ORF » Species Summary » Camelus ferus » ARHGAP35 cDNA ORF clone

ARHGAP35 cDNA ORF clone, Camelus ferus(Wild Bactrian camel)

The following ARHGAP35 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP35 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
OCa34162 XM_006175102.2
Latest version!		 Camelus ferus Rho GTPase activating protein 35 (ARHGAP35), 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)
    ARHGAP35 ( XM_006175102.2 ) cDNA ORF clone, Camelus ferus(Wild Bactrian camel) -> XP_006175164.1 Camelus ferus Rho GTPase activating protein 35 (ARHGAP35), mRNA.
    Price & Availability↑
    CloneID OCa34162
    Clone ID Related Accession (Same CDS sequence) XM_006175102.2
    Accession Version XM_006175102.2 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 2015-11-02
    Organism Camelus ferus(Wild Bactrian camel)
    Product rho GTPase-activating protein 35
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006210366.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Nov 3, 2015 this sequence version replaced XM_006175102.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Camelus ferus Annotation Release 101 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
    ATGATGATGG CAAGAAAGCA AGATGTCCGC ATTCCCACCT ACAACATCAG TGTGGTGGGA 
    TTGTCTGGGA CAGAGAAGGA GAAGGGCCAG TGCGGCATTG GGAAGTCTTG TTTGTGCAAC 
    CGCTTTGTGC GCCCGAGTGC TGACGAATTT CACTTGGACC ATACCTCTGT CCTCAGCACC 
    AGTGACTTTG GTGGGCGGGT GGTCAATAAT GACCACTTTC TCTACTGGGG AGAAGTTAGC 
    CGTTCCCTGG AGGATTGTGT GGAATGTAAG ATGCACGTTG TGGAGCAGAC TGAATTCATT 
    GATGATCAGA CTTTTCAGCC TCATCGAAGC ACGGCCCTGC AGCCCTATAT CAAGAGAGCT 
    GCTGCAACCA AGCTCGCATC AGCTGAAAAA CTCATGTACT TTTGCACTGA CCAGCTGGGG 
    CTGGAGCAGG ACTTTGAGCA GAAACAAATG CCAGATGGAA AGCTGCTAAT TGATGGTTTT 
    CTTCTTGGTA TTGATGTTAG CAGGGGCATG AATAGGAGCT TTGATGATCA GCTCAAGTTT 
    GTCTCTAATC TCTACAATCA GCTTGCAAAA ACAAAAAAGC CTATAGTGGT GGTCCTGACT 
    AAGTGTGATG AGGGTGTTGA GCGGTACATT AGAGATGCAC ATACTTTTGC CTTAAGCAAA 
    AAGAACCTCC AGGTTGTGGA GACCTCAGCA AGATCCAATG TAAATGTGGA CTTAGCTTTC 
