ORF » Species Summary » Bactrocera oleae » LOC106620865 cDNA ORF clone

LOC106620865 cDNA ORF clone, Bactrocera oleae(olive fruit fly)

The following LOC106620865 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106620865 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.

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OBa73580 XM_014239507.1
Latest version!		 Bactrocera oleae uncharacterized LOC106620865 (LOC106620865), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    LOC106620865 ( XM_014239507.1 ) cDNA ORF clone, Bactrocera oleae(olive fruit fly) -> XP_014094982.1 Bactrocera oleae uncharacterized LOC106620865 (LOC106620865), mRNA.
    Price & Availability↑
    CloneID OBa73580
    Clone ID Related Accession (Same CDS sequence) XM_014239507.1
    Accession Version XM_014239507.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4503bp)
    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 2015-09-20
    Organism Bactrocera oleae(olive fruit fly)
    Product uncharacterized protein LOC106620865
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013581576.1) 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 :: Bactrocera oleae Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTTAACCA GCTGTTTAGC CATTGCTTCA AGCACGAACA CCTCGAAGTT AGCTGCAAAT 
    GATGTTTTCA ACGGAATTAG CGCTAATCTA AATGATGAAA ATTTGCACAC TGAATTTGCA 
    AATTCTTTGG AGGCAAACAC AAATACATTT CAAAGAGAAT CGATGACGAA GCAACTAGCT 
    ACCAGTTCCC CTACGACAAA TGGTGAACGA AACGCCAGCA ACATTGTTTT AGCCCCTTTA 
    GCCCCACTAG CTAATAATGA TGCATTACCA CGGTGTAAAA CCGATACGAC TGGCATTGAG 
    GCGGATATTT GTAATACAGC GAAAGTGTTG CAAACAAGTA ATAGTAATTT TATAACTTTA 
    TTGCCAAAGT CAGAGGCTGC AAGCAGTTTG GTCTCAATCA ATTCAACAAT TGAAGCTTGC 
    AATGAAGCTA CTTCAAGGAA GACAGTGGAT GATACCAATG GACGTTCAGC GGCGCTGGAA 
    CGTGCCTACG TTCATGACGT TTATGAGAAT TGCGATGAAC CATCCGGTCC TATTCGACCA 
    CGAATAGCAC AATTTCTAAA TAATTTAGAT CCTGGTGCCG TGGTGTGTGA TGTTGGCTGC 
    GGTAATGGTC GTTACCTTGC TCATGGAAAT CGCTCCATTT GTACAGTTGG AGTAGATCGT 
    TGTTATCGAT TGAGCAAGGT GGCACGTGAA AAAGGAGGAG AGGTTATAAT GTGCGATAAT 
    TTGGAGTTAC CATTTAGAGA TAATTCATTT GATGCAGTTC TTTCGTTGGC TGTTGTTCAT 
    CATTTTGCTA CCACTGAGCG TCGCGTAAAC GCTCTACGAG AGCTGGCACG TGTATTGCGT 
