ARHGEF5 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following ARHGEF5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGEF5 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
OMb31350 XM_001094223.3
Latest version!
Macaca mulatta Rho guanine nucleotide exchange factor 5 (ARHGEF5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMb83304 XM_001094223.4
Latest version!
Macaca mulatta Rho guanine nucleotide exchange factor 5 (ARHGEF5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    CloneID OMb31350
    Clone ID Related Accession (Same CDS sequence) XM_001094223.3
    Accession Version XM_001094223.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4794bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product rho guanine nucleotide exchange factor 5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804764.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 21, 2015 this sequence version replaced XM_001094223.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    4561
    4621
    4681
    4741
    ATGGAGGCTG AGGAGGCCCA GCATGGAGCC TCTCCTCCCA TCCCTGCCAT AGTGGAACTC 
    AGCATTATCC CTGAGGCTCC CATGAGGAGC AGCCAGGTGT CTGCCTTGGG GCTTGAAGCT
    CAAGAAGATG AGGACCCATC CTATAAATGG AGAGAGGAAC ACAGACTCTC AGCAACCCAG
    CAGAGAGAGT TAAGGGATGT GTGTGACTAT GCGGGTGAGA CGATGCCCTC TTTTCCCAAG
    GAAGGTTCTG CAGATGTGGA GCCCAATCAG GAAAGCTTTG TGGCTGAGAC CTGTGACACT
    CCGGAACACT GGGAGGCAGC ACCCCAGAGC CTGGCAGGCC GACAAGCAAG GACTGTAGCT
    TCCCCAGAGC TCTGGGCCTG CCCCATTCAG AGTGATCATC TAGACATGGC CTCATTTTCC
    AGTGACCTGG GAAGCGAAGA AGAGGAGGTA GAATTTTGGC CAGGACTTAC TTCTTTGGCA
    CTGGGATCTG GACAGGCAGA AGAAGAAGAG GAAACCTCTT CAGATACCTC TGGTCAGACC
    AGATTTTATT CTCCCTGCGA AGAGCATCCT ACAGAGACCA ACCAGAGTGA AGGCTCTGAG
    AGTGGGACTA TCAGGCAGGG GGAAGAGCTG CCATCCGAGG AGCTGCAGGA AAGTCGAGGG
    CTCTTGCATC CCCAGGAGGT CCAAGTTCTG GAGGAGCAGG GGCAGCAGGA AGCAGGATTT
    GCAGGGGAAG GAACTCTGGG GGAGGATGTT TGTGCTGATG GGCTGTTGGG GGAGGAACAG
    ATGATAGAGC AGGTTAATCG AGAAAAGGGA GAACAGAAGC AAAAACAGGA ACAGGTACAA
    GATGATGTGA TGCTTGGGAG ACAAGGAGAA AGAGCGAGGC TCACTGGGGA ACCAGAGGGT
    CTGAATGATG GTGAGTGGGA GCAGGAGGAT GTGGAGAGGA GGGCTCAGGG TCAGGGAGGT
    CCAGAACAGG GAGAAGGGAG AAAGAGGGAG CTGCAGATGC CGGAAGAGAA TAGGGTGGAC
    TCTCAGGATG AGAAGAGTCA AAGCTTTGTG GGAAAGTCAG AGGAAGTAAC TGGAAAGCAA
    GAAGATCATG GTCTAAAGGA GAAAGGGGTG CCAGTCAGCG GGCAGGAGGA GAAAGAGCCA
    GGGAGTTGGG ATGGGGGCAG GCTGGGGGCA GTGGGAGGAG TGAGGAGCAG GGAAGAGGAG
    AATGAGCATC ATGGGCCTTC GATGCCCGCT CTGGTAGCCC CGGAGGACTC TCCTCACTGT
    GACGTGTTTC CAGGTGCCTC ATATCTCGTG ACTCAGATTC CCAGGACTCA GACAGAGTCC
    AGGGCTGAGG AACTGTCCCC TGCAGCTCTG TCTCCCTCAC TAGAGCCCAT CAGATGCTCT
    CACCAGCCCA TTTCTCTATT GGGCTCCTTT TCGACTGAGG AGTCACCTGA TAAGGAAATA
    GCTCAAAACA GCCAGCAAGA GGGATCCAGG CTGAGGAAGG GAACAGTGTC CAGCCAAGGG
    ACTAAGGCAG TCTTTGCCAG TGCATCTGTG ACTCCTCCAG GGACACCAGA TTCAGCTCCT
    CCCAGTCCTG CTGAAGCCTC CCCCATCACA CCTGCCTCGG TATCTGCCAG GCCCCCAGGT
    GCCTTTCCCA GGAGGGAAAT CTCTTGTGCT GCACATGCTT CAGAGACTGC CAGTGCCCCT
    CTCTCAATGG ATGACCCATC TCCCCGGGGG ACTTTGGAGA TGTGCCCGGC TACCCTCCAT