    AGCACCTTAG TGCAACTCAT TGATAAAAGT CGGGGAAAGA CGAAAATCAT TCCTTATTTT 
    GAAGCTCTCA AGCAGCAGAG TCAGCAGATA GCTACAGCAA AAGACAAGTA TGAGTGGCTG 
    GTGAGTCGCA TTGTGAAAAA CCACAACGAG AATTGGCTGA TTGTCAGCCG AAAGATGCAG 
    GCCTCTCCTG AGTACCAGGA CTATGTCTAC CTGGAAGGGA CTCAGAAAGC CAAGAAGCTG 
    TTTCTCCAGC ACATCCACCG CCTGAAGCAT GAGCATATTG AGCGCAGAAG GAAGCTGTAC 
    CTGGCAGCCC TGCCATTAGC TTTTGAAGCT CTTATACCCA ATCTAGATGA AATAGACCAC 
    CTGAGCTGCA TAAAAGCCAA AAAGCTCTTG GAGACCAAGC CAGAATTCTT AAAGTGGTTT 
    GTTGTGCTTG AAGAGACACC ATGGGATGCC ACCAGCCACA TTGACAACAT GGAGAATGAG 
    CGGATTCCCT TTGACCTAAT GGATACCGTT CCTGCAGAGC AGCTGTACGA GGCCCACTTA 
    GAGAAGCTGC GAAACGAGAG GAAAAGAGCT GAGATGAGAA GGTCTTTTAA AGAAAACCTG 
    GAGACCTCTC CTTTCATAAC TCCTGGAAAG CCTTGGGAAG AGGCCCGCAG TTTTATTATG 
    AATGAAGATT TCTACCAGTG GCTGGAAGAA TCTGTATACA TGGATATTTA TGGCAAACAC 
    CAAAAGCAAA TTATAGACAA AGCAAAGGAA GAGTTTCAGG AGCTGCTTTT GGAATATTCA 
    GAATTGTTTT ATGAGCTAGA GCTGGATGCT AAGCCCAGCA AGGAGAAGAT GGGTGTCATT 
    CAGGATGTTC TGGGGGAGGA ACAGCGATTT AAAGCATTGC AGAAGCTCCA AGCGGAGCGT 
    GATGCCCTTA TTCTGAAGCA CATTCATTTC GTGTACCACC CAACAAAGGA GACGTGCCCT 
    AGCTGCCCCT CTTGTGTGGA TGCTAAGATT GAGCACTTGA TTAGTTCTCG GTTCATCCGA 
    CCCTCTGACC GGAATCAGAA AAATTCACTC TCTGATCACA ACATCGATAG AATCAACTTG 
    GTGATCTTGG GCAAGGATGG CCTTGCACGA GAGTTGGCCA ATGAGATACG AGCTCTTTGT 
    ACAAATGATG ACAAGTATGT AATAGATGGT AAAATGTATG AGCTCTCTCT GAGGCCGATC 
    GAAGGGAATG TTAGGCTTCC TGTGAACTCT TTCCAGACAC CAACATTTCA GCCCCACGGT 
    TGTCTCTGCC TTTACAATTC AAAGGAATCT CTGTCCTATG TGGTGGAGAG TATAGAGAAG 
    AGCAGAGAGT CCACACTCGG CAGGCGAGAT AATCACTTAG TCCATCTTCC CCTGACCTTA 
    ATTTTGGTTA ACAAGAGAGG AGACACCAGT GGAGAGACCC TGCATAGCTT AATACAGCAG 
    GGTCAGCAGA TTGCTAGCAA ACTTCAGTGT GTCTTTCTCG ACCCTGCTTC TGCTGGCATC 
    GGTTATGGAC GCAACATTAA CGAAAAGCAA ATCAGTCAAG TTTTGAAAGG ACTCCTGGAC 
    TCCAAGCGTA ACTTAAACCT GGTCAGTTCT ACTGCTAGCA TCAAAGATCT GGCTGATGTT 
    GACCTGCGAA TTGTCATGTG TCTCATGTGT GGAGATCCTT TTAGTGCAGA TGACATACTC 
    TTTCCTGTCC TGCAGTCTCA AACCTGTAAG TCTTCCCATT GCGGAAGCAA CAACTCTGTT 
