ORF » Species Summary » Fopius arisanus » LOC105271872 cDNA ORF clone

LOC105271872 cDNA ORF clone, Fopius arisanus

The following LOC105271872 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105271872 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
OFo55395 XM_011313677.1
Latest version!		 Fopius arisanus dual oxidase (LOC105271872), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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** 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)
    LOC105271872 ( XM_011313677.1 ) cDNA ORF clone, Fopius arisanus -> XP_011311979.1 Fopius arisanus dual oxidase (LOC105271872), mRNA.
    Price & Availability↑
    CloneID OFo55395
    Clone ID Related Accession (Same CDS sequence) XM_011313677.1
    Accession Version XM_011313677.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4536bp)
    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 2015-02-09
    Organism Fopius arisanus
    Product dual oxidase
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011887866.1) 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 :: Fopius arisanus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
    ATGTGGAAAT TTCGGTGGAA ATTTTTTAGT GCTGCAATGT GGGTTTTCCT GGTGATACCG 
    GGATTCGGGG ATGGATTTGG GAGATACACC GAGAAGCAGA GGTACGATGG GTGGTACAAC 
    AATCTTGCGC ATCCGGATTG GGGATCCGTT GAGAGCAGAT TGATAAGAAA AGTGCCGGCT 
    GCTTATTCCG ACGGTGTGTA CATGATGGCA GGCCAGTCCA GGGCATCCCC CAGGAAGTTG 
    AGTGACCTCT TCATGCGTGG AGCTGATGGA ATCGCCTCCG TCAAGAACAA AACCGCTCTC 
    TTCGCCTTCT TCGGGCAACT AGTCACCGCT GAAATAGTGA TGGCGAGTGA GAGTGGATGT 
    CCCCTGGAGC TGCACCGGAT CGACGTGGAG AGGTGTGACG GGATGTTTGA CAGGGATTGT 
    CAGGGTAACA AGTACATTCC CTTTCTACGG GCAGACTACG ACAGGAAGAC GGGGCACAGT 
    CCGAACAGTC CACGAGAGCA ACTCAACAAG GTCACCAGCT GGATCGACGG AAGTTTCGTT 
    TACTCCAGCA GCGAGGCCTG GGCGAATGCC ATGAGATCAT TCGTCAACGG GAATTTCCTC 
    ATCGAGCCCA TCAAACAGCT ACCGATCAGG AACACCATGA GAGCTCCACT CTTCAATGAT 
    GCTGTCCCCA GTGTCATGAG GACGATGCTC AGCCCCGAAA GACTCTTCCT GCTGGGAGAT 
    CCTCGATCGA ATCAGCATCC GGCGCTCCTG GCGTTCGGTA TAATCTTCTA TCGGTGGCAC 
    AACGTCATCG CCTCGAGGGT GAAAAAACAG AATCCGGAGA TGATGGACGA GGAAATTTTT 
