SOS1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following SOS1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SOS1 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
OMb45391 XM_015112176.1
Latest version!
Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb45391 XM_028831741.1
Latest version!
Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb45392 XM_028831742.1
Latest version!
Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb45392 XM_015112177.1
Latest version!
Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00

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** 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 OMb45391
    Clone ID Related Accession (Same CDS sequence) XM_015112176.1 , XM_028831741.1
    Accession Version XM_015112176.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4002bp)
    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 son of sevenless homolog 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805404.1) and transcript sequence (JU324839.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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## ##RefSeq-Attributes-START## assembly gap :: added 120 transcript bases to patch genome assembly gap ##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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGCAA TGATACCGTC
    TTTATCCAAG TTACACTGCC CCATGGCCCA AGATCTGCTT CTGTATCATC TATAAGTTTA
    ACCAAAGGCA CTGATGAAGT GCCTGTCCCT CCTCCTGTTC CTCCACGAAG ACGACCAGAA
    TCTGCCCCAG CAGAATCTTC ACCATCTAAG ATTATGTCTA AGCATTTGGA CAGCCCCCCA
    GCCATTCCTC CTAGGCAACC CACATCAAAA GCCTATTCAC CACGATATTC AATATCAGAC
    CGGACCTCTA TCTCAGACCC TCCTGAAAGC CCTCCCTTAT TACCACCACG AGAACCTGTG
    AGGACACCTG ATGTTTTCTC AAGCTCACCA CTACATCTCC AACCTCCCCC TTTGGGCAAA
    AAAAGTGACC ATGGCAATGC CTTCTTCCCA AACAGCCCAT CCCCCTTTAC ACCACCTCCT
    CCTCAAACAC CTTCTCCTCA CGGCACAAGA AGGCATCTGC CATCACCACC ATTGACACAA
    GAAGTGGACC TTCATTCCAT TGCTGGGCCG CCTGTTCCTC CACGACAAAG CACTTCTCAA
    CATATCCCTA AACTCCCTCC AAAAACTTAC AAAAGGGAGC ACACACACCC ATCCATGCAC
    AGAGATGGAC CACCACTGTT GGAGAATGCC CATTCTTCTT GA

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

    RefSeq XP_014967662.1
    CDS282..4283
    Translation

    Target ORF information:

    RefSeq Version XM_015112176.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015112176.1

    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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGCAA TGATACCGTC
    TTTATCCAAG TTACACTGCC CCATGGCCCA AGATCTGCTT CTGTATCATC TATAAGTTTA
    ACCAAAGGCA CTGATGAAGT GCCTGTCCCT CCTCCTGTTC CTCCACGAAG ACGACCAGAA
    TCTGCCCCAG CAGAATCTTC ACCATCTAAG ATTATGTCTA AGCATTTGGA CAGCCCCCCA
    GCCATTCCTC CTAGGCAACC CACATCAAAA GCCTATTCAC CACGATATTC AATATCAGAC
    CGGACCTCTA TCTCAGACCC TCCTGAAAGC CCTCCCTTAT TACCACCACG AGAACCTGTG
    AGGACACCTG ATGTTTTCTC AAGCTCACCA CTACATCTCC AACCTCCCCC TTTGGGCAAA
    AAAAGTGACC ATGGCAATGC CTTCTTCCCA AACAGCCCAT CCCCCTTTAC ACCACCTCCT
    CCTCAAACAC CTTCTCCTCA CGGCACAAGA AGGCATCTGC CATCACCACC ATTGACACAA
    GAAGTGGACC TTCATTCCAT TGCTGGGCCG CCTGTTCCTC CACGACAAAG CACTTCTCAA
    CATATCCCTA AACTCCCTCC AAAAACTTAC AAAAGGGAGC ACACACACCC ATCCATGCAC
    AGAGATGGAC CACCACTGTT GGAGAATGCC CATTCTTCTT GA

