LOC108648787 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC108648787 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108648787 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
OXa46643 XM_018097197.1
Latest version!
Xenopus tropicalis interferon-induced very large GTPase 1-like (LOC108648787), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa67295 XM_031893679.1
Latest version!
Xenopus tropicalis interferon-induced very large GTPase 1 (LOC108648787), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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 OXa46643
    Clone ID Related Accession (Same CDS sequence) XM_018097197.1
    Accession Version XM_018097197.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4377bp)
    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 interferon-induced very large GTPase 1-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) 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 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 :: 8% 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
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGATCCTG CAGCAGGCAC CATAGAGCGA CTGATAGAGA GATTAACTGA AATCTACAGC 
    GAAGATTCTC TCTGTGCTAC TCTCGTACCG AATTCCTTCC TCACCATTGA CCCAGACAAG
    GATTTACACA TCGGTAGAGC TGAGAGCCCC AAAGAGCGAG CGGAACGGTT ATTAAATTAT
    GTGCTACAGA GAGGAGACGC CGACTATCGG AAATTACTCG ACCAACTTGA AACCCTGAGA
    CCCAGGTTCC CGGCTCTGTC TGGTGTATTG GAAAGAGAGA GAAAAAGACA CACACTGATT
    GGCATAATAA AGCAACATAA ACATTCAAAG CTCACCCTGA GGGACATCCT GGACATTGGA
    GAAGAGAATA TGGCTCAATG TGGTCCTAAA TCTATACAAG ACCTTCCCTT GACTCTCCTA
    AGGAAACTGG CGGCACTGGA AAGAACTGCA AGGGACACAC TTCTATTGGA AAGTGATACA
    GTTTCCAGGG GAGAAGAAAC GATGGATGAT ATTTTTGGTG TAGATGCTGA AGATCACGTA
    TCTAACTCCA TTAATTCTTT AGATGTTCTT TGTGTTCTTC TGAATTGTTC TGATTTGTTT
    TTGCAACAAG AGATTTTTTC AAAAATGTCC CTGTGCCAGT TTGCTGTCCC ACTGCTGCTC
    CCTGCTGGTG ATGGCCCAGA ATGCACCTTC ATGCTCTGGG CTATGAGAGA CATAGTAAGG
    AGCTGGAGAC CTCAGGCATC AGCAGGGAGC AGGGCTTTTA CAGAGGAAAG CCTGGTGAAT
    ATACCCATGC CTCTTTTCTC TTTTGTGAGA CTGGGGCAAA GTAAATTATC TAAATCTAAA
    ATCCTCAATC AAGTTTTCAG TCCAACTCAG CAGTACAATG ATTTCTTTAT ACATGAAAAT
    ATGGCAGGGG GAAACATTGA CAGGCAGTTA TCTAATGGCC TAGTGGAAAT ATCCTGGAGT
    TTCCCTGTTG GAAAACAGAC TCCTCTTAAT TTCCCAGAAC CCATTGCAGT TACCAATATG
    CATGGAAATC TAGAGTTGAA TAAATCCCAG TTAGCCTTCC TAATGCAGGT CTCAGCCGCA
    GTGTTTGTAT TTGCTGAGAA TATTAATGAG AGAGAGAGTG AGACCCTATC ACATTCTTTA
    GGAATAGAAC ACTTTCTTGG GGAAATGGGG CAGTTTTATG AGTCAGAGTA TTCTATGGTG
    AAAACAAAAC AAATCAGTCC AACAAGGCAG TTTACTGATC TGCCCAAAGT AGCAGCTGAT
    CTCCTGCTGG ATGGGTTCCC ATTGGAACTG ATGGATGGAG ATGCTTCCAA TATCCCTATG
    CAGTGGGTTA CAGGCATTCT GACTGAGCTG GATAATAAAA CAGGAGGGAA ATGCAGAATG
    AGAGTAATCT CAGTGCTGGG AGTGCAGAGC ACAGGGAAAT CCACCCTCCT GAACACCATG
    TTTGGGCTGC AGTTCCCTGT GGCCAGTGGG CGATGCACAC GAGGAGCCTT CATGACACTG
    ATTAATGTAA AAGAAAATTT AGTAAAGAAC CTGGGCTGTG AGTTTGTTTT AGTGATTGAC
    ACTGAAGGTC TGAAGGCTCC AGAACTGGCT TCTCTGGAGG ACAGCTATGA ACATGACAAT
    GAGTTGGCAA CTCTAGTGGT TGGGCTCAGT GATATCACCA TAACTAATAT TGCTGGAGAA
