ORF » Species Summary » Tetrahymena thermophila SB210 » TTHERM_01193580 cDNA ORF clone

TTHERM_01193580 cDNA ORF clone, Tetrahymena thermophila SB210

The following TTHERM_01193580 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TTHERM_01193580 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
OTe60296 XM_001030001.2
Latest version!		 Tetrahymena thermophila SB210 transmembrane protein, putative partial 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)
    TTHERM_01193580 ( XM_001030001.2 ) cDNA ORF clone, Tetrahymena thermophila SB210 -> XP_001030001.2 Tetrahymena thermophila SB210 transmembrane protein, putative partial mRNA.
    Price & Availability↑
    CloneID OTe60296
    Clone ID Related Accession (Same CDS sequence) XM_001030001.2
    Accession Version XM_001030001.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5415bp)
    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 2015-06-08
    Organism Tetrahymena thermophila SB210
    Product transmembrane protein, putative
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_002476145). On Jun 9, 2015 this sequence version replaced XM_001030001.1. COMPLETENESS: incomplete on both ends. 

    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
    ATGAGAATGC TATTTTAGCA AACGGCTAGG ATCAAGATAG AATAACCATA TCGTTCGAAT 
    TATGGATAAA ATAAACTTTT CATGTTTGTG CTTTAAAATG AATAAAAAAT TAACCTTCCT 
    CTAAACATAC CAGTCTTAGA ACCTGATTAG TCTTATCCAC CAACCTTAAT TACCTATTCA 
    CCACTTGATA ATAGTGAAGC TCTTCAAAAT GCTTCTTTAA CATCATATTA GAATATTACA 
    TACTAAAGTA ACGAAATATT TTGGAAAAGC AAAGAGTAAA TTGCAATTCC TTATATTCCT 
    TATATGAGTA ACTGTAAAGG CAGTGGGTAA TTTATTTATC TACATGAATA TATTGAAGAT 
    CCAAATTATT GCGAACTCTA AACTCCTTAA AATACTATAC CAATTAGGTA AATTGAGTTT 
    AAGTAAATAC CTGTTTCTGA TATATGTGAG GAGATTAAAT TTTAGTGTTC ACTCGATGAG 
    GCCTTTAATG ATAATAATAA TTTTCCAAAA TTCTATCAAT AAAACAAAGA GGCAGAACTA 
    TTCTTTATCA CATAAAATCC AATTAATATA GATACTGATC TTACAGGAGA AAATAGCATA 
    AAGTCACTGA GTTTAATCCC AATTGTTACA AAAAATATTG TCCCTTCTTC TACTCTTCCC 
    AAAACCATTA CTCTAGAAAT CAACTACTAT CAAGTTGACA AGTATACAAA AAAAATTATA 
    ACTGCTGAAA TGAGTTTTGG ATCATTCATT GAAGAAAGTA GCAATAGCTC ATCTTCCAAT 
    TTTCAGTTTA ACTTTATCCT TTCATTTCAT TCAATGTCAC ATTCAGAGCT GGCCATAGCA 
    TTTGCTCTTG AATGGCAGAA AAAACTGAAT AGTGTGAGGC ATTACATTAA ACTCTATTAA 
    CCTATCTTAT CTGGTGTGAT TCTTGGAGTA TCATTTAGCT TTTTGGTTTA AAGCATAGCT 
    TCAATAGCAA TGCTCGGAGG CTTTTGGGGA TATTCGATAG CACCATGTGA AATGCCGACA 