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

    CloneID OMb45391
    Clone ID Related Accession (Same CDS sequence) XM_015112176.1 , XM_028831741.1
    Accession Version XM_028831741.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4002bp)
    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 son of sevenless homolog 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041766.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGCAA TGATACCGTC
    TTTATCCAAG TTACACTGCC CCATGGCCCA AGATCTGCTT CTGTATCATC TATAAGTTTA
    ACCAAAGGCA CTGATGAAGT GCCTGTCCCT CCTCCTGTTC CTCCACGAAG ACGACCAGAA
    TCTGCCCCAG CAGAATCTTC ACCATCTAAG ATTATGTCTA AGCATTTGGA CAGCCCCCCA
    GCCATTCCTC CTAGGCAACC CACATCAAAA GCCTATTCAC CACGATATTC AATATCAGAC
    CGGACCTCTA TCTCAGACCC TCCTGAAAGC CCTCCCTTAT TACCACCACG AGAACCTGTG
    AGGACACCTG ATGTTTTCTC AAGCTCACCA CTACATCTCC AACCTCCCCC TTTGGGCAAA
    AAAAGTGACC ATGGCAATGC CTTCTTCCCA AACAGCCCAT CCCCCTTTAC ACCACCTCCT
    CCTCAAACAC CTTCTCCTCA CGGCACAAGA AGGCATCTGC CATCACCACC ATTGACACAA
    GAAGTGGACC TTCATTCCAT TGCTGGGCCG CCTGTTCCTC CACGACAAAG CACTTCTCAA
    CATATCCCTA AACTCCCTCC AAAAACTTAC AAAAGGGAGC ACACACACCC ATCCATGCAC
    AGAGATGGAC CACCACTGTT GGAGAATGCC CATTCTTCTT GA

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

    RefSeq XP_028687574.1
    CDS280..4281
    Translation

    Target ORF information:

    RefSeq Version XM_028831741.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028831741.1

    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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGCAA TGATACCGTC
    TTTATCCAAG TTACACTGCC CCATGGCCCA AGATCTGCTT CTGTATCATC TATAAGTTTA
    ACCAAAGGCA CTGATGAAGT GCCTGTCCCT CCTCCTGTTC CTCCACGAAG ACGACCAGAA
    TCTGCCCCAG CAGAATCTTC ACCATCTAAG ATTATGTCTA AGCATTTGGA CAGCCCCCCA
    GCCATTCCTC CTAGGCAACC CACATCAAAA GCCTATTCAC CACGATATTC AATATCAGAC
    CGGACCTCTA TCTCAGACCC TCCTGAAAGC CCTCCCTTAT TACCACCACG AGAACCTGTG
    AGGACACCTG ATGTTTTCTC AAGCTCACCA CTACATCTCC AACCTCCCCC TTTGGGCAAA
    AAAAGTGACC ATGGCAATGC CTTCTTCCCA AACAGCCCAT CCCCCTTTAC ACCACCTCCT
    CCTCAAACAC CTTCTCCTCA CGGCACAAGA AGGCATCTGC CATCACCACC ATTGACACAA
    GAAGTGGACC TTCATTCCAT TGCTGGGCCG CCTGTTCCTC CACGACAAAG CACTTCTCAA
    CATATCCCTA AACTCCCTCC AAAAACTTAC AAAAGGGAGC ACACACACCC ATCCATGCAC
    AGAGATGGAC CACCACTGTT GGAGAATGCC CATTCTTCTT GA

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

    CloneID OMb45392
    Clone ID Related Accession (Same CDS sequence) XM_015112177.1 , XM_028831742.1
    Accession Version XM_015112177.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3957bp)
    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 son of sevenless homolog 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805404.1) and transcript sequence (JU324839.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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## ##RefSeq-Attributes-START## assembly gap :: added 120 transcript bases to patch genome assembly gap ##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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGATC TGCTTCTGTA
    TCATCTATAA GTTTAACCAA AGGCACTGAT GAAGTGCCTG TCCCTCCTCC TGTTCCTCCA
    CGAAGACGAC CAGAATCTGC CCCAGCAGAA TCTTCACCAT CTAAGATTAT GTCTAAGCAT
    TTGGACAGCC CCCCAGCCAT TCCTCCTAGG CAACCCACAT CAAAAGCCTA TTCACCACGA
    TATTCAATAT CAGACCGGAC CTCTATCTCA GACCCTCCTG AAAGCCCTCC CTTATTACCA
    CCACGAGAAC CTGTGAGGAC ACCTGATGTT TTCTCAAGCT CACCACTACA TCTCCAACCT
    CCCCCTTTGG GCAAAAAAAG TGACCATGGC AATGCCTTCT TCCCAAACAG CCCATCCCCC
    TTTACACCAC CTCCTCCTCA AACACCTTCT CCTCACGGCA CAAGAAGGCA TCTGCCATCA
    CCACCATTGA CACAAGAAGT GGACCTTCAT TCCATTGCTG GGCCGCCTGT TCCTCCACGA
    CAAAGCACTT CTCAACATAT CCCTAAACTC CCTCCAAAAA CTTACAAAAG GGAGCACACA
    CACCCATCCA TGCACAGAGA TGGACCACCA CTGTTGGAGA ATGCCCATTC TTCTTGA