    AATTCAGTTG ACATGAAAGA CATCTTGCAG ATTGTTGTGC ATGCATTTCT AAGAATGAAA
    ACAATAAGAG AAAAACCCAA GTGTCAGTTT GTGCATCAGA ATGTGAGTGA TGTTTCTGCT
    AATGATAAGA ACATGAGGGA CAGAACAAAG ATCTTGGAAC AACTGAATGA AATGACCAGA
    ACAGCGGCAA ATATGGAAAA AATAAGTGGA ATCACAGGTT TTCATGATAT AATGGATTAT
    AACCTTGATT TAGACAGTTG GTACATTCCT GGGCTTTGGT ACGGTGTCCC ACCCATGGCT
    TCTGTAAGCT CCGGCTACAG TGAGAATGTG TATGAACTGA AAAAACATTT GTTTGAATTC
    ATGGAGAAAG CGAAAAGCAT TCGGCAACCA CATAATATTG GTGATTTTAT TGAATGGATA
    AAAGGATTGT GGAACTCTGT GAAACATGAG AATTTCATTT TCAGCTTTAG AAACAGCCTG
    GTAGCTGAAG CTTACAATCA CTTAGCAATG AAATACTCTC AGTGGGAATG GGACTTCCGA
    AAAGAGGTTC AAACTTGGCT CATTAGCACT GAGAACAGTA TGAAAAATCA GTCAGCAGAT
    AAACTGCAGC CAGGGCTGTG TGTGGGTTAT AAAGATTATC TGAATATTCT TCTTTGCGAA
    GAAGAGAAGA AGATGTTGGA CAACTTAGAG AGATATTTTG AAAGTAAATC TAACAATGTT
    CATCTGATAG AAAGGTACAG AGCAGATTTT TCTCAGGATG TGAAATGTTT GCGGAAAGAA
    ATGGCACAAT CTGCAACAGT CAAAGTTGAT GATGTTTTTC GAATCCAAAC TCAAAAATAT
    CAATTACAAG ACATCCAAAA CAATTACCAA AGAACAATTG AAGAGAATGT TACCAGCCTT
    CTGGAAAAGT TTAGGAGGAA TAAAGACCAT CCAGGTGATC AGGAGGTGAA AGACACATTT
    GAGAGTATGT GGGAGAGAAC ATTATCAGAG TTACCCAGAA ATCCTTTAGA GAAACGTAAC
    ATCAGTCAGG AAATGCTGCA GGAAATCAGA ATAGACATGG CTAACAGGGG AAGTTCTATA
    AATGAGAAGA TTCTTAGAGT AAAAGATTTA GGTGAGTTTG GAAAAAAGGA GTTCAAGGTT
    ACTGAAAGCC ACGTTGATAT TAGATGGTAC TCATTAATTG AACGAGCTAA AGAACGGTAT
    ACCAAGGAAT TTAATGATAA AATACACGCT CTTGCTTCTT TTTTGATAAG AAGTTGCAGT
    GAGTATGTAA CAGAAAAAGT TAACACAAAG GGGGACTTTG ACAGAACCTA CTGCCGGGAA
    CTGCTCCACA AAATTAGCAG TAGGCTCAGT GAGAAGGAGT TTCAGAATCT TCATTTTACC
    CATGGGTTTG AGTTGGACAT CAAGCTCCAT ATTTTAGGGA ATGCAGCTCC CAGGTTCCAG
    GTGATGCACG ATACATTTCT TAGAGAAAAT GATCCCGTCC TCTGTCTGCA AAACCTAAAG
    CCTCACTATC AGTTACTGTT TAAAATTATA TTTAAAAAAA AAGATGAAAC ACAAAGCAGA
    ACCCGGCAGT TCTGTGAGCT GTGCCTGAAG CCGGCAATAA TGAAACATAT TTTCCAGCAT
    ATTGGCAATG ATATTGTGGA TGACATTCTG GATAGCAGGA ATGGAACAGA ATATCGCAGC
    AGAACCTTCT TCCAGTTCTC TGTGCTTAAA AAACTGCTGG AGCAACAGGA TTTCTCTCAG
    TTTGTGCTGT ATATTAACTC GTACCAGTGG TTTGTGAAAA GATGGATTAT AGATCACATA
    TTAGATAGGT ATAGTGATGG GCAAAAGCTA GAGAAGTTGC AGGTAAATAT TCTCACTCGT
    ATCTGTAAGG ATATCAGGGA AGTTCTTCAC AGCCAAGTGT TACTTAACAG AACCTCTGTC
    TCTGACTTTG TGACCCAATT TTGCCTCATG CTTGAAAGCA AATTAGTTAT CCCCCAAGAA
    GCCATAAAAG TGATAGTTTT TCAGAACAAC ACAGATATTG AGCAGTTTTC AAGGGACATT
    GAGGAATTTC TCACAGACAC AGAGAAAGCA ATGGAATCAG AGTTGAAATC CTATAGAACT
    GAATATGTCC TTTTTAATGC CTCAGTGAAA CCAGAGGAAG AGCTGTTTAA GAAGGTGTTT
    GGCTGTGGGA AGCAGTGTCC CTTCTGCAAG GCCCCCTGTG AGGCTGGAGG GGATCACCAT
    GAAGAACACT TTGCCTCTAT CCATCGGCCT CAAGGTTTGG GAAGATGCAC CTCTAGTTAC
    TATATTAACT TGCTTCACAG TTTTTTAGAA ATGTATCTTC ATATACATTA TAGTTATCGG
    ATTCAATGGG GAGTGGATAG AAGGAAACCC CTATCTCCTA GTCAGAGGGC AAAGCTTGAA
    ACGTTGTCTA CAGACATATG TTCAATTCAA GTTAAATTTG GTACTAGGTT CAGCAATGCT
    GATACAGCAT GGAGATGGCA TTACTACAGT GAATATCGTA CAGTCTACCC AGACTGGCTA
    ATTCAGCCTG ACCCCAGCAT CACAGCCTCT GACTACTGGA AATTCATTTT TGCAAAGTTT
    AATGAAGAAT TTGCAAAGGA ATATGAGGCA AAACCAGGTG ATGTGCCAGA CACATGGCTC