    ATTGGTGGTC GCGTCATTAT AACGGTATGG GCACTTGAAC AGAGACACCG TCGTTTTGAG 
    TCGCAAGATG TTCTCATTCC ATGGCAGCTG CCGAAAATAC GTAATATGAG CTGTTCGGAT 
    GAAGAGGATG ATGAAAGCTT CCTACCACCT TATCATGCTT ACACAGAGGA CTCAACAAAC 
    TCAAGTCGCT CAGCTGGTGA TGGTGATAGC TCAAGTTTAT CCTCATCCTC GCCTGGTGAA 
    TCCTGCTACA GTTTTGTGCG ACGTGCTATT CAAAAACTTG CTGCTGGTCG CAAGCATCCT 
    TGGTTTTTGG ACTCGTGGGC ATCGAAAGAA ACCAAAAATG ACAGTAGTCT TGACTTCGAA 
    GATGTAAAAG ATTTGCCAAT CGAACTACGA CGACTTGAAG ACTTTGAAGA TTTTCACGAT 
    CCACCACTTT CTGCAGGATT GAAATCACGT AGCTTGGGTA GCATTCTTAA TCCTCCTCCT 
    CGCCAAATTG TGCGTTCGCG TTCCAGTGTC CCTAGTTTGG GCGGTACTCT CGTTCATTTG 
    GACATGAGTT GCAAATCTGG AATACCTGTA TCAACCTATT CAATGCAAAA TAGTCAACAT 
    TTCCATACCA AGGATATCAA TGTAGCACCA GTTATTGTCA CCAAAACCAA TGAATCTCCC 
    ACAAAATCTA TGAATGCAGC AATTTTAAAA AATATAAATA GCAGTACTCC ACTAGGTCGT 
    CGCCCAAAGC TGATAAAACA AAAACAATCT TTTTGTGATG AAGAATATCA ACTGCCAGAA 
    AATTCTTTTC ATATAAAAAG TACATATAAT AATCATAGTG CCAGTAATAG TTTGTATTTA 
    CGTAGTCGCT GCTACTTCAA CGGCAATAAT ATTAACGTTA ACTCTCAAAC TCTGGGAAAA 
    ATGCCTATTA TTGATAATTT GCACCAACAA TCTCCCCTTA CCGCCCGCCA AATAATGCAA 
    GCAAGTATCT TTTTACGCAA ACAAAGTTCA TTGAATGAAG AACTTATGGC CGTTAACCGA 
    TTGCGTGAAA AAGAGGGTGT ACGGAAACGC ATACAAAAAC AGACGTCATT AAATGAAGCA 
    TTTCTCTGTC AATCAAGTAC GCTTTCAAAA AAATTTCATA TAATAAGAGA GAACTTCACA 
    AAGAAAGTGA AGACTTCAAC AGGTAGTTTT GAGCGGGTTA CAAAAACTGG CTTGAACAAA 
    TTAGTGCAGA ACTTTTCGTC TTATATAACA CCAGGTACGA TTAATTCCGA TCTGTCGGAT 
    AAAGTGATCA ACGAGAGTCA AGAAAACAGT ACCGAACCGT TACAGTCAAA CATTCCAAAA 
    TGCAATAAAT ATCATCATCA TCATCATTAT CAGTATGTTC AACACCAGCA GTCATTAAAC 
    CTGCAAAATT GCCAACGCCA ATCACGTGCC TTCATAAACA CGCACGAAAC AGGTTCACAG 
    GCATCACATT ATCAAAAACA ATTGTCGGTC GGTAGTGGAA TCAACAAATA TGCTGGTCCA 
    GTCACATACT GCAACAATGC TGAGTGTTCT AAATCGGGCT GTTATTGCAG CACATACCAC 
    TATGTGGGTT GTAATACCTT TTCCACTACT AACGATGGTA ATGAAAATAG GGATGGGGAG 
    TCACGTCGAC ATTCTAAAGA GTCCGGTTCA GATTCCTCTA AGGACAGCAG CCTACAATCG 
    GATACAAGTA TTGAGTCTGA AGATAGTTTT GCCTCAGTTA TTTTCATACC GAAGCCAGAA 
    CAGCAACAGC AGCAACTTAA CTATCATCAA AGCTCAAATT CGAGTTCAAG TAATTCATCG 
