SYDE2 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following SYDE2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SYDE2 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
OMb60265 XM_001108631.4
Latest version!
Macaca mulatta synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb60266 XM_015144232.2
Latest version!
Macaca mulatta synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb12969 XM_001108631.3
Latest version!
Macaca mulatta synapse defective 1, Rho GTPase, homolog 2 (C. elegans) (SYDE2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMb25703 XM_015144232.1
Latest version!
Macaca mulatta synapse defective 1, Rho GTPase, homolog 2 (C. elegans) (SYDE2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $629.30
$899.00

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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 OMb60265
    Clone ID Related Accession (Same CDS sequence) XM_001108631.4
    Accession Version XM_001108631.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4158bp)
    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 GTPase-activating protein SYDE2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) 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_001108631.3. ##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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    GCCGGGGGGC TAGGGCTCCG GGCAGCAGCG GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC
    GCAGGAGACG CCTGGGGTGC CGCAGACACC CCCCAACGTG AGCATGCCGG GGGAGCCGGG
    CCGAGCCTAC AGCAGCCCCC GCCGTCACCT GCGGCGTGGG GTCCCGGCGC GCGGGTCCCC
    AGAGGGCACC TGGAGCAGTC GGGGGCCCTC GGGACTCGGC CGCGCTGCGG GCAGGAGGCC
    GCCCCCTGGA GCCATGCCTC TCTGCACGCC CCCGAGGGCT CCGAGGGCAG CGGAGGGGAG
    GAAGTGGACG AGGACGAAGA CGACTACGAC GCCGACTACT ACGAAAACCT GCCCGGCGGC
    TCGCAGCCTG CGCCCGAGCC TGAGGGGGCG GAGGCGGAAC GGCGTCCCCC GCCTCCCCCA
    GCGGCGGGCT CCTCCCTGGG GGCGGAGGGC GGCCGCCTGG AGACAGGCAG GCTGCGGACC
    CAGTTGCGAG AGGCCTATTA TCTGCTGATC CAGGCCATGC ACGACCTGCC CCCTGACTCG
    GGCGCGCGGC GGGGCGGCGG GGGCTTGGCG GATCACGGCT TCCCCGCGGG AGCCCGGGCT
    CCGGGCCAGC CGCCTTCCCG CGGCGCTGCG GACCGCCGAG CCTGTCCCCG AGACGGGGAG
    AGGCGAGGCG GCGGACGGCC TCTGCAGCAG GTGTCCCCGC CCCGGTCGCC TCAGAGGGAG
    TCGGGGGGAG GCCAGCTGCG GACTCCTCGG ATGCGGCTGT CCTGCAGCAG AAGCCTCGAG
    AGCCTCCGGG TGGGTGCCAA GCCGCTTCCC TTCCAGCGGT GGCCAAGCGA CAGCTGGATC
    AGGTGCGGCG GGCACGGGGA CTGGGACGAG CCCCCGCCAC GTGGAGGCAG GATGGACGGC
    TGGAGTGGGG ACCGCGCCCG GGCGGCTGCA CCCACCGGCC TCCAGCCTCC AGGCTCCAAG
    GACCACGGCT GCTCCTCGGG AAGCCCTTTC AGGGATCCAG CGGGGTCCTC TGTGATACGC
    AGCGGCAAAG GAGACCGCCG GGAAGGCCCC TCCTTCCTCA AGCCGCCTGC AGTGACAGTC
    AAGAAGCTGC AGAAGTGGAT GTACAAAGGG CGTCTGCTGT CCCTGGGAAT GAAGGGTCGT
    GCCCGTGGGA CGGCCCCCAA AGTCACAGGA ACGCAGGCAG CCTCCCCAAA TGTGGGCGCT
    TTGAAAGTGC GTGAAAACAG TGTCCTGTCG GTGCCCCCAG ACCAAAGGAT TACGCTGACA
    GATTTATTTG AAAATGCCTA TGGGTCTTCA ATGAAGAGAA GAGAACTTGA AGATCTGAAG
    GATAATATTG AATTCAGAGG TCATAAGCCA CTTAACAGCA TCACTGTTTC AAAGAAACGC
    AATTGGCTAT ATCAGAGTAC TCTGAGATCT CTTAATCTGG AAGAAGAAAA TAAGAAATGC
    CAAGATAGAA GTCATTTATC CATCTCACCT GTGTCTCTAC CTAAACATCA GCTATCACAG
    TCTTTCCTCA AATCATCTAA AGAGTACTGT ACATATGTGG TATGTAACGC TACAAACTCT
    TCATTATCGA AAAACTGTGC TTTAGATTTT AATGAGGAAA ATGATGCAGA TGATGAAGGA
    GAAATATGGT ACAACCCCAT TCCTGAGGAT GATGACCTTG GTATGTCAAG TGCCTTGAGG
    TTTGGTGAGG TTGACTCTGC TATTCTGAAG CTCCCTGCTG TCAATTTAAG CATGTTGTCT
    GGCAGTGACC TGATGAAAGC AGAGCAGCAT ACTGAAGACT CGCTGTGCTC TTCCGAACAT
    ACAGGTGATA TTCAGAGCAC ATGGTCAAAT GGAATGAATC CTATGGATCC TGCCCGTTCC
    ACAGAATTTG TGCAGCAGTA CAAGCAAAGG CTAGGACACA AGACACAAGA AGGTATAATG
    GTAGAGGACA GTCCTATGTT GAAATCTTTT GCAGGTTCAG GGATCCTGGC TGCTACAAAT
    AGTACTGAAT TGGGAATTAT AGAACCATCT TCTCCAAATC TGAGCCCTGT GAAAAAAGGC
    AGTTCAATTA ATTGGTCTTT GCCAGATAAA ATAAAATCTC CAAGAACTGT GAGGAAACTT
    TCCATGAAAA TGAAAAAGTT GCCAGAATTT AGCCGAAAGC TAAGTGTTAA GGGAACATTG
    AATTATATAA ACAGTCCAGA TAACACTCCT TCTTTGTCTA AATATAACTG CCGAGAAATT
    CATCATACTG ATGTTCTGCC CTCTGGGAAC ACAACCACAG CTGCTAAGAG AAATGTTATA
    AGCCGATACC ATCTTGATAC CAGTGTATCC TCCCAGCACA ACTACCAGAA GAAAAACTCT
    ATGAGTTCTA AGTATTCCTG CAAAGGTGGT TACCTTAGTG ATGGAGACTC ACCTGAACTT
    ATAACTAAAG CTAGCAAACA TGGATCTGAA AACAAATTTG GAAGAGGAAA AGAAATAATT
    TCAAATAGTT GTAGCAAGAA TGAAATAGAC ATTGATGCTT TTAGGCATTA TAGCTTTTCT
    GATCAACCTA AGTGTTCACA GTACATATCT GGGCTCATGA GTGTACATTT CTATGGTGCT
    GAGGATTTAA AACCACCTCG GATAGATTCA AAAGATGTCT TTTGTGCAAT TCAGGTAGAT
    TCAGTAAACA AAGCAAGAAC AGCTTTGCTC ACATGTCGAA CAACATTTTT AGACATGGAT
    CACACTTTCA ACATAGAAAT TGAAAATGCA CAACATTTGA AACTAGTAGT ATTCAGTTGG
    GAACCCACTC CAAGAAAAAA TCGAGTTTGT TGTCATGGAA CTGTTGTTCT TCCCGCCTTA
    TTTAGAGTGA CAAAGACTCA TCAATTGGCT GTCAAACTTG AACCTAGAGG TCTTATTTAT
    GTGAAAGTGA CTCTTATGGA ACAGTGGGAG AATTCTCTTC ATGGACTAGA CATAAACCAA
    GAACCAATAA TATTTGGAGT TGATATTCAA AAAGTTGTAG AGAAAGAAAA TATAGGACTG
    ATGGTACCCC TTCTGATACA GAAATGTATT ATGGAAATTG AAAAGAGAGG CTGTCAGGTA
    GTAGGCCTGT ATCGATTATG TGGTTCGGCA GCAGTCAAGA AAGAACTGCG AGAGGCTTTT
    GAGAGAGATA GCAAAGCTGT TGGTCTGTGT GAAAACCTGT ACCCAGATAT AAATGTAATA
    ACAGGTGTTC TTAAGGATTA TTTAAGAGAA CTCCCTTCTC CTCTGATAAC AAAGCAACTT
    TATGAGGCTG TATTAGGTGC AATGGCAAAA TGTCCTTTGA AAATGTCATC AAATGGTTGT
    GAGAATGACC CAAGTGACTC TAAGTACACT GTTGACCTGC TGGATTGTCT GCCTGAGATT
    GAGAAGGCAA CCCTAAAGAT GTTGTTGGAT CATTTGAAAT TGGTGGCTTC CTATCATGAA
    GTGAATAAGA TGACATGCCA GAATTTGGCT GTGTGCTTTG GACCAGTGTT ATTAAGTCAG
    AAGCCAGAGC CTTCATCACA TAACAACAGA GTCTTTACTG ATTCAGAAGA ACTTGCAAGT
    GCTTTGGATT TTAAAAAACA CATTGAAGTT CTTCATTACT TACTCCAACT CTGGCCAGTG
    CAGCGTTTAA CTGTCAAAAA ATCAACAGAC AGTTTATTCC CAGAGCAGAA GTCTTCTCTG
    AATTATTTGA GGCAGAAGAA AGAACGACCT CATATGTTAA ATTTGAGTGG TACTGATTCA
    TCAGGAGTAC TTAGGCCAAG GCAAAACCGA TTAGACAGTC CACTTAGCAA TCGTTATGCG
    GGAGACTGGA GCAGCTGTGG GGAAAACTAC TTTTTAAATA CAAAAGAAAA TTTAAATGAT
    GTGGATTATG ATGATGTCCC TTCAGAAGAG AGAGAAATTG GAGAAAATTA TAGCAAAATG
    GATGGGCCAG AAGTAATGAT TGAACAGCCA ATTCCCATGT CCAAAGAGTG TACATTTCAG
    ACATATTTGA CAATGCAGAC AATTGAGTCT ACAGTGGATC GAAAAAACAA TCTCAAAGAT
    CTACAAGAAA GTATTGATAC TTTGATTGGA AATCTGGAAC GTGAACTCAG CAAAAACAAG
    CTTAATATGA GTTTTTGA

