ORF » Species Summary » Habropoda laboriosa » LOC108575787 cDNA ORF clone

LOC108575787 cDNA ORF clone, Habropoda laboriosa

The following LOC108575787 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108575787 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
OHa67114 XM_017938679.1
Latest version!		 Habropoda laboriosa zinc finger protein 62 homolog (LOC108575787), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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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)
    LOC108575787 ( XM_017938679.1 ) cDNA ORF clone, Habropoda laboriosa -> XP_017794168.1 Habropoda laboriosa zinc finger protein 62 homolog (LOC108575787), mRNA.
    Price & Availability↑
    CloneID OHa67114
    Clone ID Related Accession (Same CDS sequence) XM_017938679.1
    Accession Version XM_017938679.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4401bp)
    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 2016-08-25
    Organism Habropoda laboriosa
    Product zinc finger protein 62 homolog
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017100433.1) 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 :: Habropoda laboriosa Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 29% of CDS bases ##RefSeq-Attributes-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
    ATGGCTCGTG CCATCATCTA CAAGCGGTCC GTAGATGCAG TGCTGGTAGA CATACAGCTT 
    GACAAACTAG ATCCGTCTAA TCATGGGATA AAGATAAAGG AAGAACCGTT CGATCCAGAT 
    ATCCTTACTC ATGACGATTC TTCTTCGATG AGTAAAAATG GAGAAGATCA AAGTAGGATA 
    GCAACGCCTG AAGATGAGTC TTCAGATGTT GTTAATTTTA CAGAAGGTAA ACAGGTGTCA 
    GCTGCGAAAT CGAGTTCGAA AGTCATAGAA TTAAGAAGTT GTTCACTTTT CGAGAGGAAC 
    AGAAGAAGTG AATTGGAACG TATGAAAAAA CGTCAGAGAG TAGTTTGCAA TGTTTGTTTG 
    GTATCGTTTG AAAAAGCACG CGGCTTAGTA ATGCATAGGT TGTTTTTAAG TAGACCGTTC 
    ATGTGCGACA ATTGCCACAA GTCGTTCACC TCGCAAACGA ACTATGCCCT TCATAAGATT 
    ACCTATCAGA GCAGTTGCGG AGGCGGACCC GGTCCGAAGC CTCGTTACGT TTGCAACTTT 
    TGCGAGCGAG GATTTTTCCG CAGAAGCCTT ATCCAGTCTC ATTTGTTTCA TCAACACGGA 
    GACGCGATAC ACGGTGGTCG ATTCAATCCT GGGAACATCG TGGAACATGC GTCGATGGAA 
    AATGTTAACG AGGATTCGGT GGACACTGGT TCTGAAATGT CGAAGGATTC AACGTCGACG 
