LOC100491186 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC100491186 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100491186 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
OXa66878 XM_031893365.1
Latest version!
Xenopus tropicalis interferon-induced very large GTPase 1 (LOC100491186), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa34974 XM_012954095.1
Latest version!
Xenopus tropicalis interferon-induced very large GTPase 1-like (LOC100491186), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00

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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 OXa66878
    Clone ID Related Accession (Same CDS sequence) XM_031893365.1
    Accession Version XM_031893365.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5922bp)
    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## ##RefSeq-Attributes-START## ab initio :: 21% 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
    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
    ATGGAACCTA CTGATGAGTT GTCTCACTAC TACAGCATGT TTGATGAAGT ATATTCCATG 
    CTTCTGAGCG TTCAGGATGA CGACACTGGC ATGTTTAGAG CAGAAAAGAC TCACGCGGGG
    ACTCAAGATG TCAACATTGG CCTGTATGGA GTGGAAAAGG CCAACATGGG AACTCAGGAT
    GACAATAATG GCCCACATCG AGTAGAAAGG GCAGACATAG GAACTCACAA TGAAAACACT
    GACCTGTATG GGGTGGAAAA GGCCAACATG GGAACTCAGG ATGCCAACAC TGGCCCACAT
    AAAGTAGAAA GGGCAAACAT AGGAGCTCAC AATGAAAATA CTGACCTGTA TGGAGTGGAA
    AAGGCCAACA TGGAAACTCA GGATGACAAC ACTGGCCTGC ATAGTGAAGA AATAGTCCAC
    ACAGGAACTC AAGGTCATAA CAGTGACCTG AAGGGAGAAG AAGTAGCTCA CACGAGAACT
    CAGGAAGAGG ACACTGGCCT GTATGGAATT GGGAAAACTA ACATGGAAAC TCAGGATGGC
    AACAATGACC TTCAAAGAAT TGAAATGGCT CACATGGAAA CTCAAGATGA CAACATTGTC
    ATGTATGGAG TGCAAAAGGC TTACATAGGA ACTCAGGATG ATAACACTAA TCTGAATAGA
    ATGACAAAAG ATGAAGGAGA AACTCAGGAT GACAACACTG GCCTACATGG AGTTGAAAAT
    GTTCTTAAAA TAACCCAGGA TGACAACATT GGCCTGTATA GAGTGGAAGA TGCCCATGTG
    ATAACCCAGG ATAAAACCAT TGGCCTGTAT GGAGTGGAAG ATGCACACGT GATAACCCAG
    GATGACAACA GTGGCCTGTA TGGAGAGGAA GATGCACACG TGATAACCCA GGATGACAAC
    ATTGGCCTGT ATAGAGTGGA AGATGCCCAT GTGATAACCC AGGATGAAAC CATTGGCCTG
    TATGGAGTGG AAGATGCACA CGTGATAACC CAGGATGACA ACAGTGGCCT GTATGGAGTG
    GAAAAGGCAC ACGTGATAAC CCAGGGTGAC AATATTGGCC TGTATGAAGT GGAAAAGGCA
    CACATGCAAG CCATCTATCC ACTAAACGCA GAATTTGACC TGCTAGAACA TTCCAGCCCC
    AATGTCATTG TCCATACAAA GAGCCAGATG TCCAACACTT ACGCTCAATC TATGTTTGAC
    TCTGAACATC TCTTGGCAGA CAGAAGAGTT CTGTTTGATG AAACGCTACA GCAGCTCTGC
    TTTACAAAGT ACAAAATATT TCATCTACGC CTTGCAGAAG TCCTTCAGAT TGGCCAAGAG
    AGCATGAAGA GAATTGCTCT CCAAGGGATA GAAGATATCC CATGGTATTT CCTGCAGAAT
    CTAATCGCCC TAAATGGCAC CGCGAGGAAC ACCAGACTGG CCAAGCTCAT CTTTGATATG
    AGACTGAGCA GCGTACATGA CGACGATGCT GATTTTATTG GTGGAACAGG CTCCTCCATC
    TCACTTCACC CTTTAGATGT TCTGTGTGTT CTTCTGCATT GTACTGATGT TTTTTTGCAA
    CAGGAGATAT TATCTAAAAT GTCCATGTGT CAGTTTGCTC TACCACTCCT CCTTCCATCG
    ATCGATGGTT TAGAATCTAC ATTCATGTTA TGGGCAACAA GGGATATTGT CAAGAGATGG
    AGACCCCAAT CATTGGCAGA AAGTAAAGGC TGCAGAGAAG AGAACCTGGT TCTCATTACC
    ATGCCAACCT TCTCCTTCCT AAGAATGGGG AAATGTAGTC TATCCAAGTC AAGAGTCCTA
    AACAAGATCC TTAGCCCAGT TCAACAAAAC CATGACTTCT TTGTGCATCA AAATATGGAA
    GGGGGGAATG TCCCGAGGAA AATCTCTGAT GGACTGGTGG AAATTTCCTG GTATTTTCCA
    GGAGGAAGAG AAAATTCAGA TATTTTCCCA GAACCTGTTG CGTTTACCAA CTTAAGGGGA
    GACTTGAAGT CAAACTGGCA ACAGTTCTCT TTTTTAGCAC GAGTTTCATC AGCTTTGTTC
    GTTGTTACAG AATCCATTAA CGAGCAAGAC TATGAACTTT TAACAAACAT AAACAGTGTA
    AGTACGAACT ACTTCTTTAT CATCACACCT TCTTCTCAAC GCATCAGTGA GGAGACACAA
    AAATATATAA AAATGTTATA CCCCATCCTG AAAATAAGCA GAAAGAACAT TTTGGTGATG
    AACAATTCAG TTAATGAGGC GGAACTAGTG AAGCAATTAC AAATGATCAT CGCTGATCTC
    GTGGATAATT CTCCACTCTC TATCAATCTT GAGGAGATGT CTCAAGTCGC CAGTTCCATT