    ACTGATTCAG TATGTGAAAC CTCTATTTTA GAAGTTCTTA ATAGTACAAC AATAACACAA 
    TATATTAGAA GAGGAAGATT GGGTTATACA CTTATTGTAA TAGGGATATA TGGTTGCATA 
    AGAATTACTG GAGTTTTTTT TCCTTCATCC ACATAAGATA GAATAAACAA AAATGTTGAT 
    GATTGTATTA AAGATTCATC TGGATAATAA CAAAAACTAC TCAAAACGCT TAACAAGTTA 
    AAAGAAAGAG ACAAAATGAT GGTTACTGAA TTTTATGATG GTAATATTTG GTAAGAAAGA 
    ATCTGGAAAA GAGGATAGTA TCTGTATATG TCGATTATTG TTTGGACGAT TATGTTAATC 
    ATATTGCATT TATCTTTTTC AGCCTTTTAT GCATAAAACA TTTGGCTGTT TACAGCTCTT 
    TTAAAGATAA CATAAATTTT TATATAAGAA AGCTTAAAAG TTTACATGGA AAATGAATTG 
    CTTACAAGTT CTTTTAACTG TGTAATTGCA ACCACTCTAA TTGTATCAGG TTTAGGAGCT 
    CTTGATTTTT ATGAGTATTT ATTCACATAT TTTGTTAGTC TAGGAATTTC TACCTTTGAA 
    AAGACCAATT AAGTTATTCT TGTACATCAT GTTTCACATA GGGCATTTAA GTTTGTAAAA 
    ATATTTAAGA AATGGATATA AAAATAGTTT TAATATGAAA CTAATGAAGA TGAATCCACT 
    TAATCTTAAA ATAATGATAA TTTTGGTAAT ACTATTGATG ATGAAACAGA TAATTAAAAT 
    AAGAAATTAG ATGATAACAG TGAAGTACTC TTATCTGAAA GATATGAAGA AAGCATGGAT 
    ACTTATGATG CTAATTTTGA CTAATAGTCT TTCAAAACTT ACGGATAACT TCATTTGTAA 
    GATTTAAAAA CAGAAAATAA TGAAAATATG TTTAGCTCTA CTAAGAAGAG AATAAATTTT 
    GCAGATATTT AATAAGTAAA TGAGCTGATT TAATAGGCAT AAACAGAAGA AGATTAGCAA 
    TAAATAAATT AAAATGAAAG CTTTGATGAA TTCGAAGATA AATTTTAAAG ATTCTTAGAT 
    CATAAAATAA CAAAATCTTT CATGAAGTCA CATCCTGAAA ACGAAAAATA AAAAACATAA 
    GAGCAAGAAT ACAAAGAAAA TGGAAGTTAA ATTATTAAAG TTTATACAGA TTTTTGTAAC 
    TGTTCACTCA CTATGCTTTA AGCTCCATTT TAAATTGTCT AAATGTGGAT GTTTTATGAT 
    GCAAGTTAGA CTTTTATTAG GTGGCGTATC AAGAAAGCAG GTTTGGTGTT TTATTTGTTG 
    TTTAATGTGT CAAATATACC TTTTTAGATA GTCATGGATA TTCTCTTGCT CAAATCTGTT 
    GAGTAGCTTC ACTAACTTTA CATATATGAT TATGTAAATT AAGTTCGTCA AAGATATCAA 
    AACAGAAAAT ACAATTGGAA AAGAGATGAT GAAAATGATT TTTTGAAGAT GGTAGAAAAA 
    GAGGTTTAAT ACATAGATAT CTGGTGTTAT TCTTCTTAAT ATTTTTTTTG CTAAAGCTTG 
    TTTTTAGGAA GTTCAATGGT TGTCATAAAT GGATTTCTCA CAGTTTTAGC AAACAAATAT 
    AACTTTCTAA GTGATGAATA CTTAGTTACA ATAACTATAT TATGGATAAT AGTATGTTTT 
    TTAGTCGATA CTGTCTTAGT TTACATTTAC GATCATATCT CTTTGTGGAA AGTGGAGGAT 
    AAAATCAAAT CTAAATAATA AAAATTAAAT GAAGACGTAA TTGATGAAAT TAAATTAACA 
    GAGTAATAGT TAATACCTAC AGAACATTTG ATTAAGGATT AATAACAGTT ATTTTAAGTA 
    ACAGAAGTTT ATACTAGAGA TTTTAATAAC TTAACAGCTG ATAAAAAATG TTTAGAAACA 
    ATAGAAGACA TTAGATAACA TAATATGCCA AATAATATTT TTTCAAGAGA TAATATCATC 
    TTCAAATAAA GCTCAGTATA AGAAAAGCTT ATTAAAATGT AATAAAACCA TAGGTTTGGT 