    AAATGGATTA GCACGCCAAC GATGACGGTG AACAATTTGA AATATTCGGA GAACACGCCT 
    AGGAAAAAGT TGAACAGTCC ACTGTCGAGA AATCTAATCA AGTCCTGCGG CACGCCCTCG 
    AAAAAGATGA AACAGACCAC TCTTACGGAC TTCATTTCGT TCTGCAACGC CACCGTGAAG 
    AACGAACGTT CTACACCAGA GAATCTCACC GATTTAGAGA ATATTTCTGG TCGACGACCG 
    GAAACACCCG ACGAATTCGA AAACGATTCG TCGAAACTTC TGAAGGACAT TGAAATGTCC 
    ACACCGGTTA AATGTCCCGA AACTGATATG CTCGATAGTA AAAAACCGTT TGTTCGAATA 
    CACATGTATC CAAACCTAAT AATGTCATTT CTAAGCAAGA ATATAACGAG TCCTACAACT 
    CCTACTACTT CACGGAGTAC TCCTTACAAT TTCAGGCAAA CCAGAGCCGG TTCTAACAAT 
    TCAACTGATC CCGAATCTCC TAAGAGTGCA AGAGAATCTC GTAAAAGAAA AAGAAACGCT 
    AAGAAAGAAG CATTGTTTTC GCTAGAGAAA AAGATCAGGA CTACGTGTAA AGATTGTGCG 
    ATTTATCTGG AAAGATGCGA TAAAGTTGCG AAGACTAACG TGTCGCAGAG CGTTTCTCAA 
    CAAGTAGAAT CAGAAAGAGT GGAAGAAAAT TCCGAAGAGG TACAGAAAAC GAATCTAGAA 
    GGCGACGCAT CGTTGAAAGC TATAGAAACT CCATCGGCGG GATCGTCTAC GGTGATAAAG 
    CCTTGTAAGA ATGAGCCAAC GACAGCTGAA CAACAGTCAG ATTTGCACGA GAAAGAAGTG 
    AAGCCTAAAT TGGTAAGAAT GTTTCGTTGC AATCTCTGCG ACAAGTTCTT CCTGTCACAG 
    GAGAACATGC GCGAGCACAA AGAACTGTTC CACGTGATCT ACATGTCGAG CATATGCAAC 
    GCGCGTTTCA AGACCATGAG CCTGCTGTTG CGCCATTACT GGCGGCAGCA TCTCATCCCC 
    ATGCATAAGA AATGCTGCGT GTGCGACGAG AAATTCGACA GCACGATACT GCTGAAGCAA 
    CACTTGGTGT TACATTGCGT GAAAACCGTG CAGTCCAAGA AAGACACTCT ACCGGTCGAC 
    ATCGAACCAC TCTGCAACGT GTTCAAGAAG CGCCATCGAT GCAAAGGTTG CCTAAAACGA 
    TTTTGGTTGA AAGTGTGTTT GACGCAGCAC GAGAAGGTGT GTCGTCGAAT GAAAACCAGG 
    ACGACTGACA AACAGCCAAG ATCTTCGTCG GTCTCGATAG AGAAAGATAA CGAGAAATCT 
    AGCTCGGTGG TCGATAAAAA ACAAGCTCCC AGTGTTCCAC CGAACGAGCA ACCGGCGGTT 
    AGTCCGAATG GAAATACGCA ATATCGTTCT AAAATCGACA TTTTCCCGTT AGAATCGCAT 
    AACGTGGTGA ACAAAAGGCT GATCAACGGT ATGGCGTACG CGAAGGGTTA CCAAGTAAAC 
    GCTCAAAACG ACGCGGTCTT TCCCTGCACT ATCTGCGACA AACAGTTCCG CACGTTCCCC 
    AATCTTTGTA TGCACGAGCG TACCTTCTGC AAACCTCTAA TTAACCGGTG TAACACTTGC 
    GGTACCGCGT TCCCCACTAA GAAACTACTG CAGATTCACA TGCTCGCGGC TCACACAGCT 
    TCGAATGCCG GGCATTACAA GTTCATCTGT CAATACTGTA ACCAAGGTTT CGTGAAAAGG 
    ATGAACCTTC AGATACACGA GCGACACTTG CACGTTAATA CGAAAGTGCT GCAAAATACC 
    GATCGTATCT TCAGCGTGCA CACCATATGC AGCGTGTGCA ATCTGATGTT CGAGTCCTAC 