    CAGAGAGCGC GAAGAATCGT TGTGGGTACG ATTCAGAATA TAATAATGTA CGAGTACCTG 
    CCGGAGTTGC TCGGTGAAGA GCTTCCAGAG TACTCTGGGT ACAAGCCAGA TCTTCATCCT 
    GGGATATCCC ACATATTCCA GAGTGCAGCC TTTCGATTCG GTCACACGAT GATACCCCCA 
    GGTATCTACA GGCGTGACGA GTCATGCAAT TATCGTCAGA CTCGTAGTGG AAAATCTGCA 
    ATCAGGTTAT GCACGACCTG GTGGAATTCC AATCAAGTCC TCTCGAATTC AACTGTGGAG 
    GAGCTGATGA TGGGAATGGC ATCGCAAATT GCGGAGAGAG AGGACAATCT CCTGAGCAAT 
    GACATAAGAA ATAATTTGTT CGGTCCACTG GAGTTCTCGA GGCGCGACCT GGGGGCCCTG 
    AATATCATGA GGGGTCGAGA CAATGGTTTA CCGGACTACA ACACCGCCAG AATGCACTTC 
    AAACTCCCCA GGAGGAATAC CTGGAACGAG ATTAATCCAG AGTTATTCAA CAAAAATCCA 
    GAGCTCCTCA GGAAACTCAT GGAAATTCAC TCGAACGATC TCGATAACAT CGACGTCTAC 
    ATCGGGGGAA TGCTTGAGTC GACCGATGGA CCTGGTGAAC TCTTCTCGGC AGTTATCAAG 
    GAACAGTTCC TCAGACTGAG GGACTCTGAT CGATTTTGGT TCGAGAACGC AGACAACGGG 
    ATATTCACCA GGAGTGAGAT CGAGGAAATC CGGAGAGTGA AATTGTGGGA CGTCATCACG 
    AATTCCACGA CGATCCGGCA AACGGCAATT CAGAGGAATC TCTTCGTCTG GAAGAATGGT 
    GATCCTTGTC CCCAGCCTCA CCAGCTCACC GGGGAGATGC TCGACGCCTG CGTACCTCTC 
    AGGAGATACG ACTACTTCGA GGGAAGTGAG TTGGCTTATA TATACGCCTG TGTCTGTCTC 
    GGTTTTATAC CGATTTTATG CGCGGGTGCT GGTTATGGCC TCGTCAAACT GCAGAATCGT 
    CGACGGAGGC GTTTAAAAAT CGTTCAAGAG GCGATTAAAA AAAGGAGCGG TGGTGTTACG 
    TCAAATCCTC AAGGGAGGAT ATCCGTCGAC AAGATGATTG TGCGAGAGTG GTTGCATGCT 
    AATCATAAAC GCCTGGTGAA ATTGAAATTC GGTCCAGAGG CTGCACTCCA CATCGTCGAC 
    AGAAAGGGTG AAAATCTCCG TACCTTTGAC TTCGCGGGGG TGAAGGTCGT CGCCGTCGAG 
    GAGTCACAGG AGGACGATGA TGGAAAGGCA ATGATTCTCC TGAGAATTCC ACGTGATTAC 
    GATCTCGTCC TTGAGCTAGA TTCTCTCAGC TCTCGTGCCA AGTTTATCGC TAAATTGGAG 
    ACATTTCTCA CGTCTCATAA AAAACACTTG TCGATGGTTC AGACTAATCG TGATATAATG 
    ATCGCCAAGG CGGAGACCAA GGAGAGGAGG CAAAAAAAAT TGGAGCAATT CTTCAGGGAG 
    GCGTACACCC TGACCTTTGG ATTGAGACCT GGTGAGAGAC GACGGAGGAG ATCCGAGGAG 
    AGCGATGGGG GTGAAGTTGT CACTGTCATG AGGACTTCAC TGTCCAAGAG GGAATTTGCC 
    AGTGCCCTGG GGATGAGGCC AGATGCTGTT TTTGTTAAGA AGATGTTTAA TATTGTTGAT 
    AAGGATGGAG ATGGGAGGAT TTCATTTCAG GAATTTTTGG ATACAGTATT ATTATTCTCC 
    CGGGGTAAAA CCGAGGACAA ATTACGAATA ATCTTTGACA TGTGCGATAA GGACAGCAAT 
    GGAGTAATCG ACAAAGAGGA GCTCTCGGAA ATGCTGCGTT CACTCGTGGA AATAGCGAGG 
