ORF » Species Summary » Cryptosporidium parvum Iowa II » cgd1_2300 cDNA ORF clone

cgd1_2300 cDNA ORF clone, Cryptosporidium parvum Iowa II

The following cgd1_2300 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cgd1_2300 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
OCv00936 XM_628061.1
Latest version!		 Cryptosporidium parvum Iowa II integral membrane protein with 12 or more transmembrane domains (cgd1_2300) 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_2300 ( XM_628061.1 ) cDNA ORF clone, Cryptosporidium parvum Iowa II -> XP_628061.1 Cryptosporidium parvum Iowa II integral membrane protein with 12 or more transmembrane domains (cgd1_2300) partial mRNA.
    Price & Availability↑
    CloneID OCv00936
    Clone ID Related Accession (Same CDS sequence) XM_628061.1
    Accession Version XM_628061.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4701bp)
    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 1204473600000
    Organism Cryptosporidium parvum Iowa II
    Product integral membrane protein with 12 or more transmembrane domains
    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
    ATGCCTTTAT CAAACTACCA TAATGAAAGT ATTAAAAATA TTTGGTTTGG AAATTATTCT 
    CGAAAAAATG GGCCTAGTCT AATAAAAAAA ATCAATATTA ATAAAAACAC AATTTCATTC 
    ATTAAAACGG TATCTCAATT ATTAATTATT GATATAATTT TTATTATATC TAATATCTAT 
    ATTAACAGAT ACATGCTTTC TTTTAAAAGC ATTTTTATGT TGGCAATTAA TATTCCAATA 
    ATATATTTAT CTTTGTTTAT TTCACAAAGA TTAAATATTT GTTCCTCTGA ATTTGTATCG 
    AATCTGGAAA AAAAATTAAA TTTTAATACG CTCGAGTCTG GGATTTCAAG TAACAAATTA 
    TTGAGTCTTG AGATTCAATG CTTAAATTCC CTTCGCTTAA TAGAAAATGG TTTGATTTCT 
    ATTGTTCACT TAATACTTTA TCCTGTCAGA TTTGGTTTCT TTGGCTATAT TTTTTTTAAT 
    AGCAACTGGA ATACTTTTTT ATTTGTGAAT AAAGTTATAG AATTATTCAT TTTTACTACA 
    ATTTTTGAAT GTTTGAGAAT TAAATTATTA ATTATTCCTG AACAAAAATC ACTTATTATG 
    AACATTAGTG ATTATTTTGA TAGCTTGAAG ACGCTATTAC TATTAAGTAA CCATAGAGAA 
    GTTTTCATAA ATACACAAAA AATCATTGAC TTTACAAAAG GATTATTAAG TTATATACTT 
    GTAATATTTC AAAGTATTTG CACGATGTAC CTTGTTTTTA AAATAGTGCA TTTTTTCAAT 
    GAAAAGTCAC ATGAATTTGG CTTATCACAA ATCTATATAT TCAATTATTG GTTTGCAATC 
    TATTTACTTT ATTCAACAAG ATACATTAAT TCATGTATCC ATTTCATTAT TAATTATCGT 