    AATAATGCCA AATTTAGTAA AGGGTATTTA GAATTTGAAA AGAAATTTTC ACTTCTTAAT 
    TAGCTTCCAG ACTCTAGCTA AAGCGATTTC GAAAGATAAT AAAATTTTAA TTTTAGTCAC 
    CAAGCCAGTT AAAAAATATA CTAAATTTTA AATGAACAAA ATAATGAGTT TAGTGAATTG 
    AAATAACTTA TTTAGAAAAA TAAATATATT AAGATGTTCT TTTTAGATGC TATAGGTATG 
    ATCAAATAGT CAGACTTAAG AATACAAAAC TATTTATTAG AGTTGTTTGA GGAAAAAGAA 
    ACATTAAACA TAAACTTAGA GATGAAATTT GTACAAATAG CTGATAAATA TAGAAAATAG 
    GATCCTGAGC CTTATAAAAA ATTATAAAAA TGGCTTAATA TTAGAGAGAG TATTAAAAAA 
    TCAGTGGTCT TAAAAAATAA AATACTGAAA TTGAAGGAAC TAATGCCAAA ACTTGAAAAT 
    AACGAATATA AAAATGAACA ATTTAAGATT AATTTCTTAA ATGTTAACAA AAAATGGTTT 
    TAAAAAAACA TCAAATTGCT ATTTGAAGAT TTAATGAAAG GAGATTCTAA GAACTAATTA 
    AAAAAAAATA GATAACTAAT ATTATCAGGA TTTAAGAGTA TTTATGGAAA ATTAAAATTG 
    AATCGTTTTA AAGGAGATTA AATTTCTAAT GAACAGAAGG TTGAGTCATC TATAAAATGG 
    TTTGAAACTA ATAGCTAAAA AACATCTTTT AAAAACGCTG CTATGATTGT AAGATATTGG 
    CTTCTTAGGT CTAGAGTATA AACATTAGCT GAGAAATGTG TCTCTGCATA TATGCTTTAA 
    GGTGAAGGCA GATGTTGTAT TTACTGCAAA TCTTCTTAGT CAATCACTAA ATAAATTTAA 
    AACTCTAATA TCGAAGATTT GTTTCTTAAA TTTTATAAAA GAGAATGCAG AAAATACAGA 
    TAATACTTAA ATGTGTTTTA AATTGTAAAT GGAATCACTA AATAGAAAGG GAAATTAATT 
    TCTCATGGTT CTTCAAGAAG ATAAACAAAA AAATTTGATG ATTTTTTACC ACTTGATAAC 
    TTCTAAGACT CAATAATAGA GCACTAAACT GAATAGAAAT CCTATTTTCT TTCAAGGTAG 
    TAAAAATTTA TAGAATCTTG GTAAGAGTAC TTTTTTTTAA ATGCAAAATT CATCTATGTT 
    TGCTTGAAGT GTAATGATAT TGCATAGAAT GAATACCTTT AAATAGTCTC AAAATTTAGA 
    AAATGGAGTG TTTAAATGCA TTTATTAGAA ATAAACAGTC AGCGAAATAA TATTATCAAG 
    GAAAAAGACG AGGAATCTGA GGGATAATTA AATAACTCCT ATTAAATAAA CTCTTCACTT 
    CTTATTAGTA ATTTTGCTCT TCACAAAGAA TCATACTCTA AAGATGAGTT AACTCCAAAA 
    AATAACGAGT AGGTAGGTTA GCAATTTATC ACAGATTCAA TTTTTCATCC AATTAATCCT 
    CAATAAAATA AATATCAAAA TACTGTTCAA GCAGAAAATT AAGTAATAAA AGAAGAGAAT 
    AATGAGGATT AAAGCTAAGC AGATAGAACG AACTATATTG ATCAGGAATT CTTTTCTCCT 
    TAACCTTAAA GAAAGAAAAG TTCAATAAAC AGTATGCTCA GTTTAAGAGT AACAAAAAGT 
    TCAACAAAAC CCTAATACCC CTAATCAAAT AATCAAAGTC CTTATAAACT AAGCTAACTA 
    GGAATTAATA ATAGCTAAAA ATTAGAAAAT TAGCCTTTAA TATAATTAGA TATTAAACAT 
    GAAGGCATAA ATAGTCAAAA TTACGACTCA GAAAAACAAG GAATTTTGTA GCCAGAAACA 
    AATAAAGATT AAAAAGATTG TATTGATGAT CAAAAAACTA GTAGAAGTGC TAAATCTATC 
    TAAAAAACTC ATCCTGAACC CTCTTAGAAT AATTTAGATG ATATAAAATT GAAAGACAAT 
    ACCATAATTG ATTAACAAAT TTAGCTGATA AATAAAAACT TAGAAATGAG CTAAAACAGG 
    TCTTTTCGTC TTGTCTAAAC AGAGAAGTAA AAAGTATTAA AGGACTAAGA GTAAGATTTT 