    ACTACATCAC TTTCCGACGA TCACGTAACC GAACTAATTG ACGGAATGTT CCAGGACGCA 
    GGATTGGAGC GCAAGGATTA CCTGACGTAC AACGATTTCA AGCTGATGAT GAATGAGTAC 
    AAGGGTGACT TCGTGGCAAT CGGTTTGGAC TGCAAGGGTG CAAAGCAGAA TTTCCTCGAC 
    ACATCGACAA ATGTCGCACG TATGACGACA TTTCACATCG AGCAACTGCC CCCAGAGGCG 
    ACCAAGAGTT GGTCACGGAG GCAGTGGAAC GGCATCTCCA CGTTCCTGGA GGAGAACAGG 
    CAGAATATAT TCTACTTGTT TCTATTCTAC GTCATCACCA TCGCCCTCTT CGTCGAGAGA 
    TTTATCCATT ATTCCTTCAT GACTGAGCAC ATAGATCTCC GTCACATTAT GGGTGTGGGA 
    ATAGCCATAA CTCGGGGCTC AGCAGCTGCT CTGTCCTTCT GCTACAGTCT CCTCCTCCTC 
    ACCATGTCCA GGAATTTACT GACGAAACTC AAGGAATTCT CAATTCAACA GTACATCCCC 
    CTGGACTCAC ACATTCAGTT TCACAAGATC GTTGCGTGCA CTGCATTATT TTTCTCCGTT 
    CTTCACAGCC TTGGGCACAT GGTGAATTTT TATCATGTGT CCACTCAACC TGTCTCACAT 
    CTACGCTGTT TAACCAGTGA AATGAGTTTT CCAAGTGATG CCAGGCTCAC TATTTCCTTC 
    TGGCTATTCC AGACCGTTAC AGGTGTCACG GGAATTCTCC TCGTCATCGT CATGACGATA 
    ATCTTCGTCT TCGCGCACCC TACGATCAGG CAGAAGGCCT ATAAATTTTT CTGGTCAACT 
    CACAGTCTCT ACATCGTGCT CTATGCCCTC TGTCTGATTC ATGGACTAGC CAGGCTCACC 
    GGAGAACCGA GATTTTGGAT ATTCTTCATT GGGCCCGCGA TCATCTACTC TCTAGATAAA 
    GTCGTTAGCC TGAGAACGAA GTACATGGCG CTGGACATAA TAGAAACGGA ACTTCTCCCT 
    TCAGACGTGA TAAAAATAAA ATTCTACCGC CCACCGAATC TTAAGTATCT CTCAGGGCAG 
    TGGATCAGGC TGGCGTGCAC CGCTTTCAAG TCCAATGAAT TTCACTCGTT CACACTGACA 
    TCAGCACCCC ATGAGAATTT TTTATCCTGT CACATCAAGG CCCAGGGCCC CTGGACGTGG 
    AAGCTCCGTA ATTACTTTGA TCCCTGCAAT TACAGTCCTG AGCATGATCA CCCTAAAATC 
    AGGATCGAGG GACCTTTTGG TGGGGGTAAT CAGGACTGGT ACAAGTTCGA GGTGGCAGTT 
    ATGGTGGGTG GAGGTATAGG GGTCACACCC TATGCTTCGA TGCTCAATGA TCTGGTCTTT 
    GGGACCTCCA CGAATCGGTA TTCAGGGGTC GCCTGCAAAA AGGTTTATTT TTTGTGGATC 
    TGTCCATCCC ACAAGCACTT CGAGTGGTTC ATCGACGTTC TCAGGGACGT GGAGAGGAAG 
    GATGTGACGG ATGTTCTCGA AATCCACATC TTCATCACCC AATTCTTCCA TAAATTCGAT 
    CTTCGCACCA CAATGCTCTA CATCTGTGAG AATCACTTCC AAAGGCTATC GAAGAAGAGT 
    ATATTCACAG GTCTGAAAGC GATAAATCAT TTCGGTCGTC CTGACATGAC GTCCTTTTTG 
    AAATTCGTCC AGAAGAAGCA CAGCTATGTC AGCAAAATAG GTGTCTTCAG CTGTGGCCCT 
    CGACCTCTGA CCAAAAGCGT CATGTCGGCC TGCGATCAGG TGAACAAGGG CCGGAAGCTG 
    CCATATTTCA TCCATCACTT TGAAAATTTT GGGTGA