    CAGATAACTG AGGAACAGGC TCTTCAAAGC CTAAGGGAGG TGTATGGGTA TAAGTAA

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

    RefSeq XP_017952686.1
    CDS1..4377
    Translation

    Target ORF information:

    RefSeq Version XM_018097197.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis interferon-induced very large GTPase 1-like (LOC108648787), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018097197.1

    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
    ATGGATCCTG CAGCAGGCAC CATAGAGCGA CTGATAGAGA GATTAACTGA AATCTACAGC 
    GAAGATTCTC TCTGTGCTAC TCTCGTACCG AATTCCTTCC TCACCATTGA CCCAGACAAG
    GATTTACACA TCGGTAGAGC TGAGAGCCCC AAAGAGCGAG CGGAACGGTT ATTAAATTAT
    GTGCTACAGA GAGGAGACGC CGACTATCGG AAATTACTCG ACCAACTTGA AACCCTGAGA
    CCCAGGTTCC CGGCTCTGTC TGGTGTATTG GAAAGAGAGA GAAAAAGACA CACACTGATT
    GGCATAATAA AGCAACATAA ACATTCAAAG CTCACCCTGA GGGACATCCT GGACATTGGA
    GAAGAGAATA TGGCTCAATG TGGTCCTAAA TCTATACAAG ACCTTCCCTT GACTCTCCTA
    AGGAAACTGG CGGCACTGGA AAGAACTGCA AGGGACACAC TTCTATTGGA AAGTGATACA
    GTTTCCAGGG GAGAAGAAAC GATGGATGAT ATTTTTGGTG TAGATGCTGA AGATCACGTA
    TCTAACTCCA TTAATTCTTT AGATGTTCTT TGTGTTCTTC TGAATTGTTC TGATTTGTTT
    TTGCAACAAG AGATTTTTTC AAAAATGTCC CTGTGCCAGT TTGCTGTCCC ACTGCTGCTC
    CCTGCTGGTG ATGGCCCAGA ATGCACCTTC ATGCTCTGGG CTATGAGAGA CATAGTAAGG
    AGCTGGAGAC CTCAGGCATC AGCAGGGAGC AGGGCTTTTA CAGAGGAAAG CCTGGTGAAT
    ATACCCATGC CTCTTTTCTC TTTTGTGAGA CTGGGGCAAA GTAAATTATC TAAATCTAAA
    ATCCTCAATC AAGTTTTCAG TCCAACTCAG CAGTACAATG ATTTCTTTAT ACATGAAAAT
    ATGGCAGGGG GAAACATTGA CAGGCAGTTA TCTAATGGCC TAGTGGAAAT ATCCTGGAGT
    TTCCCTGTTG GAAAACAGAC TCCTCTTAAT TTCCCAGAAC CCATTGCAGT TACCAATATG
    CATGGAAATC TAGAGTTGAA TAAATCCCAG TTAGCCTTCC TAATGCAGGT CTCAGCCGCA
    GTGTTTGTAT TTGCTGAGAA TATTAATGAG AGAGAGAGTG AGACCCTATC ACATTCTTTA
    GGAATAGAAC ACTTTCTTGG GGAAATGGGG CAGTTTTATG AGTCAGAGTA TTCTATGGTG
    AAAACAAAAC AAATCAGTCC AACAAGGCAG TTTACTGATC TGCCCAAAGT AGCAGCTGAT
    CTCCTGCTGG ATGGGTTCCC ATTGGAACTG ATGGATGGAG ATGCTTCCAA TATCCCTATG
    CAGTGGGTTA CAGGCATTCT GACTGAGCTG GATAATAAAA CAGGAGGGAA ATGCAGAATG
    AGAGTAATCT CAGTGCTGGG AGTGCAGAGC ACAGGGAAAT CCACCCTCCT GAACACCATG
    TTTGGGCTGC AGTTCCCTGT GGCCAGTGGG CGATGCACAC GAGGAGCCTT CATGACACTG
    ATTAATGTAA AAGAAAATTT AGTAAAGAAC CTGGGCTGTG AGTTTGTTTT AGTGATTGAC
    ACTGAAGGTC TGAAGGCTCC AGAACTGGCT TCTCTGGAGG ACAGCTATGA ACATGACAAT
    GAGTTGGCAA CTCTAGTGGT TGGGCTCAGT GATATCACCA TAACTAATAT TGCTGGAGAA
    AATTCAGTTG ACATGAAAGA CATCTTGCAG ATTGTTGTGC ATGCATTTCT AAGAATGAAA
    ACAATAAGAG AAAAACCCAA GTGTCAGTTT GTGCATCAGA ATGTGAGTGA TGTTTCTGCT
    AATGATAAGA ACATGAGGGA CAGAACAAAG ATCTTGGAAC AACTGAATGA AATGACCAGA
    ACAGCGGCAA ATATGGAAAA AATAAGTGGA ATCACAGGTT TTCATGATAT AATGGATTAT
    AACCTTGATT TAGACAGTTG GTACATTCCT GGGCTTTGGT ACGGTGTCCC ACCCATGGCT
    TCTGTAAGCT CCGGCTACAG TGAGAATGTG TATGAACTGA AAAAACATTT GTTTGAATTC
    ATGGAGAAAG CGAAAAGCAT TCGGCAACCA CATAATATTG GTGATTTTAT TGAATGGATA
    AAAGGATTGT GGAACTCTGT GAAACATGAG AATTTCATTT TCAGCTTTAG AAACAGCCTG
    GTAGCTGAAG CTTACAATCA CTTAGCAATG AAATACTCTC AGTGGGAATG GGACTTCCGA
