ORF » Species Summary » Cryptosporidium parvum Iowa II » cgd1_30 cDNA ORF clone

cgd1_30 cDNA ORF clone, Cryptosporidium parvum Iowa II

The following cgd1_30 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cgd1_30 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
OCv01415 XM_627866.1
Latest version!		 Cryptosporidium parvum Iowa II predicted membrane protein with 12+xtransmembrane domain (cgd1_30) partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    cgd1_30 ( XM_627866.1 ) cDNA ORF clone, Cryptosporidium parvum Iowa II -> XP_627866.1 Cryptosporidium parvum Iowa II predicted membrane protein with 12+xtransmembrane domain (cgd1_30) partial mRNA.
    Price & Availability↑
    CloneID OCv01415
    Clone ID Related Accession (Same CDS sequence) XM_627866.1
    Accession Version XM_627866.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4953bp)
    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 1225382400000
    Organism Cryptosporidium parvum Iowa II
    Product membrane protein with 12+xtransmembrane domain
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_006980). 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
    ATGGAAAATT TTAATTCGAT TCCAACAATT AATTATCGGG GCAATTATCC TGGACAACAA 
    AACGCTGGAG AAATTAATTT TGATGAAGAA TATGATAGTT CTGAGTCCGA ATTTTCATTT 
    CCTGTTGTAG GATCTACTAA TTCAGCTAAT ATTAAAACAT CGGGAAAGAA TAAAGCTTTT 
    ATTGGAAGAG ACAAGGAAAA AGCAAAAAGA TACTACATAC AATCAACACT TGAGGTAAAT 
    ATTGATAATC AATATCCTGT AGATAATATA GAAATATATA GACAAAAAAT TTTCCCATTT 
    CAACTATCTC CAAATATTTC TCTTGTAGCA CCAGAAGAAA AAAATGTAAA TAAATCCAGA 
    ATTTCTAAAA TTTGGAAAGC TTTGTCAAAT TCTGAGCCAT CCATCATTGG TATTTTAAGA 
    GGCAAAGGAT TTGTTTACAC TCTTCCAGAG ACAATAGACT TATTATTATA TGCTACTTTT 
    TGTTTTGGAT TTATGATGGT TATTCTTTTT TTTAATTCCT CAGGAAGTGT TAAACATTCA 
    ATTCACAATA TGTTAAACCA GCAAACTTTT AATTTTCAAT CTTCATTAGC ATCCGAGTGT 
    CTTGGAATAC CTGATGAAAA TGGAGTAAGC AGTTATGAAC AATTATACTC AAAAAAATTT 
    ATTCAATACG TTATTGAACC CAATAAAGAC ACTTTTTTTA ATTCGATGAG TGACGACGTT 
    GTGTTTCCAT GTGGAAGAGG AACAATTAAG GACGTGGCTA CTATTGCGGA TTACCTGAGA 
    TGGATTGCAT TGGTATTATT TCCTTCATTT ATCTATATTA GGAACACAAT GAATTCGGCT 
    CTCACGAGCC ATATTAAAAT TTCAACTCAA TTTAATAATG GAACAGAGTC TGAGTTAACA 