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

    RefSeq XP_011311979.1
    CDS199..4734
    Translation

    Target ORF information:

    RefSeq Version XM_011313677.1
    Organism Fopius arisanus
    Definition Fopius arisanus dual oxidase (LOC105271872), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011313677.1

    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
    ATGTGGAAAT TTCGGTGGAA ATTTTTTAGT GCTGCAATGT GGGTTTTCCT GGTGATACCG 
    GGATTCGGGG ATGGATTTGG GAGATACACC GAGAAGCAGA GGTACGATGG GTGGTACAAC 
    AATCTTGCGC ATCCGGATTG GGGATCCGTT GAGAGCAGAT TGATAAGAAA AGTGCCGGCT 
    GCTTATTCCG ACGGTGTGTA CATGATGGCA GGCCAGTCCA GGGCATCCCC CAGGAAGTTG 
    AGTGACCTCT TCATGCGTGG AGCTGATGGA ATCGCCTCCG TCAAGAACAA AACCGCTCTC 
    TTCGCCTTCT TCGGGCAACT AGTCACCGCT GAAATAGTGA TGGCGAGTGA GAGTGGATGT 
    CCCCTGGAGC TGCACCGGAT CGACGTGGAG AGGTGTGACG GGATGTTTGA CAGGGATTGT 
    CAGGGTAACA AGTACATTCC CTTTCTACGG GCAGACTACG ACAGGAAGAC GGGGCACAGT 
    CCGAACAGTC CACGAGAGCA ACTCAACAAG GTCACCAGCT GGATCGACGG AAGTTTCGTT 
    TACTCCAGCA GCGAGGCCTG GGCGAATGCC ATGAGATCAT TCGTCAACGG GAATTTCCTC 
    ATCGAGCCCA TCAAACAGCT ACCGATCAGG AACACCATGA GAGCTCCACT CTTCAATGAT 
    GCTGTCCCCA GTGTCATGAG GACGATGCTC AGCCCCGAAA GACTCTTCCT GCTGGGAGAT 
    CCTCGATCGA ATCAGCATCC GGCGCTCCTG GCGTTCGGTA TAATCTTCTA TCGGTGGCAC 
    AACGTCATCG CCTCGAGGGT GAAAAAACAG AATCCGGAGA TGATGGACGA GGAAATTTTT 
    CAGAGAGCGC GAAGAATCGT TGTGGGTACG ATTCAGAATA TAATAATGTA CGAGTACCTG 
    CCGGAGTTGC TCGGTGAAGA GCTTCCAGAG TACTCTGGGT ACAAGCCAGA TCTTCATCCT 
    GGGATATCCC ACATATTCCA GAGTGCAGCC TTTCGATTCG GTCACACGAT GATACCCCCA 
    GGTATCTACA GGCGTGACGA GTCATGCAAT TATCGTCAGA CTCGTAGTGG AAAATCTGCA 
    ATCAGGTTAT GCACGACCTG GTGGAATTCC AATCAAGTCC TCTCGAATTC AACTGTGGAG 
    GAGCTGATGA TGGGAATGGC ATCGCAAATT GCGGAGAGAG AGGACAATCT CCTGAGCAAT 
    GACATAAGAA ATAATTTGTT CGGTCCACTG GAGTTCTCGA GGCGCGACCT GGGGGCCCTG 
    AATATCATGA GGGGTCGAGA CAATGGTTTA CCGGACTACA ACACCGCCAG AATGCACTTC 
    AAACTCCCCA GGAGGAATAC CTGGAACGAG ATTAATCCAG AGTTATTCAA CAAAAATCCA 
    GAGCTCCTCA GGAAACTCAT GGAAATTCAC TCGAACGATC TCGATAACAT CGACGTCTAC 
    ATCGGGGGAA TGCTTGAGTC GACCGATGGA CCTGGTGAAC TCTTCTCGGC AGTTATCAAG 
    GAACAGTTCC TCAGACTGAG GGACTCTGAT CGATTTTGGT TCGAGAACGC AGACAACGGG 
    ATATTCACCA GGAGTGAGAT CGAGGAAATC CGGAGAGTGA AATTGTGGGA CGTCATCACG 
    AATTCCACGA CGATCCGGCA AACGGCAATT CAGAGGAATC TCTTCGTCTG GAAGAATGGT 
    GATCCTTGTC CCCAGCCTCA CCAGCTCACC GGGGAGATGC TCGACGCCTG CGTACCTCTC 
    AGGAGATACG ACTACTTCGA GGGAAGTGAG TTGGCTTATA TATACGCCTG TGTCTGTCTC 
    GGTTTTATAC CGATTTTATG CGCGGGTGCT GGTTATGGCC TCGTCAAACT GCAGAATCGT 
    CGACGGAGGC GTTTAAAAAT CGTTCAAGAG GCGATTAAAA AAAGGAGCGG TGGTGTTACG 
    TCAAATCCTC AAGGGAGGAT ATCCGTCGAC AAGATGATTG TGCGAGAGTG GTTGCATGCT 
    AATCATAAAC GCCTGGTGAA ATTGAAATTC GGTCCAGAGG CTGCACTCCA CATCGTCGAC 
    AGAAAGGGTG AAAATCTCCG TACCTTTGAC TTCGCGGGGG TGAAGGTCGT CGCCGTCGAG 
    GAGTCACAGG AGGACGATGA TGGAAAGGCA ATGATTCTCC TGAGAATTCC ACGTGATTAC 