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

    RefSeq XP_014967663.1
    CDS282..4238
    Translation

    Target ORF information:

    RefSeq Version XM_015112177.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015112177.1

    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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGATC TGCTTCTGTA
    TCATCTATAA GTTTAACCAA AGGCACTGAT GAAGTGCCTG TCCCTCCTCC TGTTCCTCCA
    CGAAGACGAC CAGAATCTGC CCCAGCAGAA TCTTCACCAT CTAAGATTAT GTCTAAGCAT
    TTGGACAGCC CCCCAGCCAT TCCTCCTAGG CAACCCACAT CAAAAGCCTA TTCACCACGA
    TATTCAATAT CAGACCGGAC CTCTATCTCA GACCCTCCTG AAAGCCCTCC CTTATTACCA
    CCACGAGAAC CTGTGAGGAC ACCTGATGTT TTCTCAAGCT CACCACTACA TCTCCAACCT
    CCCCCTTTGG GCAAAAAAAG TGACCATGGC AATGCCTTCT TCCCAAACAG CCCATCCCCC
    TTTACACCAC CTCCTCCTCA AACACCTTCT CCTCACGGCA CAAGAAGGCA TCTGCCATCA
    CCACCATTGA CACAAGAAGT GGACCTTCAT TCCATTGCTG GGCCGCCTGT TCCTCCACGA
    CAAAGCACTT CTCAACATAT CCCTAAACTC CCTCCAAAAA CTTACAAAAG GGAGCACACA
    CACCCATCCA TGCACAGAGA TGGACCACCA CTGTTGGAGA ATGCCCATTC TTCTTGA

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

    CloneID OMb45392
    Clone ID Related Accession (Same CDS sequence) XM_015112177.1 , XM_028831742.1
    Accession Version XM_028831742.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3957bp)
    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 son of sevenless homolog 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041766.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGATC TGCTTCTGTA
    TCATCTATAA GTTTAACCAA AGGCACTGAT GAAGTGCCTG TCCCTCCTCC TGTTCCTCCA
    CGAAGACGAC CAGAATCTGC CCCAGCAGAA TCTTCACCAT CTAAGATTAT GTCTAAGCAT
    TTGGACAGCC CCCCAGCCAT TCCTCCTAGG CAACCCACAT CAAAAGCCTA TTCACCACGA
    TATTCAATAT CAGACCGGAC CTCTATCTCA GACCCTCCTG AAAGCCCTCC CTTATTACCA
    CCACGAGAAC CTGTGAGGAC ACCTGATGTT TTCTCAAGCT CACCACTACA TCTCCAACCT
    CCCCCTTTGG GCAAAAAAAG TGACCATGGC AATGCCTTCT TCCCAAACAG CCCATCCCCC
    TTTACACCAC CTCCTCCTCA AACACCTTCT CCTCACGGCA CAAGAAGGCA TCTGCCATCA
    CCACCATTGA CACAAGAAGT GGACCTTCAT TCCATTGCTG GGCCGCCTGT TCCTCCACGA
    CAAAGCACTT CTCAACATAT CCCTAAACTC CCTCCAAAAA CTTACAAAAG GGAGCACACA
    CACCCATCCA TGCACAGAGA TGGACCACCA CTGTTGGAGA ATGCCCATTC TTCTTGA

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

    RefSeq XP_028687575.1
    CDS280..4236
    Translation

    Target ORF information:

    RefSeq Version XM_028831742.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta SOS Ras/Rac guanine nucleotide exchange factor 1 (SOS1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028831742.1

