTTTGGACT TCCACTTAAT ATTAAAACAA CACCTCTTGT CTCTCTTAAC
    AACAGTAGTT CCGCACTGAA GAATATTTAT CTGTTGGAGT TTCATCCTTC ACTGGGACTG
    GCAAATCTTA TTTCAAAAGC TGTGGACCAT GTCTGTCATG AGTTTCAATA TATAGCCCAA
    GCAAAGACTG CACATGAGGC CTCCAGTGTA GAGAAACATG TCCTACAGTT GGCATTGGAT
    AAATGGGTAG CCCTGAGAGA CCCTAAGTTA TCATTCGATG CAAATATTCA GAAAGATTTA
    TTTGCAGAGG TTTTGATTGA GGACCCTCTC GTGGTTAAAG ACATCTGTCT GTCTGCCTTG
    GACTTAGCCG ATGAAGATAA AAAGCATGGA AGAAGCAAAC AGAATTTTAT TCTGGAAACG
    TTTGCCAAGG TTCTTGAACT TGTTACAATT CGACATCGAT TAATTGAGAC TTCAGCAGAA
    ACAGTGCAAC TCTCTAGGGC ATATACCATG TTTGCAGAAG AGATGGGATT CAGTGAGTCT
    CACTTGTACC TGAGACCAGT ACACTTTGAG TTTGCCTCTC ATAAAGATAC AGTGGAACAG
    CCCCCCCCAA CTTTCATCAC AGCAATTCTG GAAGATGACA GCTGCGTAGA TAAATATTCT
    CCATCTGCCA ATCTCCTTGC TATCCATGAT GTGGATGATA ACCAACTTGG AAAGTTTTCT
    TTTTGGACAA GGGAAGGAAT ATTACAGCTC CTCAAAAAAT CTGGTATAGA GAATATGCAA
    GTGGTTCTCG CCTGTCAGCT CAGCCAGAGA AATGCTCTGT TAGCAGCAGT TCAACTCGGG
    TCTGTTTGCT ACGTGGCTCC GGTTTCACTG ACGAATATTG ACTCCAAGGA TAGCTGTTCC
    TTGGTGCAAA GAAGAAAAAA CTCTGAGGTT GAAAAAAATT CATGGGCATT AGTAGATAGA
    AAGATGTCTC TAATGGCTCT ACCTCAACAA ATGACAAATG GCCTTCCTTT GCAGTCCTTC
    AGAAACAAGA AAAGGCTTCC AGAGGCGTTT GTGTCAATCC AGTTAGAAAA AGTGGGTCCC
    AGGGATGCCA TGCTGAACAT GTTTCTACAG AAAAAGCAAG CTATGGGCAC TGCAATGAAA
    AATCCAGAAG AAGTTGAAAA AGTTAAAAGA GATCTTGTGA CTAATTACTG TCAAAGGCTA
    AACAATCGAA CATGCAACCA CGCCCTTCGA GGACAGATCA TTGCTTATTG CAACAGTTTA
    AAAAACCTGC TTGAAGAAGT GCCGGTCATC AAGAAATCAT ATTTCATTAT AGGTCATCCT
    CAAAACAAAA AATCAGGCTT AAAGGAAGCG CCACAGGCAG ACCCCAGAAC ATTTAAGGAA
    CGACCATATA GCTTGTTGAC AGAAGATGGA CAAACTTTCC TTAATTTATG GTACATCCCC
    TCACCAGCAG AGGTGCTAGT CATGTTTAAA GCGTTACCAG AAAAGGCGGC ATTCCGAGCA
    CTCTACCAAA CTCTGTACAT TATTGCTGCT GTGCATGACA TAGTATCCTA TATATTTAGC
    TTTGCCCAGC TTGGAAATTT ATGCAGCAAT TACAGGCACT CAAAGCATAA GGCACTGGCT
    GCAGATTGGG GTGGAACAGA AGGCATTGGA GCAGAGTTGC TAGAGATACA GAAATCAATA
    GACAGCCTCA GCAATCCCCA AGATCCCAAA GAAGTTGCCT CGTTACTGCT TCTCAGACGG
    GAAGTAATAT TTCTTCAGTT TGAGGCAGCA GTTCGCTACT TGATTCGGGA AGCTTTCTTA
    TCTACTGGTA ATGTCTGTGC CTTCAATGTA ACCACAGACA ATATGTACCA TGGCCTACAA
    GCCCTGAGTA ATGCTGTGCG TGCAAGTGCC TTTTCCTCTT TGCTGCCTTT GCCAGAGCCT
    CTCGATCCTC ACAGCCACAG AGCATTTATG CTTTATCCAT GGAGGACATT TTTAGCCAAT
    GGTGGCTTAT TTCCATTGGC AATAAGCAAT CTACATACTC TGGGATACCA CATGCAGTTG
    TGTCTGTGTG AAATGACTGA CCAAGAGCGC AGTGTAGCAC ATGGGGAGCT GGTTGGTGTG
    AAGCTTTTAA TGGAGGATAT TCTTCAGAGT GACAACACTT TGATTTCCTT CACCATTGAG
    GGCAATCAGG AATCCAAGCA GACATCACTT GACATGTTTA GTGCAATCCA AGGATCTCAG
    GAGCCAGTCC AGAGCACATG TCACCAGCCG ATCCTTGTCC CTCATGATCC AATTGGCGTA
    TTTCAGCTGC TAAAATCCTT CTTAATTCTG TGGAAGCAGC TGGAAATGTT TAAAGAAAGA
    TGGGGGAAGC TAAAACTTCA GGTGGAGAAG ATAAACACAG TACCTCTCTA TAAACAATTT
    AGTGAGCTTT ATAGAGATGA CATTTTTTAT CCCACCATGA AAGCTATCGC TAGACAAATG
    GGAAAAGAGG AAGAGTTTGA AGGAATCACT TTAAGGACAC AGGTTGTGCT TCCTCCAAAA
    GGAGCTTCTG AAGCTAAAAT CAGGATTTGT CAGCTACACA AAATATTGGA AGACATTGAG
    ATTCACATGA TTCATGAAGT AAAGAAGAAA ACTGCCAAAG AGTTGACCTT GGTAAAAACA
    GAGAGGTCGA GAGAAGCAAG CCTTCCTACA GAGCTGTGGA AGCAAAATGT CATGAAGGAA
    CATTATTCAC CTGTAAGACC ACAAATCGTA GAAAAATTTG TTCAGAATCT AATGAGCGAA
    GTCGAGGAAC GAACATCGCA AGTAACCTTT AGGAAAGACC ATTTAGAAGA CTGCCTTAAG
    TCTCTTGCCT GTGATGTAAT GGCAAGAGAA AGAAGTAACT TTGAGACCTA CTCTATGTTT
    TATGAAAACC TTCTTCATCA AGAGCATCAG TTACTTTACC AAAAGGAGCA AGAAATTGCA
    GCCATAGATG CAAACCAGAG GGAGAATGAA GAAAAGTTTG GTAAGACAGC GGAAATGAGC
    CATGAGCTGT TGTTGGAAGT CACAGCGCTC AGAGCCAAAC TCTCAGATCT AGAAGAAGAA
    TCTCTTTCCT CCAGAGAAAC CATTAGGAAA GAAATACAAG AAGAACATGA GGCTTTAGTA