    GGAATACACG TAGATGAGAA CTCAGAGGAC CTTCAGAAAG CCAAAAGACT TGCCCGGGAG
    ATTACCGTTA ATATAAATGA TGTGATGGAC TATAAAAAGA AGACAATGAG ACTGCAGGGG
    GATCTCTGGA AAGAACTGGC TCAGATAGAA AAGGAAATAT GTAGAATGAA ATGGCAAGGG
    AGTGAGAACT CAGAAGATTA CAGAGCAAAG CTTGTGAGAA AATACTCTGC TATTCGTATG
    ATTCAAAATG AACACGACTT CCCAGACGGC ATGACCAAAT TCATAACTGC CATCACTTCT
    TTGCCTCAGA TGGAGAAACA TTTTTTCTTG AAATGGCTCA AATTCTATCT TGACTCATTC
    GGAAGGCATC ATCTCAGTGC ACTGCAGACG GAATACAAAG AGAGCTGTCA CGCGTTCTCC
    GGTAATCTCG ACCAGCTGAA ACGATTAGAC CAGAGAATTT CAAATAGTTC CTTGGGAGTG
    GAGCACTTTC TGCGAGAGCT AGGGCAGTTT TACGAGGCGG AATATTCTAG TGCAAATGAT
    GGTATCAAAA GGGAGACATT CAGCAGACTT CCAGGGATTG CTGCAGATCT CCTACTAGAT
    GGGTTCCCAT TAGAGTTGAT AGATGGAGAT GCCTCCAATA TGCCCTTGCA TTGGGTAACA
    GATATTCTAA ATGAGTTGGA TAACAAGACG GGAAAAAAAT GTAGAATGAG CATAATTACT
    GTATTGGGAG TGCAGAGCAC AGGGAAATCC ACCCTCCTGA ACACCATGTT TGGGCTGCAG
    TTCCCTGTGG CCAGTGGGCG ATGCACACGA GGAGCCTTCA TGACACTCAT TAAAGTGAAA
    GAAAATGTTC AGAATGATGT CGGCTGTGAC TTTATTCTGG TGATCGATAC TGAAGGATTA
    AAGGCTCCAG AACTGGCTTC TTTGGAGAAC ACCTTTGAAC ATGACAATGA GTTGGCAACT
    CTAGTGGTTG GGTTGAGTGA TATCACCATA ATTAATATGG CCATGGAAAA CACAACGGAA
    ATGAAAGATA TTTTACAAAT TGTGGTGCAC GCATTTCTTA GAATGAAAGA AGTAGGAAAG
    AGGCCAAACT GCCAGTTTGT GCATCAGAAT GTGAGCGATG TGACTGCTTA TGAAAAGAAC
    CTGAGGGACA GAAAGAGAAT TGTGGAACAG TTGGATGAGA TGACCAAGGC AGCAGCGCGA
    ATGGAAGAGA ACAACAATGT CCAAAGGTTC TCCGACATCA TGGACTACGA TCTTAAGGAA
    CACAGCTGGT ATATTCCCGG TTTGTGGCAC GGTGTCCCAC CAATGGCTTC GGTAAACACG
    GGGTACAGCG AAAATGTTTT TGAATTAAAA AAACATCTAA TTGAAATCAT GAAGAAACAA
    AACAAACGTA GGAAGCCTCA GGCGATTTCC GACTTTCTGA AATGGATGAA AACCTTGTGG
    AACGCTGTCA AATACGAGAA ATTCATATTC AGCTTCCGAA ACAGCCTTGT GGCCGAAGCT
    TATAACCTGC TTTCAGTAAA ATACTCAGAG CTGGAGTGGA ACTTCCGTAA AACGATGCAT
    AACTGGTTGA TCGAGGCAGA AAACCTTATT AGGAATCAGA CGGCCGAAGA ACTAGACACA
    GAGATGTGTA TGGATTTGAA ATACAGCATG TGTTGTGTCT TACATGAGCA AGAGATGGTC
    ATGACAGTGT CACTAGAGAA GTATTTTGAG AATGAAGAAA ACAATGTCCG TCTAGTAGAG
    AGGTACAGAG AAGATTTCTT TAGAAGCATT AAGGTTCTTA GGAATGAGCT TGAGGTGTAT
    TTAGGTAACA AATGTGAAGA AGTGATTCGC ATCCAGAAAG GGAAACATGT GATCAAACAA
    GTTCAGGAGA AATATCTCCA GACCATCGAA GAGAAGGCCA TCAGCCTTTT GGAGACCTGC
    AGAAGTGCAA AACACAAGCT CACCGACCAA GAGATAGAGT CAGAATTCGA CGTGATGTGG
    GCTAACACAT TAATGGGACT GCATATGGGT ACCCTAAAGA AAAGGAACAT CGGTCAAGAA
    ATGCTGGCTC AAATTAGAAA GGACATGAGA CACAAAGCTG GGTATGTAAC TGAGAAACTC
    AACGAGATAA AGTGTTTGGC AGACTATGGA CAAAATTGCT TTATCATGGA CAAGAAATAT
    TTTCAGAGCA GATGGTACGA TAATGTACCT GAAAGCTATC ATTACGAGTA CTGGAATAAA
    GTAAATGTTT TTGCTATCTC CTTGGTGGAC ACGTGCCATA GCCATGCTTC TCACCTAGCT
    GGCACACTGG AAGATTATGA CCAGACTTAT TGCCAAGAAT TACTGAATGT CATAAACAAC
    CGGCTTAATC AGGATGACGT GAAAGGTCTC CACCTTTCAC CTCTGTTTGA GACCGACTTA
    AAACTCATCA TCTTAAGTAA GGCAGCGCCA CTCTTCCAGA AGTCTCACAA CCGCTTCATT
    CAAGAAAATA ACCCAAAGTT CTTCCTTGAA AGGCTCAGGC CTCAGTATTT CTCTACCTTT
    AAAAACATAT ACCAAGAGAA GGATGAGTCT CAAATCCGAG CTCAGAAATT CTGCGAGATA
    TGTCTTAAAC CGGCCCTAAC TGAATACGCA TACAGGAATC TAGGAGGCAG AATAGTTGAA
    GACATCATTA CTGGTAGTGA CTCCATGAGA TACAGCAGCA GGACCTTCTT CCAGTTCACC
    TTACTAAAGG AGCTTCTGGA AGACAAAATA TTCTCTCAGT ATGTAAAATA CACCAATCAC
    TATGAGACCT TTGTCAAAAA CTGGATACTT AAGTATATCA TAGAGAAATA TAAGAAACCC
    GGAGGTCTGG ATTTCTTGAG ATCAAGCATC ATTTCAGTCA TCACAAGGAA GATCCGAGAT
    GTCCTCAGAG ATCCAAAGGT CTTTTACAAC ACGGATGTGT CAAGTTGCTT AAAGATGTTC
    TGTGAGATGT TAAAAAAAGA CCTGGTGATT TCCCAGAATG ACCTAAAAGT GATCATCTTT
    AAAAGCACAG CAAGCGCCGC CCAGTTTTCA GCAGATATCG AGACTTTTCT AGACGACGTG
    GAGAAGCAAA TTTCTGCCGA AATGAAATAT TTCTCCATTG AAGCCGTACT CTCTAAAGCA
    GCGCTCAAAC CTCAGGATGA GCTGTTTAAG AAGGTCTTCG GATGCGGAAA GCTGTGCCCA