    GGCTTCCCCT CTGCCGGGGC CAGCCCTCCC AGGCCCCCAG CCAATTCCAC AGGCACCGTC
    CAGTACTTAC GGAGTGACTC CTTCCCCGGT TCTCACAGGA CAGAGCAGAC TCCAGACCTG
    GTGGGAATGT TGCTTTTCCA CTCCCACTCA GAGCTGCCCC AGAGGCCCCC CAAACCTGCC
    ATCTACAGCT CTGTGACCCC AAGAAGGGAC AGAAATAGTG GTAGGAACTG CAGCACCGTT
    TCAGAATCCC CTACTGCCTT ATCCACTCCG AAGCAGGACT CTCAAGGATC CATCTCCAAT
    CTAGAGAGGC CCAGCAGTCC TCCCAGCAGC CAGCCCTGGG GCTCCCCACA TAATCCAGCC
    TTTGCCGCAG AGTCTCCTGC CTATGGTTCT TCCCCATCCT TTGTCTCCAT GGATGTGAGG
    ATCCATGAAC CTCTGCCCCC TCCTCCCCCA GAGAGGAGGG ACGCCCATCC CTCCGTGGTG
    GAGAGAGATG GCCATCCTCG TGTGGTGGTT CCCACACTGA AGCAGCATAG CCACCCTCCT
    CCATTGGCCC TAGGTTCAGG GCCATATACC CCCCATAAAG GCCCACTTCC CCAAGCCTCT
    GACCCCGCTG TGGCCAGGCA GCACCGGCCT CTGCCATCTA CCCCAGACAG CTTCCACCAT
    GCTCAGGTCA CCCCCAGGTG GAGATACAAC AAGCCGCTAC CCCCTACCCC TGATTTGCCG
    CAGCCCCACC TTTCTCCCAT TTCTGCTCCT GGTATCCCAA GGATCTACAG GCCTCTACCC
    CCACTACCCA TCATAGACCC TCCCACCGAA CCACCTCCAT TACCCCCAAA GTCCAGGGGA
    AGAAGCAGGA GCACTCGGGG AGGACATATG AACTCAGGGG GTCATGCTAA AACAAGACCT
    GCTGGTCAAG ACTGGACAGT CCCCATCCCC ACCTCTGCTG GACGCACCTC CTGGCCCCCG
    GCCACAGGTA GATCAACAGA GTCTTTCACT TCCACCAGCA GGAGTAAGAG CGAAGTGTCC
    CCTGGCATGG CTTTCAGCAA CATGACAAAC TTCCTATGCC CCTCTTCCCC TACCACTCCC
    TGGACTCCGG AGCTCCAGGG ATCCACCCCT AAGGATGAAG CAGGAGTCTC AGAACATCCT
    GAGGTCCCTG CAAGAGAACC TTTGAGAAGG ACAACCCCTC AGCAAGGAAC CAGTGGTCCA
    GGGAGGTCAT CTGTGAGCCA AGCAAGGCAG CCAGAAAAAC CCAGCCATCT GCACCTGGAG
    AAGGCGTCCA GCTGGCCCCA CAGGCGGGAC TCAGGGAGGC CACCAGGGGA CAGCAGTGGA
    CAGGCTATGG CTCCTAGTGA GGGGGCCAGC AAGCACAAGG GCTGGAGCCG GCAGGGCCTG
    CGCAGACCTT CCATCTTGCC TGAGGGCTCT TCAGATTCAA GAGGTCCAGC CATGGAGAAA
    CATCTGGCAC CCTCAGACAC TGTTGTTTTT CGGGAGAAAA AACCAAAGGA GGTCATGGGA
    GGCTTTTCAA GACGCTGCTC CAAGCTCATC AACTCCTCCC AGCTGCTTTA CCAGGAGTAT
    AGTGATGTTG TCCTGAATAA GGAGATCCAG AGCCAGCAGA GGCTGGAGAG CCTACCTGAG
    ACACCCGGGC CTAGCTCTCC ACGGCAGCCT CGGAAGGCCC TGGTCTCGTC CGAGTCGTAC
    CTGAAGCGGC TCTCCGTGGC CTCCAGCGGC TCCCTCTGGC AGGAAATCCC CGTGGTGCGC
    AACAGCACCG TGCTGCTCTC CATGACTCAC GAAGACCAAA AGCTGCAAGA GGTCAAATTT
    GAGCTGATCG TGTCAGAGGC CTCCTATCTG CGCAGTCTAA ACATAGCTGT GGATCATTTC
    CAACTTTCAA CCTCACTCCG GGCCACACTT TCCAACCAGG AGCACCAATG GCTATTCTCT
    CGTTTACAGG ATGTGCGAGA CGTCAGCGCC ACGTTCCTTT CAGACCTGGA AGAGAACTTT
    GAGAACAATA TCTTCTCCTT CCAAGTATGT GATGTAGTCC TGAACCATGC CCCAGACTTC
    CGCCGGGTCT ACCTGCCTTA TGTCACCAAC CAGACCTATC AGGAACGCAC CTTCCAGAGC
    CTGATGAATA GCAACAGCAA TTTCCGAGAG GTCTTGGAGA AGCTGGAGAG CGACCCCGTC
    TGCCAGCGCC TTTCCCTCAA GTCTTTTCTG ATTCTGCCCT TCCAACGCAT CACCCGCCTC
    AAACTGCTGC TCCAGAACAT TCTGAAGAGA ACACAGCCTG GCTCCTCGGA GGAGGCAGAG
    GCCACGAAGG CGCACCATGC CCTGGAGCAG CTGATCCGGG ACTGCAATAA CAATGTCCAG
    AGTATGCGAC AGACAGAGGA GCTAATCTAC CTGAGCCAGA AGATTGAGTT TGAGTGCAAA
    ATATTCCCGC TCATTTCTCA GTCACGCTGG CTGGTGAAGA GTGGGGAGCT GACAGCCTTG
    GAGTTCAGTG TTTCCCCAGG GCTGCGAAGG AAGCTGAACA CACGTCCAGT CCACCTTCAC
    CTCTTCAATG ACTGTCTGCT GCTGTCTCGG CCCCGAGAGG GTAGCCGATT CCTGGTATTT
    GACCATGCTC CCTTCTCCTC CATTCGGGGG GAGAAGTGTG AAATGAAGCT ACATGGACCT
    CACAAAAACC TGTTCCGACT CTTTCTGCGG CAGAGCACTC AGGGCGCCCA GGCCGAGTTC