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

    RefSeq XP_001108631.3
    CDS161..4318
    Translation

    Target ORF information:

    RefSeq Version XM_001108631.4
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001108631.4

    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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    GCCGGGGGGC TAGGGCTCCG GGCAGCAGCG GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC
    GCAGGAGACG CCTGGGGTGC CGCAGACACC CCCCAACGTG AGCATGCCGG GGGAGCCGGG
    CCGAGCCTAC AGCAGCCCCC GCCGTCACCT GCGGCGTGGG GTCCCGGCGC GCGGGTCCCC
    AGAGGGCACC TGGAGCAGTC GGGGGCCCTC GGGACTCGGC CGCGCTGCGG GCAGGAGGCC
    GCCCCCTGGA GCCATGCCTC TCTGCACGCC CCCGAGGGCT CCGAGGGCAG CGGAGGGGAG
    GAAGTGGACG AGGACGAAGA CGACTACGAC GCCGACTACT ACGAAAACCT GCCCGGCGGC
    TCGCAGCCTG CGCCCGAGCC TGAGGGGGCG GAGGCGGAAC GGCGTCCCCC GCCTCCCCCA
    GCGGCGGGCT CCTCCCTGGG GGCGGAGGGC GGCCGCCTGG AGACAGGCAG GCTGCGGACC
    CAGTTGCGAG AGGCCTATTA TCTGCTGATC CAGGCCATGC ACGACCTGCC CCCTGACTCG
    GGCGCGCGGC GGGGCGGCGG GGGCTTGGCG GATCACGGCT TCCCCGCGGG AGCCCGGGCT
    CCGGGCCAGC CGCCTTCCCG CGGCGCTGCG GACCGCCGAG CCTGTCCCCG AGACGGGGAG
    AGGCGAGGCG GCGGACGGCC TCTGCAGCAG GTGTCCCCGC CCCGGTCGCC TCAGAGGGAG
    TCGGGGGGAG GCCAGCTGCG GACTCCTCGG ATGCGGCTGT CCTGCAGCAG AAGCCTCGAG
    AGCCTCCGGG TGGGTGCCAA GCCGCTTCCC TTCCAGCGGT GGCCAAGCGA CAGCTGGATC
    AGGTGCGGCG GGCACGGGGA CTGGGACGAG CCCCCGCCAC GTGGAGGCAG GATGGACGGC
    TGGAGTGGGG ACCGCGCCCG GGCGGCTGCA CCCACCGGCC TCCAGCCTCC AGGCTCCAAG
    GACCACGGCT GCTCCTCGGG AAGCCCTTTC AGGGATCCAG CGGGGTCCTC TGTGATACGC
    AGCGGCAAAG GAGACCGCCG GGAAGGCCCC TCCTTCCTCA AGCCGCCTGC AGTGACAGTC
    AAGAAGCTGC AGAAGTGGAT GTACAAAGGG CGTCTGCTGT CCCTGGGAAT GAAGGGTCGT
    GCCCGTGGGA CGGCCCCCAA AGTCACAGGA ACGCAGGCAG CCTCCCCAAA TGTGGGCGCT
    TTGAAAGTGC GTGAAAACAG TGTCCTGTCG GTGCCCCCAG ACCAAAGGAT TACGCTGACA
    GATTTATTTG AAAATGCCTA TGGGTCTTCA ATGAAGAGAA GAGAACTTGA AGATCTGAAG
    GATAATATTG AATTCAGAGG TCATAAGCCA CTTAACAGCA TCACTGTTTC AAAGAAACGC
    AATTGGCTAT ATCAGAGTAC TCTGAGATCT CTTAATCTGG AAGAAGAAAA TAAGAAATGC
    CAAGATAGAA GTCATTTATC CATCTCACCT GTGTCTCTAC CTAAACATCA GCTATCACAG
    TCTTTCCTCA AATCATCTAA AGAGTACTGT ACATATGTGG TATGTAACGC TACAAACTCT
    TCATTATCGA AAAACTGTGC TTTAGATTTT AATGAGGAAA ATGATGCAGA TGATGAAGGA
    GAAATATGGT ACAACCCCAT TCCTGAGGAT GATGACCTTG GTATGTCAAG TGCCTTGAGG
    TTTGGTGAGG TTGACTCTGC TATTCTGAAG CTCCCTGCTG TCAATTTAAG CATGTTGTCT
    GGCAGTGACC TGATGAAAGC AGAGCAGCAT ACTGAAGACT CGCTGTGCTC TTCCGAACAT
    ACAGGTGATA TTCAGAGCAC ATGGTCAAAT GGAATGAATC CTATGGATCC TGCCCGTTCC
    ACAGAATTTG TGCAGCAGTA CAAGCAAAGG CTAGGACACA AGACACAAGA AGGTATAATG
    GTAGAGGACA GTCCTATGTT GAAATCTTTT GCAGGTTCAG GGATCCTGGC TGCTACAAAT
    AGTACTGAAT TGGGAATTAT AGAACCATCT TCTCCAAATC TGAGCCCTGT GAAAAAAGGC
    AGTTCAATTA ATTGGTCTTT GCCAGATAAA ATAAAATCTC CAAGAACTGT GAGGAAACTT
    TCCATGAAAA TGAAAAAGTT GCCAGAATTT AGCCGAAAGC TAAGTGTTAA GGGAACATTG
    AATTATATAA ACAGTCCAGA TAACACTCCT TCTTTGTCTA AATATAACTG CCGAGAAATT
    CATCATACTG ATGTTCTGCC CTCTGGGAAC ACAACCACAG CTGCTAAGAG AAATGTTATA
    AGCCGATACC ATCTTGATAC CAGTGTATCC TCCCAGCACA ACTACCAGAA GAAAAACTCT
    ATGAGTTCTA AGTATTCCTG CAAAGGTGGT TACCTTAGTG ATGGAGACTC ACCTGAACTT
    ATAACTAAAG CTAGCAAACA TGGATCTGAA AACAAATTTG GAAGAGGAAA AGAAATAATT
    TCAAATAGTT GTAGCAAGAA TGAAATAGAC ATTGATGCTT TTAGGCATTA TAGCTTTTCT
    GATCAACCTA AGTGTTCACA GTACATATCT GGGCTCATGA GTGTACATTT CTATGGTGCT
    GAGGATTTAA AACCACCTCG GATAGATTCA AAAGATGTCT TTTGTGCAAT TCAGGTAGAT
    TCAGTAAACA AAGCAAGAAC AGCTTTGCTC ACATGTCGAA CAACATTTTT AGACATGGAT
    CACACTTTCA ACATAGAAAT TGAAAATGCA CAACATTTGA AACTAGTAGT ATTCAGTTGG
    GAACCCACTC CAAGAAAAAA TCGAGTTTGT TGTCATGGAA CTGTTGTTCT TCCCGCCTTA
    TTTAGAGTGA CAAAGACTCA TCAATTGGCT GTCAAACTTG AACCTAGAGG TCTTATTTAT
    GTGAAAGTGA CTCTTATGGA ACAGTGGGAG AATTCTCTTC ATGGACTAGA CATAAACCAA
    GAACCAATAA TATTTGGAGT TGATATTCAA AAAGTTGTAG AGAAAGAAAA TATAGGACTG
    ATGGTACCCC TTCTGATACA GAAATGTATT ATGGAAATTG AAAAGAGAGG CTGTCAGGTA
    GTAGGCCTGT ATCGATTATG TGGTTCGGCA GCAGTCAAGA AAGAACTGCG AGAGGCTTTT
    GAGAGAGATA GCAAAGCTGT TGGTCTGTGT GAAAACCTGT ACCCAGATAT AAATGTAATA
    ACAGGTGTTC TTAAGGATTA TTTAAGAGAA CTCCCTTCTC CTCTGATAAC AAAGCAACTT
    TATGAGGCTG TATTAGGTGC AATGGCAAAA TGTCCTTTGA AAATGTCATC AAATGGTTGT
    GAGAATGACC CAAGTGACTC TAAGTACACT GTTGACCTGC TGGATTGTCT GCCTGAGATT
    GAGAAGGCAA CCCTAAAGAT GTTGTTGGAT CATTTGAAAT TGGTGGCTTC CTATCATGAA
    GTGAATAAGA TGACATGCCA GAATTTGGCT GTGTGCTTTG GACCAGTGTT ATTAAGTCAG
    AAGCCAGAGC CTTCATCACA TAACAACAGA GTCTTTACTG ATTCAGAAGA ACTTGCAAGT
    GCTTTGGATT TTAAAAAACA CATTGAAGTT CTTCATTACT TACTCCAACT CTGGCCAGTG
    CAGCGTTTAA CTGTCAAAAA ATCAACAGAC AGTTTATTCC CAGAGCAGAA GTCTTCTCTG
    AATTATTTGA GGCAGAAGAA AGAACGACCT CATATGTTAA ATTTGAGTGG TACTGATTCA
    TCAGGAGTAC TTAGGCCAAG GCAAAACCGA TTAGACAGTC CACTTAGCAA TCGTTATGCG
    GGAGACTGGA GCAGCTGTGG GGAAAACTAC TTTTTAAATA CAAAAGAAAA TTTAAATGAT
    GTGGATTATG ATGATGTCCC TTCAGAAGAG AGAGAAATTG GAGAAAATTA TAGCAAAATG
    GATGGGCCAG AAGTAATGAT TGAACAGCCA ATTCCCATGT CCAAAGAGTG TACATTTCAG
    ACATATTTGA CAATGCAGAC AATTGAGTCT ACAGTGGATC GAAAAAACAA TCTCAAAGAT
    CTACAAGAAA GTATTGATAC TTTGATTGGA AATCTGGAAC GTGAACTCAG CAAAAACAAG
    CTTAATATGA GTTTTTGA