    GATCTCGTCC TTGAGCTAGA TTCTCTCAGC TCTCGTGCCA AGTTTATCGC TAAATTGGAG 
    ACATTTCTCA CGTCTCATAA AAAACACTTG TCGATGGTTC AGACTAATCG TGATATAATG 
    ATCGCCAAGG CGGAGACCAA GGAGAGGAGG CAAAAAAAAT TGGAGCAATT CTTCAGGGAG 
    GCGTACACCC TGACCTTTGG ATTGAGACCT GGTGAGAGAC GACGGAGGAG ATCCGAGGAG 
    AGCGATGGGG GTGAAGTTGT CACTGTCATG AGGACTTCAC TGTCCAAGAG GGAATTTGCC 
    AGTGCCCTGG GGATGAGGCC AGATGCTGTT TTTGTTAAGA AGATGTTTAA TATTGTTGAT 
    AAGGATGGAG ATGGGAGGAT TTCATTTCAG GAATTTTTGG ATACAGTATT ATTATTCTCC 
    CGGGGTAAAA CCGAGGACAA ATTACGAATA ATCTTTGACA TGTGCGATAA GGACAGCAAT 
    GGAGTAATCG ACAAAGAGGA GCTCTCGGAA ATGCTGCGTT CACTCGTGGA AATAGCGAGG 
    ACTACATCAC TTTCCGACGA TCACGTAACC GAACTAATTG ACGGAATGTT CCAGGACGCA 
    GGATTGGAGC GCAAGGATTA CCTGACGTAC AACGATTTCA AGCTGATGAT GAATGAGTAC 
    AAGGGTGACT TCGTGGCAAT CGGTTTGGAC TGCAAGGGTG CAAAGCAGAA TTTCCTCGAC 
    ACATCGACAA ATGTCGCACG TATGACGACA TTTCACATCG AGCAACTGCC CCCAGAGGCG 
    ACCAAGAGTT GGTCACGGAG GCAGTGGAAC GGCATCTCCA CGTTCCTGGA GGAGAACAGG 
    CAGAATATAT TCTACTTGTT TCTATTCTAC GTCATCACCA TCGCCCTCTT CGTCGAGAGA 
    TTTATCCATT ATTCCTTCAT GACTGAGCAC ATAGATCTCC GTCACATTAT GGGTGTGGGA 
    ATAGCCATAA CTCGGGGCTC AGCAGCTGCT CTGTCCTTCT GCTACAGTCT CCTCCTCCTC 
    ACCATGTCCA GGAATTTACT GACGAAACTC AAGGAATTCT CAATTCAACA GTACATCCCC 
    CTGGACTCAC ACATTCAGTT TCACAAGATC GTTGCGTGCA CTGCATTATT TTTCTCCGTT 
    CTTCACAGCC TTGGGCACAT GGTGAATTTT TATCATGTGT CCACTCAACC TGTCTCACAT 
    CTACGCTGTT TAACCAGTGA AATGAGTTTT CCAAGTGATG CCAGGCTCAC TATTTCCTTC 
    TGGCTATTCC AGACCGTTAC AGGTGTCACG GGAATTCTCC TCGTCATCGT CATGACGATA 
    ATCTTCGTCT TCGCGCACCC TACGATCAGG CAGAAGGCCT ATAAATTTTT CTGGTCAACT 
    CACAGTCTCT ACATCGTGCT CTATGCCCTC TGTCTGATTC ATGGACTAGC CAGGCTCACC 
    GGAGAACCGA GATTTTGGAT ATTCTTCATT GGGCCCGCGA TCATCTACTC TCTAGATAAA 
    GTCGTTAGCC TGAGAACGAA GTACATGGCG CTGGACATAA TAGAAACGGA ACTTCTCCCT 
    TCAGACGTGA TAAAAATAAA ATTCTACCGC CCACCGAATC TTAAGTATCT CTCAGGGCAG 
    TGGATCAGGC TGGCGTGCAC CGCTTTCAAG TCCAATGAAT TTCACTCGTT CACACTGACA 
    TCAGCACCCC ATGAGAATTT TTTATCCTGT CACATCAAGG CCCAGGGCCC CTGGACGTGG 
    AAGCTCCGTA ATTACTTTGA TCCCTGCAAT TACAGTCCTG AGCATGATCA CCCTAAAATC 
    AGGATCGAGG GACCTTTTGG TGGGGGTAAT CAGGACTGGT ACAAGTTCGA GGTGGCAGTT 
    ATGGTGGGTG GAGGTATAGG GGTCACACCC TATGCTTCGA TGCTCAATGA TCTGGTCTTT 
    GGGACCTCCA CGAATCGGTA TTCAGGGGTC GCCTGCAAAA AGGTTTATTT TTTGTGGATC 
    TGTCCATCCC ACAAGCACTT CGAGTGGTTC ATCGACGTTC TCAGGGACGT GGAGAGGAAG 
    GATGTGACGG ATGTTCTCGA AATCCACATC TTCATCACCC AATTCTTCCA TAAATTCGAT 
    CTTCGCACCA CAATGCTCTA CATCTGTGAG AATCACTTCC AAAGGCTATC GAAGAAGAGT 
    ATATTCACAG GTCTGAAAGC GATAAATCAT TTCGGTCGTC CTGACATGAC GTCCTTTTTG 
    AAATTCGTCC AGAAGAAGCA CAGCTATGTC AGCAAAATAG GTGTCTTCAG CTGTGGCCCT 
    CGACCTCTGA CCAAAAGCGT CATGTCGGCC TGCGATCAGG TGAACAAGGG CCGGAAGCTG 
    CCATATTTCA TCCATCACTT TGAAAATTTT GGGTGA

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

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