    TATGTTTTAG ATAAAGGAAT ATTAAAAGGA AATAATATAT ATATCTATCC TTATGACACG 
    GAGTCTGCTC TTGAAATTTT GGATTTTATT GTAGAAAAAA ATTATTTTAA TAATACAGAA 
    GTTTCAAGTA TTAATACTCG TTTTTTCACT TATAATCCTT TTGTTGGGAT AAAAACATCG 
    GTTATGATTA CTCTTGGAAA TTCTAAAATA ACTGGCTATT ATGATTCAAG TCTTGATGTA 
    AAATCTTTGC TAATACATAC AAATTCATAT TCATATATAT TTATGGCTCT TGCAATTATT 
    TCAGGTTTCT TTGGTTTCTT GAGATTTTTT ACACATAAAG ATGTCATCGT GTCTCCAATC 
    ATGACTATAA AAAGTTCTAT GAACAGGGTA TTTGCATTGC TATCTTCTAT ATTAATAATT 
    ATTTCTGTAG TTACATATAT GTGTATATTT ATTCCAATTA ATTGGCTATG GACTGAAGAT 
    TCTTCTCTCA AATACTCTAG TTTGCTTTCA TTACATGAAG ATAAAATGGA AGAAAATTTT 
    ACTGAACAGT CAAGTCACTT CGAATATCTT GCTACTTTTG ATATTATATT TAGAACTTCA 
    GGTAGCGCAA GTTTAATATT CACACTTTGG GAGTTTTTTT GGTTCCTTTC GGTTAAAATA 
    TCTCGCAAGC ATGCTACTTC GATTACTGTT GTTGTAAAAA AAGTAACTTT TCCTATATTA 
    CTTGGAGCTT TGTTGGTTTT GTTTTTTTTC TCAAGTTATG GAATAATCGG TTTAATTTTG 
    CTAGGGGATT ATACGCCTAT GTATTCTTCG GCTAAGTCTA TATTATTCCA TATGTTATTG 
    TTCATTGTAG GGAAAACAGA TGAGATTTGG ATTTTGTTAA ATGAAACAGG CATATATACT 
    GGGATTTTTT TTGTACCTAT CATTTGTATT TTCGGAATTA TTTTGCCTAG CTATGTTTAT 
    GCTTTGTTTT GCCATATATA TAACTCTACA ATAGACACAG TTGAATGGTG TTGGGACAAT 
    TGTACTAGGG AAACTGAAAC AAATATCCAA TCTTCTCCCT GGTATATAGA AGAGAACTCA 
    ATTTACGAAA GGAATATTCG AGATGATAAT GCTTCATCTA CACAGAAAAC TAACGAATCA 
    AAAGGCATTA ATAACAATGA ATCTCAAGAA TTAAATTTAA ACATGCATCA AAATAGTCAA 
    ATGAATGATT TGCTCTTTGT CAGAGATAGG TATTCAAACT TCATGGCTCA GACAACAACC 
    TTTGAAAGAT TATTTGATAT TTTTTTTTCA AGAAAAAAAT ATTTAACTTT AAAGCAAAAG 
    AAGGAGATTG AAATGGGTAA ATTTGATTCT TATGAACAAA CTAGAAAAAT AGCAAGTTTA 
    CATGGAAGTA ATGTTAATAA CTTGAATAAT TCGTTGCCAA GTTTAACAAA CAATAATGCA 
    AATGAAAATA GTGAGATTAT TAAACAACAA AGTCAAAATG AAAGTTTGGA AGGAAGTGAA 
    TATGTAACAC TTGTTACAAA GTCAATACAT GAATATTATT GGTCTATTTT CAATTCTGGA 
    AAAACTATTT TTTCAAATCC AGGGACTGTT TCAAATTATG GAAATAATAT CTCGAGTACC 
    AGCCAACAAT TAATGTTTAG AATGGTTGGC ACAATGGAAG CTTCAGTTGA TATGACACAG 
    TTCCTGATTT CTAAGAACAG GGACTCAGAC TACTCAGATT CTATAGGTTT AAACGACCAA 
    AATGGACTTC CTCTTTTAGT TGGAAATGTA ATGGCTGCCT CACCATGCCC AAATATGGAA 
    AATTTATTAA CTTTTACAGA AAAAATCAAT AGAGTGGGAG AGAGCATCTG GTTTACGGTT 
    TTGTTGTGTT TTATTTTAAT ATTATTAATT ACTTCGAGTA TTTTTGAGTT TAGAAAACAA 