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

    CloneID OMb60266
    Clone ID Related Accession (Same CDS sequence) XM_015144232.2
    Accession Version XM_015144232.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3669bp)
    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 GTPase-activating protein SYDE2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015144232.1. ##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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    GCCGGGGGGC TAGGGCTCCG GGCAGCAGCG GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC
    GCAGGAGACG CCTGGGGTGC CGCAGACACC CCCCAACGTG AGCATGCCGG GGGAGCCGGG
    CCGAGCCTAC AGCAGCCCCC GCCGTCACCT GCGGCGTGGG GTCCCGGCGC GCGGGTCCCC
    AGAGGGCACC TGGAGCAGTC GGGGGCCCTC GGGACTCGGC CGCGCTGCGG GCAGGAGGCC
    GCCCCCTGGA GCCATGCCTC TCTGCACGCC CCCGAGGGCT CCGAGGGCAG CGGAGGGGAG
    GAAGTGGACG AGGACGAAGA CGACTACGAC GCCGACTACT ACGAAAACCT GCCCGGCGGC
    TCGCAGCCTG CGCCCGAGCC TGAGGGGGCG GAGGCGGAAC GGCGTCCCCC GCCTCCCCCA
    GCGGCGGGCT CCTCCCTGGG GGCGGAGGGC GGCCGCCTGG AGACAGGCAG GCTGCGGACC
    CAGTTGCGAG AGGCCTATTA TCTGCTGATC CAGGCCATGC ACGACCTGCC CCCTGACTCG
    GGCGCGCGGC GGGGCGGCGG GGGCTTGGCG GATCACGGCT TCCCCGCGGG AGCCCGGGCT
    CCGGGCCAGC CGCCTTCCCG CGGCGCTGCG GACCGCCGAG CCTGTCCCCG AGACGGGGAG
    AGGCGAGGCG GCGGACGGCC TCTGCAGCAG GTGTCCCCGC CCCGGTCGCC TCAGAGGGAG
    TCGGGGGGAG GCCAGCTGCG GACTCCTCGG ATGCGGCTGT CCTGCAGCAG AAGCCTCGAG
    AGCCTCCGGG TGGGTGCCAA GCCGCTTCCC TTCCAGCGGT GGCCAAGCGA CAGCTGGATC
    AGGTGCGGCG GGCACGGGGA CTGGGACGAG CCCCCGCCAC GTGGAGGCAG GATGGACGGC
    TGGAGTGGGG ACCGCGCCCG GGCGGCTGCA CCCACCGGCC TCCAGCCTCC AGGCTCCAAG
    GACCACGGCT GCTCCTCGGG AAGCCCTTTC AGGGATCCAG CGGGGTCCTC TGTGATACGC
    AGCGGCAAAG GAGACCGCCG GGAAGGCCCC TCCTTCCTCA AGCCGCCTGC AGTGACAGTC
    AAGAAGCTGC AGAAGTGGAT GTACAAAGGG CGTCTGCTGT CCCTGGGAAT GAAGGGTCGT
    GCCCGTGGGA CGGCCCCCAA AGTCACAGGA ACGCAGGCAG CCTCCCCAAA TGTGGGCGCT
    TTGAAAGTGC GTGAAAACAG TGTCCTGTCG GTGCCCCCAG ACCAAAGGAT TACGCTGACA
    GATTTATTTG AAAATGCCTA TGGGTCTTCA ATGAAGAGAA GAGAACTTGA AGATCTGAAG
    GATAATATTG AATTCAGAGG TCATAAGCCA CTTAACAGCA TCACTGTTTC AAAGAAACGC
    AATTGGCTAT ATCAGAGTAC TCTGAGATCT CTTAATCTGG AAGAAGAAAA TAAGAAATGC
    CAAGATAGAA GTCATTTATC CATCTCACCT GTGTCTCTAC CTAAACATCA GCTATCACAG
    TCTTTCCTCA AATCATCTAA AGAGTACTGT ACATATGTGG TATGTAACGC TACAAACTCT
    TCATTATCGA AAAACTGTGC TTTAGATTTT AATGAGGAAA ATGATGCAGA TGATGAAGGA
    GAAATATGGT ACAACCCCAT TCCTGAGGAT GATGACCTTG GTATGTCAAG TGCCTTGAGG
    TTTGGTGAGG TTGACTCTGC TATTCTGAAG CTCCCTGCTG TCAATTTAAG CATGTTGTCT
    GGCAGTGACC TGATGAAAGC AGAGCAGCAT ACTGAAGACT CGCTGTGCTC TTCCGAACAT
    ACAGGTGATA TTCAGAGCAC ATGGTCAAAT GGAATGAATC CTATGGATCC TGCCCGTTCC
    ACAGAATTTG TGCAGCAGTA CAAGCAAAGG CTAGGACACA AGACACAAGA AGGTATAATG
    GTAGAGGACA GTCCTATGTT GAAATCTTTT GCAGGTTCAG GGATCCTGGC TGCTACAAAT
    AGTACTGAAT TGGGAATTAT AGAACCATCT TCTCCAAATC TGAGCCCTGT GAAAAAAGGC
    AGTTCAATTA ATTGGTCTTT GCCAGATAAA ATAAAATCTC CAAGAACTGT GAGGAAACTT
    TCCATGAAAA TGAAAAAGTT GCCAGAATTT AGCCGAAAGC TAAGTGTTAA GGGAACATTG
    AATTATATAA ACAGTCCAGA TAACACTCCT TCTTTGTCTA AATATAACTG CCGAGAAATT
    CATCATACTG ATGTTCTGCC CTCTGGGAAC ACAACCACAG CTGCTAAGAG AAATGTTATA
    AGCCGATACC ATCTTGATAC CAGTGTATCC TCCCAGCACA ACTACCAGAA GAAAAACTCT
    ATGAGTTCTA AGTATTCCTG CAAAGGTGGT TACCTTAGTG ATGGAGACTC ACCTGAACTT
    ATAACTAAAG CTAGCAAACA TGGATCTGAA AACAAATTTG GAAGAGGAAA AGAAATAATT
    TCAAATAGTT GTAGCAAGAA TGAAATAGAC ATTGATGCTT TTAGGCATTA TAGCTTTTCT
    GATCAACCTA AGTGTTCACA GTACATATCT GGGCTCATGA GTGTACATTT CTATGGTGCT
    GAGGATTTAA AACCACCTCG GATAGATTCA AAAGATGTCT TTTGTGCAAT TCAGGTAGAT
    TCAGTAAACA AAGCAAGAAC AGCTTTGCTC ACATGTCGAA CAACATTTTT AGACATGGAT
    CACACTTTCA ACATAGAAAT TGAAAATGCA CAACATTTGA AACTAGTAGT ATTCAGTTGG
    GAACCCACTC CAAGAAAAAA TCGAGTTTGT TGTCATGGAA CTGTTGTTCT TCCCGCCTTA
    TTTAGAGTGA CAAAGACTCA TCAATTGGCT GTCAAACTTG AACCTAGAGG TCTTATTTAT
    GTGAAAGTGA CTCTTATGGA ACAGTGGGAG AATTCTCTTC ATGGACTAGA CATAAACCAA
    GAACCAATAA TATTTGGAGT TGATATTCAA AAAGTTGTAG AGAAAGAAAA TATAGGACTG
    ATGGTACCCC TTCTGATACA GAAATGTATT ATGGAAATTG AAAAGAGAGG CTGTCAGGTA
    GTAGGCCTGT ATCGATTATG TGGTTCGGCA GCAGTCAAGA AAGAACTGCG AGAGGCTTTT
    GAGAGAGATA GCAAAGCTGT TGGTCTGTGT GAAAACCTGT ACCCAGATAT AAATGTAATA
    ACAGGTGTTC TTAAGGATTA TTTAAGAGAA CTCCCTTCTC CTCTGATAAC AAAGCAACTT
    TATGAGGCTG TATTAGGTGC AATGGCAAAA TGTCCTTTGA AAATGTCATC AAATGGTTGT
    GAGAATGACC CAAGTGACTC TAAGTACACT GTTGACCTGC TGGATTGTCT GCCTGAGATT
    GAGAAGGCAA CCCTAAAGAT GTTGTTGGAT CATTTGAAAT TGGTGGCTTC CTATCATGAA
    GTGAATAAGA TGACATGCCA GAATTTGGCT GTGTGCTTTG GACCAGTGTT ATTAAGTCAG
    AAGCCAGAGC CTTCATCACA TAACAACAGA GTCTTTACTG ATTCAGAAGA ACTTGCAAGT
    GCTTTGGATT TTAAAAAACA CATTGAAGTT CTTCATTACT TACTCCAACT CTGGCCAGGC
    AATAAATGA

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

    RefSeq XP_014999718.2
    CDS162..3830
    Translation

    Target ORF information:

    RefSeq Version XM_015144232.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015144232.2