    CTCTTCAGCA CGGAGACTCA AAGTGAAAAG CTTCGGTGGA TCTCAGCCTT GGCCATGCCA
    AGAGAAGAGT TGGACCTCCT GGAGTGTTAC GACTCCCCCC AGGTACAGTG CCTTCGAGCC
    TACAAGCCCC GAGAGAACGA CGAGTTGGCA CTGGAGAAAG CCGACGTGGT GATGGTGACT
    CAGCAGAGCA ATGATGGCTG GCTGGAGGGC GTGAGGCTCT CAGACGGGGA GCGAGGCTGG
    TTTCCTGTGC AACAGGTGGA GTTCATTTCC AACCCAGAGG TCCGTGCGCG GAACCTGAAG
    GAAGCTCATC GAGTCAAGAC TGCCAAGCTA CAGCTGGTGG AACAGCAAGC CTAA

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

    RefSeq XP_001094223.3
    CDS170..4963
    Translation

    Target ORF information:

    RefSeq Version XM_001094223.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho guanine nucleotide exchange factor 5 (ARHGEF5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001094223.3

    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
    4741
    ATGGAGGCTG AGGAGGCCCA GCATGGAGCC TCTCCTCCCA TCCCTGCCAT AGTGGAACTC 
    AGCATTATCC CTGAGGCTCC CATGAGGAGC AGCCAGGTGT CTGCCTTGGG GCTTGAAGCT
    CAAGAAGATG AGGACCCATC CTATAAATGG AGAGAGGAAC ACAGACTCTC AGCAACCCAG
    CAGAGAGAGT TAAGGGATGT GTGTGACTAT GCGGGTGAGA CGATGCCCTC TTTTCCCAAG
    GAAGGTTCTG CAGATGTGGA GCCCAATCAG GAAAGCTTTG TGGCTGAGAC CTGTGACACT
    CCGGAACACT GGGAGGCAGC ACCCCAGAGC CTGGCAGGCC GACAAGCAAG GACTGTAGCT
    TCCCCAGAGC TCTGGGCCTG CCCCATTCAG AGTGATCATC TAGACATGGC CTCATTTTCC
    AGTGACCTGG GAAGCGAAGA AGAGGAGGTA GAATTTTGGC CAGGACTTAC TTCTTTGGCA
    CTGGGATCTG GACAGGCAGA AGAAGAAGAG GAAACCTCTT CAGATACCTC TGGTCAGACC
    AGATTTTATT CTCCCTGCGA AGAGCATCCT ACAGAGACCA ACCAGAGTGA AGGCTCTGAG
    AGTGGGACTA TCAGGCAGGG GGAAGAGCTG CCATCCGAGG AGCTGCAGGA AAGTCGAGGG
    CTCTTGCATC CCCAGGAGGT CCAAGTTCTG GAGGAGCAGG GGCAGCAGGA AGCAGGATTT
    GCAGGGGAAG GAACTCTGGG GGAGGATGTT TGTGCTGATG GGCTGTTGGG GGAGGAACAG
    ATGATAGAGC AGGTTAATCG AGAAAAGGGA GAACAGAAGC AAAAACAGGA ACAGGTACAA
    GATGATGTGA TGCTTGGGAG ACAAGGAGAA AGAGCGAGGC TCACTGGGGA ACCAGAGGGT
    CTGAATGATG GTGAGTGGGA GCAGGAGGAT GTGGAGAGGA GGGCTCAGGG TCAGGGAGGT
    CCAGAACAGG GAGAAGGGAG AAAGAGGGAG CTGCAGATGC CGGAAGAGAA TAGGGTGGAC
    TCTCAGGATG AGAAGAGTCA AAGCTTTGTG GGAAAGTCAG AGGAAGTAAC TGGAAAGCAA
    GAAGATCATG GTCTAAAGGA GAAAGGGGTG CCAGTCAGCG GGCAGGAGGA GAAAGAGCCA
    GGGAGTTGGG ATGGGGGCAG GCTGGGGGCA GTGGGAGGAG TGAGGAGCAG GGAAGAGGAG
    AATGAGCATC ATGGGCCTTC GATGCCCGCT CTGGTAGCCC CGGAGGACTC TCCTCACTGT
    GACGTGTTTC CAGGTGCCTC ATATCTCGTG ACTCAGATTC CCAGGACTCA GACAGAGTCC
    AGGGCTGAGG AACTGTCCCC TGCAGCTCTG TCTCCCTCAC TAGAGCCCAT CAGATGCTCT
    CACCAGCCCA TTTCTCTATT GGGCTCCTTT TCGACTGAGG AGTCACCTGA TAAGGAAATA
    GCTCAAAACA GCCAGCAAGA GGGATCCAGG CTGAGGAAGG GAACAGTGTC CAGCCAAGGG
    ACTAAGGCAG TCTTTGCCAG TGCATCTGTG ACTCCTCCAG GGACACCAGA TTCAGCTCCT
    CCCAGTCCTG CTGAAGCCTC CCCCATCACA CCTGCCTCGG TATCTGCCAG GCCCCCAGGT
    GCCTTTCCCA GGAGGGAAAT CTCTTGTGCT GCACATGCTT CAGAGACTGC CAGTGCCCCT
    CTCTCAATGG ATGACCCATC TCCCCGGGGG ACTTTGGAGA TGTGCCCGGC TACCCTCCAT
    GGCTTCCCCT CTGCCGGGGC CAGCCCTCCC AGGCCCCCAG CCAATTCCAC AGGCACCGTC
    CAGTACTTAC GGAGTGACTC CTTCCCCGGT TCTCACAGGA CAGAGCAGAC TCCAGACCTG
    GTGGGAATGT TGCTTTTCCA CTCCCACTCA GAGCTGCCCC AGAGGCCCCC CAAACCTGCC