    CTGCAAGTAA TTAACAGTGA ATAACTTTAA AAGAGTGGTT CTTAGATAAA TTTTAGTGAA 
    TTCTCTCCAG GTGTTATAAA TTTAAACAAA AAATTTATAA ATATTTTCTA AGAAAATAAT 
    TAAAATGAAA GTAAGTTTAA TTAGAATAAT GAAGTCTAAT CCCTAAAATA ATATAATGAA 
    TATTCCTAAA ACTAAGAAGA AAGTAGCTCT TACTCTTCAG AAAAATCATT AGACAAAAAT 
    ATAGATGGCT TTTGA

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

    RefSeq XP_001030001.2
    CDS1..5415
    Translation

    Target ORF information:

    RefSeq Version XM_001030001.2
    Organism Tetrahymena thermophila SB210
    Definition Tetrahymena thermophila SB210 transmembrane protein, putative partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001030001.2

    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
    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
    ATGAGAATGC TATTTTAGCA AACGGCTAGG ATCAAGATAG AATAACCATA TCGTTCGAAT 
    TATGGATAAA ATAAACTTTT CATGTTTGTG CTTTAAAATG AATAAAAAAT TAACCTTCCT 
    CTAAACATAC CAGTCTTAGA ACCTGATTAG TCTTATCCAC CAACCTTAAT TACCTATTCA 
    CCACTTGATA ATAGTGAAGC TCTTCAAAAT GCTTCTTTAA CATCATATTA GAATATTACA 
    TACTAAAGTA ACGAAATATT TTGGAAAAGC AAAGAGTAAA TTGCAATTCC TTATATTCCT 
    TATATGAGTA ACTGTAAAGG CAGTGGGTAA TTTATTTATC TACATGAATA TATTGAAGAT 
    CCAAATTATT GCGAACTCTA AACTCCTTAA AATACTATAC CAATTAGGTA AATTGAGTTT 
    AAGTAAATAC CTGTTTCTGA TATATGTGAG GAGATTAAAT TTTAGTGTTC ACTCGATGAG 
    GCCTTTAATG ATAATAATAA TTTTCCAAAA TTCTATCAAT AAAACAAAGA GGCAGAACTA 
    TTCTTTATCA CATAAAATCC AATTAATATA GATACTGATC TTACAGGAGA AAATAGCATA 
    AAGTCACTGA GTTTAATCCC AATTGTTACA AAAAATATTG TCCCTTCTTC TACTCTTCCC 
    AAAACCATTA CTCTAGAAAT CAACTACTAT CAAGTTGACA AGTATACAAA AAAAATTATA 
    ACTGCTGAAA TGAGTTTTGG ATCATTCATT GAAGAAAGTA GCAATAGCTC ATCTTCCAAT 
    TTTCAGTTTA ACTTTATCCT TTCATTTCAT TCAATGTCAC ATTCAGAGCT GGCCATAGCA 
    TTTGCTCTTG AATGGCAGAA AAAACTGAAT AGTGTGAGGC ATTACATTAA ACTCTATTAA 
    CCTATCTTAT CTGGTGTGAT TCTTGGAGTA TCATTTAGCT TTTTGGTTTA AAGCATAGCT 
    TCAATAGCAA TGCTCGGAGG CTTTTGGGGA TATTCGATAG CACCATGTGA AATGCCGACA 
    ACTGATTCAG TATGTGAAAC CTCTATTTTA GAAGTTCTTA ATAGTACAAC AATAACACAA 
    TATATTAGAA GAGGAAGATT GGGTTATACA CTTATTGTAA TAGGGATATA TGGTTGCATA 
    AGAATTACTG GAGTTTTTTT TCCTTCATCC ACATAAGATA GAATAAACAA AAATGTTGAT 
    GATTGTATTA AAGATTCATC TGGATAATAA CAAAAACTAC TCAAAACGCT TAACAAGTTA 
    AAAGAAAGAG ACAAAATGAT GGTTACTGAA TTTTATGATG GTAATATTTG GTAAGAAAGA 
    ATCTGGAAAA GAGGATAGTA TCTGTATATG TCGATTATTG TTTGGACGAT TATGTTAATC 