    AGGTCTTTAT TTGCGCAGTG TGTATATCTC AAGTCAAAAC TAGAGGAATA TTACATTAAC
    ATGAAGCAGC ACGTAAGTGA ACTTATCAGT GGAGTCAGAA AAGAAGGAGT GGATGATATA
    ATCTTGCTGA AGAAAAAATA TGGTTTTACA AAGGATTACA GTTCACTAGC CAACAGTTTG
    TCAAAGCAAA ACATGCTACA GTCTCTTAGA GAGGAAAACA GCAGCCTGAA TGCACTGTTC
    TGTAAGATGA AAGCATTGCA CCACTGGAAA ACAACAAGCA AGGAAGGACA GCTACGCAGG
    AGCATTAGCA ATGCTGAAAA GGAGGCGGCT CAGAACAAAA AGGAAGGCTT GAAATTAAAA
    TTGAGTGTGG CCCAAGAGGT GACCTTGTTA CGCCAGCAAT TGATGGTTGC AAGGACGAGT
    TTGACAAGGA CGCAGGCTGA GAACAGCCAT CTGAACCAAC AGTTGTGTAA GCAGAAAGAA
    CTGCTGAGTG GGCTGGAGCA CAGGTACTCT CAAGAGATGA GAAACAGGCA GCAGGCCGAA
    AGGGAGAAGT CAGCCAGTGT GGACAAGCTG CTGGGAGATA TACAGGACAG GGAATCCAGG
    CTGCGTACTG TGACAGAAGA AGCTGAAAGA TCCTCCAGAA TGGGTCAAAT GGAGCAAAAT
    AAAATAAAAA GGGAAGTAAA GCAGATGAGA TCTCAGCTGA TACAGGAGCG CAGCTTAAAA
    CTAGATGCCT TTCACAGAGT CGACGAGCTA CAGACTCAGG TCTACGATTT GGAAATGTTT
    TCTATAAGGA ATTCATCCAC AGGTATGAGG AAGACTTCAG CCTCTCTCTT ATCCCCCAGT
    GGGAGGAGCC ATTCTGCAGT CTCTTCCTCC TGGTCCTCAC AATCCACTCC TTTTGGCCAA
    GGTCCCATAG GAGACTTGCA GTGTTATGTG CCACCTGATA CCACAGCAAG TAGCCGATTG
    GAAATGAGAA TGCAGAGGCC TAAAACGGTA CCAAGCAGGT GCAGAAACAC AACAGCTGGG
    ACAGGGCTTC CCACTGTGGC AGACAGCACT TCTCAGGCAA TCCTCACACA ACTGCTTGAC
    TTAAAGTTGA ATTACAAGTG A

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

    RefSeq XP_031757879.1
    CDS188..6748
    Translation

    Target ORF information:

    RefSeq Version XM_031902019.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis uncharacterized LOC100496491 (LOC100496491), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031902019.1

    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
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGAGTGAAG CATACAAAAT GTCATCCACT GAAAAGATCC AGCTACTGGA AAGAGCATTA 
    GCATCAGATC TGGCCGAGCT AAAGACAGAA ATAGAAGAAA ATGGAGTGCT GCAAGGTGCA
    TCTAATCAAA TCTACAGCTC TGTTCCAAAA CCCAGGGATG TTTTTTACTT CAGAAGTGAA
    AGAGAGATGA TTCTGAAGAA AGGGCTAAAG GTGGCTGGTG GAAAATCTAT TGATATCCAG
    GCTGATGTTA TGCAGAAAGA GATGGAAACC TGCCTGAGGA GGGAATACAC TCTGGAGAAT
    TTGCCACTTC TACTGCATCA GTTTTATACT GACAGGATTG AGCACTTAGT GAGATGTAAA
    TACTTGCACT TGATGAGATG GAAGAGATTT TGTCAGCACA CTAGTGCCAT GGAACAGTGT
    TATCCTGTTT ACCAGAAGCA GGTTGGTTTT ATTATGCAAG AATACAATGA TGCACTGCAG
    AGAGCACAGA GGTTGTCTGT TGCCAGAGAC AATTTAATAG CAGGACAGAA GAATTCTGTA
    CATTTAGTGA CACTTGAGGA CTTGGTAATT TATCTACAAT GGTTCATTTG CCATCTCCAT
    TCAGTGAAGT ACATACACAA CTATATCAGG ATGCTCCAGT ACTTGCCAGT CACTGACAAA
    GAGTCATTTA TTGAGACCCA ATCAGAGAAG GTGAAGTCTC AGTATGACAT TATGTGGGGA
    TCTGTCTCGT CTGGTCTACA GGAGGCTTTA GAACAAGCTG GACTGCACAC CAGTGAGAAG
    GACATGTCAC TGCCACGACA CCAGACCGAA AGAGAAGAAA TAAAATCTCT GCTTCACCAC
    TTGTTGCCTT GCTTTAATAT TCAGTATGAT ACAGATCGAC TCACCAGCAC AATCAGTGAA
    ATGGAGCTTC TCTCATTGGT ATCTTCCAAG TTCCGAACTA TGTTCAGCAA ACAGCAAACC
    ATGAGAACCT TTCCTGTATA TGATTCAGGA ACAGAAACAA CAGAAGGATG GGGATTTAAA
    GGCCCTAGTA TGGCATTAAA GAAGAAAGCC AGCTGGATTC CATATATCAG GTTTATGCCA
    AAACTAGATC CTTGGCAGCA AAAATGTCTG ACAAAATTCA AACAGAACAA AAAAGTGGAT
    GAACTTTTAC GGCTGCAGTC ACAGTTTATA GAGATTTCAA GAGCAGAGAA AGCAATGGAG
    ATATTACAAA CACATGCAGA AAATATACTT ATGCCCACCC CTGTGCAGCC AGTGTCAGCC
    AAAAGCAGCA TGGACATCTG GATAAAGATA TACAGCCTCC CAGATTTCCC ACAGAATGTA
    ACCCTAAGTG ATGGATTGTT GCCAGCTCAA ATTAGTGAGA CAAACCGTGA ACTTGGCCTC
    AGCAAACGTC CACAGTCATC TAGACAGAAG AAAGAGACTG AGTACAGCTA TCAAAGTACC
    CTCCAGCTAT TAGGATTGGA AGAGGCGGAA GACAGCAATA AAGATCCTGT AATGATTAAA
    GGAGCTTACC TTTCTCTACT CTACCTGCGT CACCTAAGAA TCAGGGAGTT GCAGCGTGTC
    TGCCTTGGAT TCCTAAATTA TTTCCGATCT ATCCAAAGAA CGATGACTTT TGATACGTGT