    AAAGAGGTTC AAACTTGGCT CATTAGCACT GAGAACAGTA TGAAAAATCA GTCAGCAGAT
    AAACTGCAGC CAGGGCTGTG TGTGGGTTAT AAAGATTATC TGAATATTCT TCTTTGCGAA
    GAAGAGAAGA AGATGTTGGA CAACTTAGAG AGATATTTTG AAAGTAAATC TAACAATGTT
    CATCTGATAG AAAGGTACAG AGCAGATTTT TCTCAGGATG TGAAATGTTT GCGGAAAGAA
    ATGGCACAAT CTGCAACAGT CAAAGTTGAT GATGTTTTTC GAATCCAAAC TCAAAAATAT
    CAATTACAAG ACATCCAAAA CAATTACCAA AGAACAATTG AAGAGAATGT TACCAGCCTT
    CTGGAAAAGT TTAGGAGGAA TAAAGACCAT CCAGGTGATC AGGAGGTGAA AGACACATTT
    GAGAGTATGT GGGAGAGAAC ATTATCAGAG TTACCCAGAA ATCCTTTAGA GAAACGTAAC
    ATCAGTCAGG AAATGCTGCA GGAAATCAGA ATAGACATGG CTAACAGGGG AAGTTCTATA
    AATGAGAAGA TTCTTAGAGT AAAAGATTTA GGTGAGTTTG GAAAAAAGGA GTTCAAGGTT
    ACTGAAAGCC ACGTTGATAT TAGATGGTAC TCATTAATTG AACGAGCTAA AGAACGGTAT
    ACCAAGGAAT TTAATGATAA AATACACGCT CTTGCTTCTT TTTTGATAAG AAGTTGCAGT
    GAGTATGTAA CAGAAAAAGT TAACACAAAG GGGGACTTTG ACAGAACCTA CTGCCGGGAA
    CTGCTCCACA AAATTAGCAG TAGGCTCAGT GAGAAGGAGT TTCAGAATCT TCATTTTACC
    CATGGGTTTG AGTTGGACAT CAAGCTCCAT ATTTTAGGGA ATGCAGCTCC CAGGTTCCAG
    GTGATGCACG ATACATTTCT TAGAGAAAAT GATCCCGTCC TCTGTCTGCA AAACCTAAAG
    CCTCACTATC AGTTACTGTT TAAAATTATA TTTAAAAAAA AAGATGAAAC ACAAAGCAGA
    ACCCGGCAGT TCTGTGAGCT GTGCCTGAAG CCGGCAATAA TGAAACATAT TTTCCAGCAT
    ATTGGCAATG ATATTGTGGA TGACATTCTG GATAGCAGGA ATGGAACAGA ATATCGCAGC
    AGAACCTTCT TCCAGTTCTC TGTGCTTAAA AAACTGCTGG AGCAACAGGA TTTCTCTCAG
    TTTGTGCTGT ATATTAACTC GTACCAGTGG TTTGTGAAAA GATGGATTAT AGATCACATA
    TTAGATAGGT ATAGTGATGG GCAAAAGCTA GAGAAGTTGC AGGTAAATAT TCTCACTCGT
    ATCTGTAAGG ATATCAGGGA AGTTCTTCAC AGCCAAGTGT TACTTAACAG AACCTCTGTC
    TCTGACTTTG TGACCCAATT TTGCCTCATG CTTGAAAGCA AATTAGTTAT CCCCCAAGAA
    GCCATAAAAG TGATAGTTTT TCAGAACAAC ACAGATATTG AGCAGTTTTC AAGGGACATT
    GAGGAATTTC TCACAGACAC AGAGAAAGCA ATGGAATCAG AGTTGAAATC CTATAGAACT
    GAATATGTCC TTTTTAATGC CTCAGTGAAA CCAGAGGAAG AGCTGTTTAA GAAGGTGTTT
    GGCTGTGGGA AGCAGTGTCC CTTCTGCAAG GCCCCCTGTG AGGCTGGAGG GGATCACCAT
    GAAGAACACT TTGCCTCTAT CCATCGGCCT CAAGGTTTGG GAAGATGCAC CTCTAGTTAC
    TATATTAACT TGCTTCACAG TTTTTTAGAA ATGTATCTTC ATATACATTA TAGTTATCGG
    ATTCAATGGG GAGTGGATAG AAGGAAACCC CTATCTCCTA GTCAGAGGGC AAAGCTTGAA
    ACGTTGTCTA CAGACATATG TTCAATTCAA GTTAAATTTG GTACTAGGTT CAGCAATGCT
    GATACAGCAT GGAGATGGCA TTACTACAGT GAATATCGTA CAGTCTACCC AGACTGGCTA
    ATTCAGCCTG ACCCCAGCAT CACAGCCTCT GACTACTGGA AATTCATTTT TGCAAAGTTT
    AATGAAGAAT TTGCAAAGGA ATATGAGGCA AAACCAGGTG ATGTGCCAGA CACATGGCTC
    CAGATAACTG AGGAACAGGC TCTTCAAAGC CTAAGGGAGG TGTATGGGTA TAAGTAA

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

    CloneID OXa67295
    Clone ID Related Accession (Same CDS sequence) XM_031893679.1
    Accession Version XM_031893679.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5106bp)
    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 interferon-induced very large GTPase 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) 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 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
    ATGGATCCTG CAGCAGGCAC CATAGAGCGA CTGATAGAGA GATTAACTGA AATCTACAGC 