    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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    GCCGGGGGGC TAGGGCTCCG GGCAGCAGCG GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC
    GCAGGAGACG CCTGGGGTGC CGCAGACACC CCCCAACGTG AGCATGCCGG GGGAGCCGGG
    CCGAGCCTAC AGCAGCCCCC GCCGTCACCT GCGGCGTGGG GTCCCGGCGC GCGGGTCCCC
    AGAGGGCACC TGGAGCAGTC GGGGGCCCTC GGGACTCGGC CGCGCTGCGG GCAGGAGGCC
    GCCCCCTGGA GCCATGCCTC TCTGCACGCC CCCGAGGGCT CCGAGGGCAG CGGAGGGGAG
    GAAGTGGACG AGGACGAAGA CGACTACGAC GCCGACTACT ACGAAAACCT GCCCGGCGGC
    TCGCAGCCTG CGCCCGAGCC TGAGGGGGCG GAGGCGGAAC GGCGTCCCCC GCCTCCCCCA
    GCGGCGGGCT CCTCCCTGGG GGCGGAGGGC GGCCGCCTGG AGACAGGCAG GCTGCGGACC
    CAGTTGCGAG AGGCCTATTA TCTGCTGATC CAGGCCATGC ACGACCTGCC CCCTGACTCG
    GGCGCGCGGC GGGGCGGCGG GGGCTTGGCG GATCACGGCT TCCCCGCGGG AGCCCGGGCT
    CCGGGCCAGC CGCCTTCCCG CGGCGCTGCG GACCGCCGAG CCTGTCCCCG AGACGGGGAG
    AGGCGAGGCG GCGGACGGCC TCTGCAGCAG GTGTCCCCGC CCCGGTCGCC TCAGAGGGAG
    TCGGGGGGAG GCCAGCTGCG GACTCCTCGG ATGCGGCTGT CCTGCAGCAG AAGCCTCGAG
    AGCCTCCGGG TGGGTGCCAA GCCGCTTCCC TTCCAGCGGT GGCCAAGCGA CAGCTGGATC
    AGGTGCGGCG GGCACGGGGA CTGGGACGAG CCCCCGCCAC GTGGAGGCAG GATGGACGGC
    TGGAGTGGGG ACCGCGCCCG GGCGGCTGCA CCCACCGGCC TCCAGCCTCC AGGCTCCAAG
    GACCACGGCT GCTCCTCGGG AAGCCCTTTC AGGGATCCAG CGGGGTCCTC TGTGATACGC
    AGCGGCAAAG GAGACCGCCG GGAAGGCCCC TCCTTCCTCA AGCCGCCTGC AGTGACAGTC
    AAGAAGCTGC AGAAGTGGAT GTACAAAGGG CGTCTGCTGT CCCTGGGAAT GAAGGGTCGT
    GCCCGTGGGA CGGCCCCCAA AGTCACAGGA ACGCAGGCAG CCTCCCCAAA TGTGGGCGCT
    TTGAAAGTGC GTGAAAACAG TGTCCTGTCG GTGCCCCCAG ACCAAAGGAT TACGCTGACA
    GATTTATTTG AAAATGCCTA TGGGTCTTCA ATGAAGAGAA GAGAACTTGA AGATCTGAAG
    GATAATATTG AATTCAGAGG TCATAAGCCA CTTAACAGCA TCACTGTTTC AAAGAAACGC
    AATTGGCTAT ATCAGAGTAC TCTGAGATCT CTTAATCTGG AAGAAGAAAA TAAGAAATGC
    CAAGATAGAA GTCATTTATC CATCTCACCT GTGTCTCTAC CTAAACATCA GCTATCACAG
    TCTTTCCTCA AATCATCTAA AGAGTACTGT ACATATGTGG TATGTAACGC TACAAACTCT
    TCATTATCGA AAAACTGTGC TTTAGATTTT AATGAGGAAA ATGATGCAGA TGATGAAGGA
    GAAATATGGT ACAACCCCAT TCCTGAGGAT GATGACCTTG GTATGTCAAG TGCCTTGAGG
    TTTGGTGAGG TTGACTCTGC TATTCTGAAG CTCCCTGCTG TCAATTTAAG CATGTTGTCT
    GGCAGTGACC TGATGAAAGC AGAGCAGCAT ACTGAAGACT CGCTGTGCTC TTCCGAACAT
    ACAGGTGATA TTCAGAGCAC ATGGTCAAAT GGAATGAATC CTATGGATCC TGCCCGTTCC
    ACAGAATTTG TGCAGCAGTA CAAGCAAAGG CTAGGACACA AGACACAAGA AGGTATAATG
    GTAGAGGACA GTCCTATGTT GAAATCTTTT GCAGGTTCAG GGATCCTGGC TGCTACAAAT
    AGTACTGAAT TGGGAATTAT AGAACCATCT TCTCCAAATC TGAGCCCTGT GAAAAAAGGC
    AGTTCAATTA ATTGGTCTTT GCCAGATAAA ATAAAATCTC CAAGAACTGT GAGGAAACTT
    TCCATGAAAA TGAAAAAGTT GCCAGAATTT AGCCGAAAGC TAAGTGTTAA GGGAACATTG
    AATTATATAA ACAGTCCAGA TAACACTCCT TCTTTGTCTA AATATAACTG CCGAGAAATT
    CATCATACTG ATGTTCTGCC CTCTGGGAAC ACAACCACAG CTGCTAAGAG AAATGTTATA
    AGCCGATACC ATCTTGATAC CAGTGTATCC TCCCAGCACA ACTACCAGAA GAAAAACTCT
    ATGAGTTCTA AGTATTCCTG CAAAGGTGGT TACCTTAGTG ATGGAGACTC ACCTGAACTT
    ATAACTAAAG CTAGCAAACA TGGATCTGAA AACAAATTTG GAAGAGGAAA AGAAATAATT
    TCAAATAGTT GTAGCAAGAA TGAAATAGAC ATTGATGCTT TTAGGCATTA TAGCTTTTCT
    GATCAACCTA AGTGTTCACA GTACATATCT GGGCTCATGA GTGTACATTT CTATGGTGCT
    GAGGATTTAA AACCACCTCG GATAGATTCA AAAGATGTCT TTTGTGCAAT TCAGGTAGAT
    TCAGTAAACA AAGCAAGAAC AGCTTTGCTC ACATGTCGAA CAACATTTTT AGACATGGAT
    CACACTTTCA ACATAGAAAT TGAAAATGCA CAACATTTGA AACTAGTAGT ATTCAGTTGG
    GAACCCACTC CAAGAAAAAA TCGAGTTTGT TGTCATGGAA CTGTTGTTCT TCCCGCCTTA
    TTTAGAGTGA CAAAGACTCA TCAATTGGCT GTCAAACTTG AACCTAGAGG TCTTATTTAT
    GTGAAAGTGA CTCTTATGGA ACAGTGGGAG AATTCTCTTC ATGGACTAGA CATAAACCAA
    GAACCAATAA TATTTGGAGT TGATATTCAA AAAGTTGTAG AGAAAGAAAA TATAGGACTG
    ATGGTACCCC TTCTGATACA GAAATGTATT ATGGAAATTG AAAAGAGAGG CTGTCAGGTA
    GTAGGCCTGT ATCGATTATG TGGTTCGGCA GCAGTCAAGA AAGAACTGCG AGAGGCTTTT
    GAGAGAGATA GCAAAGCTGT TGGTCTGTGT GAAAACCTGT ACCCAGATAT AAATGTAATA
    ACAGGTGTTC TTAAGGATTA TTTAAGAGAA CTCCCTTCTC CTCTGATAAC AAAGCAACTT
    TATGAGGCTG TATTAGGTGC AATGGCAAAA TGTCCTTTGA AAATGTCATC AAATGGTTGT
    GAGAATGACC CAAGTGACTC TAAGTACACT GTTGACCTGC TGGATTGTCT GCCTGAGATT
    GAGAAGGCAA CCCTAAAGAT GTTGTTGGAT CATTTGAAAT TGGTGGCTTC CTATCATGAA
    GTGAATAAGA TGACATGCCA GAATTTGGCT GTGTGCTTTG GACCAGTGTT ATTAAGTCAG
    AAGCCAGAGC CTTCATCACA TAACAACAGA GTCTTTACTG ATTCAGAAGA ACTTGCAAGT
    GCTTTGGATT TTAAAAAACA CATTGAAGTT CTTCATTACT TACTCCAACT CTGGCCAGGC
    AATAAATGA