    ATTTACAATG ATTTAATTAA TTCAATTTCT TGGAACCAAT TCCATACTAA TATTAATGTA 
    AATGCGATGA AGCCAATTTC CGCAAAGGGG GAGCTTGATA TTAAGAAATC AACTAATCCA 
    TCAAAGTTCA TTCTAAATCC TGTAACATTA AATTTATTAA CTTCAGAAAC CTCAAATGAA 
    GTAGCATATT GGATTTCACT TGCGTCCTCA AGGCTGATAT TTAACTCTTC ATCAGAATAT 
    CAATATAAGG TGTTATTTCC GGATTTCAAA AATGATATAA CTTATCCAAA AATATTATTT 
    GACCAAAATT TGCTATATAA TGATCAAGGC GAAGCAGGCG TTACGTTAAG AGCCATTGCG 
    GTAACTGAAA ATAGGTCTGT AGACCAATAT ATTGATGGAA CTAGTTCTGC TGACGAATTA 
    TTTAAGTTTA TAGGAGTAAC GGAAAGATTT TTTTCAACAT TTGATGATGA TGACAAAAAA 
    TTATCTGAGG ATTTGAATAT GAAATTTATT AACAAAGCAA TAAATGGCTA TCCATTTTTT 
    TATACTAAAA ATATTGTTCC AAGTGAACAT TCTTCATTTA TTGAAAGTCT GTATTCAAAC 
    ATTTATGAAT TACTGCATTA CCCAAAAATA GTATATTTGG AGATTCTGTT GCCATCTTTA 
    CTTATAGAAG ATCAAATGTT CAATTTTGTA AGAATAATAA TAACCAGAGA TATATCAGGA 
    GGCCTTAATA AAGAACCTTT AAATATTTTG CTGAGTACAA TAAATAGTGA ATTTGATTCA 
    TATTTCAAAA TTTCACTTGA AGTTGCAATT ATCTTATTAA CGATTGCTTA TATAGTCGTT 
    TTTTTTTTAG AATGCAAGAA ATTTACAAAG ATATATAGGA ATTCCCCTGA ATCTACAGGA 
    AGAAGAGCAA GGTCAACAGT GTTTTGTTTC TTCAACTATA TCTTTACTGA CTTATCACGA 
    GCTCATGACA TAGTAATAAT CATGATGATT ATTATCAGGT TAGGAGTTTA TTCTTCAATA 
    TTTTACTATA AAATGGTATT ATTTAAATCA AAGATTGACA CTAATGAATT TGATATGGTA 
    TATGGACTAT CAATCCAATT ATCATATATT AATATTGCGA TTATTTGGAT TTTTATTTTA 
    CGGTTATTTG GACAATTTTC TTCTATTTCA AGCAATTTCA GGTTTCTTAC GTTCTCATAT 
    AGACGATCAT TTTTACCTTT GTTTTTAGTA TTCGTTTTTT TGGCTTTGCA ATTTATTGGG 
    CTCTCAATTA TGATTTTTAT TAACTTTTCA AGCTGCAATG ATAACTACTC CTCAGTATTT 
    GGAGTCATTT CCTCAACAAT TAATTTATTT GTTGGGAATT TTGACTTTTA TGAGGCGTAT 
    AAATGTTCCA GTAATCTTAC TATTTCTGTA TTGCTTCCGC TTCTTATCGC AATTTATTAT 
    ATTATTATGC CTGTTCATAC CGTTATTATA TTAAGAAGTC TTTGGCTTTC AAAAAAAGAA 
    TCTACAGATA TTGACAGAAT TTTCAAGATA GTAGCGGAGA GTCGAAATAA AAAGAATTCT 
    GAAGAATACA AAAAATATAT TAAACATATA ACTGGTATGA ATACGCAAAT TAGCGAGCGT 
    GAAATATGGG ATCATGCTGG GATAGATTAT GATGAAGATG ATCCAATAGA TAGAAAGATG 
    TATGAACAAA AATATGAAAA AAGTGTTCCA AAGGTTGAGA TACCACCTCC GAAAATTGCA 
    GAACTTACTG ATGAACAGTG GGATGCATCG CCAGATTTCA TAAAAGAATG GGCTGAATAT 
    GAAGCAGAGA GTTTTATAGA TAGGTTTAGA TGTTTAGAAA GTGAATTTAA AATGAATACA 