    GAACGTTTCG TCCAGCATAA CATGTACTAT TACCAGGGGC AAACGTTCGC GTGCACGTTT 
    TGCTCGGAGT CCTTCCAAGG TATGTATCTG CTTCATCATC ACTACAAGGT GACGCATCGT 
    CCGGACAACA AACGACAGTC GTACATTTAC ACGTGCGACG TTTGCAACGA GATGTTCTCC 
    TACGATTCCC ATTTGCACGC GCATAAATGG CACGTTCACC TGCACAACGA GCCCTCTGTG 
    CAGAACACTT TGAACACCAT GCAAGATCAC AGCTACGCGT TGACTCCCAA CATGGACGTC 
    TCGGCGGCGG AATCGGCAGG TCTACCGGTG AAGATGTACG GATGCAACGT TTGCGACTTG 
    CATTTTACCA ACACGAAGGA CTTACTGGTG CACAAGGTGG AATACTCGGC GGACGGCGAC 
    TTCGAGTGCA AAGGATGCCA CCGTAGGTGT CACACCAGTT CCATTCTTGC TAGGCATCAA 
    TGTTTGAGTC ACACCGACTG CGAGTCGAAC AGTACTTACA AATGCTGCTT CTGCGGGGAA 
    GTGTTGACGA CCAGTATCTC GATCATGTGT CACGATAAAC ATTTTCACAC GAACAACGTG 
    GATCCGTCGA GACCGCGAAA CACCTCCCTG AAACCATTAG ACAGCGCTGC TTTGCTCGAC 
    ATCTCAGGTG GCACTTTCAA TTGCTGGACT TGCGACTCCA AGTTCAAAAC ACCGGCTGAT 
    CTGAAGCAAC ATCTGCTGGA GTACTCGGAC ATAGGCGCGT TCAGCTGCAG CATTTGCCAC 
    AGGAAATTCT CGAATTGCTA CGTACTCGAG GTGCACAAGC TGAAGCATTC CACGCTTAGC 
    GTGTCTCTGT TTCGACACCG GTGTCCTTTG TGCAACGAGG GATTCACGTG CGCGAACAAC 
    GTTCGAGTAC ACGTGATGCA CCTGCATCGA TACGAAATCT TCGGCAACAA CAACGTTAAG 
    ATGTACACGT TGACCAAACT GCCTAACGGT ACAGACACCA TCGAGCAGAC TGCGATGTTC 
    ATCAAGTCCA TGACGATAGC TAATAATTCT TTGATGCCGA TGTCGGCTTC TCAAACTACG 
    AACAAACTGA TGGTGAACTG TCCGGAATGT GACATAACGT TCAGCAGCCC GAAACATCTG 
    GCGAAGCACA GGTCGCGGTT CTGGAACAAA GGGAATCATC AGTGCCCGAA ATGTGGCCGT 
    AGATTTCTAT GGCTTACGTT GATGCAAGCA CATTTAAAGA AACATTCCGC CAAGGCGAAC 
    AGTTTGTTGA AGTACTTGTG TCCTCATTGC GACGACAAGT TTCGAAGCTC CGTGGCCGTC 
    TACTCGCACG TCATCCACCT TCACGGCAAG GACAAGTTAG GTGGTCGACA TATCCACCAT 
    GTTGATCCAT GTGCTTCCAC GTGTGCTGAG ACAGGGAACA GTGCTGCCAT GGAAGGAGGT 
    CGATTTGAGG AGGCGGGTAC TAGGGCCGGT ATTATTGGAA CGAAGGAAAG TGGACCGATT 
    CCAAAGGCAT CCCAAACGCA CTTCATGTTG ACACATTTCG ATACAACATT AAACGAGTTC 
    AGTTATGCAA ATGTCAGAGA TGGCTTAACG TGTACCACCT GTGGATCAAG CTTCGCTGAC 
    CGACAGACGT TGGATCAGCA CAAGAAGACT GCTCATGCAC TATGCGAGCA CTTGTTCAAT 
    ATCAACATTG ACAAGTCTGA AAAGACTAAG GAGTCTCAGC AGACTAAAGT ATCTGAACAG 
    ACTAATGGGT CTCAGCAGAC TAAAGTGTCT GAACAGACTA ATGGGTCTCA ACAGACTGAC 
    CTGTCTGAAC AGACTGACTG A

