ORF » Species Summary » Homo sapiens » SYDE2 cDNA ORF clone

SYDE2 cDNA ORF clone, Homo sapiens(human)

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
OHu90630 XM_017002486.1
Latest version!		 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 10-12 $475.30
$679.00
OHu90630 XM_017002485.1
Latest version!		 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 10-12 $475.30
$679.00
OHu13412 NM_032184.2
Latest version!		 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu33866 XM_006710946.3
Latest version!		 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu33867 XM_005271254.3
Latest version!		 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu90628 XM_017002483.1
Latest version!		 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu90629 XM_017002484.2
Latest version!		 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
View Old Accession Versions >>
OHu90629 XM_017002484.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu13412 NM_032184.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
Hide Old Accession Versions >>

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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)
    SYDE2 ( XM_017002485.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016857974.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu90630
    Clone ID Related Accession (Same CDS sequence) XM_017002485.1 , XM_017002486.1
    Accession Version XM_017002485.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2811bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein SYDE2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGGGAA GAGAACTTGA AGAGCTGAAG GATAATATTG AATTCAGAGG TCATAAGCCA 
    CTTAACAGCA TCACTGTTTC AAAGAAACGC AATTGGCTAT ATCAGAGTAC TCTGAGGCCT 
    CTTAATCTGG AAGAAGAAAA TAAGAAATGC CAAGATAGAA GTCATTTATC CATCTCACCT 
    GTGTCTCTAC CTAAACATCA GCTATCACAG TCTTTCCTCA AATCATCTAA AGAGTACTGT 
    ACATATGTGG TATGTAACGC TACAAACTCT TCATTATCGA AAAACTGTGC TTTAGATTTT 
    AATGAGGAAA ATGATGCAGA TGATGAAGGA GAAATATGGT ACAATCCCAT TCCTGAGGAT 
    GATGACCTTG GTATATCAAG TGCCTTGAGT TTTGGTGAGG CCGACTCTGC TGTTCTGAAG 
    CTCCCTGCTG TCAATTTGAG CATGTTGTCT GGCAGTGACC TGATGAAAGC AGAGCGGCAT 
    ACTGAAGACT CACTGTGCTC TTCCGAACAT GCAGGTGATA TTCAGACCAC ACGGTCAAAT 
    GGAATGAATC CTATACATCC TGCCCATTCC ACAGAATTTG TGCAGCAGTA CAAGCAAAAG 
    CTAGGACACA AGACACAAGA AGGTATAATG GTGGAGGACA GTCCCATGTT GAAATCTCCT 
    TTTGCAGGTT CTGGGATCCT GGCTGCTACA AATAGTACTG AATTGGGAAT TATGGAACCA 