    ATCTACAGCT CTGTGACCCC AAGAAGGGAC AGAAATAGTG GTAGGAACTG CAGCACCGTT
    TCAGAATCCC CTACTGCCTT ATCCACTCCG AAGCAGGACT CTCAAGGATC CATCTCCAAT
    CTAGAGAGGC CCAGCAGTCC TCCCAGCAGC CAGCCCTGGG GCTCCCCACA TAATCCAGCC
    TTTGCCGCAG AGTCTCCTGC CTATGGTTCT TCCCCATCCT TTGTCTCCAT GGATGTGAGG
    ATCCATGAAC CTCTGCCCCC TCCTCCCCCA GAGAGGAGGG ACGCCCATCC CTCCGTGGTG
    GAGAGAGATG GCCATCCTCG TGTGGTGGTT CCCACACTGA AGCAGCATAG CCACCCTCCT
    CCATTGGCCC TAGGTTCAGG GCCATATACC CCCCATAAAG GCCCACTTCC CCAAGCCTCT
    GACCCCGCTG TGGCCAGGCA GCACCGGCCT CTGCCATCTA CCCCAGACAG CTTCCACCAT
    GCTCAGGTCA CCCCCAGGTG GAGATACAAC AAGCCGCTAC CCCCTACCCC TGATTTGCCG
    CAGCCCCACC TTTCTCCCAT TTCTGCTCCT GGTATCCCAA GGATCTACAG GCCTCTACCC
    CCACTACCCA TCATAGACCC TCCCACCGAA CCACCTCCAT TACCCCCAAA GTCCAGGGGA
    AGAAGCAGGA GCACTCGGGG AGGACATATG AACTCAGGGG GTCATGCTAA AACAAGACCT
    GCTGGTCAAG ACTGGACAGT CCCCATCCCC ACCTCTGCTG GACGCACCTC CTGGCCCCCG
    GCCACAGGTA GATCAACAGA GTCTTTCACT TCCACCAGCA GGAGTAAGAG CGAAGTGTCC
    CCTGGCATGG CTTTCAGCAA CATGACAAAC TTCCTATGCC CCTCTTCCCC TACCACTCCC
    TGGACTCCGG AGCTCCAGGG ATCCACCCCT AAGGATGAAG CAGGAGTCTC AGAACATCCT
    GAGGTCCCTG CAAGAGAACC TTTGAGAAGG ACAACCCCTC AGCAAGGAAC CAGTGGTCCA
    GGGAGGTCAT CTGTGAGCCA AGCAAGGCAG CCAGAAAAAC CCAGCCATCT GCACCTGGAG
    AAGGCGTCCA GCTGGCCCCA CAGGCGGGAC TCAGGGAGGC CACCAGGGGA CAGCAGTGGA
    CAGGCTATGG CTCCTAGTGA GGGGGCCAGC AAGCACAAGG GCTGGAGCCG GCAGGGCCTG
    CGCAGACCTT CCATCTTGCC TGAGGGCTCT TCAGATTCAA GAGGTCCAGC CATGGAGAAA
    CATCTGGCAC CCTCAGACAC TGTTGTTTTT CGGGAGAAAA AACCAAAGGA GGTCATGGGA
    GGCTTTTCAA GACGCTGCTC CAAGCTCATC AACTCCTCCC AGCTGCTTTA CCAGGAGTAT
    AGTGATGTTG TCCTGAATAA GGAGATCCAG AGCCAGCAGA GGCTGGAGAG CCTACCTGAG
    ACACCCGGGC CTAGCTCTCC ACGGCAGCCT CGGAAGGCCC TGGTCTCGTC CGAGTCGTAC
    CTGAAGCGGC TCTCCGTGGC CTCCAGCGGC TCCCTCTGGC AGGAAATCCC CGTGGTGCGC
    AACAGCACCG TGCTGCTCTC CATGACTCAC GAAGACCAAA AGCTGCAAGA GGTCAAATTT
    GAGCTGATCG TGTCAGAGGC CTCCTATCTG CGCAGTCTAA ACATAGCTGT GGATCATTTC
    CAACTTTCAA CCTCACTCCG GGCCACACTT TCCAACCAGG AGCACCAATG GCTATTCTCT
    CGTTTACAGG ATGTGCGAGA CGTCAGCGCC ACGTTCCTTT CAGACCTGGA AGAGAACTTT
    GAGAACAATA TCTTCTCCTT CCAAGTATGT GATGTAGTCC TGAACCATGC CCCAGACTTC
    CGCCGGGTCT ACCTGCCTTA TGTCACCAAC CAGACCTATC AGGAACGCAC CTTCCAGAGC
    CTGATGAATA GCAACAGCAA TTTCCGAGAG GTCTTGGAGA AGCTGGAGAG CGACCCCGTC
    TGCCAGCGCC TTTCCCTCAA GTCTTTTCTG ATTCTGCCCT TCCAACGCAT CACCCGCCTC
    AAACTGCTGC TCCAGAACAT TCTGAAGAGA ACACAGCCTG GCTCCTCGGA GGAGGCAGAG
    GCCACGAAGG CGCACCATGC CCTGGAGCAG CTGATCCGGG ACTGCAATAA CAATGTCCAG
    AGTATGCGAC AGACAGAGGA GCTAATCTAC CTGAGCCAGA AGATTGAGTT TGAGTGCAAA
    ATATTCCCGC TCATTTCTCA GTCACGCTGG CTGGTGAAGA GTGGGGAGCT GACAGCCTTG
    GAGTTCAGTG TTTCCCCAGG GCTGCGAAGG AAGCTGAACA CACGTCCAGT CCACCTTCAC
    CTCTTCAATG ACTGTCTGCT GCTGTCTCGG CCCCGAGAGG GTAGCCGATT CCTGGTATTT
    GACCATGCTC CCTTCTCCTC CATTCGGGGG GAGAAGTGTG AAATGAAGCT ACATGGACCT
    CACAAAAACC TGTTCCGACT CTTTCTGCGG CAGAGCACTC AGGGCGCCCA GGCCGAGTTC
    CTCTTCAGCA CGGAGACTCA AAGTGAAAAG CTTCGGTGGA TCTCAGCCTT GGCCATGCCA
    AGAGAAGAGT TGGACCTCCT GGAGTGTTAC GACTCCCCCC AGGTACAGTG CCTTCGAGCC
    TACAAGCCCC GAGAGAACGA CGAGTTGGCA CTGGAGAAAG CCGACGTGGT GATGGTGACT