    GGTCTCACTG GCAAACCAAA TAGCTTGTCT TCCAACACAG GAGAGGATCA ATGCTGGATA
    AATGCGGCTC AGGGAGGATC TGGTGTACCT AATGGACTTG GTTCTCATCT TTACATGCAT
    TACACACCAG CAGATTTCAA GGTCCAAAGT TCTAATTTCA TGGAGTTTTC TGAAGTTGAG
    AATCAGAACG ACTTTTATAC AACGGAAGAT GGAATCATTC ACACCCAGGA TCAGAGAGGG
    GCATTTATTA TGTATGATGT TGCTTTGGAA GATCTACAGG AACTGCAAGA ACAATTGCTT
    CTTATGGCTA CCTGCTTAAT TGAGCAAGAG AAAGGAATCA AGTCAAATAT GATGGAAGAA
    AATGAGCTGG ATATTTCATC TTGGGCACAA ATAACTGTGG ACCGTTTTGC AATACTGCTA
    GACCTATGGA CGTGGGAGAC TGCTTTTCTA GAAAACAAAC AACAGCTTAT TGATAGTTAC
    TTTGAAGCCT ACCAGCATAC CTTTGACAAA GAAGAAAGAT TTGCTTTGGT ACAAGTAATC
    ACTGATATCA TGTTCCGGCG TCCTCGGTTT GACATTGGTT CCAAGTATTT TCTGAAGGCT
    TACAGTGACG AGTGCCAATG CTTGAGGCTT CATCTGCAGC TTGTGAGGAA CATATTAAAC
    AGCCAGATAG ACAGTCAAAG AGAATTCATT CAGAAGGTTT GGAGAAATGG ACAGGAAGGA
    AGTGTCTCTG AGTTTGGACT TCCACTTAAT ATTAAAACAA CACCTCTTGT CTCTCTTAAC
    AACAGTAGTT CCGCACTGAA GAATATTTAT CTGTTGGAGT TTCATCCTTC ACTGGGACTG
    GCAAATCTTA TTTCAAAAGC TGTGGACCAT GTCTGTCATG AGTTTCAATA TATAGCCCAA
    GCAAAGACTG CACATGAGGC CTCCAGTGTA GAGAAACATG TCCTACAGTT GGCATTGGAT
    AAATGGGTAG CCCTGAGAGA CCCTAAGTTA TCATTCGATG CAAATATTCA GAAAGATTTA
    TTTGCAGAGG TTTTGATTGA GGACCCTCTC GTGGTTAAAG ACATCTGTCT GTCTGCCTTG
    GACTTAGCCG ATGAAGATAA AAAGCATGGA AGAAGCAAAC AGAATTTTAT TCTGGAAACG
    TTTGCCAAGG TTCTTGAACT TGTTACAATT CGACATCGAT TAATTGAGAC TTCAGCAGAA
    ACAGTGCAAC TCTCTAGGGC ATATACCATG TTTGCAGAAG AGATGGGATT CAGTGAGTCT
    CACTTGTACC TGAGACCAGT ACACTTTGAG TTTGCCTCTC ATAAAGATAC AGTGGAACAG
    CCCCCCCCAA CTTTCATCAC AGCAATTCTG GAAGATGACA GCTGCGTAGA TAAATATTCT
    CCATCTGCCA ATCTCCTTGC TATCCATGAT GTGGATGATA ACCAACTTGG AAAGTTTTCT
    TTTTGGACAA GGGAAGGAAT ATTACAGCTC CTCAAAAAAT CTGGTATAGA GAATATGCAA
    GTGGTTCTCG CCTGTCAGCT CAGCCAGAGA AATGCTCTGT TAGCAGCAGT TCAACTCGGG
    TCTGTTTGCT ACGTGGCTCC GGTTTCACTG ACGAATATTG ACTCCAAGGA TAGCTGTTCC
    TTGGTGCAAA GAAGAAAAAA CTCTGAGGTT GAAAAAAATT CATGGGCATT AGTAGATAGA
    AAGATGTCTC TAATGGCTCT ACCTCAACAA ATGACAAATG GCCTTCCTTT GCAGTCCTTC
    AGAAACAAGA AAAGGCTTCC AGAGGCGTTT GTGTCAATCC AGTTAGAAAA AGTGGGTCCC
    AGGGATGCCA TGCTGAACAT GTTTCTACAG AAAAAGCAAG CTATGGGCAC TGCAATGAAA
    AATCCAGAAG AAGTTGAAAA AGTTAAAAGA GATCTTGTGA CTAATTACTG TCAAAGGCTA
    AACAATCGAA CATGCAACCA CGCCCTTCGA GGACAGATCA TTGCTTATTG CAACAGTTTA
    AAAAACCTGC TTGAAGAAGT GCCGGTCATC AAGAAATCAT ATTTCATTAT AGGTCATCCT
    CAAAACAAAA AATCAGGCTT AAAGGAAGCG CCACAGGCAG ACCCCAGAAC ATTTAAGGAA
    CGACCATATA GCTTGTTGAC AGAAGATGGA CAAACTTTCC TTAATTTATG GTACATCCCC
    TCACCAGCAG AGGTGCTAGT CATGTTTAAA GCGTTACCAG AAAAGGCGGC ATTCCGAGCA
    CTCTACCAAA CTCTGTACAT TATTGCTGCT GTGCATGACA TAGTATCCTA TATATTTAGC
    TTTGCCCAGC TTGGAAATTT ATGCAGCAAT TACAGGCACT CAAAGCATAA GGCACTGGCT
    GCAGATTGGG GTGGAACAGA AGGCATTGGA GCAGAGTTGC TAGAGATACA GAAATCAATA
    GACAGCCTCA GCAATCCCCA AGATCCCAAA GAAGTTGCCT CGTTACTGCT TCTCAGACGG
    GAAGTAATAT TTCTTCAGTT TGAGGCAGCA GTTCGCTACT TGATTCGGGA AGCTTTCTTA
    TCTACTGGTA ATGTCTGTGC CTTCAATGTA ACCACAGACA ATATGTACCA TGGCCTACAA
    GCCCTGAGTA ATGCTGTGCG TGCAAGTGCC TTTTCCTCTT TGCTGCCTTT GCCAGAGCCT
    CTCGATCCTC ACAGCCACAG AGCATTTATG CTTTATCCAT GGAGGACATT TTTAGCCAAT
    GGTGGCTTAT TTCCATTGGC AATAAGCAAT CTACATACTC TGGGATACCA CATGCAGTTG
    TGTCTGTGTG AAATGACTGA CCAAGAGCGC AGTGTAGCAC ATGGGGAGCT GGTTGGTGTG
    AAGCTTTTAA TGGAGGATAT TCTTCAGAGT GACAACACTT TGATTTCCTT CACCATTGAG
    GGCAATCAGG AATCCAAGCA GACATCACTT GACATGTTTA GTGCAATCCA AGGATCTCAG
    GAGCCAGTCC AGAGCACATG TCACCAGCCG ATCCTTGTCC CTCATGATCC AATTGGCGTA
    TTTCAGCTGC TAAAATCCTT CTTAATTCTG TGGAAGCAGC TGGAAATGTT TAAAGAAAGA
    TGGGGGAAGC TAAAACTTCA GGTGGAGAAG ATAAACACAG TACCTCTCTA TAAACAATTT