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

    CloneID OMb12969
    Clone ID Related Accession (Same CDS sequence) XM_001108631.3
    Accession Version XM_001108631.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3582bp)
    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 GTPase-activating protein SYDE2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804553.1) 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_001108631.2. ##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
    ATGCACGACC TGCCCCCTGA CTCGGGCGCG CGGCGGGGCG GCGGGGGCTT GGCGGATCAC 
    GGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC TGCGGACCGC
    CGAGCCTGTC CCCGAGACGG GGAGAGGCGA GGCGGCGGAC GGCCTCTGCA GCAGGTGTCC
    CCGCCCCGGT CGCCTCAGAG GGAGTCGGGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG
    CTGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCT TCCCTTCCAG
    CGGTGGCCAA GCGACAGCTG GATCAGGTGC GGCGGGCACG GGGACTGGGA CGAGCCCCCG
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC
    GGCCTCCAGC CTCCAGGCTC CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT
    CCAGCGGGGT CCTCTGTGAT ACGCAGCGGC AAAGGAGACC GCCGGGAAGG CCCCTCCTTC
    CTCAAGCCGC CTGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCCC CCAAAGTCAC AGGAACGCAG
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACAGTGTCCT GTCGGTGCCC
    CCAGACCAAA GGATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAGTGAAG
    AGAAGAGAAC TTGAAGATCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG ATCTCTTAAT
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAACC CCATTCCTGA GGATGATGAC
    CTTGGTATGT CAAGTGCCTT GAGGTTTGGT GAGGTTGACT CTGCTATTCT GAAGCTCCCT
    GCTGTCAATT TAAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCA GCATACTGAA
    GACTCGCTGT GCTCTTCCGA ACATACAGGT GATATTCAGA GCACATGGTC AAATGGAATG
    AATCCTATGG ATCCTGCCCG TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAGGCTAGGA
    CACAAGACAC AAGAAGGTAT AATGGTAGAG GACAGTCCTA TGTTGAAATC TTTTGCAGGT
    TCAGGGATCC TGGCTGCTAC AAATAGTACT GAATTGGGAA TTATAGAACC ATCTTCTCCA
    AATCCGAGCC CTGTGAAAAA AGGCAGTTCA ATTAATTGGT CTTTGCCAGA TAAAATAAAA
    TCTCCAAGAA CTGTGAGGAA ACTTTCCATG AAAATGAAAA AGTTGCCAGA ATTTAGCCGA
    AAGCTAAGTG TTAAGGGAAC ATTGAATTAT ATAAACAGTC CAGATAACAC TCCTTCTTTG
    TCTAAATATA ACTGCCGAGA AATTCATCAT ACTGATGTTC TGCCCTCTGG GAACACAACC
    ACAGCTGCTA AGAGAAATGT TATAAGCCGA TACCATCTTG ATACCAGTGT ATCCTCCCAG
    CACAACTACC AGAAGAAAAA CTCTATGAGT TCTAAGTATT CCTGCAAAGG TGGTTACCTT
    AGTGATGGAG ACTCACCTGA ACTTATAACT AAAGCTAGCA AACATGGATC TGAAAACAAA
    TTTGGAAGAG GAAAAGAAAT AATTTCAAAT AGTTGTAGCA AGAATGAAAT AGACATTGAT
    GCTTTTAGGC ATTATAGCTT TTCTGATCAA CCTAAGTGTT CACAGTACAT ATCTGGGCTC
    ATGAGTGTAC ATTTCTATGG TGCTGAGGAT TTAAAACCAC CTCGGATAGA TTCAAAAGAT
    GTCTTTTGTG CAATTCAGGT AGATTCAGTA AACAAAGCAA GAACAGCTTT GCTCACATGT
    CGAACAACAT TTTTAGACAT GGATCACACT TTCAACATAG AAATTGAAAA TGCACAACAT
    TTGAAACTAG TAGTATTCAG TTGGGAACCC ACTCCAAGAA AAAATCGAGT TTGTTGTCAT
    GGAACTGTTG TTCTTCCCGC CTTATTTAGA GTGACAAAGA CTCATCAATT GGCTGTCAAA
    CTTGAACCTA GAGGTCTTAT TTATGTGAAA GTGACTCTTA TGGAACAGTG GGAGAATTCT
    CTTCATGGAC TAGACATAAA CCAAGAACCA ATAATATTTG GAGTTGATAT TCAAAAAGTT
    GTAGAGAAAG AAAATATAGG ACTGATGGTA CCCCTTCTGA TACAGAAATG TATTATGGAA
    ATTGAAAAGA GAGGCTGTCA GGTAGTAGGC CTGTATCGAT TATGTGGTTC GGCAGCAGTC
    AAGAAAGAAC TGCGAGAGGC TTTTGAGAGA GATAGCAAAG CTGTTGGTCT GTGTGAAAAC
    CTGTACCCAG ATATAAATGT AATAACAGGT GTTCTTAAGG ATTATTTAAG AGAACTCCCT
    TCTCCTCTGA TAACAAAGCA ACTTTATGAG GCTGTATTAG GTGCAATGGC AAAAAGTCCT
    TTGAAAATGT CATCAAATGG TTGTGAGAAT GACCCAAGTG ACTCTAAGTA CACTGTTGAC
    CTGCTGGATT GTCTGCCTGA GATTGAGAAG GCAACCCTAA AGATGTTGTT GGATCATTTG
    AAATTGGTGG CTTCCTATCA TGAAGTGAAT AAGATGACAT GCCAGAATTT GGCTGTGTGC
    TTTGGACCAG TGTTATTAAG TCAGAAGCCA GAGCCTTCAT CACATAACAA CAGAGTCTTT
    ACTGATTCAG AAGAACTTGC AAGTGCTTTG GATTTTAAAA AACACATTGA AGTTCTTCAT
    TACTTACTCC AACTCTGGCC AGTGCAGCGT TTAACTGTCA AAAAATCAAC AGACAGTTTA
    TTCCCAGAGC AGAAGTCTTC TCTGAATTAT TTGAGGCAGA AGAAAGAACG ACCTCATATG
    TTAAATTTGA GTGGTACTGA TTCATCAGGA GTACTTAGGC CAAGGCAAAA CCGATTAGAC
    AGTCCACTTA GCAATCGTTA TGCGGGAGAC TGGAGCAGCT GTGGGGAAAA CTACTTTTTA
    AATACAAAAG AAAATTTAAA TGATGTGGAT TATGATGATG TCCCTTCAGA AGAGAGAGAA
    ATTGGAGAAA ATTATAGCAA AATGGATGGG CCAGAAGTAA TGATTGAACA GCCAATTCCC
    ATGTCCAAAG AGTGTACATT TCAGACATAT TTGACAATGC AGACAATTGA GTCTACAGTG
    GATCGAAAAA ACAATCTCAA AGATCTACAA GAAAGTATTG ATACTTTGAT TGGAAATCTG
    GAACGTGAAC TCAGCAAAAA CAAGCTTAAT ATGAGTTTTT GA

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

    RefSeq XP_001108631.2
    CDS44..3625
    Translation

    Target ORF information:

    RefSeq Version XM_001108631.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta synapse defective 1, Rho GTPase, homolog 2 (C. elegans) (SYDE2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001108631.3