    CAGCAGAGCA ATGATGGCTG GCTGGAGGGC GTGAGGCTCT CAGACGGGGA GCGAGGCTGG
    TTTCCTGTGC AACAGGTGGA GTTCATTTCC AACCCAGAGG TCCGTGCGCG GAACCTGAAG
    GAAGCTCATC GAGTCAAGAC TGCCAAGCTA CAGCTGGTGG AACAGCAAGC CTAA

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

    CloneID OMb83304
    Clone ID Related Accession (Same CDS sequence) XM_001094223.4
    Accession Version XM_001094223.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4794bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product rho guanine nucleotide exchange factor 5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041756.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_001094223.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    4561
    4621
    4681
    4741
    ATGGAGGCTG AGGAGGCCCA GCATGGAGCC TCTCCTCCCA TCCCTGCCAT AGTGGAACTC 
    AGCATTATCC CTGAGGCTCC CATGAGGAGC AGCCAGGTGT CTGCCTTGGG GCTTGAAGCT
    CAAGAAGATG AGGACCCATC CTATAAATGG AGAGAGGAAC ACAGACTCTC AGCAACCCAG
    CAGAGAGAGT TAAGGGATGT GTGTGACTAT GCGGGTGAGA CGATGCCCTC TTTTCCCAAG
    GAAGGTTCTG CAGATGTGGA GCCCAATCAG GAAAGCTTTG TGGCTGAGAC CTGTGACACT
    CCGGAACACT GGGAGGCAGC ACCCCAGAGC CTGGCAGGCC GACAAGCAAG GACTGTAGCT
    TCCCCAGAGC TCTGGGCCTG CCCCATTCAG AGTGATCATC TAGACATGGC CTCATTTTCC
    AGTGACCTGG GAAGCGAAGA AGAGGAGGTA GAATTTTGGC CAGGACTTAC TTCTTTGGCA
    CTGGGATCTG GACAGGCAGA AGAAGAAGAG GAAACCTCTT CAGATACCTC TGGTCAGACC
    AGATTTTATT CTCCCTGCGA AGAGCATCCT ACAGAGACCA ACCAGAGTGA AGGCTCTGAG
    AGTGGGACTA TCAGGCAGGG GGAAGAGCTG CCATCCGAGG AGCTGCAGGA AAGTCGAGGG
    CTCTTGCATC CCCAGGAGGT CCAACTTCTG GAGGAGCAGG GGCAGCAGGA AGCAGGATTT
    GCAGGGGAAG GAACTCTGGG GGAGGATGTT TGTGCTGATG GGCTGTTGGG GGAGGAACAG
    ATGATAGAGC AGGTTAATCG AGAAAAGGGA GAACAGAAGC AAAAACAGGA ACAGGTACAA
    GATGATGTGA TGCTTGGGAG ACAAGGAGAA AGAGCGAGGC TCACTGGGGA ACCAGAGGGT
    CTGAATGATG GTGAGTGGGA GCAGGAGGAT GTGGAGAGGA GGGCTCAGGG TCAGGGAGGT
    CCAGAACAGG GAGAAGGGAG AAAGAGGGAG CTGCAGATGC CGGAAGAGAA TAGGGTGGAC
    TCTCAGGATG AGAAGAGTCA AAGCTTTGTG GGAAAGTCAG AGGAAGTAGC TGGAAAGCAA
    GAAGATCATG GTCTAAAGGA GAAAGGGGTG CCAGTCAGCG GGCAGGAGGA GAAAGAGCCA
    GGGAGTTGGG ATGGGGGCAG GCTGGGGGCA GTGGGAGGAG TGAGGAGCAG GGAAGAGGAG
    AATGAGCATC ATGGGCCTTC GATGCCCACT CTGGTAGCCC CGGAGGACTC TCCTCACTGT
    GACGTGTTTC CAGGTGCCTC ATATCTCATG ACTCAGATTC CCAGGACTCA GACAGAGTCC
    AGGGCTGAGG AACTGTCCCC TGCAGCTCTG TCTCCCTCAC TAGAGCCCAT CAGATGCTCT
    CACCAGCCCA TTTCTCTATT GGGCTCCTTT TCGACTGAGG AGTCACCTGA TAAGGAAATA
    GCTCAAAACA GCCAGCAAGA GGGATCCAGG CTGAGGAAGG GAACAGTGTC CAGCCAAGGG
    ACTAAGGCAG TCTTTGCCAG TGCATCTGTG ACTCCTCCAG GGACACCAGA TTCAGCTCCT
    CCCAGTCCTG CTGAAACCTC CCCCATCACA CCTGCCTCGG TATCTGCCAG GCCCCCAGGT
    GCCTTTCCCA GGAGGGAAAT CTCTTGTGCT GCACATGCTT CAGAGACTGC CAGTGCCCCT
    CTCTCAATGG ATGACCCATC TCCCCGGGGG ACTTTGGAGA TGTGCCCGGC TACCCTCCAT
    GGCTTCCCCT CTGCCAGGGC CAGCCCTCCC AGGCCCCCAG CCAATTCCAC AGGCACCGTC
    CAGTACTTAC GGAGTGACTC CTTCCCCGGT TCTCACAGGA CAGAGCAGAC TCCAGACCTG
    GTGGGAATGT TGCTTTTCCA CTCCCACTCA GAGCTGCCCC AGAGGCCCCC CAAACCTGCC
    ATCTACAGCT CTGTGACCCC AAGAAGGGAC AGAAATAGTG GTAGGAACTG CAGCACCGTT