    ATATTGCATT TATCTTTTTC AGCCTTTTAT GCATAAAACA TTTGGCTGTT TACAGCTCTT 
    TTAAAGATAA CATAAATTTT TATATAAGAA AGCTTAAAAG TTTACATGGA AAATGAATTG 
    CTTACAAGTT CTTTTAACTG TGTAATTGCA ACCACTCTAA TTGTATCAGG TTTAGGAGCT 
    CTTGATTTTT ATGAGTATTT ATTCACATAT TTTGTTAGTC TAGGAATTTC TACCTTTGAA 
    AAGACCAATT AAGTTATTCT TGTACATCAT GTTTCACATA GGGCATTTAA GTTTGTAAAA 
    ATATTTAAGA AATGGATATA AAAATAGTTT TAATATGAAA CTAATGAAGA TGAATCCACT 
    TAATCTTAAA ATAATGATAA TTTTGGTAAT ACTATTGATG ATGAAACAGA TAATTAAAAT 
    AAGAAATTAG ATGATAACAG TGAAGTACTC TTATCTGAAA GATATGAAGA AAGCATGGAT 
    ACTTATGATG CTAATTTTGA CTAATAGTCT TTCAAAACTT ACGGATAACT TCATTTGTAA 
    GATTTAAAAA CAGAAAATAA TGAAAATATG TTTAGCTCTA CTAAGAAGAG AATAAATTTT 
    GCAGATATTT AATAAGTAAA TGAGCTGATT TAATAGGCAT AAACAGAAGA AGATTAGCAA 
    TAAATAAATT AAAATGAAAG CTTTGATGAA TTCGAAGATA AATTTTAAAG ATTCTTAGAT 
    CATAAAATAA CAAAATCTTT CATGAAGTCA CATCCTGAAA ACGAAAAATA AAAAACATAA 
    GAGCAAGAAT ACAAAGAAAA TGGAAGTTAA ATTATTAAAG TTTATACAGA TTTTTGTAAC 
    TGTTCACTCA CTATGCTTTA AGCTCCATTT TAAATTGTCT AAATGTGGAT GTTTTATGAT 
    GCAAGTTAGA CTTTTATTAG GTGGCGTATC AAGAAAGCAG GTTTGGTGTT TTATTTGTTG 
    TTTAATGTGT CAAATATACC TTTTTAGATA GTCATGGATA TTCTCTTGCT CAAATCTGTT 
    GAGTAGCTTC ACTAACTTTA CATATATGAT TATGTAAATT AAGTTCGTCA AAGATATCAA 
    AACAGAAAAT ACAATTGGAA AAGAGATGAT GAAAATGATT TTTTGAAGAT GGTAGAAAAA 
    GAGGTTTAAT ACATAGATAT CTGGTGTTAT TCTTCTTAAT ATTTTTTTTG CTAAAGCTTG 
    TTTTTAGGAA GTTCAATGGT TGTCATAAAT GGATTTCTCA CAGTTTTAGC AAACAAATAT 
    AACTTTCTAA GTGATGAATA CTTAGTTACA ATAACTATAT TATGGATAAT AGTATGTTTT 
    TTAGTCGATA CTGTCTTAGT TTACATTTAC GATCATATCT CTTTGTGGAA AGTGGAGGAT 
    AAAATCAAAT CTAAATAATA AAAATTAAAT GAAGACGTAA TTGATGAAAT TAAATTAACA 
    GAGTAATAGT TAATACCTAC AGAACATTTG ATTAAGGATT AATAACAGTT ATTTTAAGTA 
    ACAGAAGTTT ATACTAGAGA TTTTAATAAC TTAACAGCTG ATAAAAAATG TTTAGAAACA 
    ATAGAAGACA TTAGATAACA TAATATGCCA AATAATATTT TTTCAAGAGA TAATATCATC 
    TTCAAATAAA GCTCAGTATA AGAAAAGCTT ATTAAAATGT AATAAAACCA TAGGTTTGGT 
    AATAATGCCA AATTTAGTAA AGGGTATTTA GAATTTGAAA AGAAATTTTC ACTTCTTAAT 
    TAGCTTCCAG ACTCTAGCTA AAGCGATTTC GAAAGATAAT AAAATTTTAA TTTTAGTCAC 
    CAAGCCAGTT AAAAAATATA CTAAATTTTA AATGAACAAA ATAATGAGTT TAGTGAATTG 
    AAATAACTTA TTTAGAAAAA TAAATATATT AAGATGTTCT TTTTAGATGC TATAGGTATG 
    ATCAAATAGT CAGACTTAAG AATACAAAAC TATTTATTAG AGTTGTTTGA GGAAAAAGAA 
    ACATTAAACA TAAACTTAGA GATGAAATTT GTACAAATAG CTGATAAATA TAGAAAATAG 