    TCTTCTCCAA ATCCTAGCCC TGTGAAAAAA GGCAGTTCAA TTAATTGGTC ATTGCCAGAT 
    AAAATAAAAT CTCCACGAAC TGTGAGGAAA CTTTCCATGA AAATGAAAAA GTTGCCAGAA 
    TTTAGCCGAA AGCTAAGCGT TAAGGGAACA TTGAATTATA TAAACAGTCC AGATAATACT 
    CCTTCTTTGT CTAAATATAA CTGCCGAGAA GTTCATCATA CTGATATTCT GCCCTCTGGG 
    AACACAACCA CCGCTGCTAA GAGGAATGTT ATAAGCCGAT ACCATCTTGA TACCAGTGTA 
    TCCTCCCAGC AGAGCTACCA GAAGAAAAAC TCTATGAGTT CTAAGTATTC CTGCAAAGGT 
    GGTTACCTTA GTGATGGAGA CTCACCTGAA CTTACAACTA AAGCTAGCAA ACATGGATCT 
    GAAAACAAAT TTGGAAAAGG AAAAGAAATA ATTTCAAATA GTTGTAGCAA GAATGAAATA 
    GACATTGATG CTTTTAGGCA TTATAGCTTT TCTGATCAAC CTAAGTGTTC ACAGTACATA 
    TCTGGGCTCA TGAGTGTACA TTTCTATGGT GCTGAGGATT TAAAACCACC TCGGATAGAT 
    TCAAAAGACG TCTTTTGTGC AATTCAGGTA GATTCAGTAA ACAAAGCAAG AACAGCTTTG 
    CTCACATGCC GAACAACATT TTTAGACATG GATCACACTT TCAACATAGA AATTGAAAAT 
    GCACAACATT TGAAACTAGT AGTATTCAGT TGGGAACCCA CTCCAAGAAA AAATCGAGTT 
    TGTTGTCATG GAACTGTTGT TCTTCCCACC TTATTTAGAG TGACAAAGAC TCATCAGTTG 
    GCTGTCAAAC TTGAACCTAG AGGTCTTATT TATGTGAAAG TGACTCTTAT GGAACAGTGG 
    GAGAATTCTC TTCATGGACT AGATATAAAC CAAGAACCAA TAATATTTGG AGTTGATATT 
    CAAAAAGTTG TAGAGAAAGA AAATATAGGA CTGATGGTGC CCCTTCTGAT ACAGAAATGT 
    ATTATGGAAA TTGAAAAGAG AGGCTGTCAG GTAGTAGGCC TGTATCGATT ATGTGGTTCG 
    GCAGCAGTCA AGAAAGAACT GCGAGAGGCT TTTGAGAGAG ATAGCAAAGC TGTTGGTCTG 
    TGTGAAAACC AGTACCCAGA TATAAATGTA ATAACAGGTG TTCTTAAGGA TTATTTAAGA 
    GAACTCCCTT CTCCTCTGAT AACAAAGCAG CTTTATGAGG CTGTATTAGA TGCAATGGCA 
    AAAAGTCCTT TGAAAATGTC ATCAAATGGT TGTGAGAATG ACCCAGGTGA CTCTAAGTAC 
    ACTGTTGACC TGCTGGATTG TCTGCCAGAG ATTGAGAAGG CAACCCTAAA GATGTTGTTG 
    GATCATTTGA AATTGGTGGC TTCCTATCAT GAAGTGAATA AGATGACGTG CCAGAATTTG 
    GCTGTGTGCT TTGGACCAGT ATTATTAAGT CAGAGGCAAG AGCCTTCCAC CCATAACAAC 
    AGAGTCTTTA CTGATTCAGA AGAACTTGCA AGTGCTTTGG ATTTTAAAAA ACACATTGAA 
    GTTCTTCATT ACTTACTCCA ACTCTGGCCA GTGCAGCGTT TAACTGTCAA AAAATCAACA 
    GACAATTTAT TCCCAGAGCA GAAGTCTTCT CTGAATTATC TGAGGCAGAA GAAAGAACGA 
    CCTCATATGT TAAATTTGAG TGGTACTGAT TCATCAGGAG TACTTAGGCC AAGGCAAAAC 
    CGATTAGACA GTCCACTTAG CAATCGTTAT GCAGGAGACT GGAGCAGCTG TGGGGAAAAC 
    TACTTTTTAA ATACAAAAGA AAATTTAAAT GATGTGGATT ATGATGATGT CCCTTCAGAA 
    GATAGAAAAA TCGGAGAAAA TTATAGCAAA ATGGATGGGC CAGAAGTAAT GATTGAACAG 
    CCAATTCCCA TGTCCAAAGA GTGTACATTT CAGACATATT TGACAATGCA GACAGTTGAG 
    TCTACAGTGG ATCGAAAAAA CAATCTCAAA GATCTACAAG AAAGTATTGA TACTTTGATT 
    GGAAATCTGG AACGTGAGCT CAACAAAAAC AAGCTTAATA TGAGTTTTTG A