    TTACTTGAAC TGCCAATCGG ACTACACAAG AAGCGCATTG AACTGTCAAT TCTTTCCTAC 
    CATTCCTCAT TTAGCATCCG AAAAAGCCGA TTGGTCCATG GGTACATTGT TTTCTATTCA 
    GCCAAACGTA AAGCCTCCTT GGCTATGTTA CGTGCCTTTC TTTGTGAAGT GCAGGATATT 
    ATCCCCATTC AGTTGGTTGC ACTCACTGAC GGCGCTGTAG ATGTCCTGGA TAATGACTTA 
    AGTCGGGAAC AGCTGACTGA GGGGGAGGAG ATCGCTCAAG AAATTGATGG AAGATTCACG 
    AGTATCCCCT GTAGTCAACC CCAGCATAAA CTTGAGCTCT TCCACCCATT TTTTAAAGAT 
    GTGGTGGACA AAAAGAATAT AATCGAGGCT ACTCATATGT ACGACAATGC TGCTGAGGCC 
    TGTAGCACCA CAGAAGAGGT ATTTAACTCC CCCCGGGCAG GCTCACCACT CTGCAACTCA 
    AACCTGCAGG ATTCAGAAGA AGATATCGAG CCCCCTTCTT ACAGCCTGTT TCGAGAAGAC 
    ACATCACTGC CCTCTCTGTC CAAAGACCAT TCAAAGCTCT CTATGGAACT GGAGGGAAAT 
    GACGGGCTGT CTTTCATCAT GAGCAATTTT GAGAGTAAAC TGAACAACAA AGTACCTCCG 
    CCAGTCAAAC CAAAGCCTCC CGTCCATTTT GAAATTACTA AGGGGGATCT GTCTTATTTA 
    GACCAAGGCC ATAGAGATGG ACAGAGGAAG TCTGTGTCTT CTAGCACCTG GCTACCTCCT 
    GATGGGTTCG ATCCTTCTGA TTATGCCGAA CCTATGGATG CCGTGGTCAA GCCAAGGAAT 
    GAAGAGGAAA ACATTTACTC AGTGCCCCAT GACAGCACCC AAGGCAAAAT CATCACGATT 
    CGGAATATCA ACAAAGCCCA ATCCAATGGC AGTGGGAATG GTTCCGACAG CGAAATGGAC 
    ACCAGCTCTC TAGAGCGAGG CCGCAAGGTA TCCATTGTGA GCAAGCCAGT GCTGTACAGG 
    ACGAGATGCA GCCGGCTAGG GAGGTTTGCT AGTTACCGAA CCAGCTTCAG CGTGGGGAGT 
    GATGATGAGC TTGGGCCCAT CCGGAAGAAG GAGGAGGATC AGGCCTCCCA GGGCTATAAA 
    GGGGACAATG CAGTCATTCC ATACGAAACA GATGAAGACC CACGGAGGAG GAATATTCTT 
    CGCAGTCTAA GAAGGAACAC TAAGAAACCA AAGCCCAAAC CCCGGCCATC CATCACGAAG 
    GCAACCTGGG AGAGTAACTA CTTTGGGGTG CCCTTAACAA CCGTCGTAAC TCCAGAGAAG 
    CCGATTCCTG TTTTCATTGA GAGATGTATC GAGTACATTG AAGCCATAGG ACTAAGCACT 
    GAAGGCATCT ACCGGGTCAG TGGGAACAAG TCAGAGATGG AGAGTCTGCA GAGACAATTT 
    GATCAAGACC ACAACTTGGA TTTGGCAGAG AAGGACTTTA CAGTGAATAC CGTGGCCGGA 
    GCCATGAAGA GCTTTTTCTC AGAACTGCCA GACCCTCTGG TCCCCTACAA CATGCAGATT 
    GATCTGGTGG AGGCACACAA AATCAATGAC CGGGAGCAGA AGTTACATGC CCTTAAGGAG 
    GTACTCAAGA AATTTCCAAA GGAAAACCAT GAAGTCTTCA AATACGTCAT CTCTCACCTG 
    AACAAAGTCA GCCACAACAA CAAAGTGAAT CTCATGACCA GTGAGAACCT GTCCATCTGC 