    AGTGAGCTTT ATAGAGATGA CATTTTTTAT CCCACCATGA AAGCTATCGC TAGACAAATG
    GGAAAAGAGG AAGAGTTTGA AGGAATCACT TTAAGGACAC AGGTTGTGCT TCCTCCAAAA
    GGAGCTTCTG AAGCTAAAAT CAGGATTTGT CAGCTACACA AAATATTGGA AGACATTGAG
    ATTCACATGA TTCATGAAGT AAAGAAGAAA ACTGCCAAAG AGTTGACCTT GGTAAAAACA
    GAGAGGTCGA GAGAAGCAAG CCTTCCTACA GAGCTGTGGA AGCAAAATGT CATGAAGGAA
    CATTATTCAC CTGTAAGACC ACAAATCGTA GAAAAATTTG TTCAGAATCT AATGAGCGAA
    GTCGAGGAAC GAACATCGCA AGTAACCTTT AGGAAAGACC ATTTAGAAGA CTGCCTTAAG
    TCTCTTGCCT GTGATGTAAT GGCAAGAGAA AGAAGTAACT TTGAGACCTA CTCTATGTTT
    TATGAAAACC TTCTTCATCA AGAGCATCAG TTACTTTACC AAAAGGAGCA AGAAATTGCA
    GCCATAGATG CAAACCAGAG GGAGAATGAA GAAAAGTTTG GTAAGACAGC GGAAATGAGC
    CATGAGCTGT TGTTGGAAGT CACAGCGCTC AGAGCCAAAC TCTCAGATCT AGAAGAAGAA
    TCTCTTTCCT CCAGAGAAAC CATTAGGAAA GAAATACAAG AAGAACATGA GGCTTTAGTA
    AGGTCTTTAT TTGCGCAGTG TGTATATCTC AAGTCAAAAC TAGAGGAATA TTACATTAAC
    ATGAAGCAGC ACGTAAGTGA ACTTATCAGT GGAGTCAGAA AAGAAGGAGT GGATGATATA
    ATCTTGCTGA AGAAAAAATA TGGTTTTACA AAGGATTACA GTTCACTAGC CAACAGTTTG
    TCAAAGCAAA ACATGCTACA GTCTCTTAGA GAGGAAAACA GCAGCCTGAA TGCACTGTTC
    TGTAAGATGA AAGCATTGCA CCACTGGAAA ACAACAAGCA AGGAAGGACA GCTACGCAGG
    AGCATTAGCA ATGCTGAAAA GGAGGCGGCT CAGAACAAAA AGGAAGGCTT GAAATTAAAA
    TTGAGTGTGG CCCAAGAGGT GACCTTGTTA CGCCAGCAAT TGATGGTTGC AAGGACGAGT
    TTGACAAGGA CGCAGGCTGA GAACAGCCAT CTGAACCAAC AGTTGTGTAA GCAGAAAGAA
    CTGCTGAGTG GGCTGGAGCA CAGGTACTCT CAAGAGATGA GAAACAGGCA GCAGGCCGAA
    AGGGAGAAGT CAGCCAGTGT GGACAAGCTG CTGGGAGATA TACAGGACAG GGAATCCAGG
    CTGCGTACTG TGACAGAAGA AGCTGAAAGA TCCTCCAGAA TGGGTCAAAT GGAGCAAAAT
    AAAATAAAAA GGGAAGTAAA GCAGATGAGA TCTCAGCTGA TACAGGAGCG CAGCTTAAAA
    CTAGATGCCT TTCACAGAGT CGACGAGCTA CAGACTCAGG TCTACGATTT GGAAATGTTT
    TCTATAAGGA ATTCATCCAC AGGTATGAGG AAGACTTCAG CCTCTCTCTT ATCCCCCAGT
    GGGAGGAGCC ATTCTGCAGT CTCTTCCTCC TGGTCCTCAC AATCCACTCC TTTTGGCCAA
    GGTCCCATAG GAGACTTGCA GTGTTATGTG CCACCTGATA CCACAGCAAG TAGCCGATTG
    GAAATGAGAA TGCAGAGGCC TAAAACGGTA CCAAGCAGGT GCAGAAACAC AACAGCTGGG
    ACAGGGCTTC CCACTGTGGC AGACAGCACT TCTCAGGCAA TCCTCACACA ACTGCTTGAC
    TTAAAGTTGA ATTACAAGTG A

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

    CloneID OXa58305
    Clone ID Related Accession (Same CDS sequence) XM_031902020.1
    Accession Version XM_031902020.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6519bp)
    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 LOC100496491 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGAGTGAAG CATACAAAAT GTCATCCACT GAAAAGATCC AGCTACTGGA AAGAGCATTA 
    GCATCAGATC TGGCCGAGCT AAAGACAGAA ATAGAAGAAA ATGGAGTGCT GCAAGGTGCA
    TCTAATCAAA TCTACAGCTC TGTTCCAAAA CCCAGGGATG TTTTTTACTT CAGAAGTGAA
    AGAGAGATGA TTCTGAAGAA AGGGCTAAAG GTGGCTGGTG GAAAATCTAT TGATATCCAG
    GCTGATGTTA TGCAGAAAGA GATGGAAACC TGCCTGAGGA GGGAATACAC TCTGGAGAAT
    TTGCCACTTC TACTGCATCA GTTTTATACT GACAGGATTG AGCACTTAGT GAGATGTAAA
    TACTTGCACT TGATGAGATG GAAGAGATTT TGTCAGCACA CTAGTGCCAT GGAACAGTGT
    TATCCTGTTT ACCAGAAGCA GGTTGGTTTT ATTATGCAAG AATACAATGA TGCACTGCAG
    AGAGCACAGA GGTTGTCTGT TGCCAGAGAC AATTTAATAG CAGGACAGAA GAATTCTGTA
    CATTTAGTGA CACTTGAGGA CTTGGTAATT TATCTACAAT GGTTCATTTG CCATCTCCAT
    TCAGTGAAGT ACATACACAA CTATATCAGG ATGCTCCAGT ACTTGCCAGT CACTGACAAA
    GAGTCATTTA TTGAGACCCA ATCAGAGAAG GTGAAGTCTC AGTATGACAT TATGTGGGGA
    TCTGTCTCGT CTGGTCTACA GGAGGCTTTA GAACAAGCTG GACTGCACAC CAGTGAGAAG
    GACATGTCAC TGCCACGACA CCAGACCGAA AGAGAAGAAA TAAAATCTCT GCTTCACCAC
    TTGTTGCCTT GCTTTAATAT TCAGTATGAT ACAGATCGAC TCACCAGCAC AATCAGTGAA
    ATGGAGCTTC TCTCATTGGT ATCTTCCAAG TTCCGAACTA TGTTCAGCAA ACAGCAAACC
    ATGAGAACCT TTCCTGTATA TGATTCAGGA ACAGAAACAA CAGAAGGATG GGGATTTAAA