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

    RefSeq XP_016857974.1
    CDS211..3021
    Translation

    Target ORF information:

    RefSeq Version XM_017002485.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017002485.1

    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
    ATGAAGGGAA GAGAACTTGA AGAGCTGAAG GATAATATTG AATTCAGAGG TCATAAGCCA 
    CTTAACAGCA TCACTGTTTC AAAGAAACGC AATTGGCTAT ATCAGAGTAC TCTGAGGCCT 
    CTTAATCTGG AAGAAGAAAA TAAGAAATGC CAAGATAGAA GTCATTTATC CATCTCACCT 
    GTGTCTCTAC CTAAACATCA GCTATCACAG TCTTTCCTCA AATCATCTAA AGAGTACTGT 
    ACATATGTGG TATGTAACGC TACAAACTCT TCATTATCGA AAAACTGTGC TTTAGATTTT 
    AATGAGGAAA ATGATGCAGA TGATGAAGGA GAAATATGGT ACAATCCCAT TCCTGAGGAT 
    GATGACCTTG GTATATCAAG TGCCTTGAGT TTTGGTGAGG CCGACTCTGC TGTTCTGAAG 
    CTCCCTGCTG TCAATTTGAG CATGTTGTCT GGCAGTGACC TGATGAAAGC AGAGCGGCAT 
    ACTGAAGACT CACTGTGCTC TTCCGAACAT GCAGGTGATA TTCAGACCAC ACGGTCAAAT 
    GGAATGAATC CTATACATCC TGCCCATTCC ACAGAATTTG TGCAGCAGTA CAAGCAAAAG 
    CTAGGACACA AGACACAAGA AGGTATAATG GTGGAGGACA GTCCCATGTT GAAATCTCCT 
    TTTGCAGGTT CTGGGATCCT GGCTGCTACA AATAGTACTG AATTGGGAAT TATGGAACCA 
    TCTTCTCCAA ATCCTAGCCC TGTGAAAAAA GGCAGTTCAA TTAATTGGTC ATTGCCAGAT 
    AAAATAAAAT CTCCACGAAC TGTGAGGAAA CTTTCCATGA AAATGAAAAA GTTGCCAGAA 
    TTTAGCCGAA AGCTAAGCGT TAAGGGAACA TTGAATTATA TAAACAGTCC AGATAATACT 
    CCTTCTTTGT CTAAATATAA CTGCCGAGAA GTTCATCATA CTGATATTCT GCCCTCTGGG 
    AACACAACCA CCGCTGCTAA GAGGAATGTT ATAAGCCGAT ACCATCTTGA TACCAGTGTA 
    TCCTCCCAGC AGAGCTACCA GAAGAAAAAC TCTATGAGTT CTAAGTATTC CTGCAAAGGT 
    GGTTACCTTA GTGATGGAGA CTCACCTGAA CTTACAACTA AAGCTAGCAA ACATGGATCT 
    GAAAACAAAT TTGGAAAAGG AAAAGAAATA ATTTCAAATA GTTGTAGCAA GAATGAAATA 
    GACATTGATG CTTTTAGGCA TTATAGCTTT TCTGATCAAC CTAAGTGTTC ACAGTACATA 
    TCTGGGCTCA TGAGTGTACA TTTCTATGGT GCTGAGGATT TAAAACCACC TCGGATAGAT 
    TCAAAAGACG TCTTTTGTGC AATTCAGGTA GATTCAGTAA ACAAAGCAAG AACAGCTTTG 
    CTCACATGCC GAACAACATT TTTAGACATG GATCACACTT TCAACATAGA AATTGAAAAT 
    GCACAACATT TGAAACTAGT AGTATTCAGT TGGGAACCCA CTCCAAGAAA AAATCGAGTT 
    TGTTGTCATG GAACTGTTGT TCTTCCCACC TTATTTAGAG TGACAAAGAC TCATCAGTTG 
    GCTGTCAAAC TTGAACCTAG AGGTCTTATT TATGTGAAAG TGACTCTTAT GGAACAGTGG 
    GAGAATTCTC TTCATGGACT AGATATAAAC CAAGAACCAA TAATATTTGG AGTTGATATT 
    CAAAAAGTTG TAGAGAAAGA AAATATAGGA CTGATGGTGC CCCTTCTGAT ACAGAAATGT 
    ATTATGGAAA TTGAAAAGAG AGGCTGTCAG GTAGTAGGCC TGTATCGATT ATGTGGTTCG 
    GCAGCAGTCA AGAAAGAACT GCGAGAGGCT TTTGAGAGAG ATAGCAAAGC TGTTGGTCTG 
    TGTGAAAACC AGTACCCAGA TATAAATGTA ATAACAGGTG TTCTTAAGGA TTATTTAAGA 
    GAACTCCCTT CTCCTCTGAT AACAAAGCAG CTTTATGAGG CTGTATTAGA TGCAATGGCA 
    AAAAGTCCTT TGAAAATGTC ATCAAATGGT TGTGAGAATG ACCCAGGTGA CTCTAAGTAC 
    ACTGTTGACC TGCTGGATTG TCTGCCAGAG ATTGAGAAGG CAACCCTAAA GATGTTGTTG 
    GATCATTTGA AATTGGTGGC TTCCTATCAT GAAGTGAATA AGATGACGTG CCAGAATTTG 
    GCTGTGTGCT TTGGACCAGT ATTATTAAGT CAGAGGCAAG AGCCTTCCAC CCATAACAAC 
    AGAGTCTTTA CTGATTCAGA AGAACTTGCA AGTGCTTTGG ATTTTAAAAA ACACATTGAA 
    GTTCTTCATT ACTTACTCCA ACTCTGGCCA GTGCAGCGTT TAACTGTCAA AAAATCAACA 
    GACAATTTAT TCCCAGAGCA GAAGTCTTCT CTGAATTATC TGAGGCAGAA GAAAGAACGA 
    CCTCATATGT TAAATTTGAG TGGTACTGAT TCATCAGGAG TACTTAGGCC AAGGCAAAAC 
    CGATTAGACA GTCCACTTAG CAATCGTTAT GCAGGAGACT GGAGCAGCTG TGGGGAAAAC 
    TACTTTTTAA ATACAAAAGA AAATTTAAAT GATGTGGATT ATGATGATGT CCCTTCAGAA 
    GATAGAAAAA TCGGAGAAAA TTATAGCAAA ATGGATGGGC CAGAAGTAAT GATTGAACAG 
    CCAATTCCCA TGTCCAAAGA GTGTACATTT CAGACATATT TGACAATGCA GACAGTTGAG 
    TCTACAGTGG ATCGAAAAAA CAATCTCAAA GATCTACAAG AAAGTATTGA TACTTTGATT 
    GGAAATCTGG AACGTGAGCT CAACAAAAAC AAGCTTAATA TGAGTTTTTG A