    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
    ATGCACGACC TGCCCCCTGA CTCGGGCGCG CGGCGGGGCG GCGGGGGCTT GGCGGATCAC 
    GGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC TGCGGACCGC
    CGAGCCTGTC CCCGAGACGG GGAGAGGCGA GGCGGCGGAC GGCCTCTGCA GCAGGTGTCC
    CCGCCCCGGT CGCCTCAGAG GGAGTCGGGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG
    CTGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCT TCCCTTCCAG
    CGGTGGCCAA GCGACAGCTG GATCAGGTGC GGCGGGCACG GGGACTGGGA CGAGCCCCCG
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC
    GGCCTCCAGC CTCCAGGCTC CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT
    CCAGCGGGGT CCTCTGTGAT ACGCAGCGGC AAAGGAGACC GCCGGGAAGG CCCCTCCTTC
    CTCAAGCCGC CTGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCCC CCAAAGTCAC AGGAACGCAG
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACAGTGTCCT GTCGGTGCCC
    CCAGACCAAA GGATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAGTGAAG
    AGAAGAGAAC TTGAAGATCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG ATCTCTTAAT
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAACC CCATTCCTGA GGATGATGAC
    CTTGGTATGT CAAGTGCCTT GAGGTTTGGT GAGGTTGACT CTGCTATTCT GAAGCTCCCT
    GCTGTCAATT TAAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCA GCATACTGAA
    GACTCGCTGT GCTCTTCCGA ACATACAGGT GATATTCAGA GCACATGGTC AAATGGAATG
    AATCCTATGG ATCCTGCCCG TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAGGCTAGGA
    CACAAGACAC AAGAAGGTAT AATGGTAGAG GACAGTCCTA TGTTGAAATC TTTTGCAGGT
    TCAGGGATCC TGGCTGCTAC AAATAGTACT GAATTGGGAA TTATAGAACC ATCTTCTCCA
    AATCCGAGCC CTGTGAAAAA AGGCAGTTCA ATTAATTGGT CTTTGCCAGA TAAAATAAAA
    TCTCCAAGAA CTGTGAGGAA ACTTTCCATG AAAATGAAAA AGTTGCCAGA ATTTAGCCGA
    AAGCTAAGTG TTAAGGGAAC ATTGAATTAT ATAAACAGTC CAGATAACAC TCCTTCTTTG
    TCTAAATATA ACTGCCGAGA AATTCATCAT ACTGATGTTC TGCCCTCTGG GAACACAACC
    ACAGCTGCTA AGAGAAATGT TATAAGCCGA TACCATCTTG ATACCAGTGT ATCCTCCCAG
    CACAACTACC AGAAGAAAAA CTCTATGAGT TCTAAGTATT CCTGCAAAGG TGGTTACCTT
    AGTGATGGAG ACTCACCTGA ACTTATAACT AAAGCTAGCA AACATGGATC TGAAAACAAA
    TTTGGAAGAG GAAAAGAAAT AATTTCAAAT AGTTGTAGCA AGAATGAAAT AGACATTGAT
    GCTTTTAGGC ATTATAGCTT TTCTGATCAA CCTAAGTGTT CACAGTACAT ATCTGGGCTC
    ATGAGTGTAC ATTTCTATGG TGCTGAGGAT TTAAAACCAC CTCGGATAGA TTCAAAAGAT
    GTCTTTTGTG CAATTCAGGT AGATTCAGTA AACAAAGCAA GAACAGCTTT GCTCACATGT
    CGAACAACAT TTTTAGACAT GGATCACACT TTCAACATAG AAATTGAAAA TGCACAACAT
    TTGAAACTAG TAGTATTCAG TTGGGAACCC ACTCCAAGAA AAAATCGAGT TTGTTGTCAT
    GGAACTGTTG TTCTTCCCGC CTTATTTAGA GTGACAAAGA CTCATCAATT GGCTGTCAAA
    CTTGAACCTA GAGGTCTTAT TTATGTGAAA GTGACTCTTA TGGAACAGTG GGAGAATTCT
    CTTCATGGAC TAGACATAAA CCAAGAACCA ATAATATTTG GAGTTGATAT TCAAAAAGTT
    GTAGAGAAAG AAAATATAGG ACTGATGGTA CCCCTTCTGA TACAGAAATG TATTATGGAA
    ATTGAAAAGA GAGGCTGTCA GGTAGTAGGC CTGTATCGAT TATGTGGTTC GGCAGCAGTC
    AAGAAAGAAC TGCGAGAGGC TTTTGAGAGA GATAGCAAAG CTGTTGGTCT GTGTGAAAAC
    CTGTACCCAG ATATAAATGT AATAACAGGT GTTCTTAAGG ATTATTTAAG AGAACTCCCT
    TCTCCTCTGA TAACAAAGCA ACTTTATGAG GCTGTATTAG GTGCAATGGC AAAAAGTCCT
    TTGAAAATGT CATCAAATGG TTGTGAGAAT GACCCAAGTG ACTCTAAGTA CACTGTTGAC
    CTGCTGGATT GTCTGCCTGA GATTGAGAAG GCAACCCTAA AGATGTTGTT GGATCATTTG
    AAATTGGTGG CTTCCTATCA TGAAGTGAAT AAGATGACAT GCCAGAATTT GGCTGTGTGC
    TTTGGACCAG TGTTATTAAG TCAGAAGCCA GAGCCTTCAT CACATAACAA CAGAGTCTTT
    ACTGATTCAG AAGAACTTGC AAGTGCTTTG GATTTTAAAA AACACATTGA AGTTCTTCAT
    TACTTACTCC AACTCTGGCC AGTGCAGCGT TTAACTGTCA AAAAATCAAC AGACAGTTTA
    TTCCCAGAGC AGAAGTCTTC TCTGAATTAT TTGAGGCAGA AGAAAGAACG ACCTCATATG
    TTAAATTTGA GTGGTACTGA TTCATCAGGA GTACTTAGGC CAAGGCAAAA CCGATTAGAC
    AGTCCACTTA GCAATCGTTA TGCGGGAGAC TGGAGCAGCT GTGGGGAAAA CTACTTTTTA
    AATACAAAAG AAAATTTAAA TGATGTGGAT TATGATGATG TCCCTTCAGA AGAGAGAGAA
    ATTGGAGAAA ATTATAGCAA AATGGATGGG CCAGAAGTAA TGATTGAACA GCCAATTCCC
    ATGTCCAAAG AGTGTACATT TCAGACATAT TTGACAATGC AGACAATTGA GTCTACAGTG
    GATCGAAAAA ACAATCTCAA AGATCTACAA GAAAGTATTG ATACTTTGAT TGGAAATCTG