    GGCCCTAGTA TGGCATTAAA GAAGAAAGCC AGCTGGATTC CATATATCAG GTTTATGCCA
    AAACTAGATC CTTGGCAGCA AAAATGTCTG ACAAAATTCA AACAGAACAA AAAAGTGGAT
    GAACTTTTAC GGCTGCAGTC ACAGTTTATA GAGATTTCAA GAGCAGAGAA AGCAATGGAG
    ATATTACAAA CACATGCAGA AAATATACTT ATGCCCACCC CTGTGCAGCC AGTGTCAGCC
    AAAAGCAGCA TGGACATCTG GATAAAGATA TACAGCCTCC CAGATTTCCC ACAGAATGTA
    ACCCTAAGTG ATGGATTGTT GCCAGCTCAA ATTAGTGAGA CAAACCGTGA ACTTGGCCTC
    AGCAAACGTC CACAGTCATC TAGACAGAAG AAAGAGACTG AGTACAGCTA TCAAAGTACC
    CTCCAGCTAT TAGGATTGGA AGAGGCGGAA GACAGCAATA AAGATCCTGT AATGATTAAA
    GGAGCTTACC TTTCTCTACT CTACCTGCGT CACCTAAGAA TCAGGGAGTT GCAGCGTGTC
    TGCCTTGGAT TCCTAAATTA TTTCCGATCT ATCCAAAGAA CGATGACTTT TGATACGTGT
    GGTCTCACTG GCAAACCAAA TAGCTTGTCT TCCAACACAG GAGAGGATCA ATGCTGGATA
    AATGCGGCTC AGGGAGGATC TGGTGTACCT AATGGACTTG GTTCTCATCT TTACATGCAT
    TACACACCAG CAGATTTCAA GGTCCAAAGT TCTAATTTCA TGGAGTTTTC TGAAGTTGAG
    AATCAGAACG ACTTTTATAC AACGGAAGAT GGAATCATTC ACACCCAGGA TCAGAGAGGG
    GCATTTATTA TGTATGATGT TGCTTTGGAA GATCTACAGG AACTGCAAGA ACAATTGCTT
    CTTATGGCTA CCTGCTTAAT TGAGCAAGAG AAAGGAATCA AGTCAAATAT GATGGAAGAA
    AATGAGCTGG ATATTTCATC TTGGGCACAA ATAACTGTGG ACCGTTTTGC AATACTGCTA
    GACCTATGGA CGTGGGAGAC TGCTTTTCTA GAAAACAAAC AACAGCTTAT TGATAGTTAC
    TTTGAAGCCT ACCAGCATAC CTTTGACAAA GAAGAAAGAT TTGCTTTGGT ACAAGTAATC
    ACTGATATCA TGTTCCGGCG TCCTCGGTTT GACATTGGTT CCAAGTATTT TCTGAAGGCT
    TACAGTGACG AGTGCCAATG CTTGAGGCTT CATCTGCAGC TTGTGAGGAA CATATTAAAC
    AGCCAGATAG ACAGTCAAAG AGAATTCATT CAGAAGGTTT GGAGAAATGG ACAGGAAGGA
    AGTGTCTCTG AGTTTGGACT TCCACTTAAT ATTAAAACAA CACCTCTTGT CTCTCTTAAC
    AACAGTAGTT CCGCACTGAA GAATATTTAT CTGTTGGAGT TTCATCCTTC ACTGGGACTG
    GCAAATCTTA TTTCAAAAGC TGTGGACCAT GTCTGTCATG AGTTTCAATA TATAGCCCAA
    GCAAAGACTG CACATGAGGC CTCCAGTGTA GAGAAACATG TCCTACAGTT GGCATTGGAT
    AAATGGGTAG CCCTGAGAGA CCCTAAGTTA TCATTCGATG CAAATATTCA GAAAGATTTA
    TTTGCAGAGG TTTTGATTGA GGACCCTCTC GTGGTTAAAG ACATCTGTCT GTCTGCCTTG
    GACTTAGCCG ATGAAGATAA AAAGCATGGA AGAAGCAAAC AGAATTTTAT TCTGGAAACG
    TTTGCCAAGG TTCTTGAACT TGTTACAATT CGACATCGAT TAATTGAGAC TTCAGCAGAA
    ACAGTGCAAC TCTCTAGGGC ATATACCATG TTTGCAGAAG AGATGGGATT CAGTGAGTCT
    CACTTGTACC TGAGACCAGT ACACTTTGAG TTTGCCTCTC ATAAAGATAC AGTGGAACAG
    CCCCCCCCAA CTTTCATCAC AGCAATTCTG GAAGATGACA GCTGCGTAGA TAAATATTCT
    CCATCTGCCA ATCTCCTTGC TATCCATGAT GTGGATGATA ACCAACTTGG AAAGTTTTCT
    TTTTGGACAA GGGAAGGAAT ATTACAGCTC CTCAAAAAAT CTGGTATAGA GAATATGCAA
    GTGGTTCTCG CCTGTCAGCT CAGCCAGAGA AATGCTCTGT TAGCAGCAGT TCAACTCGGG
    TCTGTTTGCT ACGTGGCTCC GGTTTCACTG ACGAATATTG ACTCCAAGGA TAGCTGTTCC
    TTGGTGCAAA GAAGAAAAAA CTCTGAGGTT GAAAAAAATT CATGGGCATT AGTAGATAGA
    AAGATGTCTC TAATGGCTCT ACCTCAACAA ATGACAAATG GCCTTCCTTT GCAGTCCTTC
    AGAAACAAGA AAAGGCTTCC AGAGGCGTTT GTGTCAATCC AGTTAGAAAA AGTGGGTCCC
    AGGGATGCCA TGCTGAACAT GTTTCTACAG AAAAAGCAAG CTATGGGCAC TGCAATGAAA
    AATCCAGAAG AAGTTGAAAA AGTTAAAAGA GATCTTGTGA CTAATTACTG TCAAAGGCTA
    AACAATCGAA CATGCAACCA CGCCCTTCGA GGACAGATCA TTGCTTATTG CAACAGTTTA
    AAAAACCTGC TTGAAGAAGT GCCGGTCATC AAGAAATCAT ATTTCATTAT AGGTCATCCT
    CAAAACAAAA AATCAGGCTT AAAGGAAGCG CCACAGGCAG ACCCCAGAAC ATTTAAGGAA
    CGACCATATA GCTTGTTGAC AGAAGATGGA CAAACTTTCC TTAATTTATG GTACATCCCC
    TCACCAGCAG AGGTGCTAGT CATGTTTAAA GCGTTACCAG AAAAGGCGGC ATTCCGAGCA
    CTCTACCAAA CTCTGTACAT TATTGCTGCT GTGCATGACA TAGTATCCTA TATATTTAGC
    TTTGCCCAGC TTGGAAATTT ATGCAGCAAT TACAGGCACT CAAAGCATAA GGCACTGGCT
    GCAGATTGGG GTGGAACAGA AGGCATTGGA GCAGAGTTGC TAGAGATACA GAAATCAATA
    GACAGCCTCA GCAATCCCCA AGATCCCAAA GAAGTTGCCT CGTTACTGCT TCTCAGACGG
    GAAGTAATAT TTCTTCAGTT TGAGGCAGCA GTTCGCTACT TGATTCGGGA AGCTTTCTTA