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

    SYDE2 ( XM_017002486.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016857975.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu90630
    Clone ID Related Accession (Same CDS sequence) XM_017002485.1 , XM_017002486.1
    Accession Version XM_017002486.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2811bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein SYDE2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGGGAA GAGAACTTGA AGAGCTGAAG GATAATATTG AATTCAGAGG TCATAAGCCA 
    CTTAACAGCA TCACTGTTTC AAAGAAACGC AATTGGCTAT ATCAGAGTAC TCTGAGGCCT 
    CTTAATCTGG AAGAAGAAAA TAAGAAATGC CAAGATAGAA GTCATTTATC CATCTCACCT 
    GTGTCTCTAC CTAAACATCA GCTATCACAG TCTTTCCTCA AATCATCTAA AGAGTACTGT 
    ACATATGTGG TATGTAACGC TACAAACTCT TCATTATCGA AAAACTGTGC TTTAGATTTT 
    AATGAGGAAA ATGATGCAGA TGATGAAGGA GAAATATGGT ACAATCCCAT TCCTGAGGAT 
    GATGACCTTG GTATATCAAG TGCCTTGAGT TTTGGTGAGG CCGACTCTGC TGTTCTGAAG 
    CTCCCTGCTG TCAATTTGAG CATGTTGTCT GGCAGTGACC TGATGAAAGC AGAGCGGCAT 
    ACTGAAGACT CACTGTGCTC TTCCGAACAT GCAGGTGATA TTCAGACCAC ACGGTCAAAT 
    GGAATGAATC CTATACATCC TGCCCATTCC ACAGAATTTG TGCAGCAGTA CAAGCAAAAG 
    CTAGGACACA AGACACAAGA AGGTATAATG GTGGAGGACA GTCCCATGTT GAAATCTCCT 
    TTTGCAGGTT CTGGGATCCT GGCTGCTACA AATAGTACTG AATTGGGAAT TATGGAACCA 
    TCTTCTCCAA ATCCTAGCCC TGTGAAAAAA GGCAGTTCAA TTAATTGGTC ATTGCCAGAT 
    AAAATAAAAT CTCCACGAAC TGTGAGGAAA CTTTCCATGA AAATGAAAAA GTTGCCAGAA 
    TTTAGCCGAA AGCTAAGCGT TAAGGGAACA TTGAATTATA TAAACAGTCC AGATAATACT 
    CCTTCTTTGT CTAAATATAA CTGCCGAGAA GTTCATCATA CTGATATTCT GCCCTCTGGG 
    AACACAACCA CCGCTGCTAA GAGGAATGTT ATAAGCCGAT ACCATCTTGA TACCAGTGTA 
    TCCTCCCAGC AGAGCTACCA GAAGAAAAAC TCTATGAGTT CTAAGTATTC CTGCAAAGGT 
    GGTTACCTTA GTGATGGAGA CTCACCTGAA CTTACAACTA AAGCTAGCAA ACATGGATCT 
    GAAAACAAAT TTGGAAAAGG AAAAGAAATA ATTTCAAATA GTTGTAGCAA GAATGAAATA 
    GACATTGATG CTTTTAGGCA TTATAGCTTT TCTGATCAAC CTAAGTGTTC ACAGTACATA 
    TCTGGGCTCA TGAGTGTACA TTTCTATGGT GCTGAGGATT TAAAACCACC TCGGATAGAT 
    TCAAAAGACG TCTTTTGTGC AATTCAGGTA GATTCAGTAA ACAAAGCAAG AACAGCTTTG 
    CTCACATGCC GAACAACATT TTTAGACATG GATCACACTT TCAACATAGA AATTGAAAAT 
    GCACAACATT TGAAACTAGT AGTATTCAGT TGGGAACCCA CTCCAAGAAA AAATCGAGTT 
    TGTTGTCATG GAACTGTTGT TCTTCCCACC TTATTTAGAG TGACAAAGAC TCATCAGTTG 
    GCTGTCAAAC TTGAACCTAG AGGTCTTATT TATGTGAAAG TGACTCTTAT GGAACAGTGG 
    GAGAATTCTC TTCATGGACT AGATATAAAC CAAGAACCAA TAATATTTGG AGTTGATATT 
    CAAAAAGTTG TAGAGAAAGA AAATATAGGA CTGATGGTGC CCCTTCTGAT ACAGAAATGT 
    ATTATGGAAA TTGAAAAGAG AGGCTGTCAG GTAGTAGGCC TGTATCGATT ATGTGGTTCG 
    GCAGCAGTCA AGAAAGAACT GCGAGAGGCT TTTGAGAGAG ATAGCAAAGC TGTTGGTCTG 
    TGTGAAAACC AGTACCCAGA TATAAATGTA ATAACAGGTG TTCTTAAGGA TTATTTAAGA 
    GAACTCCCTT CTCCTCTGAT AACAAAGCAG CTTTATGAGG CTGTATTAGA TGCAATGGCA 
    AAAAGTCCTT TGAAAATGTC ATCAAATGGT TGTGAGAATG ACCCAGGTGA CTCTAAGTAC 
    ACTGTTGACC TGCTGGATTG TCTGCCAGAG ATTGAGAAGG CAACCCTAAA GATGTTGTTG 
    GATCATTTGA AATTGGTGGC TTCCTATCAT GAAGTGAATA AGATGACGTG CCAGAATTTG 
    GCTGTGTGCT TTGGACCAGT ATTATTAAGT CAGAGGCAAG AGCCTTCCAC CCATAACAAC 
    AGAGTCTTTA CTGATTCAGA AGAACTTGCA AGTGCTTTGG ATTTTAAAAA ACACATTGAA 
    GTTCTTCATT ACTTACTCCA ACTCTGGCCA GTGCAGCGTT TAACTGTCAA AAAATCAACA 
    GACAATTTAT TCCCAGAGCA GAAGTCTTCT CTGAATTATC TGAGGCAGAA GAAAGAACGA 
    CCTCATATGT TAAATTTGAG TGGTACTGAT TCATCAGGAG TACTTAGGCC AAGGCAAAAC 
    CGATTAGACA GTCCACTTAG CAATCGTTAT GCAGGAGACT GGAGCAGCTG TGGGGAAAAC 
    TACTTTTTAA ATACAAAAGA AAATTTAAAT GATGTGGATT ATGATGATGT CCCTTCAGAA 
    GATAGAAAAA TCGGAGAAAA TTATAGCAAA ATGGATGGGC CAGAAGTAAT GATTGAACAG 
    CCAATTCCCA TGTCCAAAGA GTGTACATTT CAGACATATT TGACAATGCA GACAGTTGAG 
    TCTACAGTGG ATCGAAAAAA CAATCTCAAA GATCTACAAG AAAGTATTGA TACTTTGATT 
    GGAAATCTGG AACGTGAGCT CAACAAAAAC AAGCTTAATA TGAGTTTTTG A

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

    RefSeq XP_016857975.1
    CDS124..2934
    Translation

    Target ORF information:

    RefSeq Version XM_017002486.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017002486.1