    GAACGTGAAC TCAGCAAAAA CAAGCTTAAT ATGAGTTTTT GA

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

    CloneID OMb25703
    Clone ID Related Accession (Same CDS sequence) XM_015144232.1
    Accession Version XM_015144232.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3093bp)
    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 GTPase-activating protein SYDE2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804553.1) 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##

    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
    ATGCACGACC TGCCCCCTGA CTCGGGCGCG CGGCGGGGCG GCGGGGGCTT GGCGGATCAC 
    GGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC TGCGGACCGC
    CGAGCCTGTC CCCGAGACGG GGAGAGGCGA GGCGGCGGAC GGCCTCTGCA GCAGGTGTCC
    CCGCCCCGGT CGCCTCAGAG GGAGTCGGGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG
    CTGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCT TCCCTTCCAG
    CGGTGGCCAA GCGACAGCTG GATCAGGTGC GGCGGGCACG GGGACTGGGA CGAGCCCCCG
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC
    GGCCTCCAGC CTCCAGGCTC CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT
    CCAGCGGGGT CCTCTGTGAT ACGCAGCGGC AAAGGAGACC GCCGGGAAGG CCCCTCCTTC
    CTCAAGCCGC CTGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCCC CCAAAGTCAC AGGAACGCAG
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACAGTGTCCT GTCGGTGCCC
    CCAGACCAAA GGATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAGTGAAG
    AGAAGAGAAC TTGAAGATCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG ATCTCTTAAT
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAACC CCATTCCTGA GGATGATGAC
    CTTGGTATGT CAAGTGCCTT GAGGTTTGGT GAGGTTGACT CTGCTATTCT GAAGCTCCCT
    GCTGTCAATT TAAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCA GCATACTGAA
    GACTCGCTGT GCTCTTCCGA ACATACAGGT GATATTCAGA GCACATGGTC AAATGGAATG
    AATCCTATGG ATCCTGCCCG TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAGGCTAGGA
    CACAAGACAC AAGAAGGTAT AATGGTAGAG GACAGTCCTA TGTTGAAATC TTTTGCAGGT
    TCAGGGATCC TGGCTGCTAC AAATAGTACT GAATTGGGAA TTATAGAACC ATCTTCTCCA
    AATCCGAGCC CTGTGAAAAA AGGCAGTTCA ATTAATTGGT CTTTGCCAGA TAAAATAAAA
    TCTCCAAGAA CTGTGAGGAA ACTTTCCATG AAAATGAAAA AGTTGCCAGA ATTTAGCCGA
    AAGCTAAGTG TTAAGGGAAC ATTGAATTAT ATAAACAGTC CAGATAACAC TCCTTCTTTG
    TCTAAATATA ACTGCCGAGA AATTCATCAT ACTGATGTTC TGCCCTCTGG GAACACAACC
    ACAGCTGCTA AGAGAAATGT TATAAGCCGA TACCATCTTG ATACCAGTGT ATCCTCCCAG
    CACAACTACC AGAAGAAAAA CTCTATGAGT TCTAAGTATT CCTGCAAAGG TGGTTACCTT
    AGTGATGGAG ACTCACCTGA ACTTATAACT AAAGCTAGCA AACATGGATC TGAAAACAAA
    TTTGGAAGAG GAAAAGAAAT AATTTCAAAT AGTTGTAGCA AGAATGAAAT AGACATTGAT
    GCTTTTAGGC ATTATAGCTT TTCTGATCAA CCTAAGTGTT CACAGTACAT ATCTGGGCTC
    ATGAGTGTAC ATTTCTATGG TGCTGAGGAT TTAAAACCAC CTCGGATAGA TTCAAAAGAT
    GTCTTTTGTG CAATTCAGGT AGATTCAGTA AACAAAGCAA GAACAGCTTT GCTCACATGT
    CGAACAACAT TTTTAGACAT GGATCACACT TTCAACATAG AAATTGAAAA TGCACAACAT
    TTGAAACTAG TAGTATTCAG TTGGGAACCC ACTCCAAGAA AAAATCGAGT TTGTTGTCAT
    GGAACTGTTG TTCTTCCCGC CTTATTTAGA GTGACAAAGA CTCATCAATT GGCTGTCAAA
    CTTGAACCTA GAGGTCTTAT TTATGTGAAA GTGACTCTTA TGGAACAGTG GGAGAATTCT
    CTTCATGGAC TAGACATAAA CCAAGAACCA ATAATATTTG GAGTTGATAT TCAAAAAGTT
    GTAGAGAAAG AAAATATAGG ACTGATGGTA CCCCTTCTGA TACAGAAATG TATTATGGAA
    ATTGAAAAGA GAGGCTGTCA GGTAGTAGGC CTGTATCGAT TATGTGGTTC GGCAGCAGTC
    AAGAAAGAAC TGCGAGAGGC TTTTGAGAGA GATAGCAAAG CTGTTGGTCT GTGTGAAAAC
    CTGTACCCAG ATATAAATGT AATAACAGGT GTTCTTAAGG ATTATTTAAG AGAACTCCCT
    TCTCCTCTGA TAACAAAGCA ACTTTATGAG GCTGTATTAG GTGCAATGGC AAAAAGTCCT
    TTGAAAATGT CATCAAATGG TTGTGAGAAT GACCCAAGTG ACTCTAAGTA CACTGTTGAC
    CTGCTGGATT GTCTGCCTGA GATTGAGAAG GCAACCCTAA AGATGTTGTT GGATCATTTG
    AAATTGGTGG CTTCCTATCA TGAAGTGAAT AAGATGACAT GCCAGAATTT GGCTGTGTGC
    TTTGGACCAG TGTTATTAAG TCAGAAGCCA GAGCCTTCAT CACATAACAA CAGAGTCTTT
    ACTGATTCAG AAGAACTTGC AAGTGCTTTG GATTTTAAAA AACACATTGA AGTTCTTCAT
    TACTTACTCC AACTCTGGCC AGGCAATAAA TGA