    GATCCTGAGC CTTATAAAAA ATTATAAAAA TGGCTTAATA TTAGAGAGAG TATTAAAAAA 
    TCAGTGGTCT TAAAAAATAA AATACTGAAA TTGAAGGAAC TAATGCCAAA ACTTGAAAAT 
    AACGAATATA AAAATGAACA ATTTAAGATT AATTTCTTAA ATGTTAACAA AAAATGGTTT 
    TAAAAAAACA TCAAATTGCT ATTTGAAGAT TTAATGAAAG GAGATTCTAA GAACTAATTA 
    AAAAAAAATA GATAACTAAT ATTATCAGGA TTTAAGAGTA TTTATGGAAA ATTAAAATTG 
    AATCGTTTTA AAGGAGATTA AATTTCTAAT GAACAGAAGG TTGAGTCATC TATAAAATGG 
    TTTGAAACTA ATAGCTAAAA AACATCTTTT AAAAACGCTG CTATGATTGT AAGATATTGG 
    CTTCTTAGGT CTAGAGTATA AACATTAGCT GAGAAATGTG TCTCTGCATA TATGCTTTAA 
    GGTGAAGGCA GATGTTGTAT TTACTGCAAA TCTTCTTAGT CAATCACTAA ATAAATTTAA 
    AACTCTAATA TCGAAGATTT GTTTCTTAAA TTTTATAAAA GAGAATGCAG AAAATACAGA 
    TAATACTTAA ATGTGTTTTA AATTGTAAAT GGAATCACTA AATAGAAAGG GAAATTAATT 
    TCTCATGGTT CTTCAAGAAG ATAAACAAAA AAATTTGATG ATTTTTTACC ACTTGATAAC 
    TTCTAAGACT CAATAATAGA GCACTAAACT GAATAGAAAT CCTATTTTCT TTCAAGGTAG 
    TAAAAATTTA TAGAATCTTG GTAAGAGTAC TTTTTTTTAA ATGCAAAATT CATCTATGTT 
    TGCTTGAAGT GTAATGATAT TGCATAGAAT GAATACCTTT AAATAGTCTC AAAATTTAGA 
    AAATGGAGTG TTTAAATGCA TTTATTAGAA ATAAACAGTC AGCGAAATAA TATTATCAAG 
    GAAAAAGACG AGGAATCTGA GGGATAATTA AATAACTCCT ATTAAATAAA CTCTTCACTT 
    CTTATTAGTA ATTTTGCTCT TCACAAAGAA TCATACTCTA AAGATGAGTT AACTCCAAAA 
    AATAACGAGT AGGTAGGTTA GCAATTTATC ACAGATTCAA TTTTTCATCC AATTAATCCT 
    CAATAAAATA AATATCAAAA TACTGTTCAA GCAGAAAATT AAGTAATAAA AGAAGAGAAT 
    AATGAGGATT AAAGCTAAGC AGATAGAACG AACTATATTG ATCAGGAATT CTTTTCTCCT 
    TAACCTTAAA GAAAGAAAAG TTCAATAAAC AGTATGCTCA GTTTAAGAGT AACAAAAAGT 
    TCAACAAAAC CCTAATACCC CTAATCAAAT AATCAAAGTC CTTATAAACT AAGCTAACTA 
    GGAATTAATA ATAGCTAAAA ATTAGAAAAT TAGCCTTTAA TATAATTAGA TATTAAACAT 
    GAAGGCATAA ATAGTCAAAA TTACGACTCA GAAAAACAAG GAATTTTGTA GCCAGAAACA 
    AATAAAGATT AAAAAGATTG TATTGATGAT CAAAAAACTA GTAGAAGTGC TAAATCTATC 
    TAAAAAACTC ATCCTGAACC CTCTTAGAAT AATTTAGATG ATATAAAATT GAAAGACAAT 
    ACCATAATTG ATTAACAAAT TTAGCTGATA AATAAAAACT TAGAAATGAG CTAAAACAGG 
    TCTTTTCGTC TTGTCTAAAC AGAGAAGTAA AAAGTATTAA AGGACTAAGA GTAAGATTTT 
    CTGCAAGTAA TTAACAGTGA ATAACTTTAA AAGAGTGGTT CTTAGATAAA TTTTAGTGAA 
    TTCTCTCCAG GTGTTATAAA TTTAAACAAA AAATTTATAA ATATTTTCTA AGAAAATAAT 
    TAAAATGAAA GTAAGTTTAA TTAGAATAAT GAAGTCTAAT CCCTAAAATA ATATAATGAA 
    TATTCCTAAA ACTAAGAAGA AAGTAGCTCT TACTCTTCAG AAAAATCATT AGACAAAAAT 
    ATAGATGGCT TTTGA

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

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