    GAAGATTCTC TCTGTGCTAC TCTCGTACCG AATTCCTTCC TCACCATTGA CCCAGACAAG
    GATTTACACA TCGGTAGAGC TGAGAGCCCC AAAGAGCGAG CGGAACGGTT ATTAAATTAT
    GTGCTACAGA GAGGAGACGC CGACTATCGG AAATTACTCG ACCAACTTGA AACCCTGAGA
    CCCAGGTTCC CGGCTCTGTC TGGTGTATTG GAAAGAGAGA GAAAACGACA CACACTGATT
    GGCATAATAA AGCAACATAA ACATTCAAAG CTCACCCTGA GGGACATCCT GGACATTGGA
    GAAGAGAATA TGGCTCAATG TGGTCCTAAA TCTATACAAG ACCTTCCCTT GACTCTCCTA
    AGGAAACTGG CGGCACTGGA AAGAACTGCA AGGGACACAC TTCTATTGGA AAGTGATACA
    GTTTCCAGGG GAGAAGAAAC GATGGATGAT ATTTTTGGTG TAGATGCTGA AGATCACGTA
    TCTAACTCCA TTAATTCTTT AGATGTTCTT TGTGTTCTTC TGAATTGTTC TGATTTGTTT
    TTGCAACAAG AGATTTTTTC AAAAATGTCC CTGTGCCAGT TTGCTGCCCC ACTGCTGCTC
    CCTGCTGGTG ATGGCCCAGA ATGCACCTTC ATGCTCTGGG CTATGAGAGA CATAGTAAGG
    AGCTGGAGAC CTCAGGCATC AGCAGGGAGC AGGGCTTTTA CAGAGGAAAG CCTGGTGAAT
    ATACCCATGC CTCTTTTCTC TTTTGTGAGA CTGGGGCAAA GTAAATTATC TAAATCTAAA
    ATCCTCAATC AAGTTTTCAG TCCAACTCAG CAGTACAATG ATTTCTTTAT ACATGAAAAT
    ATGGCAGGGG GAAACATTGA CAGGCAGTTA TCTAATGGCC TAGTGGAAAT ATCCTGGAGT
    TTCCCTGTTG GAAAACAGAC TCCTCTTAAT TTCCCAGAAC CCATTGCAGT TACCAATATG
    CATGGAAATC TAGAGTTGAA TAAATCCCAG TTAGCCTTCC TAATGCAGGT CTCAGCCGCA
    GTGTTTGTAT TTGCTGAGAC TATCAATGAG AGAGAGAGTG AGACCCTATC ACAGTGCAGT
    CAATCTGGCA CAGAACTCTA TTTTATTATT ACTCCAAATG GTAAATGTAT CAGTAAAGAG
    GCTGCAGAAT CCTTCAAAAA GTGTTTTGCC CTTATGAATG TTGGACCAAA AAATATAGTA
    ATGAAAGACA AAGTAGCAAA TGATGCAGAA CTGGTGAATA AGATACGTGA CATTATGAGG
    AATGTTCTGG GGAACTCCTG TAAAAGGATA ACACTTGAGG ACATGTCACA CTCGGCCACA
    GAATTTGGGT TCCAGGTAGA TGAATCGTGC AGTGAATGTC AGACAGCAAA AGCCTGTGCC
    GCAGAAATTA CTAAAGAGAT ACGAGATGTG GTTCAGTATA AGAAAGAAAC ACTTAAACTA
    CAAGGGGATC TGTGGAAGGA GGTGTCCCAA ACTGAGAAAG AATTGTGCCG GATGAGAAAA
    CAAGGGGATT TAACTATAGA ACAGTACAAA TCCCTGCTGG AAAAGAAGCT TTTGGAATTA
    CGTAACCAGC AGAACCGGCA CCCTCTTCCC ACAGGCATGA CTTTATTTAT ATCTGCCATT
    ACTCATTTAT CACAGGTAGA GAAACATTAT TTCCTGAAAT GGATGAAGTT CACACTTGAT
    TCCCTTACCC GAAAAATTAT TTTAGAGTTG CGAGCAGAAT ACAAGGAAAA AATGAAATCA
    GAAATGAATA AAGCAGATAA AGTGGAACTT TTGCAACTGG GGCAGCAGAT CTCTGACAGT
    TCTTTAGGAA TAGAACACTT TCTCCGGGAA ATGGGGCAGT TTTATGAGTC AGAATATTCT
    ATGGTGAAAA CAAAACAAAT CAGTCCAACA AGCAGGCAGT TTACTGATCT GCCCAAAATA
    GCAGCTGATC TCTTGCTGGA TGGGTTCCCA TTGGAACTGA TGGATGGAGA TGCTTCCAAT
    ATCCCTATGC AGTGGGTTAC AGGCATTCTG ACTGAGCTGG ATAATAAAAC AGGAGGGAAA
    TGCAGAATGA GAGTAATCTC AGTGCTGGGA GTGCAGAGCA CAGGGAAATC CACCCTCCTG
    AACACCATGT TTGGGCTGCA GTTTCCTGTG GCCAGTGGGC GATGCACACG AGGAGCCTTC
    ATGACACTGA TTAACGTGAA AGAAAATTTA GTAAAGAACC TGGGCTGTGA GTTTGTTTTA
    GTGATTGACA CAGAAGGTCT GAAGGCTCCA GAACTGGCTT CTCTGGATGA CAGCTATGAA
    CATGACAATG AGTTGGCAAC TCTAGTGGTT GGGCTCAGTG ATATCACCAT AACTAATATT
    GCTGGAGAAA ATTCAGCTGA TATGAAAGAC ATTTTGCAGA TTGTTGTGCA TGCATTTCTA
    AGAATGAAAA CAATAAGAGA AAAACCCAAG TGTCAGTTTG TGCATCAGAA TGTGAGTGAT
    GTTTCTGCTA ATGATAATAT CATGAGTGAC AGAACAAAGA TCTTGGAACA GCTGAATGAA
    ATGACCAGAA CAGCGGCAAA CATGGAAAAA ATGAATGGAA TTACAGGTTT TTATGATATA
    ATGAATTATA ACCTTGAGAG AGACAATTGG TACATTCCTG GGCTTTGGTA CGGTGACCCA