    AGCTCAACTG GTTATTATTC TCAGTTTGTT TCCAGATGGG AAAGTTCTGT TTATAAAGAG 
    TTGCAGCTGC TGGAAGTTAC AACAAATGAA GCAGAGCAAC TTCTAAAAAG GTTACAGAGG 
    GCCATAAAGG GAACTGCAAG TAGAGTGAGA ATTAATCAAG CACTACAAAC AAATAATCTA 
    GAAGCTGCAA TTAGAGAAAA AGAAGAAGAA AGAGAATCGA AAAGAGCACT GCTCAAGGCT 
    AGGAAGAACA GAAATATTTA TGATAATAAT TAA

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

    RefSeq XP_627866.1
    CDS1..4953
    Translation

    Target ORF information:

    RefSeq Version XM_627866.1
    Organism Cryptosporidium parvum Iowa II
    Definition Cryptosporidium parvum Iowa II predicted membrane protein with 12+xtransmembrane domain (cgd1_30) partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_627866.1

    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
    ATGGAAAATT TTAATTCGAT TCCAACAATT AATTATCGGG GCAATTATCC TGGACAACAA 
    AACGCTGGAG AAATTAATTT TGATGAAGAA TATGATAGTT CTGAGTCCGA ATTTTCATTT 
    CCTGTTGTAG GATCTACTAA TTCAGCTAAT ATTAAAACAT CGGGAAAGAA TAAAGCTTTT 
    ATTGGAAGAG ACAAGGAAAA AGCAAAAAGA TACTACATAC AATCAACACT TGAGGTAAAT 
    ATTGATAATC AATATCCTGT AGATAATATA GAAATATATA GACAAAAAAT TTTCCCATTT 
    CAACTATCTC CAAATATTTC TCTTGTAGCA CCAGAAGAAA AAAATGTAAA TAAATCCAGA 
    ATTTCTAAAA TTTGGAAAGC TTTGTCAAAT TCTGAGCCAT CCATCATTGG TATTTTAAGA 
    GGCAAAGGAT TTGTTTACAC TCTTCCAGAG ACAATAGACT TATTATTATA TGCTACTTTT 
    TGTTTTGGAT TTATGATGGT TATTCTTTTT TTTAATTCCT CAGGAAGTGT TAAACATTCA 
    ATTCACAATA TGTTAAACCA GCAAACTTTT AATTTTCAAT CTTCATTAGC ATCCGAGTGT 
    CTTGGAATAC CTGATGAAAA TGGAGTAAGC AGTTATGAAC AATTATACTC AAAAAAATTT 
    ATTCAATACG TTATTGAACC CAATAAAGAC ACTTTTTTTA ATTCGATGAG TGACGACGTT 
    GTGTTTCCAT GTGGAAGAGG AACAATTAAG GACGTGGCTA CTATTGCGGA TTACCTGAGA 
    TGGATTGCAT TGGTATTATT TCCTTCATTT ATCTATATTA GGAACACAAT GAATTCGGCT 
    CTCACGAGCC ATATTAAAAT TTCAACTCAA TTTAATAATG GAACAGAGTC TGAGTTAACA 
    TATGTTTTAG ATAAAGGAAT ATTAAAAGGA AATAATATAT ATATCTATCC TTATGACACG 
    GAGTCTGCTC TTGAAATTTT GGATTTTATT GTAGAAAAAA ATTATTTTAA TAATACAGAA 
    GTTTCAAGTA TTAATACTCG TTTTTTCACT TATAATCCTT TTGTTGGGAT AAAAACATCG 
    GTTATGATTA CTCTTGGAAA TTCTAAAATA ACTGGCTATT ATGATTCAAG TCTTGATGTA 
    AAATCTTTGC TAATACATAC AAATTCATAT TCATATATAT TTATGGCTCT TGCAATTATT 
    TCAGGTTTCT TTGGTTTCTT GAGATTTTTT ACACATAAAG ATGTCATCGT GTCTCCAATC 