    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
    ATGAAGGGAA GAGAACTTGA AGAGCTGAAG GATAATATTG AATTCAGAGG TCATAAGCCA 
    CTTAACAGCA TCACTGTTTC AAAGAAACGC AATTGGCTAT ATCAGAGTAC TCTGAGGCCT 
    CTTAATCTGG AAGAAGAAAA TAAGAAATGC CAAGATAGAA GTCATTTATC CATCTCACCT 
    GTGTCTCTAC CTAAACATCA GCTATCACAG TCTTTCCTCA AATCATCTAA AGAGTACTGT 
    ACATATGTGG TATGTAACGC TACAAACTCT TCATTATCGA AAAACTGTGC TTTAGATTTT 
    AATGAGGAAA ATGATGCAGA TGATGAAGGA GAAATATGGT ACAATCCCAT TCCTGAGGAT 
    GATGACCTTG GTATATCAAG TGCCTTGAGT TTTGGTGAGG CCGACTCTGC TGTTCTGAAG 
    CTCCCTGCTG TCAATTTGAG CATGTTGTCT GGCAGTGACC TGATGAAAGC AGAGCGGCAT 
    ACTGAAGACT CACTGTGCTC TTCCGAACAT GCAGGTGATA TTCAGACCAC ACGGTCAAAT 
    GGAATGAATC CTATACATCC TGCCCATTCC ACAGAATTTG TGCAGCAGTA CAAGCAAAAG 
    CTAGGACACA AGACACAAGA AGGTATAATG GTGGAGGACA GTCCCATGTT GAAATCTCCT 
    TTTGCAGGTT CTGGGATCCT GGCTGCTACA AATAGTACTG AATTGGGAAT TATGGAACCA 
    TCTTCTCCAA ATCCTAGCCC TGTGAAAAAA GGCAGTTCAA TTAATTGGTC ATTGCCAGAT 
    AAAATAAAAT CTCCACGAAC TGTGAGGAAA CTTTCCATGA AAATGAAAAA GTTGCCAGAA 
    TTTAGCCGAA AGCTAAGCGT TAAGGGAACA TTGAATTATA TAAACAGTCC AGATAATACT 
    CCTTCTTTGT CTAAATATAA CTGCCGAGAA GTTCATCATA CTGATATTCT GCCCTCTGGG 
    AACACAACCA CCGCTGCTAA GAGGAATGTT ATAAGCCGAT ACCATCTTGA TACCAGTGTA 
    TCCTCCCAGC AGAGCTACCA GAAGAAAAAC TCTATGAGTT CTAAGTATTC CTGCAAAGGT 
    GGTTACCTTA GTGATGGAGA CTCACCTGAA CTTACAACTA AAGCTAGCAA ACATGGATCT 
    GAAAACAAAT TTGGAAAAGG AAAAGAAATA ATTTCAAATA GTTGTAGCAA GAATGAAATA 
    GACATTGATG CTTTTAGGCA TTATAGCTTT TCTGATCAAC CTAAGTGTTC ACAGTACATA 
    TCTGGGCTCA TGAGTGTACA TTTCTATGGT GCTGAGGATT TAAAACCACC TCGGATAGAT 
    TCAAAAGACG TCTTTTGTGC AATTCAGGTA GATTCAGTAA ACAAAGCAAG AACAGCTTTG 
    CTCACATGCC GAACAACATT TTTAGACATG GATCACACTT TCAACATAGA AATTGAAAAT 
    GCACAACATT TGAAACTAGT AGTATTCAGT TGGGAACCCA CTCCAAGAAA AAATCGAGTT 
    TGTTGTCATG GAACTGTTGT TCTTCCCACC TTATTTAGAG TGACAAAGAC TCATCAGTTG 
    GCTGTCAAAC TTGAACCTAG AGGTCTTATT TATGTGAAAG TGACTCTTAT GGAACAGTGG 
    GAGAATTCTC TTCATGGACT AGATATAAAC CAAGAACCAA TAATATTTGG AGTTGATATT 
    CAAAAAGTTG TAGAGAAAGA AAATATAGGA CTGATGGTGC CCCTTCTGAT ACAGAAATGT 
    ATTATGGAAA TTGAAAAGAG AGGCTGTCAG GTAGTAGGCC TGTATCGATT ATGTGGTTCG 
    GCAGCAGTCA AGAAAGAACT GCGAGAGGCT TTTGAGAGAG ATAGCAAAGC TGTTGGTCTG 
    TGTGAAAACC AGTACCCAGA TATAAATGTA ATAACAGGTG TTCTTAAGGA TTATTTAAGA 
    GAACTCCCTT CTCCTCTGAT AACAAAGCAG CTTTATGAGG CTGTATTAGA TGCAATGGCA 
    AAAAGTCCTT TGAAAATGTC ATCAAATGGT TGTGAGAATG ACCCAGGTGA CTCTAAGTAC 
    ACTGTTGACC TGCTGGATTG TCTGCCAGAG ATTGAGAAGG CAACCCTAAA GATGTTGTTG 
    GATCATTTGA AATTGGTGGC TTCCTATCAT GAAGTGAATA AGATGACGTG CCAGAATTTG 
    GCTGTGTGCT TTGGACCAGT ATTATTAAGT CAGAGGCAAG AGCCTTCCAC CCATAACAAC 
    AGAGTCTTTA CTGATTCAGA AGAACTTGCA AGTGCTTTGG ATTTTAAAAA ACACATTGAA 
    GTTCTTCATT ACTTACTCCA ACTCTGGCCA GTGCAGCGTT TAACTGTCAA AAAATCAACA 
    GACAATTTAT TCCCAGAGCA GAAGTCTTCT CTGAATTATC TGAGGCAGAA GAAAGAACGA 
    CCTCATATGT TAAATTTGAG TGGTACTGAT TCATCAGGAG TACTTAGGCC AAGGCAAAAC 
    CGATTAGACA GTCCACTTAG CAATCGTTAT GCAGGAGACT GGAGCAGCTG TGGGGAAAAC 
    TACTTTTTAA ATACAAAAGA AAATTTAAAT GATGTGGATT ATGATGATGT CCCTTCAGAA 
    GATAGAAAAA TCGGAGAAAA TTATAGCAAA ATGGATGGGC CAGAAGTAAT GATTGAACAG 
    CCAATTCCCA TGTCCAAAGA GTGTACATTT CAGACATATT TGACAATGCA GACAGTTGAG 
    TCTACAGTGG ATCGAAAAAA CAATCTCAAA GATCTACAAG AAAGTATTGA TACTTTGATT 
    GGAAATCTGG AACGTGAGCT CAACAAAAAC AAGCTTAATA TGAGTTTTTG A