    TCTACTGGTA ATGTCTGTGC CTTCAATGTA ACCACAGACA ATATGTACCA TGGCCTACAA
    GCCCTGAGTA ATGCTGTGCG TGCAAGTGCC TTTTCCTCTT TGCTGCCTTT GCCAGAGCCT
    CTCGATCCTC ACAGCCACAG AGCATTTATG CTTTATCCAT GGAGGACATT TTTAGCCAAT
    GGTGGCTTAT TTCCATTGGC AATAAGCAAT CTACATACTC TGGGATACCA CATGCAGTTG
    TGTCTGTGTG AAATGACTGA CCAAGAGCGC AGTGTAGCAC ATGGGGAGCT GGTTGGTGTG
    AAGCTTTTAA TGGAGGATAT TCTTCAGAGT GACAACACTT TGATTTCCTT CACCATTGAG
    GGCAATCAGG AATCCAAGCA GACATCACTT GACATGTTTA GTGCAATCCA AGGATCTCAG
    GAGCCAGTCC AGAGCACATG TCACCAGCCG ATCCTTGTCC CTCATGATCC AATTGGCGTA
    TTTCAGCTGC TAAAATCCTT CTTAATTCTG TGGAAGCAGC TGGAAATGTT TAAAGAAAGA
    TGGGGGAAGC TAAAACTTCA GGTGGAGAAG ATAAACACAG TACCTCTCTA TAAACAATTT
    AGTGAGCTTT ATAGAGATGA CATTTTTTAT CCCACCATGA AAGCTATCGC TAGACAAATG
    GGAAAAGAGG AAGAGTTTGA AGGAATCACT TTAAGGACAC AGGTTGTGCT TCCTCCAAAA
    GGAGCTTCTG AAGCTAAAAT CAGGATTTGT CAGCTACACA AAATATTGGA AGACATTGAG
    ATTCACATGA TTCATGAAGT AAAGAAGAAA ACTGCCAAAG AGTTGACCTT GGTAAAAACA
    GAGAGGTCGA GAGAAGCAAG CCTTCCTACA GAGCTGTGGA AGCAAAATGT CATGAAGGAA
    CATTATTCAC CTGTAAGACC ACAAATCGTA GAAAAATTTG TTCAGAATCT AATGAGCGAA
    GTCGAGGAAC GAACATCGCA AGTAACCTTT AGGAAAGACC ATTTAGAAGA CTGCCTTAAG
    TCTCTTGCCT GTGATGTAAT GGCAAGAGAA AGAAGTAACT TTGAGACCTA CTCTATGTTT
    TATGAAAACC TTCTTCATCA AGAGCATCAG TTACTTTACC AAAAGGAGCA AGAAATTGCA
    GCCATAGATG CAAACCAGAG GGAGAATGAA GAAAAGTTTG GTAAGACAGC GGAAATGAGC
    CATGAGCTGT TGTTGGAAGT CACAGCGCTC AGAGCCAAAC TCTCAGATCT AGAAGAAGAA
    TCTCTTTCCT CCAGAGAAAC CATTAGGAAA GAAATACAAG AAGAACATGA GGCTTTAGTA
    AGGTCTTTAT TTGCGCAGTG TGTATATCTC AAGTCAAAAC TAGAGGAATA TTACATTAAC
    ATGAAGCAGC ACGTAAGTGA ACTTATCAGT GGAGTCAGAA AAGAAGGAGT GGATGATATA
    ATCTTGCTGA AGAAAAAATA TGGTTTTACA AAGGATTACA GTTCACTAGC CAACAGTTTG
    TCAAAGCAAA ACATGCTACA GTCTCTTAGA GAGGAAAACA GCAGCCTGAA TGCACTGTTC
    TGTAAGATGA AAGCATTGCA CCACTGGAAA ACAACAAGCA AGGAAGGACA GCTACGCAGG
    AGCATTAGCA ATGCTGAAAA GGAGGCGGCT CAGAACAAAA AGGAAGGCTT GAAATTAAAA
    TTGAGTGTGG CCCAAGAGGT GACCTTGTTA CGCCAGCAAT TGATGGTTGC AAGGACGAGT
    TTGACAAGGA CGCAGGCTGA GAACAGCCAT CTGAACCAAC AGTTGTGTAA GCAGAAAGAA
    CTGCTGAGTG GGCTGGAGCA CAGGTACTCT CAAGAGATGA GAAACAGGCA GCAGGCCGAA
    AGGGAGAAGT CAGCCAGTGT GGACAAGCTG CTGGGAGATA TACAGGACAG GGAATCCAGG
    CTGCGTACTG TGACAGAAGA AGCTGAAAGA TCCTCCAGAA TGGGTCAAAT GGAGCAAAAT
    AAAATAAAAA GGGAAGTAAA GCAGATGAGA TCTCAGCTGA TACAGGAGCG CAGCTTAAAA
    CTAGATGCCT TTCACAGAGT CGACGAGCTA CAGACTCAGG TCTACGATTT GGAAATGTTT
    TCTATAAGGA ATTCATCCAC AGGTATGAGG AAGACTTCAG CCTCTCTCTT ATCCCCCAGT
    GGGAGGAGCC ATTCTGCAGG TCCCATAGGA GACTTGCAGT GTTATGTGCC ACCTGATACC
    ACAGCAAGTA GCCGATTGGA AATGAGAATG CAGAGGCCTA AAACGGTACC AAGCAGGTGC
    AGAAACACAA CAGCTGGGAC AGGGCTTCCC ACTGTGGCAG ACAGCACTTC TCAGGCAATC
    CTCACACAAC TGCTTGACTT AAAGTTGAAT TACAAGTGA

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

    RefSeq XP_031757880.1
    CDS188..6706
    Translation

    Target ORF information:

    RefSeq Version XM_031902020.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis uncharacterized LOC100496491 (LOC100496491), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031902020.1

    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
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGAGTGAAG CATACAAAAT GTCATCCACT GAAAAGATCC AGCTACTGGA AAGAGCATTA 
    GCATCAGATC TGGCCGAGCT AAAGACAGAA ATAGAAGAAA ATGGAGTGCT GCAAGGTGCA
    TCTAATCAAA TCTACAGCTC TGTTCCAAAA CCCAGGGATG TTTTTTACTT CAGAAGTGAA
    AGAGAGATGA TTCTGAAGAA AGGGCTAAAG GTGGCTGGTG GAAAATCTAT TGATATCCAG
    GCTGATGTTA TGCAGAAAGA GATGGAAACC TGCCTGAGGA GGGAATACAC TCTGGAGAAT
    TTGCCACTTC TACTGCATCA GTTTTATACT GACAGGATTG AGCACTTAGT GAGATGTAAA