    TATTTTGTTA CTCTTTTTCA ATTACCCAGT GATACTGGAT TAAATTATAG CTTTATACCA 
    CAAAAGATAA GTTATTTCGA TAAAAATCAT CAAGAATCCG ATAAAAATCA AATTTCAGAG 
    CCTTTAATTG ATTTCAAAGA TTCAGGTAAT GAATTTAAAA TAAAAAATAA TTACGATACT 
    CTTAACAAAA AATATTCATT AATTTACAAT ATTCACGATA GTCTGGATAA CAGATTCCAA 
    AAAAATTATT CCATTTCAAA AAAAGTTTCT GATACAATTA ATGTTATATC CAATGGAACC 
    AACATTGGTA ATGATAATTA TGATACCTTA GAAAATGATC ATGAATTTAA TTTTCAAATT 
    TCAAATAATT TGTTTAATTC AACAATTATT ACTTATAAAA ATTTATCAAT CTCTGAGAAT 
    AAATTTAAAA AACAAATTCA CAATTCAAGC AATAAATTTA AGTTTTTGTT TAATTTATTT 
    GAAAAAAAAA TGGGACAAAC TAATTATTGT TTAAGCGATC ATTGCAATAA TCATATGGAA 
    ATTACTGACA AGGAATTAAT GGAACATAGA TTTTATCTAA ATAATATAAA TTTATCAATT 
    AAAATGAATG AAGTAATTAT TATATTTGGG TCTGATGATA AAAGTAAAGA ATTATTAACG 
    AAATTTGTTT CTGGATTTCC TGGAATTCAG AGTAATGAAC AACTCAAATC TCATTCGACA 
    AATCTTCTCA ATTACGATGT TTTTTTAATG AATAGAAAAA TGCTTGAATT TGTCTCAAAT 
    TTTTTTGAAT ATCAAAATTC AGAATTTATA ATAGACCCAT TCGATTTCAT ATTATCTGGA 
    AAACCATTTA ACAAACATAT TTTTGAGTTG ATATATGACT CATTTTTATC TCAATATTTT 
    ACGAAGATTG AACCTTCGCA TGTGAATTCT GAGACAATTA AAAATTATAT TTATCCAAAA 
    GTTGAAAGTA TTCAACAATT TGTCGAGGCA AAAATATTTT TACAACTTTC TCAGTTCTTT 
    TATAACATTT TGACTACGCT TGATAATTAT TCATTCGCAA TTGTGATTAT TGATGGTATT 
    TTTGAATTAT TACTTCCAGA AACTTACATT AAACTAGTTG AAAAGATATT ACCGAATAAT 
    TCAATATTTT CAGAGTTTAA TATTTCTTTT ATTATTACAA CGAATAGTGA TTTATTCCCA 
    TATTTATCTT ATTTATATCA AAATAATTCA TATGTCAAGT TGGCAGTGAT TAATACGGGA 
    GGACTATATT TTACCAAAGA TAATTACTTG AAAGTGGAAA TTAAAAACAA ATTTGTTGAA 
    AATTTGCCGT CAATAGATAA TACAATAAAT GAAATTTTTA ATATTAAATT AAAGAATAAC 
    AATACTTACC CTTGTTCAAC AAGTATTTCT TCTATCAGCA GATTATTCTT TAAAAGATTT 
    GAAACTAGGA ATTTTTATTC AAGCAAATAT TTGATCTATG TTTTTTTTAT TGCACTATTT 
    TCATTTACTG TAAAATTGAC GATATTTTCT TGCCAGCACC TGACGAAGAA TCACAAAAAT 
    GTTAACAATA TTTACGACTT TTTTGTATTT GAAACTCTAT CTTTTTACCC TCTATACTCG 
    CTAGTTATAA CTTCAAGAAA TTCTTATTCA AATGGTTTAT CAAGCATACT AATAGGATAC 
    GGAGTAATTT CATCGCTTAT GCTTAATAGT TATAATGCTT TTTTTTCAGA ATCAAACTTC 
    TTGAAAAATA ACGAAGTCGT TTTCAATGAA GGAGAAGTTG ATAATTTTGA GGAAATTCCG 
    GAATTTTTGA GAGATATACC AGAAAAACAT TACAGTTCCT CACATTTTAT TCAATTTAAC 
    GGAAAACAAA TATTAAGGAC AGAATCATTG TTTTACAAGG ATCATTTTCT TAGCTCAAAG 