    TTTTGCAAAG TCCCCTGTGA AGCCGGAGCT ACTGACCACA AGGAGCACTT TGCCTCGGTC
    CATCGGCCTC AGGGCCTAGG ATCCTATAGA TGTATAAAAA CAAAAGTTCT CTCTCATTCC
    ATATGCACCA CGGATGTGGT CGGCAACACC ACGTTCCAAA GCTCTGATAC TGACTGGAAG
    CCGCACCCTT ACAAAGAGTA CCGTAAAATT TACCCGGATT GGGTCATTCA GCCGGATCCC
    ACCATTGGCG CTTCCGATTA CTGGAAGTTT ATCTTTAAAG AGTTTAATAA GGAGTTTGCA
    GAACACTATA TTGCCAAACC TGCTGATATT GCAGAAGACT GGTACTCAAT CTCTAAACAG
    CAGGCTCTTG GAAGTCTAAA GGTATCATTC AATATGCAAT AG

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

    RefSeq XP_031749225.1
    CDS1..5922
    Translation

    Target ORF information:

    RefSeq Version XM_031893365.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis interferon-induced very large GTPase 1 (LOC100491186), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031893365.1

    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
    ATGGAACCTA CTGATGAGTT GTCTCACTAC TACAGCATGT TTGATGAAGT ATATTCCATG 
    CTTCTGAGCG TTCAGGATGA CGACACTGGC ATGTTTAGAG CAGAAAAGAC TCACGCGGGG
    ACTCAAGATG TCAACATTGG CCTGTATGGA GTGGAAAAGG CCAACATGGG AACTCAGGAT
    GACAATAATG GCCCACATCG AGTAGAAAGG GCAGACATAG GAACTCACAA TGAAAACACT
    GACCTGTATG GGGTGGAAAA GGCCAACATG GGAACTCAGG ATGCCAACAC TGGCCCACAT
    AAAGTAGAAA GGGCAAACAT AGGAGCTCAC AATGAAAATA CTGACCTGTA TGGAGTGGAA
    AAGGCCAACA TGGAAACTCA GGATGACAAC ACTGGCCTGC ATAGTGAAGA AATAGTCCAC
    ACAGGAACTC AAGGTCATAA CAGTGACCTG AAGGGAGAAG AAGTAGCTCA CACGAGAACT
    CAGGAAGAGG ACACTGGCCT GTATGGAATT GGGAAAACTA ACATGGAAAC TCAGGATGGC
    AACAATGACC TTCAAAGAAT TGAAATGGCT CACATGGAAA CTCAAGATGA CAACATTGTC
    ATGTATGGAG TGCAAAAGGC TTACATAGGA ACTCAGGATG ATAACACTAA TCTGAATAGA
    ATGACAAAAG ATGAAGGAGA AACTCAGGAT GACAACACTG GCCTACATGG AGTTGAAAAT
    GTTCTTAAAA TAACCCAGGA TGACAACATT GGCCTGTATA GAGTGGAAGA TGCCCATGTG
    ATAACCCAGG ATAAAACCAT TGGCCTGTAT GGAGTGGAAG ATGCACACGT GATAACCCAG
    GATGACAACA GTGGCCTGTA TGGAGAGGAA GATGCACACG TGATAACCCA GGATGACAAC
    ATTGGCCTGT ATAGAGTGGA AGATGCCCAT GTGATAACCC AGGATGAAAC CATTGGCCTG
    TATGGAGTGG AAGATGCACA CGTGATAACC CAGGATGACA ACAGTGGCCT GTATGGAGTG
    GAAAAGGCAC ACGTGATAAC CCAGGGTGAC AATATTGGCC TGTATGAAGT GGAAAAGGCA
    CACATGCAAG CCATCTATCC ACTAAACGCA GAATTTGACC TGCTAGAACA TTCCAGCCCC
    AATGTCATTG TCCATACAAA GAGCCAGATG TCCAACACTT ACGCTCAATC TATGTTTGAC
    TCTGAACATC TCTTGGCAGA CAGAAGAGTT CTGTTTGATG AAACGCTACA GCAGCTCTGC
    TTTACAAAGT ACAAAATATT TCATCTACGC CTTGCAGAAG TCCTTCAGAT TGGCCAAGAG
    AGCATGAAGA GAATTGCTCT CCAAGGGATA GAAGATATCC CATGGTATTT CCTGCAGAAT
    CTAATCGCCC TAAATGGCAC CGCGAGGAAC ACCAGACTGG CCAAGCTCAT CTTTGATATG
    AGACTGAGCA GCGTACATGA CGACGATGCT GATTTTATTG GTGGAACAGG CTCCTCCATC
    TCACTTCACC CTTTAGATGT TCTGTGTGTT CTTCTGCATT GTACTGATGT TTTTTTGCAA
    CAGGAGATAT TATCTAAAAT GTCCATGTGT CAGTTTGCTC TACCACTCCT CCTTCCATCG
    ATCGATGGTT TAGAATCTAC ATTCATGTTA TGGGCAACAA GGGATATTGT CAAGAGATGG
    AGACCCCAAT CATTGGCAGA AAGTAAAGGC TGCAGAGAAG AGAACCTGGT TCTCATTACC
    ATGCCAACCT TCTCCTTCCT AAGAATGGGG AAATGTAGTC TATCCAAGTC AAGAGTCCTA
    AACAAGATCC TTAGCCCAGT TCAACAAAAC CATGACTTCT TTGTGCATCA AAATATGGAA
    GGGGGGAATG TCCCGAGGAA AATCTCTGAT GGACTGGTGG AAATTTCCTG GTATTTTCCA
    GGAGGAAGAG AAAATTCAGA TATTTTCCCA GAACCTGTTG CGTTTACCAA CTTAAGGGGA
    GACTTGAAGT CAAACTGGCA ACAGTTCTCT TTTTTAGCAC GAGTTTCATC AGCTTTGTTC
    GTTGTTACAG AATCCATTAA CGAGCAAGAC TATGAACTTT TAACAAACAT AAACAGTGTA
    AGTACGAACT ACTTCTTTAT CATCACACCT TCTTCTCAAC GCATCAGTGA GGAGACACAA
    AAATATATAA AAATGTTATA CCCCATCCTG AAAATAAGCA GAAAGAACAT TTTGGTGATG
    AACAATTCAG TTAATGAGGC GGAACTAGTG AAGCAATTAC AAATGATCAT CGCTGATCTC
    GTGGATAATT CTCCACTCTC TATCAATCTT GAGGAGATGT CTCAAGTCGC CAGTTCCATT
    GGAATACACG TAGATGAGAA CTCAGAGGAC CTTCAGAAAG CCAAAAGACT TGCCCGGGAG
    ATTACCGTTA ATATAAATGA TGTGATGGAC TATAAAAAGA AGACAATGAG ACTGCAGGGG