    CCCATGGCTT CTGTAAACCC TGGCTACAGT GAGAATGTGT ATGAACTGAA AAAATATTTG
    TTTGAATTCA TGGAGAACGA GAAAAGCATT CGGCAACCAC ATAATGTTGG TGATTTTATT
    GAATTGATTA AAAGATTGTG GAACTCTGTG AAACATGAGA ATTTCATTTT CAGTTTCAGA
    AACAGCCTGG TAGCTGAAGC TTACAATCAG TTAGCAATGA AATACTCTCA GTGGGAATGG
    GACTTCCGAA AAGAGGTTCA AACTTGGCTC ATTAGCACTG AGAATACTAT CAATAATCAG
    TCAGCAGATA AACTGCACTC AGGGCTGTGT GTGGGTTATA AAGATAATCT AAATATTCTT
    CTTTGCGAAG AAGAGAAGAA GATGTTGGAC AACTTAGAGA GATATTTTGA AAGTAAATCT
    AACAATGTTC ATCTGATAGA AAAGCGCAGA GCTGATTTTT CTCAGGATGT GAAATGTTTG
    CGGAAAGAAA TGGCACGCAC TGTAGCAATA AAGGTTGATG ATGTTTTTCG AATCCAAACT
    CAAAAATATC AATTGCAAGA CATCCAAAAT AATTACCAAA GAACAATTGA AGTGAATGTT
    ACCAGCCTTC TGGAAAAGTT TAGGAGGAAT AAAGACCATC CAGGTGATCA GGAGGTGAAA
    GACACATTTG AGAGTATGTG GGAGAGAACA TTATCAGAGT TACCCAGAAA TCCTTTAGAG
    AAACGTAACA TCAGTCAGGA AATGCTGCAG GAAATCAGAA TGGACATGGC TAACAGGGGA
    AGTTCTATAA ATGAGAAGAT TCTTACAGTA CAACATTTAA GTGAGTTTGG AAAAAAGGAG
    TTCAAGGTTA CTGAAAGCCA CGTTGATATT AGATGGTACT CAGTAATTAA ACAAGCTAAA
    GAATGGTATA CCAAGGAATT TAATGATAAA ATATACGCTC TTGCTTCTTT TTTGATAAGA
    AGTTGCAGTG AGTATGTAAC AGAAAAAGTT AACACAAAGG GGGACTTTGA CAGAACCTAC
    TGCCGGGAAC TGATCCACAA AATCAGCAGT AGGCTCAGTG AGAAGGAGTT TCAGAATCTT
    CATTTTACCC ATGGGTTTGA GTTGGACATC AAGCTCCATA TTTTAGGGAA TGCAGCTCCC
    AGGTTCCAGG TGATGCACAA TATGTTTCTT AGAGAAAATG ATCCCGTCCT CTGTCTGCAA
    AACCTAAAGC CTCACTATCA GTTACTGTTT GAAAATATAT TCCAAAAAAA AGATGAAACA
    CAAAGCAGAG CCCGGCAGTT CTGTGAGCTG TGCCTGAAGC CGGCAATAAC CAAACATATT
    TTCCAGCATA TTGGCAATGA TATTGTGGAT GACATTCTGG ATAGCAGGAA GGGAACAGAA
    TATCGCAGCA GAACCTTCTT CCAGTTCTCT GTGCTTAAAC AACTGCTGGA GCAACAGGAT
    TTCTCTCAGT TTGTGCTGTA TATTAACTCG TACCAGTGGT TTGTGAAAAG ATGGATTATA
    GATCACATAT TAGATAGGTA TAGTGATGGG CAAAAGCTAG AGAAGTTGCA GGTAAATATT
    CTCACTCGTA TCTGTAAGGA TATCAGGGAA GTTCTTCACA GCCAAGTGTT ACTTAACAGA
    ACCTCTGTCT CTGACTTTGT GACCCAATTT TGCCTCATGC TTGAAAGCAA ATTAGTTATC
    CCCCAAGAAG CCATAAAAGT GATAGTTTTT CAGAACAACA CAGATATTGA GCAGTTTTCA
    AGGGACATTG AGGAATTTCT CACAGACACA GAGAAAGCAA TGGAATCAGA GTTGAAATCC
    TATAGAACTG AATATGTCCT TTTTAATGCC TCAGTGAAAC CAGAGGAAGA GCTGTTTAAG
    AAGGTGTTTG GCTGTGGGAA GCAGTGTCCC TTCTGCAAGG CCCCCTGTGA GGCTGGAGGG
    GATCACCATG AAGAACACTT TGCCTCTATC CATCGGCCTC AAGGTTTGGG AAGATGCACC
    TCTAGTTACT ATATTAACTT GCTTCACAGT TTTTTAGAAA TGTATCTTCA TATACATTAT
    AGTTATCGGA TTCAATGGGG AGTGGATAGA AGGAAACCCC TATCTCCTAG TCAGAGGGCA
    AAGCTTGAAA CGTTGTCTAC AGACATATGT TCAATTCAAG TTAAATTTGG TACTAGGTTC
    AGCAATGCTG ATACAGCATG GAGATGGCAT TACTACAGTG AATATCGTAC AGTCTACCCA
    GACTGGCTAA TTCAGCCTGA CCCCAGCATC ACAGCCTCTG ACTACTGGAA ATTCATTTTT
    GCAAAGTTTA ATGAAGAATT TGCAAAGGAA TATGAGGCAA AACCAGGTGA TGTGCCAGAC
    ACATGGCTCC AGATAACTGA GGAACAGGCT CTTCAAAGCC TAAGGGAGGT GTATGGGTAT
    AAGTAA

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

    RefSeq XP_031749539.1
    CDS140..5245
    Translation

    Target ORF information:

    RefSeq Version XM_031893679.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis interferon-induced very large GTPase 1 (LOC108648787), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031893679.1