    TACTTGCACT TGATGAGATG GAAGAGATTT TGTCAGCACA CTAGTGCCAT GGAACAGTGT
    TATCCTGTTT ACCAGAAGCA GGTTGGTTTT ATTATGCAAG AATACAATGA TGCACTGCAG
    AGAGCACAGA GGTTGTCTGT TGCCAGAGAC AATTTAATAG CAGGACAGAA GAATTCTGTA
    CATTTAGTGA CACTTGAGGA CTTGGTAATT TATCTACAAT GGTTCATTTG CCATCTCCAT
    TCAGTGAAGT ACATACACAA CTATATCAGG ATGCTCCAGT ACTTGCCAGT CACTGACAAA
    GAGTCATTTA TTGAGACCCA ATCAGAGAAG GTGAAGTCTC AGTATGACAT TATGTGGGGA
    TCTGTCTCGT CTGGTCTACA GGAGGCTTTA GAACAAGCTG GACTGCACAC CAGTGAGAAG
    GACATGTCAC TGCCACGACA CCAGACCGAA AGAGAAGAAA TAAAATCTCT GCTTCACCAC
    TTGTTGCCTT GCTTTAATAT TCAGTATGAT ACAGATCGAC TCACCAGCAC AATCAGTGAA
    ATGGAGCTTC TCTCATTGGT ATCTTCCAAG TTCCGAACTA TGTTCAGCAA ACAGCAAACC
    ATGAGAACCT TTCCTGTATA TGATTCAGGA ACAGAAACAA CAGAAGGATG GGGATTTAAA
    GGCCCTAGTA TGGCATTAAA GAAGAAAGCC AGCTGGATTC CATATATCAG GTTTATGCCA
    AAACTAGATC CTTGGCAGCA AAAATGTCTG ACAAAATTCA AACAGAACAA AAAAGTGGAT
    GAACTTTTAC GGCTGCAGTC ACAGTTTATA GAGATTTCAA GAGCAGAGAA AGCAATGGAG
    ATATTACAAA CACATGCAGA AAATATACTT ATGCCCACCC CTGTGCAGCC AGTGTCAGCC
    AAAAGCAGCA TGGACATCTG GATAAAGATA TACAGCCTCC CAGATTTCCC ACAGAATGTA
    ACCCTAAGTG ATGGATTGTT GCCAGCTCAA ATTAGTGAGA CAAACCGTGA ACTTGGCCTC
    AGCAAACGTC CACAGTCATC TAGACAGAAG AAAGAGACTG AGTACAGCTA TCAAAGTACC
    CTCCAGCTAT TAGGATTGGA AGAGGCGGAA GACAGCAATA AAGATCCTGT AATGATTAAA
    GGAGCTTACC TTTCTCTACT CTACCTGCGT CACCTAAGAA TCAGGGAGTT GCAGCGTGTC
    TGCCTTGGAT TCCTAAATTA TTTCCGATCT ATCCAAAGAA CGATGACTTT TGATACGTGT
    GGTCTCACTG GCAAACCAAA TAGCTTGTCT TCCAACACAG GAGAGGATCA ATGCTGGATA
    AATGCGGCTC AGGGAGGATC TGGTGTACCT AATGGACTTG GTTCTCATCT TTACATGCAT
    TACACACCAG CAGATTTCAA GGTCCAAAGT TCTAATTTCA TGGAGTTTTC TGAAGTTGAG
    AATCAGAACG ACTTTTATAC AACGGAAGAT GGAATCATTC ACACCCAGGA TCAGAGAGGG
    GCATTTATTA TGTATGATGT TGCTTTGGAA GATCTACAGG AACTGCAAGA ACAATTGCTT
    CTTATGGCTA CCTGCTTAAT TGAGCAAGAG AAAGGAATCA AGTCAAATAT GATGGAAGAA
    AATGAGCTGG ATATTTCATC TTGGGCACAA ATAACTGTGG ACCGTTTTGC AATACTGCTA
    GACCTATGGA CGTGGGAGAC TGCTTTTCTA GAAAACAAAC AACAGCTTAT TGATAGTTAC
    TTTGAAGCCT ACCAGCATAC CTTTGACAAA GAAGAAAGAT TTGCTTTGGT ACAAGTAATC
    ACTGATATCA TGTTCCGGCG TCCTCGGTTT GACATTGGTT CCAAGTATTT TCTGAAGGCT
    TACAGTGACG AGTGCCAATG CTTGAGGCTT CATCTGCAGC TTGTGAGGAA CATATTAAAC
    AGCCAGATAG ACAGTCAAAG AGAATTCATT CAGAAGGTTT GGAGAAATGG ACAGGAAGGA
    AGTGTCTCTG AGTTTGGACT TCCACTTAAT ATTAAAACAA CACCTCTTGT CTCTCTTAAC
    AACAGTAGTT CCGCACTGAA GAATATTTAT CTGTTGGAGT TTCATCCTTC ACTGGGACTG
    GCAAATCTTA TTTCAAAAGC TGTGGACCAT GTCTGTCATG AGTTTCAATA TATAGCCCAA
    GCAAAGACTG CACATGAGGC CTCCAGTGTA GAGAAACATG TCCTACAGTT GGCATTGGAT
    AAATGGGTAG CCCTGAGAGA CCCTAAGTTA TCATTCGATG CAAATATTCA GAAAGATTTA
    TTTGCAGAGG TTTTGATTGA GGACCCTCTC GTGGTTAAAG ACATCTGTCT GTCTGCCTTG
    GACTTAGCCG ATGAAGATAA AAAGCATGGA AGAAGCAAAC AGAATTTTAT TCTGGAAACG
    TTTGCCAAGG TTCTTGAACT TGTTACAATT CGACATCGAT TAATTGAGAC TTCAGCAGAA
    ACAGTGCAAC TCTCTAGGGC ATATACCATG TTTGCAGAAG AGATGGGATT CAGTGAGTCT
    CACTTGTACC TGAGACCAGT ACACTTTGAG TTTGCCTCTC ATAAAGATAC AGTGGAACAG
    CCCCCCCCAA CTTTCATCAC AGCAATTCTG GAAGATGACA GCTGCGTAGA TAAATATTCT
    CCATCTGCCA ATCTCCTTGC TATCCATGAT GTGGATGATA ACCAACTTGG AAAGTTTTCT
    TTTTGGACAA GGGAAGGAAT ATTACAGCTC CTCAAAAAAT CTGGTATAGA GAATATGCAA
    GTGGTTCTCG CCTGTCAGCT CAGCCAGAGA AATGCTCTGT TAGCAGCAGT TCAACTCGGG
    TCTGTTTGCT ACGTGGCTCC GGTTTCACTG ACGAATATTG ACTCCAAGGA TAGCTGTTCC
    TTGGTGCAAA GAAGAAAAAA CTCTGAGGTT GAAAAAAATT CATGGGCATT AGTAGATAGA
    AAGATGTCTC TAATGGCTCT ACCTCAACAA ATGACAAATG GCCTTCCTTT GCAGTCCTTC
    AGAAACAAGA AAAGGCTTCC AGAGGCGTTT GTGTCAATCC AGTTAGAAAA AGTGGGTCCC