    TCAGAATCCC CTACTGCCTT ATCCACTCCG AAGCAGGACT CTCAAGCATC CATCTCCAAT
    CTAGAGAGGC CCAGCAGTCC TCCCAGCAGC CAGCCCTGGG GCTCCCCACA TAATCCAGCC
    TTTGCCGCAG AGTCTCCCGC CTATGGTTCT TCCCCATCCT TTGTCTCCAT GGATGTGAGG
    ATCCATGAAC CTCTGCCCCC TCCTCCCCCA GAGAGGAGGG ACGCCCATCC CTCCGTGGTG
    GAGAGAGATG GCCATCCTCG TGTGGTGGTT CCCACACTGA AGCAGCATAG CCACCCTCCT
    CCATTGGCCC TAGGTTCAGG GCCATATACC CCCCATAAAG GCCCACTTCC CCAAGCCTCT
    GACCCCGCTG TGGCCAGGCA GCACCGGCCT CTGCCATCTA CCCCAGACAG CTTTCACCAT
    GCTCAGGTCA CCCCCAGGTG GAGATACAAC AAGCCGCTAC CCCCTACCCC TGATTTGCCG
    CAGCCCCACC TTTCTCCCGT TTCTGCTCCT GGTATCCCAA GGATCTACAG GCCTCTACCC
    CCGCTACCCA TCATAGACCC TCCCACCGAA CCACCTCCAT TACCCCCAAA GTCCAGGGGA
    AGGAGCAGGA GCACTCGGGG AGGACATATG AACTCAGGGG GTCATGCTAA AACAAGACCT
    GCTGGTCAAG ACTGGACAGT CCCCATCCCC ACCTCTGCTG GACGCACCTC CTGGCCCCCG
    GCCACAGGTA GATCAACAGA GTCTTTCACT TCCACCAGCA GGAGTAAGAG CGAAGTGTCC
    CCTGGCATGG CTTTCAGCAA CATGACAAAC TTCCTATGCC CCTCTTCCCC TACCACTCCC
    TGGACTCCGG AGCTCCAGGG ATCCACCCCT AAGGATGAAG CAGGAGTCTC AGAACATCCT
    GAGGTCCCTG CAAGAGAACC TTTGAGAAGG ACAACCCCTC AGCAAGGAAC CAGTGGTCCA
    GGGAGGTCAT CTGTGAGCCA AGCAAGGCAG CCAGAAAAAC CCAGCCATCT GCACCTGGAG
    AAGGCGTCCA GCTGGCCCCA CAGGCGGGAC TCAGGGAGGC CACCAGGGGA CAGCAGTGGA
    CAGGCTGTGG CTCCTAGTGA GGGGGCCAGC AAGCACAAGG GCTGGAGCCG GCAGGGCCTG
    CGCAGACCTT CCATCTTGCC TGAGGGCTCT TCAGATTCAA GAGGTCCAGC CATGGAGAAA
    CATCTGGCAC CCTCAGACAC TGTTGTTTTT CGGGAGAAAA AACCAAAGGA GGTCATGGGA
    GGCTTTTCAA GACGCTGCTC CAAGCTCATC AACTCCTCCC AGCTGCTTTA CCAGGAGTAT
    AGTGATGTTG TCCTGAATAA GGAGATCCAG AGCCAGCAGA GGCTGGAGAG CCTACCTGAG
    ACACCCGGGC CTAGCTCTCC ACGGCAGCCT CGGAAGGCCC TGGTCTCGTC CGAGTCGTAC
    CTGAAGCGGC TCTCCGTGGC CTCCAGCGGC TCCCTCTGGC AAGAAATCCC CGTGGTGCGC
    AACAGCACCG TGCTGCTCTC CATGACTCAC GAAGACCAAA AGCTGCAAGA GGTCAAATTT
    GAGCTGATCG TGTCAGAGGC CTCCTATCTG CGCAGTCTAA ACATAGCTGT GGATCATTTC
    CAACTTTCAA CCTCACTCCG GGCCACACTT TCCAACCAGG AGCACCAATG GCTATTCTCT
    CGTTTACAGG ATGTGCGAGA CGTCAGCGCC ACGTTCCTTT CAGACCTGGA AGAGAACTTT
    GAGAACAATA TCTTCTCCTT CCAAGTATGT GATGTAGTCC TGAACCATGC CCCAGACTTC
    CGCCGGGTCT ACCTGCCTTA TGTCACCAAC CAGACCTATC AGGAACGCAC CTTCCAGAGC
    CTGATGAATA GCAACAGCAA TTTCCGAGAG GTCTTGGAGA AGCTGGAGAG CGACCCCGTC
    TGCCAGCGCC TTTCCCTCAA GTCCTTTCTG ATTCTGCCCT TCCAACGCAT CACCCGCCTC
    AAACTGCTGC TCCAGAACAT TCTGAAGAGA ACACAGCCTG GCTCCTCGGA GGAGGCAGAG
    GCCACGAAGG CGCACCATGC CCTGGAGCAG CTGATCCGGG ACTGCAATAA CAATGTCCAG
    AGTATGCGAC AGACAGAGGA GCTAATCTAC CTGAGCCAGA AGATTGAGTT TGAGTGCAAA
    ATATTCCCGC TCATTTCTCA GTCACGCTGG CTGGTGAAGA GTGGGGAGCT GACAGCCTTG
    GAGTTCAGTG TTTCCCCAGG GCTGCGAAGG AAGCTGAACA CACGTCCAGT CCACCTTCAC
    CTCTTCAATG ACTGTCTGCT GCTGTCTCGG CCCCGAGAGG GTAGCCGATT CCTGGTATTT
    GACCATGCTC CCTTCTCCTC CATTCGGGGG GAGAAGTGTG AAATGAAGCT ACATGGACCT
    CACAAAAACC TGTTCCGACT CTTTCTGCGG CAGAGCACTC AGGGCGCCCA GGCCGAGTTC
    CTCTTCAGCA CGGAGACTCA AAGTGAAAAG CTTCGGTGGA TCTCAGCCTT GGCCATGCCA
    AGAGAAGAGT TGGACCTCCT GGAGTGTTAC GACTCCCCCC AGGTACAGTG CCTTCGAGCC
    TACAAGCCCC GAGAGAACGA CGAGTTGGCA CTGGAGAAAG CCGACGTGGT GATGGTGACT
    CAGCAGAGCA ATGATGGCTG GCTGGAGGGC GTGAGGCTCT CAGACGGGGA GCGAGGCTGG