    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
    ATGGATCCTG CAGCAGGCAC CATAGAGCGA CTGATAGAGA GATTAACTGA AATCTACAGC 
    GAAGATTCTC TCTGTGCTAC TCTCGTACCG AATTCCTTCC TCACCATTGA CCCAGACAAG
    GATTTACACA TCGGTAGAGC TGAGAGCCCC AAAGAGCGAG CGGAACGGTT ATTAAATTAT
    GTGCTACAGA GAGGAGACGC CGACTATCGG AAATTACTCG ACCAACTTGA AACCCTGAGA
    CCCAGGTTCC CGGCTCTGTC TGGTGTATTG GAAAGAGAGA GAAAACGACA CACACTGATT
    GGCATAATAA AGCAACATAA ACATTCAAAG CTCACCCTGA GGGACATCCT GGACATTGGA
    GAAGAGAATA TGGCTCAATG TGGTCCTAAA TCTATACAAG ACCTTCCCTT GACTCTCCTA
    AGGAAACTGG CGGCACTGGA AAGAACTGCA AGGGACACAC TTCTATTGGA AAGTGATACA
    GTTTCCAGGG GAGAAGAAAC GATGGATGAT ATTTTTGGTG TAGATGCTGA AGATCACGTA
    TCTAACTCCA TTAATTCTTT AGATGTTCTT TGTGTTCTTC TGAATTGTTC TGATTTGTTT
    TTGCAACAAG AGATTTTTTC AAAAATGTCC CTGTGCCAGT TTGCTGCCCC ACTGCTGCTC
    CCTGCTGGTG ATGGCCCAGA ATGCACCTTC ATGCTCTGGG CTATGAGAGA CATAGTAAGG
    AGCTGGAGAC CTCAGGCATC AGCAGGGAGC AGGGCTTTTA CAGAGGAAAG CCTGGTGAAT
    ATACCCATGC CTCTTTTCTC TTTTGTGAGA CTGGGGCAAA GTAAATTATC TAAATCTAAA
    ATCCTCAATC AAGTTTTCAG TCCAACTCAG CAGTACAATG ATTTCTTTAT ACATGAAAAT
    ATGGCAGGGG GAAACATTGA CAGGCAGTTA TCTAATGGCC TAGTGGAAAT ATCCTGGAGT
    TTCCCTGTTG GAAAACAGAC TCCTCTTAAT TTCCCAGAAC CCATTGCAGT TACCAATATG
    CATGGAAATC TAGAGTTGAA TAAATCCCAG TTAGCCTTCC TAATGCAGGT CTCAGCCGCA
    GTGTTTGTAT TTGCTGAGAC TATCAATGAG AGAGAGAGTG AGACCCTATC ACAGTGCAGT
    CAATCTGGCA CAGAACTCTA TTTTATTATT ACTCCAAATG GTAAATGTAT CAGTAAAGAG
    GCTGCAGAAT CCTTCAAAAA GTGTTTTGCC CTTATGAATG TTGGACCAAA AAATATAGTA
    ATGAAAGACA AAGTAGCAAA TGATGCAGAA CTGGTGAATA AGATACGTGA CATTATGAGG
    AATGTTCTGG GGAACTCCTG TAAAAGGATA ACACTTGAGG ACATGTCACA CTCGGCCACA
    GAATTTGGGT TCCAGGTAGA TGAATCGTGC AGTGAATGTC AGACAGCAAA AGCCTGTGCC
    GCAGAAATTA CTAAAGAGAT ACGAGATGTG GTTCAGTATA AGAAAGAAAC ACTTAAACTA
    CAAGGGGATC TGTGGAAGGA GGTGTCCCAA ACTGAGAAAG AATTGTGCCG GATGAGAAAA
    CAAGGGGATT TAACTATAGA ACAGTACAAA TCCCTGCTGG AAAAGAAGCT TTTGGAATTA
    CGTAACCAGC AGAACCGGCA CCCTCTTCCC ACAGGCATGA CTTTATTTAT ATCTGCCATT
    ACTCATTTAT CACAGGTAGA GAAACATTAT TTCCTGAAAT GGATGAAGTT CACACTTGAT
    TCCCTTACCC GAAAAATTAT TTTAGAGTTG CGAGCAGAAT ACAAGGAAAA AATGAAATCA
    GAAATGAATA AAGCAGATAA AGTGGAACTT TTGCAACTGG GGCAGCAGAT CTCTGACAGT
    TCTTTAGGAA TAGAACACTT TCTCCGGGAA ATGGGGCAGT TTTATGAGTC AGAATATTCT
    ATGGTGAAAA CAAAACAAAT CAGTCCAACA AGCAGGCAGT TTACTGATCT GCCCAAAATA
    GCAGCTGATC TCTTGCTGGA TGGGTTCCCA TTGGAACTGA TGGATGGAGA TGCTTCCAAT
    ATCCCTATGC AGTGGGTTAC AGGCATTCTG ACTGAGCTGG ATAATAAAAC AGGAGGGAAA
    TGCAGAATGA GAGTAATCTC AGTGCTGGGA GTGCAGAGCA CAGGGAAATC CACCCTCCTG
    AACACCATGT TTGGGCTGCA GTTTCCTGTG GCCAGTGGGC GATGCACACG AGGAGCCTTC
    ATGACACTGA TTAACGTGAA AGAAAATTTA GTAAAGAACC TGGGCTGTGA GTTTGTTTTA
    GTGATTGACA CAGAAGGTCT GAAGGCTCCA GAACTGGCTT CTCTGGATGA CAGCTATGAA
    CATGACAATG AGTTGGCAAC TCTAGTGGTT GGGCTCAGTG ATATCACCAT AACTAATATT
    GCTGGAGAAA ATTCAGCTGA TATGAAAGAC ATTTTGCAGA TTGTTGTGCA TGCATTTCTA
    AGAATGAAAA CAATAAGAGA AAAACCCAAG TGTCAGTTTG TGCATCAGAA TGTGAGTGAT