    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
    ATGCAGGCGC AGCAGCTGCC ATACGAGTTT TTCAGCGAAG AGAACGCGCC CAAGTGGCGG 
    GGACTGCTGG TGCCTGCGCT GAAAAAGGTC CAGGGGCAAG TTCATCCTAC TCTCGAGTCT
    AATGATGATG CTCTTCAGTA TGTTGAAGAA TTAATTTTGC AATTATTAAA TATGCTATGT
    CAAGCTCAGC CCCGAAGTGC TTCAGATGTA GAGGAACGTG TTCAAAAAAG TTTCCCTCAT
    CCAATTGATA AGTGGGCAAT AGCTGATGCC CAATCAGCTA TTGAAAAGAG GAAGCGAAGA
    AACCCTTTAT CCCTCCCAGT AGAAAAAATC CATCCTTTAT TAAAGGAGGT CCTAGGTTAT
    AAAATTGACC ATCAGGTTTC TGTTTACATA GTAGCAGTCT TAGAATACAT TTCTGCAGAC
    ATTTTAAAGC TGGTTGGGAA TTATGTAAGA AATATACGGC ATTATGAAAT TACAAAACAA
    GATATTAAAG TGGCAATGTG TGCTGACAAG GTATTGATGG ATATGTTTCA TCAAGATGTA
    GAAGATATTA ATATATTATC TTTAACTGAT GAAGAGCCTT CCACCTCAGG AGAACAAACT
    TACTATGATT TGGTAAAAGC ATTTATGGCA GAAATTCGAC AATATATAAG GGAACTAAAT
    CTAATTATAA AAGTTTTTAG AGAGCCCTTT GTCTCCAATT CAAAATTGTT TTCAGCTAAT
    GATGTAGAAA ATATATTTAG TCGTATAGTA GATATACATG AACTTAGTGT AAAGTTACTG
    GGCCATATAG AAGATACAGT AGAAATGACA GATGAAGGCA GTCCCCATCC ACTAGTAGGA
    AGCTGCTTTG AAGACTTAGC AGAGGAACTG GCATTTGATC CATATGAATC GTATGCTCGA
    GATATTTTGC GACCTGGTTT TCATGATCGT TTCCTTAGTC AGTTATCAAA GCCTGGGGCA
    GCACTTTATT TGCAGTCAAT AGGCGAAGGT TTCAAAGAAG CTGTTCAATA TGTTTTACCC
    AGGCTGCTTC TGGCCCCTGT TTACCACTGT CTCCATTACT TTGAACTTTT GAAGCAGTTA
    GAAGAAAAAA GTGAAGATCA AGAAGACAAG GAATGTTTAA AACAAGCAAT AACAGCTTTG
    CTTAATGTTC AGAGTGGTAT GGAAAAAATA TGTTCTAAAA GTCTTGCAAA ACGAAGACTG
    AGTGAATCTG CATGTCGGTT TTATAGTCAA CAAATGAAGG GGAAACAACT AGCAATCAAG
    AAAATGAATG AGATTCAGAA GAATATTGAT GGTTGGGAGG GAAAAGACAT TGGACAGTGT
    TGCAATGAAT TTATAATGGA AGGAACTCTT ACACGTGTAG GAGCCAAACA TGAGAGACAC
    ATATTTCTCT TTGATGGCTT AATGATTTGC TGTAAATCAA ATCATGGGCA GCCAAGACTT
    CCTGGTGCTA GCAATGCAGA ATATCGTCTT AAAGAAAAGT TTTTTATGCG AAAGGTACAA
    ATTAATGATA AAGATGACAC CAATGAATAC AAGCATGCTT TTGAAATAAT TTTAAAAGAT
    GAAAATAGTG TTATATTTTC TGCCAAGTCA GCTGAAGAGA AAAACAATTG GATGGCAGCA
    TTGATATCTT TACAGTACCG GAGTACACTG GAAAGGATGC TTGATGTAAC AATGCTACAG
    GAAGAGAAAG AGGAGCAGAT GAGGCTGCCT AGTGCTGATG TTTATAGATT TGCGGAGCCT
    GACTCTGAAG AGAATATTAT ATTTGAAGAG AACATGCAGC CCAAGGCTGG AATTCCAATT
    ATCAAAGCAG GAACTGTTAT TAAACTTATA GAGAGGCTTA CGTACCATAT GTACGCAGAT
    CCCAATTTTG TTCGGACATT TCTTACAACA TACAGATCCT TTTGCAAACC TCAAGAACTA
    CTGAGTCTTA TAATAGAAAG GTTTGAAATT CCAGAGCCTG AGCCAACAGA AGCTGATCGC