    ACAATAAATA TACCTGGAAT CAAGCCTAAA GGATTTAATA GTGCTCTAAT TTCGTCCAAG 
    AAAATAAGAA ATATCTTAAT ATGGAAATCA AAAAAAGAAT CTAATATTAA ATTGTTACAA 
    AAATATGAAC AATTTACCAT GGAAAAAAAT CATAAATTTA AATTTAACAA AAATACAATC 
    TTGATATTAA CAATATTCTT TTTTATAAAT ATTGTTTCAA AGGCATTAAT AAATATATTA 
    ATTTTTGGAT TTTCGTTAAT TAACATTAAT TCAATGAGTT ATTATAATTG TTTTCATGAA 
    TTTTTGAAAA TTATTTTGTC TTCAGATGAT CCTATTTCAG TTATTAATGA TATTGAGATA 
    AGAAAAAATA GATATTGTTT ATATCTTTTC AAAGAAATAT ATTGCAAAAG AAGTAAAGTT 
    ACAATCCATT ATCTAACTTT AATTCACTTT CTCAATTTAT TACTCTTTTT TGGAATTTCA 
    AACAACTTGC ATTATACCGT TGGAATTAGA ATATTAATGA ACAAGAATCT GCTTATTATT 
    ACAATATTGT TTCCAATTTT ATATAATATT ATTAATTTTT CAAACTTTAA TATTAACAAA 
    ACCAAATATT CAAATCTTGG GTGCAATTCA TTTGATTATT ATTATTACTT GAATAAAAGC 
    AACTCATTAC CGTGGTTCAA ACGCCAAATA TTTAAACTAT TAAAACTTAA ACAGGAAAAC 
    CTCAAAGAAT TTTCTAGTTT TAAAGTGAAT TTACTGTTAA ATTCGTTCAT TTTATCGATT 
    GTAGTTTCAT TTCTATACTT TTTATTCAAT TATAAAAAGA ATGAAAATAA TCAACAGCTG 
    AAAATTGATT TAATAACACT TCTACCAATA ATATTTTTTT TAATTCAATC TATTCATTTT 
    CATATTACTC AAAGATCAAA AACTAATACC TTTCATAAAC TAAATCTTTA TAGTTACATA 
    AGATGGTTAA AAACATCACT GCAGAAAGCT TATTATTTTC CAATTTATAT AAATAAATCA 
    GCAAGTTCAA CATCTCCAAA AACTAATACT AGCTTTTCAT CAAATAAAAG AAATAGTACT 
    TTATATGAAG ATGGATATGA ACTTTCAACA CCAATATCAG GAGATTCTCT GAAAGTTGAC 
    CCGATAATTT CTATTAGTTC GACAAAAGTT CATTTGAGCT CTAATATCGT ATTAATTCTG 
    ATCAATCCTC TTTTATTTCT AGATAATTCT TTGACATTTG GATATGGAAA ATCGCCTATA 
    TTTCCAATTA AGCAATTAAA GACAGTAAAG ATTAATAACT TTGATAGAAT TGCAGTAATT 
    TCTAACCATA ATTTAATATC ATCATATTGG ACAATTAATA TGGTTTTAGA TCCGAAAGGC 
    ATGTATACAA ATGACAATAA AAGCCTTTTG CATACATTAA AATCATTAGA CATTTTCCCT 
    AATGTACTCG ACAATTTTGA CCAGAATGTA ATTTTGAACA TGCCAATACG AGAATATTTA 
    GAATTTTTTA ATTCTCAAGT TGTTGATAGT GAATTGTCTG TCACCGGTGA TATCAAAATT 
    ACAAATTTTG AACGCGATAT TAGATCACAA GATTTGAATA AATTAGAGCA ACACTTAAGT 
    AAAGCAGAAG AAAACTTACG TGATACAATT TATATTAAAA AGTTATTGCT TTTTGGACAT 
    TTTGCACTTT ATTCTATGTA CTACAGAGAA CTAATTTTAC ACTTAGATTA TAATATGGAT 
    CTTAATGTTT GGATTTCACT TGTCAAACAA TTTTTTGATA ACGAGGAATC TTCAATTAAT 
    AATATAATAA TTATTTCAAC AGAAACAGAT TTACCAAATA TCATTGAAAC TGAAACTAGA 
    TTATATAATG AAGGGAAGTA A