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

    SYDE2 ( NM_032184.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_115560.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), mRNA.
    Price & Availability↑
    CloneID OHu13412
    Clone ID Related Accession (Same CDS sequence) NM_032184.1 , NM_032184.2
    Accession Version NM_032184.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3585bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein SYDE2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL603750.7. On or before Jun 22, 2007 this sequence version replaced XM_086186.7, XM_936457.2. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-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 GCAGGGGCTT GGCGGATCAC 
    AGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC CGCGTACCGC 
    CGAGCCTGCC CCCGGGACGG GGAGCGGGGA GGCGGCGGAC GCCCTCGGCA GCAGGTGTCC 
    CCGCCCCGGT CGCCTCAGAG GGAGCCGCGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG 
    CCGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCC TCCCTTCCAG 
    CGGTGGCCGA GCGACAGCTG GATCAGGTGC GGCGCGCACC GGGACTGGGA CGAGCCCCCG 
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC 
    GGCCTCCAGC CTCCAGGCTG CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT 
    CCAGCGGGGT CCTCTGTGAT ACGCAGTGGC AAAGGAGACC GCCAGGAAGG CCCCTCCTTC 
    CTCAGGCCGC CGGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG 
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCTC CCAAAGTCAC AGGAACGCAG 
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACCGTGTCCT GTCGGTGCCT 
    CCAGACCAAA GAATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAATGAAG 
    GGAAGAGAAC TTGAAGAGCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC 
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG GCCTCTTAAT 
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT 
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT 
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG 
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAATC CCATTCCTGA GGATGATGAC 
    CTTGGTATAT CAAGTGCCTT GAGTTTTGGT GAGGCCGACT CTGCTGTTCT GAAGCTCCCT 
    GCTGTCAATT TGAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCG GCATACTGAA 
    GACTCACTGT GCTCTTCCGA ACATGCAGGT GATATTCAGA CCACACGGTC AAATGGAATG 
    AATCCTATAC ATCCTGCCCA TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAAGCTAGGA 
    CACAAGACAC AAGAAGGTAT AATGGTGGAG GACAGTCCCA TGTTGAAATC TCCTTTTGCA 
    GGTTCTGGGA TCCTGGCTGC TACAAATAGT ACTGAATTGG GAATTATGGA ACCATCTTCT 
    CCAAATCCTA GCCCTGTGAA AAAAGGCAGT TCAATTAATT GGTCATTGCC AGATAAAATA 
    AAATCTCCAC GAACTGTGAG GAAACTTTCC ATGAAAATGA AAAAGTTGCC AGAATTTAGC 
    CGAAAGCTAA GCGTTAAGGG AACATTGAAT TATATAAACA GTCCAGATAA TACTCCTTCT 
    TTGTCTAAAT ATAACTGCCG AGAAGTTCAT CATACTGATA TTCTGCCCTC TGGGAACACA 
    ACCACCGCTG CTAAGAGGAA TGTTATAAGC CGATACCATC TTGATACCAG TGTATCCTCC 
    CAGCAGAGCT ACCAGAAGAA AAACTCTATG AGTTCTAAGT ATTCCTGCAA AGGTGGTTAC 
    CTTAGTGATG GAGACTCACC TGAACTTACA ACTAAAGCTA GCAAACATGG ATCTGAAAAC 
    AAATTTGGAA AAGGAAAAGA AATAATTTCA AATAGTTGTA GCAAGAATGA AATAGACATT 
    GATGCTTTTA GGCATTATAG CTTTTCTGAT CAACCTAAGT GTTCACAGTA CATATCTGGG 
    CTCATGAGTG TACATTTCTA TGGTGCTGAG GATTTAAAAC CACCTCGGAT AGATTCAAAA 
    GACGTCTTTT GTGCAATTCA GGTAGATTCA GTAAACAAAG CAAGAACAGC TTTGCTCACA 
    TGCCGAACAA CATTTTTAGA CATGGATCAC ACTTTCAACA TAGAAATTGA AAATGCACAA 
    CATTTGAAAC TAGTAGTATT CAGTTGGGAA CCCACTCCAA GAAAAAATCG AGTTTGTTGT 
    CATGGAACTG TTGTTCTTCC CACCTTATTT AGAGTGACAA AGACTCATCA GTTGGCTGTC 
    AAACTTGAAC CTAGAGGTCT TATTTATGTG AAAGTGACTC TTATGGAACA GTGGGAGAAT 
    TCTCTTCATG GACTAGATAT AAACCAAGAA CCAATAATAT TTGGAGTTGA TATTCAAAAA 
    GTTGTAGAGA AAGAAAATAT AGGACTGATG GTGCCCCTTC TGATACAGAA ATGTATTATG 
    GAAATTGAAA AGAGAGGCTG TCAGGTAGTA GGCCTGTATC GATTATGTGG TTCGGCAGCA 
    GTCAAGAAAG AACTGCGAGA GGCTTTTGAG AGAGATAGCA AAGCTGTTGG TCTGTGTGAA 
    AACCAGTACC CAGATATAAA TGTAATAACA GGTGTTCTTA AGGATTATTT AAGAGAACTC 
    CCTTCTCCTC TGATAACAAA GCAGCTTTAT GAGGCTGTAT TAGATGCAAT GGCAAAAAGT 
    CCTTTGAAAA TGTCATCAAA TGGTTGTGAG AATGACCCAG GTGACTCTAA GTACACTGTT 
    GACCTGCTGG ATTGTCTGCC AGAGATTGAG AAGGCAACCC TAAAGATGTT GTTGGATCAT 
    TTGAAATTGG TGGCTTCCTA TCATGAAGTG AATAAGATGA CGTGCCAGAA TTTGGCTGTG 
    TGCTTTGGAC CAGTATTATT AAGTCAGAGG CAAGAGCCTT CCACCCATAA CAACAGAGTC 
    TTTACTGATT CAGAAGAACT TGCAAGTGCT TTGGATTTTA AAAAACACAT TGAAGTTCTT 
    CATTACTTAC TCCAACTCTG GCCAGTGCAG CGTTTAACTG TCAAAAAATC AACAGACAAT 
    TTATTCCCAG AGCAGAAGTC TTCTCTGAAT TATCTGAGGC AGAAGAAAGA ACGACCTCAT 
    ATGTTAAATT TGAGTGGTAC TGATTCATCA GGAGTACTTA GGCCAAGGCA AAACCGATTA 
    GACAGTCCAC TTAGCAATCG TTATGCAGGA GACTGGAGCA GCTGTGGGGA AAACTACTTT 
    TTAAATACAA AAGAAAATTT AAATGATGTG GATTATGATG ATGTCCCTTC AGAAGATAGA 
    AAAATCGGAG AAAATTATAG CAAAATGGAT GGGCCAGAAG TAATGATTGA ACAGCCAATT 
    CCCATGTCCA AAGAGTGTAC ATTTCAGACA TATTTGACAA TGCAGACAGT TGAGTCTACA 
    GTGGATCGAA AAAACAATCT CAAAGATCTA CAAGAAAGTA TTGATACTTT GATTGGAAAT 
    CTGGAACGTG AGCTCAACAA AAACAAGCTT AATATGAGTT TTTGA