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

    RefSeq XP_017794168.1
    CDS1..4401
    Translation

    Target ORF information:

    RefSeq Version XM_017938679.1
    Organism Habropoda laboriosa
    Definition Habropoda laboriosa zinc finger protein 62 homolog (LOC108575787), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017938679.1

    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
    ATGGCTCGTG CCATCATCTA CAAGCGGTCC GTAGATGCAG TGCTGGTAGA CATACAGCTT 
    GACAAACTAG ATCCGTCTAA TCATGGGATA AAGATAAAGG AAGAACCGTT CGATCCAGAT 
    ATCCTTACTC ATGACGATTC TTCTTCGATG AGTAAAAATG GAGAAGATCA AAGTAGGATA 
    GCAACGCCTG AAGATGAGTC TTCAGATGTT GTTAATTTTA CAGAAGGTAA ACAGGTGTCA 
    GCTGCGAAAT CGAGTTCGAA AGTCATAGAA TTAAGAAGTT GTTCACTTTT CGAGAGGAAC 
    AGAAGAAGTG AATTGGAACG TATGAAAAAA CGTCAGAGAG TAGTTTGCAA TGTTTGTTTG 
    GTATCGTTTG AAAAAGCACG CGGCTTAGTA ATGCATAGGT TGTTTTTAAG TAGACCGTTC 
    ATGTGCGACA ATTGCCACAA GTCGTTCACC TCGCAAACGA ACTATGCCCT TCATAAGATT 
    ACCTATCAGA GCAGTTGCGG AGGCGGACCC GGTCCGAAGC CTCGTTACGT TTGCAACTTT 
    TGCGAGCGAG GATTTTTCCG CAGAAGCCTT ATCCAGTCTC ATTTGTTTCA TCAACACGGA 
    GACGCGATAC ACGGTGGTCG ATTCAATCCT GGGAACATCG TGGAACATGC GTCGATGGAA 
    AATGTTAACG AGGATTCGGT GGACACTGGT TCTGAAATGT CGAAGGATTC AACGTCGACG 
    AAATGGATTA GCACGCCAAC GATGACGGTG AACAATTTGA AATATTCGGA GAACACGCCT 
    AGGAAAAAGT TGAACAGTCC ACTGTCGAGA AATCTAATCA AGTCCTGCGG CACGCCCTCG 
    AAAAAGATGA AACAGACCAC TCTTACGGAC TTCATTTCGT TCTGCAACGC CACCGTGAAG 
    AACGAACGTT CTACACCAGA GAATCTCACC GATTTAGAGA ATATTTCTGG TCGACGACCG 
    GAAACACCCG ACGAATTCGA AAACGATTCG TCGAAACTTC TGAAGGACAT TGAAATGTCC 
    ACACCGGTTA AATGTCCCGA AACTGATATG CTCGATAGTA AAAAACCGTT TGTTCGAATA 
    CACATGTATC CAAACCTAAT AATGTCATTT CTAAGCAAGA ATATAACGAG TCCTACAACT 
    CCTACTACTT CACGGAGTAC TCCTTACAAT TTCAGGCAAA CCAGAGCCGG TTCTAACAAT 
    TCAACTGATC CCGAATCTCC TAAGAGTGCA AGAGAATCTC GTAAAAGAAA AAGAAACGCT 
    AAGAAAGAAG CATTGTTTTC GCTAGAGAAA AAGATCAGGA CTACGTGTAA AGATTGTGCG 
    ATTTATCTGG AAAGATGCGA TAAAGTTGCG AAGACTAACG TGTCGCAGAG CGTTTCTCAA 
    CAAGTAGAAT CAGAAAGAGT GGAAGAAAAT TCCGAAGAGG TACAGAAAAC GAATCTAGAA 
    GGCGACGCAT CGTTGAAAGC TATAGAAACT CCATCGGCGG GATCGTCTAC GGTGATAAAG 
    CCTTGTAAGA ATGAGCCAAC GACAGCTGAA CAACAGTCAG ATTTGCACGA GAAAGAAGTG 
    AAGCCTAAAT TGGTAAGAAT GTTTCGTTGC AATCTCTGCG ACAAGTTCTT CCTGTCACAG 
    GAGAACATGC GCGAGCACAA AGAACTGTTC CACGTGATCT ACATGTCGAG CATATGCAAC 
    GCGCGTTTCA AGACCATGAG CCTGCTGTTG CGCCATTACT GGCGGCAGCA TCTCATCCCC 
    ATGCATAAGA AATGCTGCGT GTGCGACGAG AAATTCGACA GCACGATACT GCTGAAGCAA 
    CACTTGGTGT TACATTGCGT GAAAACCGTG CAGTCCAAGA AAGACACTCT ACCGGTCGAC 
    ATCGAACCAC TCTGCAACGT GTTCAAGAAG CGCCATCGAT GCAAAGGTTG CCTAAAACGA 
    TTTTGGTTGA AAGTGTGTTT GACGCAGCAC GAGAAGGTGT GTCGTCGAAT GAAAACCAGG 
    ACGACTGACA AACAGCCAAG ATCTTCGTCG GTCTCGATAG AGAAAGATAA CGAGAAATCT 
    AGCTCGGTGG TCGATAAAAA ACAAGCTCCC AGTGTTCCAC CGAACGAGCA ACCGGCGGTT 