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

    RefSeq XP_628061.1
    CDS1..4701
    Translation

    Target ORF information:

    RefSeq Version XM_628061.1
    Organism Cryptosporidium parvum Iowa II
    Definition Cryptosporidium parvum Iowa II integral membrane protein with 12 or more transmembrane domains (cgd1_2300) partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_628061.1

    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
    ATGCCTTTAT CAAACTACCA TAATGAAAGT ATTAAAAATA TTTGGTTTGG AAATTATTCT 
    CGAAAAAATG GGCCTAGTCT AATAAAAAAA ATCAATATTA ATAAAAACAC AATTTCATTC 
    ATTAAAACGG TATCTCAATT ATTAATTATT GATATAATTT TTATTATATC TAATATCTAT 
    ATTAACAGAT ACATGCTTTC TTTTAAAAGC ATTTTTATGT TGGCAATTAA TATTCCAATA 
    ATATATTTAT CTTTGTTTAT TTCACAAAGA TTAAATATTT GTTCCTCTGA ATTTGTATCG 
    AATCTGGAAA AAAAATTAAA TTTTAATACG CTCGAGTCTG GGATTTCAAG TAACAAATTA 
    TTGAGTCTTG AGATTCAATG CTTAAATTCC CTTCGCTTAA TAGAAAATGG TTTGATTTCT 
    ATTGTTCACT TAATACTTTA TCCTGTCAGA TTTGGTTTCT TTGGCTATAT TTTTTTTAAT 
    AGCAACTGGA ATACTTTTTT ATTTGTGAAT AAAGTTATAG AATTATTCAT TTTTACTACA 
    ATTTTTGAAT GTTTGAGAAT TAAATTATTA ATTATTCCTG AACAAAAATC ACTTATTATG 
    AACATTAGTG ATTATTTTGA TAGCTTGAAG ACGCTATTAC TATTAAGTAA CCATAGAGAA 
    GTTTTCATAA ATACACAAAA AATCATTGAC TTTACAAAAG GATTATTAAG TTATATACTT 
    GTAATATTTC AAAGTATTTG CACGATGTAC CTTGTTTTTA AAATAGTGCA TTTTTTCAAT 
    GAAAAGTCAC ATGAATTTGG CTTATCACAA ATCTATATAT TCAATTATTG GTTTGCAATC 
    TATTTACTTT ATTCAACAAG ATACATTAAT TCATGTATCC ATTTCATTAT TAATTATCGT 
    TATTTTGTTA CTCTTTTTCA ATTACCCAGT GATACTGGAT TAAATTATAG CTTTATACCA 
    CAAAAGATAA GTTATTTCGA TAAAAATCAT CAAGAATCCG ATAAAAATCA AATTTCAGAG 
    CCTTTAATTG ATTTCAAAGA TTCAGGTAAT GAATTTAAAA TAAAAAATAA TTACGATACT 
    CTTAACAAAA AATATTCATT AATTTACAAT ATTCACGATA GTCTGGATAA CAGATTCCAA 
    AAAAATTATT CCATTTCAAA AAAAGTTTCT GATACAATTA ATGTTATATC CAATGGAACC 
    AACATTGGTA ATGATAATTA TGATACCTTA GAAAATGATC ATGAATTTAA TTTTCAAATT 
    TCAAATAATT TGTTTAATTC AACAATTATT ACTTATAAAA ATTTATCAAT CTCTGAGAAT 
    AAATTTAAAA AACAAATTCA CAATTCAAGC AATAAATTTA AGTTTTTGTT TAATTTATTT 
    GAAAAAAAAA TGGGACAAAC TAATTATTGT TTAAGCGATC ATTGCAATAA TCATATGGAA 
    ATTACTGACA AGGAATTAAT GGAACATAGA TTTTATCTAA ATAATATAAA TTTATCAATT 
    AAAATGAATG AAGTAATTAT TATATTTGGG TCTGATGATA AAAGTAAAGA ATTATTAACG 
    AAATTTGTTT CTGGATTTCC TGGAATTCAG AGTAATGAAC AACTCAAATC TCATTCGACA 
    AATCTTCTCA ATTACGATGT TTTTTTAATG AATAGAAAAA TGCTTGAATT TGTCTCAAAT 
    TTTTTTGAAT ATCAAAATTC AGAATTTATA ATAGACCCAT TCGATTTCAT ATTATCTGGA 
    AAACCATTTA ACAAACATAT TTTTGAGTTG ATATATGACT CATTTTTATC TCAATATTTT 
    ACGAAGATTG AACCTTCGCA TGTGAATTCT GAGACAATTA AAAATTATAT TTATCCAAAA 
    GTTGAAAGTA TTCAACAATT TGTCGAGGCA AAAATATTTT TACAACTTTC TCAGTTCTTT 
    TATAACATTT TGACTACGCT TGATAATTAT TCATTCGCAA TTGTGATTAT TGATGGTATT 
    TTTGAATTAT TACTTCCAGA AACTTACATT AAACTAGTTG AAAAGATATT ACCGAATAAT 
    TCAATATTTT CAGAGTTTAA TATTTCTTTT ATTATTACAA CGAATAGTGA TTTATTCCCA 
    TATTTATCTT ATTTATATCA AAATAATTCA TATGTCAAGT TGGCAGTGAT TAATACGGGA 
    GGACTATATT TTACCAAAGA TAATTACTTG AAAGTGGAAA TTAAAAACAA ATTTGTTGAA 