    TTCTGGCCCA CCTTGATGAG ACCCGACTTC AGCACCATGG ATGCCCTCAC GGCCACGCGG 
    ACCTACCAGA CAATCATTGA GCTCTTCATC CAGCAGTGCC CCTTCTTCTT CCACAACCGG 
    CCCATCAGCG AGCCTCCCGG GGCCACGCCC AGCTCCCCCT CTGCCCTGGC TTCCACCGTC 
    CCCTTCCTCA CCTCCACACC TGTCACAAGT CAACCGTCTC CACCCCAGTC GCCTCCGCCA 
    ACCCCCCAGT CCCCGATGCA GCCACTGCTC CCCTCCCAGC TTCAAGCCGA ACATACGCTG 
    TGA

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

    RefSeq XP_006175164.1
    CDS198..4700
    Translation

    Target ORF information:

    RefSeq Version XM_006175102.2
    Organism Camelus ferus(Wild Bactrian camel)
    Definition Camelus ferus Rho GTPase activating protein 35 (ARHGAP35), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006175102.2

    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
    ATGATGATGG CAAGAAAGCA AGATGTCCGC ATTCCCACCT ACAACATCAG TGTGGTGGGA 
    TTGTCTGGGA CAGAGAAGGA GAAGGGCCAG TGCGGCATTG GGAAGTCTTG TTTGTGCAAC 
    CGCTTTGTGC GCCCGAGTGC TGACGAATTT CACTTGGACC ATACCTCTGT CCTCAGCACC 
    AGTGACTTTG GTGGGCGGGT GGTCAATAAT GACCACTTTC TCTACTGGGG AGAAGTTAGC 
    CGTTCCCTGG AGGATTGTGT GGAATGTAAG ATGCACGTTG TGGAGCAGAC TGAATTCATT 
    GATGATCAGA CTTTTCAGCC TCATCGAAGC ACGGCCCTGC AGCCCTATAT CAAGAGAGCT 
    GCTGCAACCA AGCTCGCATC AGCTGAAAAA CTCATGTACT TTTGCACTGA CCAGCTGGGG 
    CTGGAGCAGG ACTTTGAGCA GAAACAAATG CCAGATGGAA AGCTGCTAAT TGATGGTTTT 
    CTTCTTGGTA TTGATGTTAG CAGGGGCATG AATAGGAGCT TTGATGATCA GCTCAAGTTT 
    GTCTCTAATC TCTACAATCA GCTTGCAAAA ACAAAAAAGC CTATAGTGGT GGTCCTGACT 
    AAGTGTGATG AGGGTGTTGA GCGGTACATT AGAGATGCAC ATACTTTTGC CTTAAGCAAA 
    AAGAACCTCC AGGTTGTGGA GACCTCAGCA AGATCCAATG TAAATGTGGA CTTAGCTTTC 
    AGCACCTTAG TGCAACTCAT TGATAAAAGT CGGGGAAAGA CGAAAATCAT TCCTTATTTT 
    GAAGCTCTCA AGCAGCAGAG TCAGCAGATA GCTACAGCAA AAGACAAGTA TGAGTGGCTG 
    GTGAGTCGCA TTGTGAAAAA CCACAACGAG AATTGGCTGA TTGTCAGCCG AAAGATGCAG 
    GCCTCTCCTG AGTACCAGGA CTATGTCTAC CTGGAAGGGA CTCAGAAAGC CAAGAAGCTG 
    TTTCTCCAGC ACATCCACCG CCTGAAGCAT GAGCATATTG AGCGCAGAAG GAAGCTGTAC 
    CTGGCAGCCC TGCCATTAGC TTTTGAAGCT CTTATACCCA ATCTAGATGA AATAGACCAC 