    ATGACTATAA AAAGTTCTAT GAACAGGGTA TTTGCATTGC TATCTTCTAT ATTAATAATT 
    ATTTCTGTAG TTACATATAT GTGTATATTT ATTCCAATTA ATTGGCTATG GACTGAAGAT 
    TCTTCTCTCA AATACTCTAG TTTGCTTTCA TTACATGAAG ATAAAATGGA AGAAAATTTT 
    ACTGAACAGT CAAGTCACTT CGAATATCTT GCTACTTTTG ATATTATATT TAGAACTTCA 
    GGTAGCGCAA GTTTAATATT CACACTTTGG GAGTTTTTTT GGTTCCTTTC GGTTAAAATA 
    TCTCGCAAGC ATGCTACTTC GATTACTGTT GTTGTAAAAA AAGTAACTTT TCCTATATTA 
    CTTGGAGCTT TGTTGGTTTT GTTTTTTTTC TCAAGTTATG GAATAATCGG TTTAATTTTG 
    CTAGGGGATT ATACGCCTAT GTATTCTTCG GCTAAGTCTA TATTATTCCA TATGTTATTG 
    TTCATTGTAG GGAAAACAGA TGAGATTTGG ATTTTGTTAA ATGAAACAGG CATATATACT 
    GGGATTTTTT TTGTACCTAT CATTTGTATT TTCGGAATTA TTTTGCCTAG CTATGTTTAT 
    GCTTTGTTTT GCCATATATA TAACTCTACA ATAGACACAG TTGAATGGTG TTGGGACAAT 
    TGTACTAGGG AAACTGAAAC AAATATCCAA TCTTCTCCCT GGTATATAGA AGAGAACTCA 
    ATTTACGAAA GGAATATTCG AGATGATAAT GCTTCATCTA CACAGAAAAC TAACGAATCA 
    AAAGGCATTA ATAACAATGA ATCTCAAGAA TTAAATTTAA ACATGCATCA AAATAGTCAA 
    ATGAATGATT TGCTCTTTGT CAGAGATAGG TATTCAAACT TCATGGCTCA GACAACAACC 
    TTTGAAAGAT TATTTGATAT TTTTTTTTCA AGAAAAAAAT ATTTAACTTT AAAGCAAAAG 
    AAGGAGATTG AAATGGGTAA ATTTGATTCT TATGAACAAA CTAGAAAAAT AGCAAGTTTA 
    CATGGAAGTA ATGTTAATAA CTTGAATAAT TCGTTGCCAA GTTTAACAAA CAATAATGCA 
    AATGAAAATA GTGAGATTAT TAAACAACAA AGTCAAAATG AAAGTTTGGA AGGAAGTGAA 
    TATGTAACAC TTGTTACAAA GTCAATACAT GAATATTATT GGTCTATTTT CAATTCTGGA 
    AAAACTATTT TTTCAAATCC AGGGACTGTT TCAAATTATG GAAATAATAT CTCGAGTACC 
    AGCCAACAAT TAATGTTTAG AATGGTTGGC ACAATGGAAG CTTCAGTTGA TATGACACAG 
    TTCCTGATTT CTAAGAACAG GGACTCAGAC TACTCAGATT CTATAGGTTT AAACGACCAA 
    AATGGACTTC CTCTTTTAGT TGGAAATGTA ATGGCTGCCT CACCATGCCC AAATATGGAA 
    AATTTATTAA CTTTTACAGA AAAAATCAAT AGAGTGGGAG AGAGCATCTG GTTTACGGTT 
    TTGTTGTGTT TTATTTTAAT ATTATTAATT ACTTCGAGTA TTTTTGAGTT TAGAAAACAA 
    ATTTACAATG ATTTAATTAA TTCAATTTCT TGGAACCAAT TCCATACTAA TATTAATGTA 
    AATGCGATGA AGCCAATTTC CGCAAAGGGG GAGCTTGATA TTAAGAAATC AACTAATCCA 
    TCAAAGTTCA TTCTAAATCC TGTAACATTA AATTTATTAA CTTCAGAAAC CTCAAATGAA 
    GTAGCATATT GGATTTCACT TGCGTCCTCA AGGCTGATAT TTAACTCTTC ATCAGAATAT 
    CAATATAAGG TGTTATTTCC GGATTTCAAA AATGATATAA CTTATCCAAA AATATTATTT 
    GACCAAAATT TGCTATATAA TGATCAAGGC GAAGCAGGCG TTACGTTAAG AGCCATTGCG 