    AATTTGCCGT CAATAGATAA TACAATAAAT GAAATTTTTA ATATTAAATT AAAGAATAAC 
    AATACTTACC CTTGTTCAAC AAGTATTTCT TCTATCAGCA GATTATTCTT TAAAAGATTT 
    GAAACTAGGA ATTTTTATTC AAGCAAATAT TTGATCTATG TTTTTTTTAT TGCACTATTT 
    TCATTTACTG TAAAATTGAC GATATTTTCT TGCCAGCACC TGACGAAGAA TCACAAAAAT 
    GTTAACAATA TTTACGACTT TTTTGTATTT GAAACTCTAT CTTTTTACCC TCTATACTCG 
    CTAGTTATAA CTTCAAGAAA TTCTTATTCA AATGGTTTAT CAAGCATACT AATAGGATAC 
    GGAGTAATTT CATCGCTTAT GCTTAATAGT TATAATGCTT TTTTTTCAGA ATCAAACTTC 
    TTGAAAAATA ACGAAGTCGT TTTCAATGAA GGAGAAGTTG ATAATTTTGA GGAAATTCCG 
    GAATTTTTGA GAGATATACC AGAAAAACAT TACAGTTCCT CACATTTTAT TCAATTTAAC 
    GGAAAACAAA TATTAAGGAC AGAATCATTG TTTTACAAGG ATCATTTTCT TAGCTCAAAG 
    ACAATAAATA TACCTGGAAT CAAGCCTAAA GGATTTAATA GTGCTCTAAT TTCGTCCAAG 
    AAAATAAGAA ATATCTTAAT ATGGAAATCA AAAAAAGAAT CTAATATTAA ATTGTTACAA 
    AAATATGAAC AATTTACCAT GGAAAAAAAT CATAAATTTA AATTTAACAA AAATACAATC 
    TTGATATTAA CAATATTCTT TTTTATAAAT ATTGTTTCAA AGGCATTAAT AAATATATTA 
    ATTTTTGGAT TTTCGTTAAT TAACATTAAT TCAATGAGTT ATTATAATTG TTTTCATGAA 
    TTTTTGAAAA TTATTTTGTC TTCAGATGAT CCTATTTCAG TTATTAATGA TATTGAGATA 
    AGAAAAAATA GATATTGTTT ATATCTTTTC AAAGAAATAT ATTGCAAAAG AAGTAAAGTT 
    ACAATCCATT ATCTAACTTT AATTCACTTT CTCAATTTAT TACTCTTTTT TGGAATTTCA 
    AACAACTTGC ATTATACCGT TGGAATTAGA ATATTAATGA ACAAGAATCT GCTTATTATT 
    ACAATATTGT TTCCAATTTT ATATAATATT ATTAATTTTT CAAACTTTAA TATTAACAAA 
    ACCAAATATT CAAATCTTGG GTGCAATTCA TTTGATTATT ATTATTACTT GAATAAAAGC 
    AACTCATTAC CGTGGTTCAA ACGCCAAATA TTTAAACTAT TAAAACTTAA ACAGGAAAAC 
    CTCAAAGAAT TTTCTAGTTT TAAAGTGAAT TTACTGTTAA ATTCGTTCAT TTTATCGATT 
    GTAGTTTCAT TTCTATACTT TTTATTCAAT TATAAAAAGA ATGAAAATAA TCAACAGCTG 
    AAAATTGATT TAATAACACT TCTACCAATA ATATTTTTTT TAATTCAATC TATTCATTTT 
    CATATTACTC AAAGATCAAA AACTAATACC TTTCATAAAC TAAATCTTTA TAGTTACATA 
    AGATGGTTAA AAACATCACT GCAGAAAGCT TATTATTTTC CAATTTATAT AAATAAATCA 
    GCAAGTTCAA CATCTCCAAA AACTAATACT AGCTTTTCAT CAAATAAAAG AAATAGTACT 
    TTATATGAAG ATGGATATGA ACTTTCAACA CCAATATCAG GAGATTCTCT GAAAGTTGAC 
    CCGATAATTT CTATTAGTTC GACAAAAGTT CATTTGAGCT CTAATATCGT ATTAATTCTG 
    ATCAATCCTC TTTTATTTCT AGATAATTCT TTGACATTTG GATATGGAAA ATCGCCTATA 
    TTTCCAATTA AGCAATTAAA GACAGTAAAG ATTAATAACT TTGATAGAAT TGCAGTAATT 
    TCTAACCATA ATTTAATATC ATCATATTGG ACAATTAATA TGGTTTTAGA TCCGAAAGGC 
    ATGTATACAA ATGACAATAA AAGCCTTTTG CATACATTAA AATCATTAGA CATTTTCCCT 
    AATGTACTCG ACAATTTTGA CCAGAATGTA ATTTTGAACA TGCCAATACG AGAATATTTA 
    GAATTTTTTA ATTCTCAAGT TGTTGATAGT GAATTGTCTG TCACCGGTGA TATCAAAATT 
    ACAAATTTTG AACGCGATAT TAGATCACAA GATTTGAATA AATTAGAGCA ACACTTAAGT 
    AAAGCAGAAG AAAACTTACG TGATACAATT TATATTAAAA AGTTATTGCT TTTTGGACAT 
    TTTGCACTTT ATTCTATGTA CTACAGAGAA CTAATTTTAC ACTTAGATTA TAATATGGAT 
    CTTAATGTTT GGATTTCACT TGTCAAACAA TTTTTTGATA ACGAGGAATC TTCAATTAAT 
    AATATAATAA TTATTTCAAC AGAAACAGAT TTACCAAATA TCATTGAAAC TGAAACTAGA 
    TTATATAATG AAGGGAAGTA A

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

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