    CTGAGCTGCA TAAAAGCCAA AAAGCTCTTG GAGACCAAGC CAGAATTCTT AAAGTGGTTT 
    GTTGTGCTTG AAGAGACACC ATGGGATGCC ACCAGCCACA TTGACAACAT GGAGAATGAG 
    CGGATTCCCT TTGACCTAAT GGATACCGTT CCTGCAGAGC AGCTGTACGA GGCCCACTTA 
    GAGAAGCTGC GAAACGAGAG GAAAAGAGCT GAGATGAGAA GGTCTTTTAA AGAAAACCTG 
    GAGACCTCTC CTTTCATAAC TCCTGGAAAG CCTTGGGAAG AGGCCCGCAG TTTTATTATG 
    AATGAAGATT TCTACCAGTG GCTGGAAGAA TCTGTATACA TGGATATTTA TGGCAAACAC 
    CAAAAGCAAA TTATAGACAA AGCAAAGGAA GAGTTTCAGG AGCTGCTTTT GGAATATTCA 
    GAATTGTTTT ATGAGCTAGA GCTGGATGCT AAGCCCAGCA AGGAGAAGAT GGGTGTCATT 
    CAGGATGTTC TGGGGGAGGA ACAGCGATTT AAAGCATTGC AGAAGCTCCA AGCGGAGCGT 
    GATGCCCTTA TTCTGAAGCA CATTCATTTC GTGTACCACC CAACAAAGGA GACGTGCCCT 
    AGCTGCCCCT CTTGTGTGGA TGCTAAGATT GAGCACTTGA TTAGTTCTCG GTTCATCCGA 
    CCCTCTGACC GGAATCAGAA AAATTCACTC TCTGATCACA ACATCGATAG AATCAACTTG 
    GTGATCTTGG GCAAGGATGG CCTTGCACGA GAGTTGGCCA ATGAGATACG AGCTCTTTGT 
    ACAAATGATG ACAAGTATGT AATAGATGGT AAAATGTATG AGCTCTCTCT GAGGCCGATC 
    GAAGGGAATG TTAGGCTTCC TGTGAACTCT TTCCAGACAC CAACATTTCA GCCCCACGGT 
    TGTCTCTGCC TTTACAATTC AAAGGAATCT CTGTCCTATG TGGTGGAGAG TATAGAGAAG 
    AGCAGAGAGT CCACACTCGG CAGGCGAGAT AATCACTTAG TCCATCTTCC CCTGACCTTA 
    ATTTTGGTTA ACAAGAGAGG AGACACCAGT GGAGAGACCC TGCATAGCTT AATACAGCAG 
    GGTCAGCAGA TTGCTAGCAA ACTTCAGTGT GTCTTTCTCG ACCCTGCTTC TGCTGGCATC 
    GGTTATGGAC GCAACATTAA CGAAAAGCAA ATCAGTCAAG TTTTGAAAGG ACTCCTGGAC 
    TCCAAGCGTA ACTTAAACCT GGTCAGTTCT ACTGCTAGCA TCAAAGATCT GGCTGATGTT 
    GACCTGCGAA TTGTCATGTG TCTCATGTGT GGAGATCCTT TTAGTGCAGA TGACATACTC 
    TTTCCTGTCC TGCAGTCTCA AACCTGTAAG TCTTCCCATT GCGGAAGCAA CAACTCTGTT 
    TTACTTGAAC TGCCAATCGG ACTACACAAG AAGCGCATTG AACTGTCAAT TCTTTCCTAC 
    CATTCCTCAT TTAGCATCCG AAAAAGCCGA TTGGTCCATG GGTACATTGT TTTCTATTCA 
    GCCAAACGTA AAGCCTCCTT GGCTATGTTA CGTGCCTTTC TTTGTGAAGT GCAGGATATT 
    ATCCCCATTC AGTTGGTTGC ACTCACTGAC GGCGCTGTAG ATGTCCTGGA TAATGACTTA 
    AGTCGGGAAC AGCTGACTGA GGGGGAGGAG ATCGCTCAAG AAATTGATGG AAGATTCACG 
    AGTATCCCCT GTAGTCAACC CCAGCATAAA CTTGAGCTCT TCCACCCATT TTTTAAAGAT 
    GTGGTGGACA AAAAGAATAT AATCGAGGCT ACTCATATGT ACGACAATGC TGCTGAGGCC 