    TTTCCTGTGC AACAGGTGGA GTTCATTTCC AACCCAGAGG TCCGTGCGCG GAACCTGAAG
    GAAGCTCATC GAGTCAAGAC TGCCAAGCTA CAGCTGGTGG AACAGCAAGC CTAA

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

    RefSeq XP_001094223.4
    CDS170..4963
    Translation

    Target ORF information:

    RefSeq Version XM_001094223.4
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho guanine nucleotide exchange factor 5 (ARHGEF5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001094223.4

    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
    4741
    ATGGAGGCTG AGGAGGCCCA GCATGGAGCC TCTCCTCCCA TCCCTGCCAT AGTGGAACTC 
    AGCATTATCC CTGAGGCTCC CATGAGGAGC AGCCAGGTGT CTGCCTTGGG GCTTGAAGCT
    CAAGAAGATG AGGACCCATC CTATAAATGG AGAGAGGAAC ACAGACTCTC AGCAACCCAG
    CAGAGAGAGT TAAGGGATGT GTGTGACTAT GCGGGTGAGA CGATGCCCTC TTTTCCCAAG
    GAAGGTTCTG CAGATGTGGA GCCCAATCAG GAAAGCTTTG TGGCTGAGAC CTGTGACACT
    CCGGAACACT GGGAGGCAGC ACCCCAGAGC CTGGCAGGCC GACAAGCAAG GACTGTAGCT
    TCCCCAGAGC TCTGGGCCTG CCCCATTCAG AGTGATCATC TAGACATGGC CTCATTTTCC
    AGTGACCTGG GAAGCGAAGA AGAGGAGGTA GAATTTTGGC CAGGACTTAC TTCTTTGGCA
    CTGGGATCTG GACAGGCAGA AGAAGAAGAG GAAACCTCTT CAGATACCTC TGGTCAGACC
    AGATTTTATT CTCCCTGCGA AGAGCATCCT ACAGAGACCA ACCAGAGTGA AGGCTCTGAG
    AGTGGGACTA TCAGGCAGGG GGAAGAGCTG CCATCCGAGG AGCTGCAGGA AAGTCGAGGG
    CTCTTGCATC CCCAGGAGGT CCAACTTCTG GAGGAGCAGG GGCAGCAGGA AGCAGGATTT
    GCAGGGGAAG GAACTCTGGG GGAGGATGTT TGTGCTGATG GGCTGTTGGG GGAGGAACAG
    ATGATAGAGC AGGTTAATCG AGAAAAGGGA GAACAGAAGC AAAAACAGGA ACAGGTACAA
    GATGATGTGA TGCTTGGGAG ACAAGGAGAA AGAGCGAGGC TCACTGGGGA ACCAGAGGGT
    CTGAATGATG GTGAGTGGGA GCAGGAGGAT GTGGAGAGGA GGGCTCAGGG TCAGGGAGGT
    CCAGAACAGG GAGAAGGGAG AAAGAGGGAG CTGCAGATGC CGGAAGAGAA TAGGGTGGAC
    TCTCAGGATG AGAAGAGTCA AAGCTTTGTG GGAAAGTCAG AGGAAGTAGC TGGAAAGCAA
    GAAGATCATG GTCTAAAGGA GAAAGGGGTG CCAGTCAGCG GGCAGGAGGA GAAAGAGCCA
    GGGAGTTGGG ATGGGGGCAG GCTGGGGGCA GTGGGAGGAG TGAGGAGCAG GGAAGAGGAG
    AATGAGCATC ATGGGCCTTC GATGCCCACT CTGGTAGCCC CGGAGGACTC TCCTCACTGT
    GACGTGTTTC CAGGTGCCTC ATATCTCATG ACTCAGATTC CCAGGACTCA GACAGAGTCC
    AGGGCTGAGG AACTGTCCCC TGCAGCTCTG TCTCCCTCAC TAGAGCCCAT CAGATGCTCT
    CACCAGCCCA TTTCTCTATT GGGCTCCTTT TCGACTGAGG AGTCACCTGA TAAGGAAATA
    GCTCAAAACA GCCAGCAAGA GGGATCCAGG CTGAGGAAGG GAACAGTGTC CAGCCAAGGG
    ACTAAGGCAG TCTTTGCCAG TGCATCTGTG ACTCCTCCAG GGACACCAGA TTCAGCTCCT
    CCCAGTCCTG CTGAAACCTC CCCCATCACA CCTGCCTCGG TATCTGCCAG GCCCCCAGGT
    GCCTTTCCCA GGAGGGAAAT CTCTTGTGCT GCACATGCTT CAGAGACTGC CAGTGCCCCT
    CTCTCAATGG ATGACCCATC TCCCCGGGGG ACTTTGGAGA TGTGCCCGGC TACCCTCCAT
    GGCTTCCCCT CTGCCAGGGC CAGCCCTCCC AGGCCCCCAG CCAATTCCAC AGGCACCGTC
    CAGTACTTAC GGAGTGACTC CTTCCCCGGT TCTCACAGGA CAGAGCAGAC TCCAGACCTG
    GTGGGAATGT TGCTTTTCCA CTCCCACTCA GAGCTGCCCC AGAGGCCCCC CAAACCTGCC
    ATCTACAGCT CTGTGACCCC AAGAAGGGAC AGAAATAGTG GTAGGAACTG CAGCACCGTT
    TCAGAATCCC CTACTGCCTT ATCCACTCCG AAGCAGGACT CTCAAGCATC CATCTCCAAT
    CTAGAGAGGC CCAGCAGTCC TCCCAGCAGC CAGCCCTGGG GCTCCCCACA TAATCCAGCC
    TTTGCCGCAG AGTCTCCCGC CTATGGTTCT TCCCCATCCT TTGTCTCCAT GGATGTGAGG