    TCCAGCAACA GTGGAGGAGC ATGTCGCATT TACGGTAGTT GTTGCCAACA CAAAAATGAC 
    ACGTGTAAAA TTCAAAACAA TGACAATACT TCGAACTGTT TAACATGTCT AAAGCATGTG 
    CAACAGCCGC ACCATCAAAG ATTGTCCTCC GTACCCACAT CACCTATGGT TTTGGCATGT 
    CCCCCAACAC CGGCGCACTC CCCTGCTACT ATACAAGCTG TAATAACATC TCCGCCAAGA 
    ACAGTTGCAA CTGTGACGGC AGCTATGGCA ATGCTTACTT CACCTTTAGA CAATAAAAAT 
    AATAACTTAG ATGAAAATTC AAAAGCGTTA TCCAATATTA ATGTGGAAAA AATTAAGGAT 
    CAATTCGATT TTGATGAGAA TCTTATCAAA CAGCATGAAA AGGATAATGC TCAACATCAG 
    CAGGAAAATG AAGAAATCAA ATGTAAAATA ACGCGGCATA TCGTAAAGAA CTTACCTCCT 
    ATACCTAAGT TTCGTAAGCA ATCCTTACAA TCAATACGTC AAAGTTTTCC AATCGTACGA 
    CGGTCATCGG CAACATCTAG TTCATCTATT CCAAATATGC CAAAACTAAT GTCTTTAGAA 
    CTTTTCAATC CGGCTACTGA CGATTTAGAC AGCGATTCAA GCGAGGCATC CACTCCAAAC 
    TCAATTGATA GTGTTATTAG TACCGGGAAA ATTAATTCTA CGACAATGAG CATAGAGCAA 
    AGTGAAAATA TAAGATCATC TCCCACTTTT GAACAAGATG GCAGCGATGG TTTACTTTTT 
    GAGCGAACTG TTAAGACAAA AAAACAACAA CAACATGATG AGCAACTGAA GATCAATAAT 
    GATATTCCAC ACAACATATT TTTAAATGAA GAAGACAGTT GTCTTATGCC ACTGAACAAA 
    GGCAACATTA ACCTAAGTAC GAATTCACTA CATAGGAAAG AACCAGACTT TGTTGGGTTT 
    GCTGAACAGC TAAATATACA GTTGATGCGA AAACTTGAGG ACAAAAACGA TATTGATGAA 
    TGCGGAAGTT TAGAAATCAC GAGCGAATCT GCTGATCCTT CAGATGCACC TACTCATGTA 
    TCTGCAGAAT ATTTAAATCG GAAGCGCAGC AATGAGCTGC GAGATTTGTC AGCAATCCGT 
    GAGGAACTTC GAGAACGACG TTTAATGCTT GCAAACCTTT CTACGCAGCC AAGCTTACAA 
    CAATCGCCAA CTTCTTCTAC ATCATCTTTA TCGTCACAGA CACGTAGCTT TACCATTCAT 
    GAGGAAAACG AAGAAGAAAG TGATGAACGA AGCTACTCTC TCCAACTCTA TGAAAACTGT 
    AAAATATCCA AAATTAATTA TAAACGCAAT CGCCCATATA ATTTGAATCC AGAAACCGCT 
    TATCTGTTGC AAGACGAAGG TGATGTCTTT GATGAAGAAG CAGAAAATGA ACTTGGCCTC 
    TTGTCAAAAC ATCATCATCC GATTGGTCAA GAAATGCTGT ATCAACCCAA AGATGAGGTT 
    CAAATATACC CTAAAGTCAT AGAAAGAGCA CCCGGGTGTG ATACTTTAGG ATTGGAAATG 
    GCAGCTGAGA AGGAAGGCTA CTTCGAAATT AAAGTCGAAC ATGAAAACAA AGAAACTGAA 
    AAATCTCTCC AAAATCGACA ATCAACGGAA TCATGGGGCA ATTCTAACAG TTCGGCCGGT 
    TCGCTTGAGA GTCCATCTCA AGGTGGTTCG ACAACACACC ACCGTTATTA TCATGTTTTT 
    CGTGAGGGAG AGCTTGATGC ATTAATCAAT CACCATGTAG CTAGTCTGCA TATAGTTTCC 
    TCATATTATG AACGGTCTAG TTGGTGTGTA GTTGCTGAAA AAGTTCAAGT CTGGACAATA 
    TAA