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

    RefSeq XP_014999718.1
    CDS45..3137
    Translation

    Target ORF information:

    RefSeq Version XM_015144232.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta synapse defective 1, Rho GTPase, homolog 2 (C. elegans) (SYDE2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015144232.1

    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
    ATGCACGACC TGCCCCCTGA CTCGGGCGCG CGGCGGGGCG GCGGGGGCTT GGCGGATCAC 
    GGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC TGCGGACCGC
    CGAGCCTGTC CCCGAGACGG GGAGAGGCGA GGCGGCGGAC GGCCTCTGCA GCAGGTGTCC
    CCGCCCCGGT CGCCTCAGAG GGAGTCGGGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG
    CTGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCT TCCCTTCCAG
    CGGTGGCCAA GCGACAGCTG GATCAGGTGC GGCGGGCACG GGGACTGGGA CGAGCCCCCG
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC
    GGCCTCCAGC CTCCAGGCTC CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT
    CCAGCGGGGT CCTCTGTGAT ACGCAGCGGC AAAGGAGACC GCCGGGAAGG CCCCTCCTTC
    CTCAAGCCGC CTGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCCC CCAAAGTCAC AGGAACGCAG
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACAGTGTCCT GTCGGTGCCC
    CCAGACCAAA GGATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAGTGAAG
    AGAAGAGAAC TTGAAGATCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG ATCTCTTAAT
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAACC CCATTCCTGA GGATGATGAC
    CTTGGTATGT CAAGTGCCTT GAGGTTTGGT GAGGTTGACT CTGCTATTCT GAAGCTCCCT
    GCTGTCAATT TAAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCA GCATACTGAA
    GACTCGCTGT GCTCTTCCGA ACATACAGGT GATATTCAGA GCACATGGTC AAATGGAATG
    AATCCTATGG ATCCTGCCCG TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAGGCTAGGA
    CACAAGACAC AAGAAGGTAT AATGGTAGAG GACAGTCCTA TGTTGAAATC TTTTGCAGGT
    TCAGGGATCC TGGCTGCTAC AAATAGTACT GAATTGGGAA TTATAGAACC ATCTTCTCCA
    AATCCGAGCC CTGTGAAAAA AGGCAGTTCA ATTAATTGGT CTTTGCCAGA TAAAATAAAA
    TCTCCAAGAA CTGTGAGGAA ACTTTCCATG AAAATGAAAA AGTTGCCAGA ATTTAGCCGA
    AAGCTAAGTG TTAAGGGAAC ATTGAATTAT ATAAACAGTC CAGATAACAC TCCTTCTTTG
    TCTAAATATA ACTGCCGAGA AATTCATCAT ACTGATGTTC TGCCCTCTGG GAACACAACC
    ACAGCTGCTA AGAGAAATGT TATAAGCCGA TACCATCTTG ATACCAGTGT ATCCTCCCAG
    CACAACTACC AGAAGAAAAA CTCTATGAGT TCTAAGTATT CCTGCAAAGG TGGTTACCTT
    AGTGATGGAG ACTCACCTGA ACTTATAACT AAAGCTAGCA AACATGGATC TGAAAACAAA
    TTTGGAAGAG GAAAAGAAAT AATTTCAAAT AGTTGTAGCA AGAATGAAAT AGACATTGAT
    GCTTTTAGGC ATTATAGCTT TTCTGATCAA CCTAAGTGTT CACAGTACAT ATCTGGGCTC
    ATGAGTGTAC ATTTCTATGG TGCTGAGGAT TTAAAACCAC CTCGGATAGA TTCAAAAGAT
    GTCTTTTGTG CAATTCAGGT AGATTCAGTA AACAAAGCAA GAACAGCTTT GCTCACATGT
    CGAACAACAT TTTTAGACAT GGATCACACT TTCAACATAG AAATTGAAAA TGCACAACAT
    TTGAAACTAG TAGTATTCAG TTGGGAACCC ACTCCAAGAA AAAATCGAGT TTGTTGTCAT
    GGAACTGTTG TTCTTCCCGC CTTATTTAGA GTGACAAAGA CTCATCAATT GGCTGTCAAA
    CTTGAACCTA GAGGTCTTAT TTATGTGAAA GTGACTCTTA TGGAACAGTG GGAGAATTCT
    CTTCATGGAC TAGACATAAA CCAAGAACCA ATAATATTTG GAGTTGATAT TCAAAAAGTT
    GTAGAGAAAG AAAATATAGG ACTGATGGTA CCCCTTCTGA TACAGAAATG TATTATGGAA
    ATTGAAAAGA GAGGCTGTCA GGTAGTAGGC CTGTATCGAT TATGTGGTTC GGCAGCAGTC
    AAGAAAGAAC TGCGAGAGGC TTTTGAGAGA GATAGCAAAG CTGTTGGTCT GTGTGAAAAC
    CTGTACCCAG ATATAAATGT AATAACAGGT GTTCTTAAGG ATTATTTAAG AGAACTCCCT
    TCTCCTCTGA TAACAAAGCA ACTTTATGAG GCTGTATTAG GTGCAATGGC AAAAAGTCCT
    TTGAAAATGT CATCAAATGG TTGTGAGAAT GACCCAAGTG ACTCTAAGTA CACTGTTGAC
    CTGCTGGATT GTCTGCCTGA GATTGAGAAG GCAACCCTAA AGATGTTGTT GGATCATTTG
    AAATTGGTGG CTTCCTATCA TGAAGTGAAT AAGATGACAT GCCAGAATTT GGCTGTGTGC
    TTTGGACCAG TGTTATTAAG TCAGAAGCCA GAGCCTTCAT CACATAACAA CAGAGTCTTT
    ACTGATTCAG AAGAACTTGC AAGTGCTTTG GATTTTAAAA AACACATTGA AGTTCTTCAT
    TACTTACTCC AACTCTGGCC AGGCAATAAA TGA

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