    ATAGCTATAG AGAATGGAGA TCAACCCTTG AGTGCAGAAC TGAAAAGATT TAGAAAAGAA
    TATATACAGC CTGTGCAACT GCGAGTATTA AATGTATGTC GGCACTGGGT AGAGCACCAC
    TTCTATGATT TTGAAAGAGA TGCATATCTT TTGCAACGAA TGGAAGAATT TATTGGAACA
    GTAAGAGGTA AAGCAATGAA AAAATGGGTT GAATCCATCA CTAAAATAAT CCAAAGGAAA
    AAAATTGCAA GAGACAATGG ACCAGGTCAT AATATTACAT TTCAGAGTTC ACCTCCCACA
    GTTGAGTGGC ATATAAGCAG ACCTGGGCAC ATAGAGACTT TCGACCTGCT CACCTTACAC
    CCAATAGAAA TTGCTCGACA ACTCACTTTA CTTGAATCAG ATCTATACCG AGCTGTACAG
    CCATCAGAAT TAGTTGGAAG TGTGTGGACA AAAGAAGACA AAGAAATTAA CTCTCCTAAT
    CTTCTGAAAA TGATTCGACA TACCACCAAC CTTACTCTGT GGTTTGAGAA ATGTATTGTA
    GAAACTGAAA ATTTAGAAGA AAGAGTAGCT GTGGTGAGTC GAATAATTGA GATTCTACAA
    GTCTTTCAAG AGTTGAACAA CTTTAATGGT GTCCTTGAGG TTGTCAGTGC TATGAATTCC
    TCACCTGTTT ACAGACTAGA CCACACATTT GAGCAAATAC CAAGTCGCCA GAAGAAAATT
    TTAGAAGAAG CTCATGAATT GAGTGAAGAT CACTATAAGA AATATTTGGC AAAACTCAGG
    TCTATTAATC CACCATGTGT GCCTTTCTTT GGAATTTATC TCACTAATAT CTTGAAAACA
    GAAGAAGGCA ACCCTGAGGT CCTAAAAAGA CATGGAAAAG AGCTTATAAA CTTTAGCAAA
    AGGAGGAAAG TAGCAGAAAT AACAGGAGAG ATCCAGCAGT ACCAAAATCA GCCTTACTGT
    TTACGAGTAG AATCAGATAT CAAAAGATTC TTTGAAAACT TGAATCCGAT GGGAAACAGC
    ATGGAAAAAG AATTTACAGA TTATCTTTTC AACAAATCCC TAGAAATAGA ACCACGAAAC
    CCTAAGCCTC TCCCAAGATT TCCAAAAAAA TATAGCTATC CCCTAAAATC TCCTGGTGTT
    CGTCCATCAA ACCCAAGACC AGGTACCATG AGGCATCCCA CACCTCTGCA GCAGGAGCCA
    AGGAAAATTA GTTATAGTAG GATCCCTGAA AGTGAAACAG AAAGTACAGC ATCTGCACCA
    AATTCTCCAA GAACACCGTT AACACCTCCG CCTGCTTCTG GTGCTTCCAG TACCACAGAT
    GTTTGCAGTG TATTTGATTC CGATCATTCG AGCCCTTTTC ACTCAAGATC TGCTTCTGTA
    TCATCTATAA GTTTAACCAA AGGCACTGAT GAAGTGCCTG TCCCTCCTCC TGTTCCTCCA
    CGAAGACGAC CAGAATCTGC CCCAGCAGAA TCTTCACCAT CTAAGATTAT GTCTAAGCAT
    TTGGACAGCC CCCCAGCCAT TCCTCCTAGG CAACCCACAT CAAAAGCCTA TTCACCACGA
    TATTCAATAT CAGACCGGAC CTCTATCTCA GACCCTCCTG AAAGCCCTCC CTTATTACCA
    CCACGAGAAC CTGTGAGGAC ACCTGATGTT TTCTCAAGCT CACCACTACA TCTCCAACCT
    CCCCCTTTGG GCAAAAAAAG TGACCATGGC AATGCCTTCT TCCCAAACAG CCCATCCCCC
    TTTACACCAC CTCCTCCTCA AACACCTTCT CCTCACGGCA CAAGAAGGCA TCTGCCATCA
    CCACCATTGA CACAAGAAGT GGACCTTCAT TCCATTGCTG GGCCGCCTGT TCCTCCACGA
    CAAAGCACTT CTCAACATAT CCCTAAACTC CCTCCAAAAA CTTACAAAAG GGAGCACACA
    CACCCATCCA TGCACAGAGA TGGACCACCA CTGTTGGAGA ATGCCCATTC TTCTTGA

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

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