    AGTCCGAATG GAAATACGCA ATATCGTTCT AAAATCGACA TTTTCCCGTT AGAATCGCAT 
    AACGTGGTGA ACAAAAGGCT GATCAACGGT ATGGCGTACG CGAAGGGTTA CCAAGTAAAC 
    GCTCAAAACG ACGCGGTCTT TCCCTGCACT ATCTGCGACA AACAGTTCCG CACGTTCCCC 
    AATCTTTGTA TGCACGAGCG TACCTTCTGC AAACCTCTAA TTAACCGGTG TAACACTTGC 
    GGTACCGCGT TCCCCACTAA GAAACTACTG CAGATTCACA TGCTCGCGGC TCACACAGCT 
    TCGAATGCCG GGCATTACAA GTTCATCTGT CAATACTGTA ACCAAGGTTT CGTGAAAAGG 
    ATGAACCTTC AGATACACGA GCGACACTTG CACGTTAATA CGAAAGTGCT GCAAAATACC 
    GATCGTATCT TCAGCGTGCA CACCATATGC AGCGTGTGCA ATCTGATGTT CGAGTCCTAC 
    GAACGTTTCG TCCAGCATAA CATGTACTAT TACCAGGGGC AAACGTTCGC GTGCACGTTT 
    TGCTCGGAGT CCTTCCAAGG TATGTATCTG CTTCATCATC ACTACAAGGT GACGCATCGT 
    CCGGACAACA AACGACAGTC GTACATTTAC ACGTGCGACG TTTGCAACGA GATGTTCTCC 
    TACGATTCCC ATTTGCACGC GCATAAATGG CACGTTCACC TGCACAACGA GCCCTCTGTG 
    CAGAACACTT TGAACACCAT GCAAGATCAC AGCTACGCGT TGACTCCCAA CATGGACGTC 
    TCGGCGGCGG AATCGGCAGG TCTACCGGTG AAGATGTACG GATGCAACGT TTGCGACTTG 
    CATTTTACCA ACACGAAGGA CTTACTGGTG CACAAGGTGG AATACTCGGC GGACGGCGAC 
    TTCGAGTGCA AAGGATGCCA CCGTAGGTGT CACACCAGTT CCATTCTTGC TAGGCATCAA 
    TGTTTGAGTC ACACCGACTG CGAGTCGAAC AGTACTTACA AATGCTGCTT CTGCGGGGAA 
    GTGTTGACGA CCAGTATCTC GATCATGTGT CACGATAAAC ATTTTCACAC GAACAACGTG 
    GATCCGTCGA GACCGCGAAA CACCTCCCTG AAACCATTAG ACAGCGCTGC TTTGCTCGAC 
    ATCTCAGGTG GCACTTTCAA TTGCTGGACT TGCGACTCCA AGTTCAAAAC ACCGGCTGAT 
    CTGAAGCAAC ATCTGCTGGA GTACTCGGAC ATAGGCGCGT TCAGCTGCAG CATTTGCCAC 
    AGGAAATTCT CGAATTGCTA CGTACTCGAG GTGCACAAGC TGAAGCATTC CACGCTTAGC 
    GTGTCTCTGT TTCGACACCG GTGTCCTTTG TGCAACGAGG GATTCACGTG CGCGAACAAC 
    GTTCGAGTAC ACGTGATGCA CCTGCATCGA TACGAAATCT TCGGCAACAA CAACGTTAAG 
    ATGTACACGT TGACCAAACT GCCTAACGGT ACAGACACCA TCGAGCAGAC TGCGATGTTC 
    ATCAAGTCCA TGACGATAGC TAATAATTCT TTGATGCCGA TGTCGGCTTC TCAAACTACG 
    AACAAACTGA TGGTGAACTG TCCGGAATGT GACATAACGT TCAGCAGCCC GAAACATCTG 
    GCGAAGCACA GGTCGCGGTT CTGGAACAAA GGGAATCATC AGTGCCCGAA ATGTGGCCGT 
    AGATTTCTAT GGCTTACGTT GATGCAAGCA CATTTAAAGA AACATTCCGC CAAGGCGAAC 
    AGTTTGTTGA AGTACTTGTG TCCTCATTGC GACGACAAGT TTCGAAGCTC CGTGGCCGTC 
    TACTCGCACG TCATCCACCT TCACGGCAAG GACAAGTTAG GTGGTCGACA TATCCACCAT 
    GTTGATCCAT GTGCTTCCAC GTGTGCTGAG ACAGGGAACA GTGCTGCCAT GGAAGGAGGT 
    CGATTTGAGG AGGCGGGTAC TAGGGCCGGT ATTATTGGAA CGAAGGAAAG TGGACCGATT 
    CCAAAGGCAT CCCAAACGCA CTTCATGTTG ACACATTTCG ATACAACATT AAACGAGTTC 
    AGTTATGCAA ATGTCAGAGA TGGCTTAACG TGTACCACCT GTGGATCAAG CTTCGCTGAC 
    CGACAGACGT TGGATCAGCA CAAGAAGACT GCTCATGCAC TATGCGAGCA CTTGTTCAAT 
    ATCAACATTG ACAAGTCTGA AAAGACTAAG GAGTCTCAGC AGACTAAAGT ATCTGAACAG 
    ACTAATGGGT CTCAGCAGAC TAAAGTGTCT GAACAGACTA ATGGGTCTCA ACAGACTGAC 
    CTGTCTGAAC AGACTGACTG A

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

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