    GATCTCTGGA AAGAACTGGC TCAGATAGAA AAGGAAATAT GTAGAATGAA ATGGCAAGGG
    AGTGAGAACT CAGAAGATTA CAGAGCAAAG CTTGTGAGAA AATACTCTGC TATTCGTATG
    ATTCAAAATG AACACGACTT CCCAGACGGC ATGACCAAAT TCATAACTGC CATCACTTCT
    TTGCCTCAGA TGGAGAAACA TTTTTTCTTG AAATGGCTCA AATTCTATCT TGACTCATTC
    GGAAGGCATC ATCTCAGTGC ACTGCAGACG GAATACAAAG AGAGCTGTCA CGCGTTCTCC
    GGTAATCTCG ACCAGCTGAA ACGATTAGAC CAGAGAATTT CAAATAGTTC CTTGGGAGTG
    GAGCACTTTC TGCGAGAGCT AGGGCAGTTT TACGAGGCGG AATATTCTAG TGCAAATGAT
    GGTATCAAAA GGGAGACATT CAGCAGACTT CCAGGGATTG CTGCAGATCT CCTACTAGAT
    GGGTTCCCAT TAGAGTTGAT AGATGGAGAT GCCTCCAATA TGCCCTTGCA TTGGGTAACA
    GATATTCTAA ATGAGTTGGA TAACAAGACG GGAAAAAAAT GTAGAATGAG CATAATTACT
    GTATTGGGAG TGCAGAGCAC AGGGAAATCC ACCCTCCTGA ACACCATGTT TGGGCTGCAG
    TTCCCTGTGG CCAGTGGGCG ATGCACACGA GGAGCCTTCA TGACACTCAT TAAAGTGAAA
    GAAAATGTTC AGAATGATGT CGGCTGTGAC TTTATTCTGG TGATCGATAC TGAAGGATTA
    AAGGCTCCAG AACTGGCTTC TTTGGAGAAC ACCTTTGAAC ATGACAATGA GTTGGCAACT
    CTAGTGGTTG GGTTGAGTGA TATCACCATA ATTAATATGG CCATGGAAAA CACAACGGAA
    ATGAAAGATA TTTTACAAAT TGTGGTGCAC GCATTTCTTA GAATGAAAGA AGTAGGAAAG
    AGGCCAAACT GCCAGTTTGT GCATCAGAAT GTGAGCGATG TGACTGCTTA TGAAAAGAAC
    CTGAGGGACA GAAAGAGAAT TGTGGAACAG TTGGATGAGA TGACCAAGGC AGCAGCGCGA
    ATGGAAGAGA ACAACAATGT CCAAAGGTTC TCCGACATCA TGGACTACGA TCTTAAGGAA
    CACAGCTGGT ATATTCCCGG TTTGTGGCAC GGTGTCCCAC CAATGGCTTC GGTAAACACG
    GGGTACAGCG AAAATGTTTT TGAATTAAAA AAACATCTAA TTGAAATCAT GAAGAAACAA
    AACAAACGTA GGAAGCCTCA GGCGATTTCC GACTTTCTGA AATGGATGAA AACCTTGTGG
    AACGCTGTCA AATACGAGAA ATTCATATTC AGCTTCCGAA ACAGCCTTGT GGCCGAAGCT
    TATAACCTGC TTTCAGTAAA ATACTCAGAG CTGGAGTGGA ACTTCCGTAA AACGATGCAT
    AACTGGTTGA TCGAGGCAGA AAACCTTATT AGGAATCAGA CGGCCGAAGA ACTAGACACA
    GAGATGTGTA TGGATTTGAA ATACAGCATG TGTTGTGTCT TACATGAGCA AGAGATGGTC
    ATGACAGTGT CACTAGAGAA GTATTTTGAG AATGAAGAAA ACAATGTCCG TCTAGTAGAG
    AGGTACAGAG AAGATTTCTT TAGAAGCATT AAGGTTCTTA GGAATGAGCT TGAGGTGTAT
    TTAGGTAACA AATGTGAAGA AGTGATTCGC ATCCAGAAAG GGAAACATGT GATCAAACAA
    GTTCAGGAGA AATATCTCCA GACCATCGAA GAGAAGGCCA TCAGCCTTTT GGAGACCTGC
    AGAAGTGCAA AACACAAGCT CACCGACCAA GAGATAGAGT CAGAATTCGA CGTGATGTGG
    GCTAACACAT TAATGGGACT GCATATGGGT ACCCTAAAGA AAAGGAACAT CGGTCAAGAA
    ATGCTGGCTC AAATTAGAAA GGACATGAGA CACAAAGCTG GGTATGTAAC TGAGAAACTC
    AACGAGATAA AGTGTTTGGC AGACTATGGA CAAAATTGCT TTATCATGGA CAAGAAATAT
    TTTCAGAGCA GATGGTACGA TAATGTACCT GAAAGCTATC ATTACGAGTA CTGGAATAAA
    GTAAATGTTT TTGCTATCTC CTTGGTGGAC ACGTGCCATA GCCATGCTTC TCACCTAGCT
    GGCACACTGG AAGATTATGA CCAGACTTAT TGCCAAGAAT TACTGAATGT CATAAACAAC
    CGGCTTAATC AGGATGACGT GAAAGGTCTC CACCTTTCAC CTCTGTTTGA GACCGACTTA
    AAACTCATCA TCTTAAGTAA GGCAGCGCCA CTCTTCCAGA AGTCTCACAA CCGCTTCATT
    CAAGAAAATA ACCCAAAGTT CTTCCTTGAA AGGCTCAGGC CTCAGTATTT CTCTACCTTT
    AAAAACATAT ACCAAGAGAA GGATGAGTCT CAAATCCGAG CTCAGAAATT CTGCGAGATA
    TGTCTTAAAC CGGCCCTAAC TGAATACGCA TACAGGAATC TAGGAGGCAG AATAGTTGAA
    GACATCATTA CTGGTAGTGA CTCCATGAGA TACAGCAGCA GGACCTTCTT CCAGTTCACC
    TTACTAAAGG AGCTTCTGGA AGACAAAATA TTCTCTCAGT ATGTAAAATA CACCAATCAC
    TATGAGACCT TTGTCAAAAA CTGGATACTT AAGTATATCA TAGAGAAATA TAAGAAACCC
    GGAGGTCTGG ATTTCTTGAG ATCAAGCATC ATTTCAGTCA TCACAAGGAA GATCCGAGAT
    GTCCTCAGAG ATCCAAAGGT CTTTTACAAC ACGGATGTGT CAAGTTGCTT AAAGATGTTC
    TGTGAGATGT TAAAAAAAGA CCTGGTGATT TCCCAGAATG ACCTAAAAGT GATCATCTTT
    AAAAGCACAG CAAGCGCCGC CCAGTTTTCA GCAGATATCG AGACTTTTCT AGACGACGTG
    GAGAAGCAAA TTTCTGCCGA AATGAAATAT TTCTCCATTG AAGCCGTACT CTCTAAAGCA
    GCGCTCAAAC CTCAGGATGA GCTGTTTAAG AAGGTCTTCG GATGCGGAAA GCTGTGCCCA
    TTTTGCAAAG TCCCCTGTGA AGCCGGAGCT ACTGACCACA AGGAGCACTT TGCCTCGGTC
    CATCGGCCTC AGGGCCTAGG ATCCTATAGA TGTATAAAAA CAAAAGTTCT CTCTCATTCC
    ATATGCACCA CGGATGTGGT CGGCAACACC ACGTTCCAAA GCTCTGATAC TGACTGGAAG