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

    RefSeq XP_014094982.1
    CDS1..4503
    Translation

    Target ORF information:

    RefSeq Version XM_014239507.1
    Organism Bactrocera oleae(olive fruit fly)
    Definition Bactrocera oleae uncharacterized LOC106620865 (LOC106620865), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014239507.1

    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
    ATGTTAACCA GCTGTTTAGC CATTGCTTCA AGCACGAACA CCTCGAAGTT AGCTGCAAAT 
    GATGTTTTCA ACGGAATTAG CGCTAATCTA AATGATGAAA ATTTGCACAC TGAATTTGCA 
    AATTCTTTGG AGGCAAACAC AAATACATTT CAAAGAGAAT CGATGACGAA GCAACTAGCT 
    ACCAGTTCCC CTACGACAAA TGGTGAACGA AACGCCAGCA ACATTGTTTT AGCCCCTTTA 
    GCCCCACTAG CTAATAATGA TGCATTACCA CGGTGTAAAA CCGATACGAC TGGCATTGAG 
    GCGGATATTT GTAATACAGC GAAAGTGTTG CAAACAAGTA ATAGTAATTT TATAACTTTA 
    TTGCCAAAGT CAGAGGCTGC AAGCAGTTTG GTCTCAATCA ATTCAACAAT TGAAGCTTGC 
    AATGAAGCTA CTTCAAGGAA GACAGTGGAT GATACCAATG GACGTTCAGC GGCGCTGGAA 
    CGTGCCTACG TTCATGACGT TTATGAGAAT TGCGATGAAC CATCCGGTCC TATTCGACCA 
    CGAATAGCAC AATTTCTAAA TAATTTAGAT CCTGGTGCCG TGGTGTGTGA TGTTGGCTGC 
    GGTAATGGTC GTTACCTTGC TCATGGAAAT CGCTCCATTT GTACAGTTGG AGTAGATCGT 
    TGTTATCGAT TGAGCAAGGT GGCACGTGAA AAAGGAGGAG AGGTTATAAT GTGCGATAAT 
    TTGGAGTTAC CATTTAGAGA TAATTCATTT GATGCAGTTC TTTCGTTGGC TGTTGTTCAT 
    CATTTTGCTA CCACTGAGCG TCGCGTAAAC GCTCTACGAG AGCTGGCACG TGTATTGCGT 
    ATTGGTGGTC GCGTCATTAT AACGGTATGG GCACTTGAAC AGAGACACCG TCGTTTTGAG 
    TCGCAAGATG TTCTCATTCC ATGGCAGCTG CCGAAAATAC GTAATATGAG CTGTTCGGAT 
    GAAGAGGATG ATGAAAGCTT CCTACCACCT TATCATGCTT ACACAGAGGA CTCAACAAAC 
    TCAAGTCGCT CAGCTGGTGA TGGTGATAGC TCAAGTTTAT CCTCATCCTC GCCTGGTGAA 
    TCCTGCTACA GTTTTGTGCG ACGTGCTATT CAAAAACTTG CTGCTGGTCG CAAGCATCCT 
    TGGTTTTTGG ACTCGTGGGC ATCGAAAGAA ACCAAAAATG ACAGTAGTCT TGACTTCGAA 
    GATGTAAAAG ATTTGCCAAT CGAACTACGA CGACTTGAAG ACTTTGAAGA TTTTCACGAT 
    CCACCACTTT CTGCAGGATT GAAATCACGT AGCTTGGGTA GCATTCTTAA TCCTCCTCCT 
    CGCCAAATTG TGCGTTCGCG TTCCAGTGTC CCTAGTTTGG GCGGTACTCT CGTTCATTTG 
    GACATGAGTT GCAAATCTGG AATACCTGTA TCAACCTATT CAATGCAAAA TAGTCAACAT 
    TTCCATACCA AGGATATCAA TGTAGCACCA GTTATTGTCA CCAAAACCAA TGAATCTCCC 
    ACAAAATCTA TGAATGCAGC AATTTTAAAA AATATAAATA GCAGTACTCC ACTAGGTCGT 
    CGCCCAAAGC TGATAAAACA AAAACAATCT TTTTGTGATG AAGAATATCA ACTGCCAGAA 
    AATTCTTTTC ATATAAAAAG TACATATAAT AATCATAGTG CCAGTAATAG TTTGTATTTA 
    CGTAGTCGCT GCTACTTCAA CGGCAATAAT ATTAACGTTA ACTCTCAAAC TCTGGGAAAA 
    ATGCCTATTA TTGATAATTT GCACCAACAA TCTCCCCTTA CCGCCCGCCA AATAATGCAA 
    GCAAGTATCT TTTTACGCAA ACAAAGTTCA TTGAATGAAG AACTTATGGC CGTTAACCGA 
    TTGCGTGAAA AAGAGGGTGT ACGGAAACGC ATACAAAAAC AGACGTCATT AAATGAAGCA 
    TTTCTCTGTC AATCAAGTAC GCTTTCAAAA AAATTTCATA TAATAAGAGA GAACTTCACA 
    AAGAAAGTGA AGACTTCAAC AGGTAGTTTT GAGCGGGTTA CAAAAACTGG CTTGAACAAA 
    TTAGTGCAGA ACTTTTCGTC TTATATAACA CCAGGTACGA TTAATTCCGA TCTGTCGGAT 