    AGGGATGCCA TGCTGAACAT GTTTCTACAG AAAAAGCAAG CTATGGGCAC TGCAATGAAA
    AATCCAGAAG AAGTTGAAAA AGTTAAAAGA GATCTTGTGA CTAATTACTG TCAAAGGCTA
    AACAATCGAA CATGCAACCA CGCCCTTCGA GGACAGATCA TTGCTTATTG CAACAGTTTA
    AAAAACCTGC TTGAAGAAGT GCCGGTCATC AAGAAATCAT ATTTCATTAT AGGTCATCCT
    CAAAACAAAA AATCAGGCTT AAAGGAAGCG CCACAGGCAG ACCCCAGAAC ATTTAAGGAA
    CGACCATATA GCTTGTTGAC AGAAGATGGA CAAACTTTCC TTAATTTATG GTACATCCCC
    TCACCAGCAG AGGTGCTAGT CATGTTTAAA GCGTTACCAG AAAAGGCGGC ATTCCGAGCA
    CTCTACCAAA CTCTGTACAT TATTGCTGCT GTGCATGACA TAGTATCCTA TATATTTAGC
    TTTGCCCAGC TTGGAAATTT ATGCAGCAAT TACAGGCACT CAAAGCATAA GGCACTGGCT
    GCAGATTGGG GTGGAACAGA AGGCATTGGA GCAGAGTTGC TAGAGATACA GAAATCAATA
    GACAGCCTCA GCAATCCCCA AGATCCCAAA GAAGTTGCCT CGTTACTGCT TCTCAGACGG
    GAAGTAATAT TTCTTCAGTT TGAGGCAGCA GTTCGCTACT TGATTCGGGA AGCTTTCTTA
    TCTACTGGTA ATGTCTGTGC CTTCAATGTA ACCACAGACA ATATGTACCA TGGCCTACAA
    GCCCTGAGTA ATGCTGTGCG TGCAAGTGCC TTTTCCTCTT TGCTGCCTTT GCCAGAGCCT
    CTCGATCCTC ACAGCCACAG AGCATTTATG CTTTATCCAT GGAGGACATT TTTAGCCAAT
    GGTGGCTTAT TTCCATTGGC AATAAGCAAT CTACATACTC TGGGATACCA CATGCAGTTG
    TGTCTGTGTG AAATGACTGA CCAAGAGCGC AGTGTAGCAC ATGGGGAGCT GGTTGGTGTG
    AAGCTTTTAA TGGAGGATAT TCTTCAGAGT GACAACACTT TGATTTCCTT CACCATTGAG
    GGCAATCAGG AATCCAAGCA GACATCACTT GACATGTTTA GTGCAATCCA AGGATCTCAG
    GAGCCAGTCC AGAGCACATG TCACCAGCCG ATCCTTGTCC CTCATGATCC AATTGGCGTA
    TTTCAGCTGC TAAAATCCTT CTTAATTCTG TGGAAGCAGC TGGAAATGTT TAAAGAAAGA
    TGGGGGAAGC TAAAACTTCA GGTGGAGAAG ATAAACACAG TACCTCTCTA TAAACAATTT
    AGTGAGCTTT ATAGAGATGA CATTTTTTAT CCCACCATGA AAGCTATCGC TAGACAAATG
    GGAAAAGAGG AAGAGTTTGA AGGAATCACT TTAAGGACAC AGGTTGTGCT TCCTCCAAAA
    GGAGCTTCTG AAGCTAAAAT CAGGATTTGT CAGCTACACA AAATATTGGA AGACATTGAG
    ATTCACATGA TTCATGAAGT AAAGAAGAAA ACTGCCAAAG AGTTGACCTT GGTAAAAACA
    GAGAGGTCGA GAGAAGCAAG CCTTCCTACA GAGCTGTGGA AGCAAAATGT CATGAAGGAA
    CATTATTCAC CTGTAAGACC ACAAATCGTA GAAAAATTTG TTCAGAATCT AATGAGCGAA
    GTCGAGGAAC GAACATCGCA AGTAACCTTT AGGAAAGACC ATTTAGAAGA CTGCCTTAAG
    TCTCTTGCCT GTGATGTAAT GGCAAGAGAA AGAAGTAACT TTGAGACCTA CTCTATGTTT
    TATGAAAACC TTCTTCATCA AGAGCATCAG TTACTTTACC AAAAGGAGCA AGAAATTGCA
    GCCATAGATG CAAACCAGAG GGAGAATGAA GAAAAGTTTG GTAAGACAGC GGAAATGAGC
    CATGAGCTGT TGTTGGAAGT CACAGCGCTC AGAGCCAAAC TCTCAGATCT AGAAGAAGAA
    TCTCTTTCCT CCAGAGAAAC CATTAGGAAA GAAATACAAG AAGAACATGA GGCTTTAGTA
    AGGTCTTTAT TTGCGCAGTG TGTATATCTC AAGTCAAAAC TAGAGGAATA TTACATTAAC
    ATGAAGCAGC ACGTAAGTGA ACTTATCAGT GGAGTCAGAA AAGAAGGAGT GGATGATATA
    ATCTTGCTGA AGAAAAAATA TGGTTTTACA AAGGATTACA GTTCACTAGC CAACAGTTTG
    TCAAAGCAAA ACATGCTACA GTCTCTTAGA GAGGAAAACA GCAGCCTGAA TGCACTGTTC
    TGTAAGATGA AAGCATTGCA CCACTGGAAA ACAACAAGCA AGGAAGGACA GCTACGCAGG
    AGCATTAGCA ATGCTGAAAA GGAGGCGGCT CAGAACAAAA AGGAAGGCTT GAAATTAAAA
    TTGAGTGTGG CCCAAGAGGT GACCTTGTTA CGCCAGCAAT TGATGGTTGC AAGGACGAGT
    TTGACAAGGA CGCAGGCTGA GAACAGCCAT CTGAACCAAC AGTTGTGTAA GCAGAAAGAA
    CTGCTGAGTG GGCTGGAGCA CAGGTACTCT CAAGAGATGA GAAACAGGCA GCAGGCCGAA
    AGGGAGAAGT CAGCCAGTGT GGACAAGCTG CTGGGAGATA TACAGGACAG GGAATCCAGG
    CTGCGTACTG TGACAGAAGA AGCTGAAAGA TCCTCCAGAA TGGGTCAAAT GGAGCAAAAT
    AAAATAAAAA GGGAAGTAAA GCAGATGAGA TCTCAGCTGA TACAGGAGCG CAGCTTAAAA
    CTAGATGCCT TTCACAGAGT CGACGAGCTA CAGACTCAGG TCTACGATTT GGAAATGTTT
    TCTATAAGGA ATTCATCCAC AGGTATGAGG AAGACTTCAG CCTCTCTCTT ATCCCCCAGT
    GGGAGGAGCC ATTCTGCAGG TCCCATAGGA GACTTGCAGT GTTATGTGCC ACCTGATACC
    ACAGCAAGTA GCCGATTGGA AATGAGAATG CAGAGGCCTA AAACGGTACC AAGCAGGTGC
    AGAAACACAA CAGCTGGGAC AGGGCTTCCC ACTGTGGCAG ACAGCACTTC TCAGGCAATC
    CTCACACAAC TGCTTGACTT AAAGTTGAAT TACAAGTGA

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