    CCGCACCCTT ACAAAGAGTA CCGTAAAATT TACCCGGATT GGGTCATTCA GCCGGATCCC
    ACCATTGGCG CTTCCGATTA CTGGAAGTTT ATCTTTAAAG AGTTTAATAA GGAGTTTGCA
    GAACACTATA TTGCCAAACC TGCTGATATT GCAGAAGACT GGTACTCAAT CTCTAAACAG
    CAGGCTCTTG GAAGTCTAAA GGTATCATTC AATATGCAAT AG

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

    CloneID OXa34974
    Clone ID Related Accession (Same CDS sequence) XM_012954095.1
    Accession Version XM_012954095.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5910bp)
    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 (NW_016683496.1) 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 :: 26% 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
    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
    ATGGAACCTA CTGATGAGTT GTCTCACTAC TACAGCATGT TTGATGAAGT GTATTCCATG 
    CTTCTGAGCG TTCAGGATGA CGACACTGGC ATGTTTAGAG CAGAAAAGAC TCACGCGGGG
    ACTCAAGATG TCAACATTGG CCTGTATGGA GTGGAAAAGG CCAACATGGG AACTCAGGAT
    GACAATAATG GCCCACATCG AGTAGAAAGG GCAGACATAG GAACTCACAA TGAAAACACT
    GACCTGTATG GGGTGGAAAA GGCCAACATG GGAACTCAGG ATGCCAACAC TGGCCCACAT
    AAAGTAGAAA GGGCAAACAT AGGAGCTCAC AATGAAAATA CTGACCTGTA TGGAGTGGAA
    AAGGCCAACA TGGAAACTCA GGATGACAAC ACTGGCCTGC ATAGTGAAGA AATAGTCCAC
    ACAGGAACTC AAGGTCATAA CAGTGACCTG AAGGGAGAAG AAGTAGCTCA CACGAGAACT
    CAGGAAGAGG ACACTGGCCT GTATGGAATT GGGAAAACTA ACATGGAAAC TCAGGATGGC
    AACAATGACC TTCAAAGAAT TGAAATGGCT CACATGGAAA CTCAAGATGA CAACATTGTC
    ATGTATGGAG TGCAAAAGGC TTACATAGGA ACTCAGGATG ATAACACTAA TCTGAATAGA
    ATGACAAAAG ATGAAGGAGA AACTCAGGAT GACAACACTG GCCTACATGG AGTTGAAAAT
    GTTCTTAAAA TAACCCAGGA TGACAACATT GGCCTGTATA GAGTGGAAGA TGCCCATGTG
    ATAACCCAGG ATAAAACCAT TGGCCTGTAT GGAGTGGAAG ATGCACACGT GATAACCCAG
    GATGACAACA GTGGCCTGTA TGGAGAGGAA GATGCACACG TGATAACCCA GGATGACAAC
    ATTGGCCTGT ATAGAGTGGA AGATGCCCAT GTGATAACCC AGGATGAAAC CATTGGCCTG
    TATGGAGTGG AAGATGCACA CGTGATAACC CAGGATGACA ACAGTGGCCT GTATGGAGTG
    GAAAAGGCAC ACGTGATAAC CCAGGGTGAC AATATTGGCC TGTATGAAGT GGAAAAGGCA
    CACATGCAAG CCATCTATCC ACTAAACGCA GAATTTGACC TGCTAGAACA TTCCAGCCCC
    AATGTCATTG TCCATACAAA GAGCCAGATG TCCAACACTT ACGCTCAATC TATGTTTGAC
    TCTGAACATC TCTTGGCAGA CAGAAGAGTT CTGTTTGATG AAACGCTACA GCAGCTCTGC
    TTTACAAAGT ACAAAATATT TCATCTACGC CTTGCAGAAG TCCTTCAGAT TGGCCAAGAG
    AGCATGAAGA GAATTGCTCT CCAAGGGATA GAAGATATCC CATGGTATTT CCTGCAGAAT
    CTAATCGCCC TAAATGGCAC CGCGAGGAAC ACCAGACTGG CCAAGCTCAT CTTTGATATG
    AGACTGAGCA GCGTACATGA CGACGATGCT GATTTTATTG GTGGAACAGG CTCCTCCATC
    TCACTTCACC CTTTAGATGT TCTGTGTGTT CTTCTGCATT GTACTGATGT TTTTTTGCAA
    CAGGAGATAT TATCTAAAAT GTCCATGTGT CAGTTTGCTC TACCACTCCT CCTTCCATCG
    ATCGATGGTT TAGAATCTAC ATTCATGTTA TGGGCAACAA GGGATATTGT CAAGAGATGG
    AGACCCCAAT CATTGGCAGA AAGTAAAGGC TGCAGAGAAG AGAACCTGGT TCTCATTACC
    ATGCCAACCT TCTCCTTTCT AAGAATGGGG AAATGTAGTC TATCCAAGTC AAGAGTCCTA
    AACAAGATCC TTAGCCCAGT TCAACAAAAC CATGACTTCT TTGTGCATCA AAATATGGAA
    GGGGGGAATG TCCCGAGGAA AATCTCTGAT GGACTGGTGG AAATTTCCTG GTATTTTCCA
    GGAGGAAGAG AAAATTCAGA TATTTTCCCA GAACCTGTTG CGTTTACCAA CTTAAGGGGA
    GACTTGAAGT CAAACTGGCA ACAGTTCTCC TTTTTAGCAC GAGTTTCATC AGCTTTGTTC
    GTTGTTACAG AATCCATTAA CGAGCAAGAT TATGAACTTC TAACAAACAT AAACAGCGTA
    AATACAAACT ACTTCTTTAT CATCGCACCT TCTTCTCAAC GCGTCAGCGA GGAGACACAA
    AAATATCTAA AAATGTTATA CCCCGTCCTG AAAATAAGCA GAAAGAACAT TTTGGTGATG
    AACAGTTCAG TTAATGAGGC GGAACTAGTG AAGCAATTAC AAATGATCAT CGCTGATCTC
    GTGGATAATT CTCCACTCTC TATCAATCTT GAGGAGATGT CTCAAGTCGC CAGTTCCATT
    GGAATACACG TAGATGAGAA CTCAGAGGAC CTTCAGAAAG CCAAAAGACT TGCCCGGGAG
    ATTACCGTTA ATATAAATGA TGTGATGGAC TATAAAAAGA AGACAATGAG ACTGCAGGGG
    GATCTCTGGA AAGAACTGGC TCAGATAGAA AAGGAAATAT GTAGAATGAA ATGGCAAGGG
    AGTGAGAACT CAGAAGATTA CAGAGCAAAG CTTGTGAGAA GATATTCTGC TATTCGTATG