    AAAGTGATCA ACGAGAGTCA AGAAAACAGT ACCGAACCGT TACAGTCAAA CATTCCAAAA 
    TGCAATAAAT ATCATCATCA TCATCATTAT CAGTATGTTC AACACCAGCA GTCATTAAAC 
    CTGCAAAATT GCCAACGCCA ATCACGTGCC TTCATAAACA CGCACGAAAC AGGTTCACAG 
    GCATCACATT ATCAAAAACA ATTGTCGGTC GGTAGTGGAA TCAACAAATA TGCTGGTCCA 
    GTCACATACT GCAACAATGC TGAGTGTTCT AAATCGGGCT GTTATTGCAG CACATACCAC 
    TATGTGGGTT GTAATACCTT TTCCACTACT AACGATGGTA ATGAAAATAG GGATGGGGAG 
    TCACGTCGAC ATTCTAAAGA GTCCGGTTCA GATTCCTCTA AGGACAGCAG CCTACAATCG 
    GATACAAGTA TTGAGTCTGA AGATAGTTTT GCCTCAGTTA TTTTCATACC GAAGCCAGAA 
    CAGCAACAGC AGCAACTTAA CTATCATCAA AGCTCAAATT CGAGTTCAAG TAATTCATCG 
    TCCAGCAACA GTGGAGGAGC ATGTCGCATT TACGGTAGTT GTTGCCAACA CAAAAATGAC 
    ACGTGTAAAA TTCAAAACAA TGACAATACT TCGAACTGTT TAACATGTCT AAAGCATGTG 
    CAACAGCCGC ACCATCAAAG ATTGTCCTCC GTACCCACAT CACCTATGGT TTTGGCATGT 
    CCCCCAACAC CGGCGCACTC CCCTGCTACT ATACAAGCTG TAATAACATC TCCGCCAAGA 
    ACAGTTGCAA CTGTGACGGC AGCTATGGCA ATGCTTACTT CACCTTTAGA CAATAAAAAT 
    AATAACTTAG ATGAAAATTC AAAAGCGTTA TCCAATATTA ATGTGGAAAA AATTAAGGAT 
    CAATTCGATT TTGATGAGAA TCTTATCAAA CAGCATGAAA AGGATAATGC TCAACATCAG 
    CAGGAAAATG AAGAAATCAA ATGTAAAATA ACGCGGCATA TCGTAAAGAA CTTACCTCCT 
    ATACCTAAGT TTCGTAAGCA ATCCTTACAA TCAATACGTC AAAGTTTTCC AATCGTACGA 
    CGGTCATCGG CAACATCTAG TTCATCTATT CCAAATATGC CAAAACTAAT GTCTTTAGAA 
    CTTTTCAATC CGGCTACTGA CGATTTAGAC AGCGATTCAA GCGAGGCATC CACTCCAAAC 
    TCAATTGATA GTGTTATTAG TACCGGGAAA ATTAATTCTA CGACAATGAG CATAGAGCAA 
    AGTGAAAATA TAAGATCATC TCCCACTTTT GAACAAGATG GCAGCGATGG TTTACTTTTT 
    GAGCGAACTG TTAAGACAAA AAAACAACAA CAACATGATG AGCAACTGAA GATCAATAAT 
    GATATTCCAC ACAACATATT TTTAAATGAA GAAGACAGTT GTCTTATGCC ACTGAACAAA 
    GGCAACATTA ACCTAAGTAC GAATTCACTA CATAGGAAAG AACCAGACTT TGTTGGGTTT 
    GCTGAACAGC TAAATATACA GTTGATGCGA AAACTTGAGG ACAAAAACGA TATTGATGAA 
    TGCGGAAGTT TAGAAATCAC GAGCGAATCT GCTGATCCTT CAGATGCACC TACTCATGTA 
    TCTGCAGAAT ATTTAAATCG GAAGCGCAGC AATGAGCTGC GAGATTTGTC AGCAATCCGT 
    GAGGAACTTC GAGAACGACG TTTAATGCTT GCAAACCTTT CTACGCAGCC AAGCTTACAA 
    CAATCGCCAA CTTCTTCTAC ATCATCTTTA TCGTCACAGA CACGTAGCTT TACCATTCAT 
    GAGGAAAACG AAGAAGAAAG TGATGAACGA AGCTACTCTC TCCAACTCTA TGAAAACTGT 
    AAAATATCCA AAATTAATTA TAAACGCAAT CGCCCATATA ATTTGAATCC AGAAACCGCT 
    TATCTGTTGC AAGACGAAGG TGATGTCTTT GATGAAGAAG CAGAAAATGA ACTTGGCCTC 
    TTGTCAAAAC ATCATCATCC GATTGGTCAA GAAATGCTGT ATCAACCCAA AGATGAGGTT 
    CAAATATACC CTAAAGTCAT AGAAAGAGCA CCCGGGTGTG ATACTTTAGG ATTGGAAATG 
    GCAGCTGAGA AGGAAGGCTA CTTCGAAATT AAAGTCGAAC ATGAAAACAA AGAAACTGAA 
    AAATCTCTCC AAAATCGACA ATCAACGGAA TCATGGGGCA ATTCTAACAG TTCGGCCGGT 
    TCGCTTGAGA GTCCATCTCA AGGTGGTTCG ACAACACACC ACCGTTATTA TCATGTTTTT 
    CGTGAGGGAG AGCTTGATGC ATTAATCAAT CACCATGTAG CTAGTCTGCA TATAGTTTCC 
    TCATATTATG AACGGTCTAG TTGGTGTGTA GTTGCTGAAA AAGTTCAAGT CTGGACAATA 
    TAA

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

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