    GTTTCTGCTA ATGATAATAT CATGAGTGAC AGAACAAAGA TCTTGGAACA GCTGAATGAA
    ATGACCAGAA CAGCGGCAAA CATGGAAAAA ATGAATGGAA TTACAGGTTT TTATGATATA
    ATGAATTATA ACCTTGAGAG AGACAATTGG TACATTCCTG GGCTTTGGTA CGGTGACCCA
    CCCATGGCTT CTGTAAACCC TGGCTACAGT GAGAATGTGT ATGAACTGAA AAAATATTTG
    TTTGAATTCA TGGAGAACGA GAAAAGCATT CGGCAACCAC ATAATGTTGG TGATTTTATT
    GAATTGATTA AAAGATTGTG GAACTCTGTG AAACATGAGA ATTTCATTTT CAGTTTCAGA
    AACAGCCTGG TAGCTGAAGC TTACAATCAG TTAGCAATGA AATACTCTCA GTGGGAATGG
    GACTTCCGAA AAGAGGTTCA AACTTGGCTC ATTAGCACTG AGAATACTAT CAATAATCAG
    TCAGCAGATA AACTGCACTC AGGGCTGTGT GTGGGTTATA AAGATAATCT AAATATTCTT
    CTTTGCGAAG AAGAGAAGAA GATGTTGGAC AACTTAGAGA GATATTTTGA AAGTAAATCT
    AACAATGTTC ATCTGATAGA AAAGCGCAGA GCTGATTTTT CTCAGGATGT GAAATGTTTG
    CGGAAAGAAA TGGCACGCAC TGTAGCAATA AAGGTTGATG ATGTTTTTCG AATCCAAACT
    CAAAAATATC AATTGCAAGA CATCCAAAAT AATTACCAAA GAACAATTGA AGTGAATGTT
    ACCAGCCTTC TGGAAAAGTT TAGGAGGAAT AAAGACCATC CAGGTGATCA GGAGGTGAAA
    GACACATTTG AGAGTATGTG GGAGAGAACA TTATCAGAGT TACCCAGAAA TCCTTTAGAG
    AAACGTAACA TCAGTCAGGA AATGCTGCAG GAAATCAGAA TGGACATGGC TAACAGGGGA
    AGTTCTATAA ATGAGAAGAT TCTTACAGTA CAACATTTAA GTGAGTTTGG AAAAAAGGAG
    TTCAAGGTTA CTGAAAGCCA CGTTGATATT AGATGGTACT CAGTAATTAA ACAAGCTAAA
    GAATGGTATA CCAAGGAATT TAATGATAAA ATATACGCTC TTGCTTCTTT TTTGATAAGA
    AGTTGCAGTG AGTATGTAAC AGAAAAAGTT AACACAAAGG GGGACTTTGA CAGAACCTAC
    TGCCGGGAAC TGATCCACAA AATCAGCAGT AGGCTCAGTG AGAAGGAGTT TCAGAATCTT
    CATTTTACCC ATGGGTTTGA GTTGGACATC AAGCTCCATA TTTTAGGGAA TGCAGCTCCC
    AGGTTCCAGG TGATGCACAA TATGTTTCTT AGAGAAAATG ATCCCGTCCT CTGTCTGCAA
    AACCTAAAGC CTCACTATCA GTTACTGTTT GAAAATATAT TCCAAAAAAA AGATGAAACA
    CAAAGCAGAG CCCGGCAGTT CTGTGAGCTG TGCCTGAAGC CGGCAATAAC CAAACATATT
    TTCCAGCATA TTGGCAATGA TATTGTGGAT GACATTCTGG ATAGCAGGAA GGGAACAGAA
    TATCGCAGCA GAACCTTCTT CCAGTTCTCT GTGCTTAAAC AACTGCTGGA GCAACAGGAT
    TTCTCTCAGT TTGTGCTGTA TATTAACTCG TACCAGTGGT TTGTGAAAAG ATGGATTATA
    GATCACATAT TAGATAGGTA TAGTGATGGG CAAAAGCTAG AGAAGTTGCA GGTAAATATT
    CTCACTCGTA TCTGTAAGGA TATCAGGGAA GTTCTTCACA GCCAAGTGTT ACTTAACAGA
    ACCTCTGTCT CTGACTTTGT GACCCAATTT TGCCTCATGC TTGAAAGCAA ATTAGTTATC
    CCCCAAGAAG CCATAAAAGT GATAGTTTTT CAGAACAACA CAGATATTGA GCAGTTTTCA
    AGGGACATTG AGGAATTTCT CACAGACACA GAGAAAGCAA TGGAATCAGA GTTGAAATCC
    TATAGAACTG AATATGTCCT TTTTAATGCC TCAGTGAAAC CAGAGGAAGA GCTGTTTAAG
    AAGGTGTTTG GCTGTGGGAA GCAGTGTCCC TTCTGCAAGG CCCCCTGTGA GGCTGGAGGG
    GATCACCATG AAGAACACTT TGCCTCTATC CATCGGCCTC AAGGTTTGGG AAGATGCACC
    TCTAGTTACT ATATTAACTT GCTTCACAGT TTTTTAGAAA TGTATCTTCA TATACATTAT
    AGTTATCGGA TTCAATGGGG AGTGGATAGA AGGAAACCCC TATCTCCTAG TCAGAGGGCA
    AAGCTTGAAA CGTTGTCTAC AGACATATGT TCAATTCAAG TTAAATTTGG TACTAGGTTC
    AGCAATGCTG ATACAGCATG GAGATGGCAT TACTACAGTG AATATCGTAC AGTCTACCCA
    GACTGGCTAA TTCAGCCTGA CCCCAGCATC ACAGCCTCTG ACTACTGGAA ATTCATTTTT
    GCAAAGTTTA ATGAAGAATT TGCAAAGGAA TATGAGGCAA AACCAGGTGA TGTGCCAGAC
    ACATGGCTCC AGATAACTGA GGAACAGGCT CTTCAAAGCC TAAGGGAGGT GTATGGGTAT
    AAGTAA

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