    ATTCAAAAGG AACACGACTT CCCAGACGGC ATGACCAAAT TCATAACTGC CATCACTTCT
    TTGCCTCAGA TGGAGAAACA TTTTTTCTTG AAATGGCTCA AATTCTATCT TGACTCATTC
    GGAAGGCATC ATCTCAGTGC ACTGCAGACA GAATACAAAG AGAGCTGTCA CGCGTTCTCC
    GGTAATCTCG ACCAGCTGAA ACGATTAGAC CAGAGAATTT CAAATAGTTC CTTGGGAGTG
    GAGCACTTTC TGCGAGAGCT AGGGCAGTTT TACGAGGCGG AATATTCTAG TGCAAATGAT
    GGTATCAAAA GGGAGACATT CAGCAGACTT CCAGGGATTG CTGCAGATCT CCTACTAGAT
    GGGTTCCCAT TAGAGTTGAT AGATGGAGAT GCCTCCAATA TCCCCTTGCA TTGGGTAACA
    GATATTCTAA ATGAGTTGGA TAACAAGACG GGAAAAAAAT GTAGAATGAG CATAATTACT
    GTATTGGGAG TGCAGAGCAC AGGGAAGTCC ACCCTCCTGA ACACCATGTT TGGGCTGCAG
    TTCCCTGTGG CCAGTGGGCG TTGCACACGT GGAGCTTTCA TGACTTTGAT TAAAGTGAAA
    GAAAATGTTC AGAATGATGT CGGCTGTGGC TTTATTCTGG TGATCGATAC TGAAGGATTA
    AAGGCTCCAG AACTGGCTTC TCTGGAGAAC ACCTTTGAAC ATGACAACGA GTTGGCAACT
    CTAGTGGTTG GGTTGAGTGA TATCACCATA ATTAACATGG CCATGGAAAA CACAACGGAA
    ATGAAAGATA TTTTACAAAT TGTGGTGCAC GCATTTCTTA GAATGAAAGA AGTAGGAAAG
    AAGCCAAACT GCCAGTTTGT GCATCAAAAT GTGAGCGATG TGACCGCTCA TGAAAAGAAC
    ATGAGGGACA GAAAGAGAAT TGTGGAACAG TTGGATGAGA TGACCAAGGC AGCAGCGCGA
    ATGGAAGAGA ACAACAATGT CCAAAGGTTC TCCGACATCA TGGACTACGA TGTTAAGGAA
    CACAGTTGGT ATATTCCCGG TTTGTGGCAC GGTGTCCCAC CCATGGCTTC GGTAAACACG
    GGGTACAGCG AAAATGTTTT TGAATTAAAA AAACATCTAA TTGAAATCAT GAAGAAACAA
    AACAAACGTA GGAAGCCTCA GGCGATTTCC GACTTTCTGA AGTGGATGAA AACCTTGTGG
    AACGCTGTCA AATACGAGAA ATTCATATTC AGCTTCCGAA ACAGCCTTGT GGCCGAAGCT
    TATAATCTGC TTTCAGTTAA ATACTCAGAG CTGGAGTGGA ACTTCCGTAA AACGATGCAT
    AACTGGTTGA TCGAGGCAGA AAACCTTATT AGGAATCAGA CGGCCGAAGA ACTAGACACA
    GAGATGTGTA TGGATTTGAA ATACAGCATG TGTTGTGTCT TACATGAGCA AGAGATGGTC
    ATGACAGTGT CACTAGAGAA GTATTTTGAG AATGAAGAAA ACAATGTCCG TCTAGTAGAG
    AGGTACAGAG AAGATTTCTT TAGAAGCATT AAGGTTCTTA GGAATGAGCT TGAGGTGTAT
    TTAGGTAACA AATGTGAAGA AGTGATTCGC ATCCAGAAAG GGAAACATGT GATCAAACAA
    GTTCAGGAGA AATATCTCCA GACCATCGAA GAGAAGGCCA TCAGCCTTTT GGAGACCTGC
    AGAAGTGCAA AACACAAGCT CACCGACCAA GAGATAGAGT CAGAATTCGA CGTGATGTGG
    GCTAACACAT TAATGGGACT GCATATGGGT ACCCTAAAGA AAAGGAACAT CGGTCAAGAA
    ATGCTGGCTC AAATTAGAAA GGACATGAGA CACAAAGCTG GGTATGTAAC TGAGAAACTC
    AACGAGATAA AGTGTTTGGC AGACTATGGA CAAAATTGCT TTATCATGGA CAAGAAATAT
    TTTCAGAGCA GATGGTACGA TAATGTACCT GAAAGCTATC ATTACGAGTA CTGGAATAAA
    GTAAATGTTT TTGCTATCTC CTTGGTGGAC ACGTGCCATA GCCATGCTTC TCACCTAGCT
    GGCACACTGG AAGATTATGA CCAGACTTAT TGCCAAGAAT TACTGAATGT CATAAACAAC
    CGGCTTAATC AGGATGACGT GAAAGGTCTC CACCTTTCAC CTCTGTTTGA GACCGACTTA
    AAACTCATCA TCTTAAGTAA GGCAGCGCCA CTCTTCCAGA AGTCTCACAA CCGCTTCATT
    CAAGAAAATA ACCCAAAGTT CTTCCTTGAA AGGCTCAGGC CTCAGTATTT CTCTACCTTT
    AAAAACATAT ACCAAGAGAA GGATGAGTCT CAAATCCGAG CTCAGAAATT CTGCGAGATA
    TGTCTTAAAC CGGCCCTAAC TGAATACGCA TACAGGAATC TAGGAGGCAG AATAGTGGAA
    GACATCATTA CTGGTAGTGA CTCCATGAGA TACAGCAGCA GGACCTTCTT CCAGTTCACC
    CTACTAAAGG AGCTTCTGGA AGACAAAATA TTCTCTCAGT ATGTAAAATA CACCAATCAC
    TATGAGACCT TTGTCAAAAA CTGGATACTT AAGTATATCA TAGAGAAATA TAAGAAACCC
    GGAGGTCTGG ATTTCTTGAG ATCAAGCATC ATTTCAGTCA TCACAAGGAA GATCCGAGAT
    GTCCTCAGAG ATCCAAAGGT CTTTTACAAC ACGGATGTGT CAAGTTGCTT AAAGATGTTC
    TGTGAGATGT TAAAAAAAGA CCTGGTGATT TCCCAGAATG ACCTAAAAGT GATCATCTTT
    AAAAGCACAG CAAGCGCCGC CCAGTTTTCA GCAGATATCG AGACTTTTCT AGACGACGTG
    GAGAAGCAAA TTTCTGCCGA AATGAAATAT TTCTCCATTG AAGCCGTACT CTCTAAAGCA
    GCGCTCAAAC CTCAGGATGA GCTGTTTAAG AAGGTCTTCG GATGCGGAAA GCTGTGCCCA
    TTTTGCAAAG TCCCCTGTGA AGCCGGAGCT ACTGACCACA AGGAGCACTT TGCCTCGGTC
    CATCGGCCTC AGGGCCTAGG ATCCTATAGA TGTATAAAAA CAAAAGTTCT CTCTCATTCC
    ATATGCACCA CGGATGTGGT CGGCAACACC ACGTTCCAAA GCTCTGATAC TGACTGGAAG
    CCGCACCCTT ACAAAGAGTA CCGTAAAATT TACCCGGATT GGGTCATTCA GCCGGATCCC
    ACCATTGGCG CTTCCGATTA CTGGAAGTTT ATCTTTAAAG AGTTTAATAA GGAGTTTGCA