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

    RefSeq NP_115560.1
    CDS50..3634
    Translation

    Target ORF information:

    RefSeq Version NM_032184.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_032184.1

    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
    ATGCACGACC TGCCCCCTGA CTCGGGCGCG CGGCGGGGCG GCAGGGGCTT GGCGGATCAC 
    AGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC CGCGTACCGC 
    CGAGCCTGCC CCCGGGACGG GGAGCGGGGA GGCGGCGGAC GCCCTCGGCA GCAGGTGTCC 
    CCGCCCCGGT CGCCTCAGAG GGAGCCGCGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG 
    CCGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCC TCCCTTCCAG 
    CGGTGGCCGA GCGACAGCTG GATCAGGTGC GGCGCGCACC GGGACTGGGA CGAGCCCCCG 
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC 
    GGCCTCCAGC CTCCAGGCTG CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT 
    CCAGCGGGGT CCTCTGTGAT ACGCAGTGGC AAAGGAGACC GCCAGGAAGG CCCCTCCTTC 
    CTCAGGCCGC CGGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG 
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCTC CCAAAGTCAC AGGAACGCAG 
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACCGTGTCCT GTCGGTGCCT 
    CCAGACCAAA GAATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAATGAAG 
    GGAAGAGAAC TTGAAGAGCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC 
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG GCCTCTTAAT 
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT 
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT 
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG 
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAATC CCATTCCTGA GGATGATGAC 
    CTTGGTATAT CAAGTGCCTT GAGTTTTGGT GAGGCCGACT CTGCTGTTCT GAAGCTCCCT 
    GCTGTCAATT TGAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCG GCATACTGAA 
    GACTCACTGT GCTCTTCCGA ACATGCAGGT GATATTCAGA CCACACGGTC AAATGGAATG 
    AATCCTATAC ATCCTGCCCA TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAAGCTAGGA 
    CACAAGACAC AAGAAGGTAT AATGGTGGAG GACAGTCCCA TGTTGAAATC TCCTTTTGCA 
    GGTTCTGGGA TCCTGGCTGC TACAAATAGT ACTGAATTGG GAATTATGGA ACCATCTTCT 
    CCAAATCCTA GCCCTGTGAA AAAAGGCAGT TCAATTAATT GGTCATTGCC AGATAAAATA 
    AAATCTCCAC GAACTGTGAG GAAACTTTCC ATGAAAATGA AAAAGTTGCC AGAATTTAGC 
    CGAAAGCTAA GCGTTAAGGG AACATTGAAT TATATAAACA GTCCAGATAA TACTCCTTCT 
    TTGTCTAAAT ATAACTGCCG AGAAGTTCAT CATACTGATA TTCTGCCCTC TGGGAACACA 
    ACCACCGCTG CTAAGAGGAA TGTTATAAGC CGATACCATC TTGATACCAG TGTATCCTCC 
    CAGCAGAGCT ACCAGAAGAA AAACTCTATG AGTTCTAAGT ATTCCTGCAA AGGTGGTTAC 
    CTTAGTGATG GAGACTCACC TGAACTTACA ACTAAAGCTA GCAAACATGG ATCTGAAAAC 
    AAATTTGGAA AAGGAAAAGA AATAATTTCA AATAGTTGTA GCAAGAATGA AATAGACATT 
    GATGCTTTTA GGCATTATAG CTTTTCTGAT CAACCTAAGT GTTCACAGTA CATATCTGGG 
    CTCATGAGTG TACATTTCTA TGGTGCTGAG GATTTAAAAC CACCTCGGAT AGATTCAAAA 
    GACGTCTTTT GTGCAATTCA GGTAGATTCA GTAAACAAAG CAAGAACAGC TTTGCTCACA 
    TGCCGAACAA CATTTTTAGA CATGGATCAC ACTTTCAACA TAGAAATTGA AAATGCACAA 