    ATCCATGAAC CTCTGCCCCC TCCTCCCCCA GAGAGGAGGG ACGCCCATCC CTCCGTGGTG
    GAGAGAGATG GCCATCCTCG TGTGGTGGTT CCCACACTGA AGCAGCATAG CCACCCTCCT
    CCATTGGCCC TAGGTTCAGG GCCATATACC CCCCATAAAG GCCCACTTCC CCAAGCCTCT
    GACCCCGCTG TGGCCAGGCA GCACCGGCCT CTGCCATCTA CCCCAGACAG CTTTCACCAT
    GCTCAGGTCA CCCCCAGGTG GAGATACAAC AAGCCGCTAC CCCCTACCCC TGATTTGCCG
    CAGCCCCACC TTTCTCCCGT TTCTGCTCCT GGTATCCCAA GGATCTACAG GCCTCTACCC
    CCGCTACCCA TCATAGACCC TCCCACCGAA CCACCTCCAT TACCCCCAAA GTCCAGGGGA
    AGGAGCAGGA GCACTCGGGG AGGACATATG AACTCAGGGG GTCATGCTAA AACAAGACCT
    GCTGGTCAAG ACTGGACAGT CCCCATCCCC ACCTCTGCTG GACGCACCTC CTGGCCCCCG
    GCCACAGGTA GATCAACAGA GTCTTTCACT TCCACCAGCA GGAGTAAGAG CGAAGTGTCC
    CCTGGCATGG CTTTCAGCAA CATGACAAAC TTCCTATGCC CCTCTTCCCC TACCACTCCC
    TGGACTCCGG AGCTCCAGGG ATCCACCCCT AAGGATGAAG CAGGAGTCTC AGAACATCCT
    GAGGTCCCTG CAAGAGAACC TTTGAGAAGG ACAACCCCTC AGCAAGGAAC CAGTGGTCCA
    GGGAGGTCAT CTGTGAGCCA AGCAAGGCAG CCAGAAAAAC CCAGCCATCT GCACCTGGAG
    AAGGCGTCCA GCTGGCCCCA CAGGCGGGAC TCAGGGAGGC CACCAGGGGA CAGCAGTGGA
    CAGGCTGTGG CTCCTAGTGA GGGGGCCAGC AAGCACAAGG GCTGGAGCCG GCAGGGCCTG
    CGCAGACCTT CCATCTTGCC TGAGGGCTCT TCAGATTCAA GAGGTCCAGC CATGGAGAAA
    CATCTGGCAC CCTCAGACAC TGTTGTTTTT CGGGAGAAAA AACCAAAGGA GGTCATGGGA
    GGCTTTTCAA GACGCTGCTC CAAGCTCATC AACTCCTCCC AGCTGCTTTA CCAGGAGTAT
    AGTGATGTTG TCCTGAATAA GGAGATCCAG AGCCAGCAGA GGCTGGAGAG CCTACCTGAG
    ACACCCGGGC CTAGCTCTCC ACGGCAGCCT CGGAAGGCCC TGGTCTCGTC CGAGTCGTAC
    CTGAAGCGGC TCTCCGTGGC CTCCAGCGGC TCCCTCTGGC AAGAAATCCC CGTGGTGCGC
    AACAGCACCG TGCTGCTCTC CATGACTCAC GAAGACCAAA AGCTGCAAGA GGTCAAATTT
    GAGCTGATCG TGTCAGAGGC CTCCTATCTG CGCAGTCTAA ACATAGCTGT GGATCATTTC
    CAACTTTCAA CCTCACTCCG GGCCACACTT TCCAACCAGG AGCACCAATG GCTATTCTCT
    CGTTTACAGG ATGTGCGAGA CGTCAGCGCC ACGTTCCTTT CAGACCTGGA AGAGAACTTT
    GAGAACAATA TCTTCTCCTT CCAAGTATGT GATGTAGTCC TGAACCATGC CCCAGACTTC
    CGCCGGGTCT ACCTGCCTTA TGTCACCAAC CAGACCTATC AGGAACGCAC CTTCCAGAGC
    CTGATGAATA GCAACAGCAA TTTCCGAGAG GTCTTGGAGA AGCTGGAGAG CGACCCCGTC
    TGCCAGCGCC TTTCCCTCAA GTCCTTTCTG ATTCTGCCCT TCCAACGCAT CACCCGCCTC
    AAACTGCTGC TCCAGAACAT TCTGAAGAGA ACACAGCCTG GCTCCTCGGA GGAGGCAGAG
    GCCACGAAGG CGCACCATGC CCTGGAGCAG CTGATCCGGG ACTGCAATAA CAATGTCCAG
    AGTATGCGAC AGACAGAGGA GCTAATCTAC CTGAGCCAGA AGATTGAGTT TGAGTGCAAA
    ATATTCCCGC TCATTTCTCA GTCACGCTGG CTGGTGAAGA GTGGGGAGCT GACAGCCTTG
    GAGTTCAGTG TTTCCCCAGG GCTGCGAAGG AAGCTGAACA CACGTCCAGT CCACCTTCAC
    CTCTTCAATG ACTGTCTGCT GCTGTCTCGG CCCCGAGAGG GTAGCCGATT CCTGGTATTT
    GACCATGCTC CCTTCTCCTC CATTCGGGGG GAGAAGTGTG AAATGAAGCT ACATGGACCT
    CACAAAAACC TGTTCCGACT CTTTCTGCGG CAGAGCACTC AGGGCGCCCA GGCCGAGTTC
    CTCTTCAGCA CGGAGACTCA AAGTGAAAAG CTTCGGTGGA TCTCAGCCTT GGCCATGCCA
    AGAGAAGAGT TGGACCTCCT GGAGTGTTAC GACTCCCCCC AGGTACAGTG CCTTCGAGCC
    TACAAGCCCC GAGAGAACGA CGAGTTGGCA CTGGAGAAAG CCGACGTGGT GATGGTGACT
    CAGCAGAGCA ATGATGGCTG GCTGGAGGGC GTGAGGCTCT CAGACGGGGA GCGAGGCTGG
    TTTCCTGTGC AACAGGTGGA GTTCATTTCC AACCCAGAGG TCCGTGCGCG GAACCTGAAG
    GAAGCTCATC GAGTCAAGAC TGCCAAGCTA CAGCTGGTGG AACAGCAAGC CTAA

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