    GAACACTATA TTGCCAAACC TGCTGATATT GCAGAAGACT GGTACTCAAT CTCTAAACAG
    CAGGCTCTTG GAAGTCTAAA GGGCAAGTAG

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

    RefSeq XP_012809549.1
    CDS1..5910
    Translation

    Target ORF information:

    RefSeq Version XM_012954095.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis interferon-induced very large GTPase 1-like (LOC100491186), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012954095.1

    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
    ATGGAACCTA CTGATGAGTT GTCTCACTAC TACAGCATGT TTGATGAAGT GTATTCCATG 
    CTTCTGAGCG TTCAGGATGA CGACACTGGC ATGTTTAGAG CAGAAAAGAC TCACGCGGGG
    ACTCAAGATG TCAACATTGG CCTGTATGGA GTGGAAAAGG CCAACATGGG AACTCAGGAT
    GACAATAATG GCCCACATCG AGTAGAAAGG GCAGACATAG GAACTCACAA TGAAAACACT
    GACCTGTATG GGGTGGAAAA GGCCAACATG GGAACTCAGG ATGCCAACAC TGGCCCACAT
    AAAGTAGAAA GGGCAAACAT AGGAGCTCAC AATGAAAATA CTGACCTGTA TGGAGTGGAA
    AAGGCCAACA TGGAAACTCA GGATGACAAC ACTGGCCTGC ATAGTGAAGA AATAGTCCAC
    ACAGGAACTC AAGGTCATAA CAGTGACCTG AAGGGAGAAG AAGTAGCTCA CACGAGAACT
    CAGGAAGAGG ACACTGGCCT GTATGGAATT GGGAAAACTA ACATGGAAAC TCAGGATGGC
    AACAATGACC TTCAAAGAAT TGAAATGGCT CACATGGAAA CTCAAGATGA CAACATTGTC
    ATGTATGGAG TGCAAAAGGC TTACATAGGA ACTCAGGATG ATAACACTAA TCTGAATAGA
    ATGACAAAAG ATGAAGGAGA AACTCAGGAT GACAACACTG GCCTACATGG AGTTGAAAAT
    GTTCTTAAAA TAACCCAGGA TGACAACATT GGCCTGTATA GAGTGGAAGA TGCCCATGTG
    ATAACCCAGG ATAAAACCAT TGGCCTGTAT GGAGTGGAAG ATGCACACGT GATAACCCAG
    GATGACAACA GTGGCCTGTA TGGAGAGGAA GATGCACACG TGATAACCCA GGATGACAAC
    ATTGGCCTGT ATAGAGTGGA AGATGCCCAT GTGATAACCC AGGATGAAAC CATTGGCCTG
    TATGGAGTGG AAGATGCACA CGTGATAACC CAGGATGACA ACAGTGGCCT GTATGGAGTG
    GAAAAGGCAC ACGTGATAAC CCAGGGTGAC AATATTGGCC TGTATGAAGT GGAAAAGGCA
    CACATGCAAG CCATCTATCC ACTAAACGCA GAATTTGACC TGCTAGAACA TTCCAGCCCC
    AATGTCATTG TCCATACAAA GAGCCAGATG TCCAACACTT ACGCTCAATC TATGTTTGAC
    TCTGAACATC TCTTGGCAGA CAGAAGAGTT CTGTTTGATG AAACGCTACA GCAGCTCTGC
    TTTACAAAGT ACAAAATATT TCATCTACGC CTTGCAGAAG TCCTTCAGAT TGGCCAAGAG
    AGCATGAAGA GAATTGCTCT CCAAGGGATA GAAGATATCC CATGGTATTT CCTGCAGAAT
    CTAATCGCCC TAAATGGCAC CGCGAGGAAC ACCAGACTGG CCAAGCTCAT CTTTGATATG
    AGACTGAGCA GCGTACATGA CGACGATGCT GATTTTATTG GTGGAACAGG CTCCTCCATC
    TCACTTCACC CTTTAGATGT TCTGTGTGTT CTTCTGCATT GTACTGATGT TTTTTTGCAA
    CAGGAGATAT TATCTAAAAT GTCCATGTGT CAGTTTGCTC TACCACTCCT CCTTCCATCG
    ATCGATGGTT TAGAATCTAC ATTCATGTTA TGGGCAACAA GGGATATTGT CAAGAGATGG
    AGACCCCAAT CATTGGCAGA AAGTAAAGGC TGCAGAGAAG AGAACCTGGT TCTCATTACC
    ATGCCAACCT TCTCCTTTCT AAGAATGGGG AAATGTAGTC TATCCAAGTC AAGAGTCCTA
    AACAAGATCC TTAGCCCAGT TCAACAAAAC CATGACTTCT TTGTGCATCA AAATATGGAA
    GGGGGGAATG TCCCGAGGAA AATCTCTGAT GGACTGGTGG AAATTTCCTG GTATTTTCCA
    GGAGGAAGAG AAAATTCAGA TATTTTCCCA GAACCTGTTG CGTTTACCAA CTTAAGGGGA
    GACTTGAAGT CAAACTGGCA ACAGTTCTCC TTTTTAGCAC GAGTTTCATC AGCTTTGTTC
    GTTGTTACAG AATCCATTAA CGAGCAAGAT TATGAACTTC TAACAAACAT AAACAGCGTA
    AATACAAACT ACTTCTTTAT CATCGCACCT TCTTCTCAAC GCGTCAGCGA GGAGACACAA
    AAATATCTAA AAATGTTATA CCCCGTCCTG AAAATAAGCA GAAAGAACAT TTTGGTGATG
    AACAGTTCAG TTAATGAGGC GGAACTAGTG AAGCAATTAC AAATGATCAT CGCTGATCTC
    GTGGATAATT CTCCACTCTC TATCAATCTT GAGGAGATGT CTCAAGTCGC CAGTTCCATT
    GGAATACACG TAGATGAGAA CTCAGAGGAC CTTCAGAAAG CCAAAAGACT TGCCCGGGAG
    ATTACCGTTA ATATAAATGA TGTGATGGAC TATAAAAAGA AGACAATGAG ACTGCAGGGG
    GATCTCTGGA AAGAACTGGC TCAGATAGAA AAGGAAATAT GTAGAATGAA ATGGCAAGGG
    AGTGAGAACT CAGAAGATTA CAGAGCAAAG CTTGTGAGAA GATATTCTGC TATTCGTATG
    ATTCAAAAGG AACACGACTT CCCAGACGGC ATGACCAAAT TCATAACTGC CATCACTTCT
    TTGCCTCAGA TGGAGAAACA TTTTTTCTTG AAATGGCTCA AATTCTATCT TGACTCATTC
    GGAAGGCATC ATCTCAGTGC ACTGCAGACA GAATACAAAG AGAGCTGTCA CGCGTTCTCC