    TGTAGCACCA CAGAAGAGGT ATTTAACTCC CCCCGGGCAG GCTCACCACT CTGCAACTCA 
    AACCTGCAGG ATTCAGAAGA AGATATCGAG CCCCCTTCTT ACAGCCTGTT TCGAGAAGAC 
    ACATCACTGC CCTCTCTGTC CAAAGACCAT TCAAAGCTCT CTATGGAACT GGAGGGAAAT 
    GACGGGCTGT CTTTCATCAT GAGCAATTTT GAGAGTAAAC TGAACAACAA AGTACCTCCG 
    CCAGTCAAAC CAAAGCCTCC CGTCCATTTT GAAATTACTA AGGGGGATCT GTCTTATTTA 
    GACCAAGGCC ATAGAGATGG ACAGAGGAAG TCTGTGTCTT CTAGCACCTG GCTACCTCCT 
    GATGGGTTCG ATCCTTCTGA TTATGCCGAA CCTATGGATG CCGTGGTCAA GCCAAGGAAT 
    GAAGAGGAAA ACATTTACTC AGTGCCCCAT GACAGCACCC AAGGCAAAAT CATCACGATT 
    CGGAATATCA ACAAAGCCCA ATCCAATGGC AGTGGGAATG GTTCCGACAG CGAAATGGAC 
    ACCAGCTCTC TAGAGCGAGG CCGCAAGGTA TCCATTGTGA GCAAGCCAGT GCTGTACAGG 
    ACGAGATGCA GCCGGCTAGG GAGGTTTGCT AGTTACCGAA CCAGCTTCAG CGTGGGGAGT 
    GATGATGAGC TTGGGCCCAT CCGGAAGAAG GAGGAGGATC AGGCCTCCCA GGGCTATAAA 
    GGGGACAATG CAGTCATTCC ATACGAAACA GATGAAGACC CACGGAGGAG GAATATTCTT 
    CGCAGTCTAA GAAGGAACAC TAAGAAACCA AAGCCCAAAC CCCGGCCATC CATCACGAAG 
    GCAACCTGGG AGAGTAACTA CTTTGGGGTG CCCTTAACAA CCGTCGTAAC TCCAGAGAAG 
    CCGATTCCTG TTTTCATTGA GAGATGTATC GAGTACATTG AAGCCATAGG ACTAAGCACT 
    GAAGGCATCT ACCGGGTCAG TGGGAACAAG TCAGAGATGG AGAGTCTGCA GAGACAATTT 
    GATCAAGACC ACAACTTGGA TTTGGCAGAG AAGGACTTTA CAGTGAATAC CGTGGCCGGA 
    GCCATGAAGA GCTTTTTCTC AGAACTGCCA GACCCTCTGG TCCCCTACAA CATGCAGATT 
    GATCTGGTGG AGGCACACAA AATCAATGAC CGGGAGCAGA AGTTACATGC CCTTAAGGAG 
    GTACTCAAGA AATTTCCAAA GGAAAACCAT GAAGTCTTCA AATACGTCAT CTCTCACCTG 
    AACAAAGTCA GCCACAACAA CAAAGTGAAT CTCATGACCA GTGAGAACCT GTCCATCTGC 
    TTCTGGCCCA CCTTGATGAG ACCCGACTTC AGCACCATGG ATGCCCTCAC GGCCACGCGG 
    ACCTACCAGA CAATCATTGA GCTCTTCATC CAGCAGTGCC CCTTCTTCTT CCACAACCGG 
    CCCATCAGCG AGCCTCCCGG GGCCACGCCC AGCTCCCCCT CTGCCCTGGC TTCCACCGTC 
    CCCTTCCTCA CCTCCACACC TGTCACAAGT CAACCGTCTC CACCCCAGTC GCCTCCGCCA 
    ACCCCCCAGT CCCCGATGCA GCCACTGCTC CCCTCCCAGC TTCAAGCCGA ACATACGCTG 
    TGA

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

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