    GTAACTGAAA ATAGGTCTGT AGACCAATAT ATTGATGGAA CTAGTTCTGC TGACGAATTA 
    TTTAAGTTTA TAGGAGTAAC GGAAAGATTT TTTTCAACAT TTGATGATGA TGACAAAAAA 
    TTATCTGAGG ATTTGAATAT GAAATTTATT AACAAAGCAA TAAATGGCTA TCCATTTTTT 
    TATACTAAAA ATATTGTTCC AAGTGAACAT TCTTCATTTA TTGAAAGTCT GTATTCAAAC 
    ATTTATGAAT TACTGCATTA CCCAAAAATA GTATATTTGG AGATTCTGTT GCCATCTTTA 
    CTTATAGAAG ATCAAATGTT CAATTTTGTA AGAATAATAA TAACCAGAGA TATATCAGGA 
    GGCCTTAATA AAGAACCTTT AAATATTTTG CTGAGTACAA TAAATAGTGA ATTTGATTCA 
    TATTTCAAAA TTTCACTTGA AGTTGCAATT ATCTTATTAA CGATTGCTTA TATAGTCGTT 
    TTTTTTTTAG AATGCAAGAA ATTTACAAAG ATATATAGGA ATTCCCCTGA ATCTACAGGA 
    AGAAGAGCAA GGTCAACAGT GTTTTGTTTC TTCAACTATA TCTTTACTGA CTTATCACGA 
    GCTCATGACA TAGTAATAAT CATGATGATT ATTATCAGGT TAGGAGTTTA TTCTTCAATA 
    TTTTACTATA AAATGGTATT ATTTAAATCA AAGATTGACA CTAATGAATT TGATATGGTA 
    TATGGACTAT CAATCCAATT ATCATATATT AATATTGCGA TTATTTGGAT TTTTATTTTA 
    CGGTTATTTG GACAATTTTC TTCTATTTCA AGCAATTTCA GGTTTCTTAC GTTCTCATAT 
    AGACGATCAT TTTTACCTTT GTTTTTAGTA TTCGTTTTTT TGGCTTTGCA ATTTATTGGG 
    CTCTCAATTA TGATTTTTAT TAACTTTTCA AGCTGCAATG ATAACTACTC CTCAGTATTT 
    GGAGTCATTT CCTCAACAAT TAATTTATTT GTTGGGAATT TTGACTTTTA TGAGGCGTAT 
    AAATGTTCCA GTAATCTTAC TATTTCTGTA TTGCTTCCGC TTCTTATCGC AATTTATTAT 
    ATTATTATGC CTGTTCATAC CGTTATTATA TTAAGAAGTC TTTGGCTTTC AAAAAAAGAA 
    TCTACAGATA TTGACAGAAT TTTCAAGATA GTAGCGGAGA GTCGAAATAA AAAGAATTCT 
    GAAGAATACA AAAAATATAT TAAACATATA ACTGGTATGA ATACGCAAAT TAGCGAGCGT 
    GAAATATGGG ATCATGCTGG GATAGATTAT GATGAAGATG ATCCAATAGA TAGAAAGATG 
    TATGAACAAA AATATGAAAA AAGTGTTCCA AAGGTTGAGA TACCACCTCC GAAAATTGCA 
    GAACTTACTG ATGAACAGTG GGATGCATCG CCAGATTTCA TAAAAGAATG GGCTGAATAT 
    GAAGCAGAGA GTTTTATAGA TAGGTTTAGA TGTTTAGAAA GTGAATTTAA AATGAATACA 
    AGCTCAACTG GTTATTATTC TCAGTTTGTT TCCAGATGGG AAAGTTCTGT TTATAAAGAG 
    TTGCAGCTGC TGGAAGTTAC AACAAATGAA GCAGAGCAAC TTCTAAAAAG GTTACAGAGG 
    GCCATAAAGG GAACTGCAAG TAGAGTGAGA ATTAATCAAG CACTACAAAC AAATAATCTA 
    GAAGCTGCAA TTAGAGAAAA AGAAGAAGAA AGAGAATCGA AAAGAGCACT GCTCAAGGCT 
    AGGAAGAACA GAAATATTTA TGATAATAAT TAA

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

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