    GGTAATCTCG ACCAGCTGAA ACGATTAGAC CAGAGAATTT CAAATAGTTC CTTGGGAGTG
    GAGCACTTTC TGCGAGAGCT AGGGCAGTTT TACGAGGCGG AATATTCTAG TGCAAATGAT
    GGTATCAAAA GGGAGACATT CAGCAGACTT CCAGGGATTG CTGCAGATCT CCTACTAGAT
    GGGTTCCCAT TAGAGTTGAT AGATGGAGAT GCCTCCAATA TCCCCTTGCA TTGGGTAACA
    GATATTCTAA ATGAGTTGGA TAACAAGACG GGAAAAAAAT GTAGAATGAG CATAATTACT
    GTATTGGGAG TGCAGAGCAC AGGGAAGTCC ACCCTCCTGA ACACCATGTT TGGGCTGCAG
    TTCCCTGTGG CCAGTGGGCG TTGCACACGT GGAGCTTTCA TGACTTTGAT TAAAGTGAAA
    GAAAATGTTC AGAATGATGT CGGCTGTGGC TTTATTCTGG TGATCGATAC TGAAGGATTA
    AAGGCTCCAG AACTGGCTTC TCTGGAGAAC ACCTTTGAAC ATGACAACGA GTTGGCAACT
    CTAGTGGTTG GGTTGAGTGA TATCACCATA ATTAACATGG CCATGGAAAA CACAACGGAA
    ATGAAAGATA TTTTACAAAT TGTGGTGCAC GCATTTCTTA GAATGAAAGA AGTAGGAAAG
    AAGCCAAACT GCCAGTTTGT GCATCAAAAT GTGAGCGATG TGACCGCTCA TGAAAAGAAC
    ATGAGGGACA GAAAGAGAAT TGTGGAACAG TTGGATGAGA TGACCAAGGC AGCAGCGCGA
    ATGGAAGAGA ACAACAATGT CCAAAGGTTC TCCGACATCA TGGACTACGA TGTTAAGGAA
    CACAGTTGGT ATATTCCCGG TTTGTGGCAC GGTGTCCCAC CCATGGCTTC GGTAAACACG
    GGGTACAGCG AAAATGTTTT TGAATTAAAA AAACATCTAA TTGAAATCAT GAAGAAACAA
    AACAAACGTA GGAAGCCTCA GGCGATTTCC GACTTTCTGA AGTGGATGAA AACCTTGTGG
    AACGCTGTCA AATACGAGAA ATTCATATTC AGCTTCCGAA ACAGCCTTGT GGCCGAAGCT
    TATAATCTGC TTTCAGTTAA ATACTCAGAG CTGGAGTGGA ACTTCCGTAA AACGATGCAT
    AACTGGTTGA TCGAGGCAGA AAACCTTATT AGGAATCAGA CGGCCGAAGA ACTAGACACA
    GAGATGTGTA TGGATTTGAA ATACAGCATG TGTTGTGTCT TACATGAGCA AGAGATGGTC
    ATGACAGTGT CACTAGAGAA GTATTTTGAG AATGAAGAAA ACAATGTCCG TCTAGTAGAG
    AGGTACAGAG AAGATTTCTT TAGAAGCATT AAGGTTCTTA GGAATGAGCT TGAGGTGTAT
    TTAGGTAACA AATGTGAAGA AGTGATTCGC ATCCAGAAAG GGAAACATGT GATCAAACAA
    GTTCAGGAGA AATATCTCCA GACCATCGAA GAGAAGGCCA TCAGCCTTTT GGAGACCTGC
    AGAAGTGCAA AACACAAGCT CACCGACCAA GAGATAGAGT CAGAATTCGA CGTGATGTGG
    GCTAACACAT TAATGGGACT GCATATGGGT ACCCTAAAGA AAAGGAACAT CGGTCAAGAA
    ATGCTGGCTC AAATTAGAAA GGACATGAGA CACAAAGCTG GGTATGTAAC TGAGAAACTC
    AACGAGATAA AGTGTTTGGC AGACTATGGA CAAAATTGCT TTATCATGGA CAAGAAATAT
    TTTCAGAGCA GATGGTACGA TAATGTACCT GAAAGCTATC ATTACGAGTA CTGGAATAAA
    GTAAATGTTT TTGCTATCTC CTTGGTGGAC ACGTGCCATA GCCATGCTTC TCACCTAGCT
    GGCACACTGG AAGATTATGA CCAGACTTAT TGCCAAGAAT TACTGAATGT CATAAACAAC
    CGGCTTAATC AGGATGACGT GAAAGGTCTC CACCTTTCAC CTCTGTTTGA GACCGACTTA
    AAACTCATCA TCTTAAGTAA GGCAGCGCCA CTCTTCCAGA AGTCTCACAA CCGCTTCATT
    CAAGAAAATA ACCCAAAGTT CTTCCTTGAA AGGCTCAGGC CTCAGTATTT CTCTACCTTT
    AAAAACATAT ACCAAGAGAA GGATGAGTCT CAAATCCGAG CTCAGAAATT CTGCGAGATA
    TGTCTTAAAC CGGCCCTAAC TGAATACGCA TACAGGAATC TAGGAGGCAG AATAGTGGAA
    GACATCATTA CTGGTAGTGA CTCCATGAGA TACAGCAGCA GGACCTTCTT CCAGTTCACC
    CTACTAAAGG AGCTTCTGGA AGACAAAATA TTCTCTCAGT ATGTAAAATA CACCAATCAC
    TATGAGACCT TTGTCAAAAA CTGGATACTT AAGTATATCA TAGAGAAATA TAAGAAACCC
    GGAGGTCTGG ATTTCTTGAG ATCAAGCATC ATTTCAGTCA TCACAAGGAA GATCCGAGAT
    GTCCTCAGAG ATCCAAAGGT CTTTTACAAC ACGGATGTGT CAAGTTGCTT AAAGATGTTC
    TGTGAGATGT TAAAAAAAGA CCTGGTGATT TCCCAGAATG ACCTAAAAGT GATCATCTTT
    AAAAGCACAG CAAGCGCCGC CCAGTTTTCA GCAGATATCG AGACTTTTCT AGACGACGTG
    GAGAAGCAAA TTTCTGCCGA AATGAAATAT TTCTCCATTG AAGCCGTACT CTCTAAAGCA
    GCGCTCAAAC CTCAGGATGA GCTGTTTAAG AAGGTCTTCG GATGCGGAAA GCTGTGCCCA
    TTTTGCAAAG TCCCCTGTGA AGCCGGAGCT ACTGACCACA AGGAGCACTT TGCCTCGGTC
    CATCGGCCTC AGGGCCTAGG ATCCTATAGA TGTATAAAAA CAAAAGTTCT CTCTCATTCC
    ATATGCACCA CGGATGTGGT CGGCAACACC ACGTTCCAAA GCTCTGATAC TGACTGGAAG
    CCGCACCCTT ACAAAGAGTA CCGTAAAATT TACCCGGATT GGGTCATTCA GCCGGATCCC
    ACCATTGGCG CTTCCGATTA CTGGAAGTTT ATCTTTAAAG AGTTTAATAA GGAGTTTGCA
    GAACACTATA TTGCCAAACC TGCTGATATT GCAGAAGACT GGTACTCAAT CTCTAAACAG
    CAGGCTCTTG GAAGTCTAAA GGGCAAGTAG

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