    CATTTGAAAC TAGTAGTATT CAGTTGGGAA CCCACTCCAA GAAAAAATCG AGTTTGTTGT 
    CATGGAACTG TTGTTCTTCC CACCTTATTT AGAGTGACAA AGACTCATCA GTTGGCTGTC 
    AAACTTGAAC CTAGAGGTCT TATTTATGTG AAAGTGACTC TTATGGAACA GTGGGAGAAT 
    TCTCTTCATG GACTAGATAT AAACCAAGAA CCAATAATAT TTGGAGTTGA TATTCAAAAA 
    GTTGTAGAGA AAGAAAATAT AGGACTGATG GTGCCCCTTC TGATACAGAA ATGTATTATG 
    GAAATTGAAA AGAGAGGCTG TCAGGTAGTA GGCCTGTATC GATTATGTGG TTCGGCAGCA 
    GTCAAGAAAG AACTGCGAGA GGCTTTTGAG AGAGATAGCA AAGCTGTTGG TCTGTGTGAA 
    AACCAGTACC CAGATATAAA TGTAATAACA GGTGTTCTTA AGGATTATTT AAGAGAACTC 
    CCTTCTCCTC TGATAACAAA GCAGCTTTAT GAGGCTGTAT TAGATGCAAT GGCAAAAAGT 
    CCTTTGAAAA TGTCATCAAA TGGTTGTGAG AATGACCCAG GTGACTCTAA GTACACTGTT 
    GACCTGCTGG ATTGTCTGCC AGAGATTGAG AAGGCAACCC TAAAGATGTT GTTGGATCAT 
    TTGAAATTGG TGGCTTCCTA TCATGAAGTG AATAAGATGA CGTGCCAGAA TTTGGCTGTG 
    TGCTTTGGAC CAGTATTATT AAGTCAGAGG CAAGAGCCTT CCACCCATAA CAACAGAGTC 
    TTTACTGATT CAGAAGAACT TGCAAGTGCT TTGGATTTTA AAAAACACAT TGAAGTTCTT 
    CATTACTTAC TCCAACTCTG GCCAGTGCAG CGTTTAACTG TCAAAAAATC AACAGACAAT 
    TTATTCCCAG AGCAGAAGTC TTCTCTGAAT TATCTGAGGC AGAAGAAAGA ACGACCTCAT 
    ATGTTAAATT TGAGTGGTAC TGATTCATCA GGAGTACTTA GGCCAAGGCA AAACCGATTA 
    GACAGTCCAC TTAGCAATCG TTATGCAGGA GACTGGAGCA GCTGTGGGGA AAACTACTTT 
    TTAAATACAA AAGAAAATTT AAATGATGTG GATTATGATG ATGTCCCTTC AGAAGATAGA 
    AAAATCGGAG AAAATTATAG CAAAATGGAT GGGCCAGAAG TAATGATTGA ACAGCCAATT 
    CCCATGTCCA AAGAGTGTAC ATTTCAGACA TATTTGACAA TGCAGACAGT TGAGTCTACA 
    GTGGATCGAA AAAACAATCT CAAAGATCTA CAAGAAAGTA TTGATACTTT GATTGGAAAT 
    CTGGAACGTG AGCTCAACAA AAACAAGCTT AATATGAGTT TTTGA

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

    SYDE2 ( NM_032184.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_115560.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), mRNA.
    Price & Availability↑
    CloneID OHu13412
    Clone ID Related Accession (Same CDS sequence) NM_032184.1 , NM_032184.2
    Accession Version NM_032184.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3585bp)
    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 2019-05-01
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein SYDE2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL603750.7. On Nov 23, 2018 this sequence version replaced NM_032184.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000341460.6/ ENSP00000340594.5 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    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 GCAGGGGCTT GGCGGATCAC 
    AGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC CGCGTACCGC 
    CGAGCCTGCC CCCGGGACGG GGAGCGGGGA GGCGGCGGAC GCCCTCGGCA GCAGGTGTCC 
    CCGCCCCGGT CGCCTCAGAG GGAGCCGCGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG 
    CCGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCC TCCCTTCCAG 
    CGGTGGCCGA GCGACAGCTG GATCAGGTGC GGCGCGCACC GGGACTGGGA CGAGCCCCCG 
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC 
    GGCCTCCAGC CTCCAGGCTG CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT 
    CCAGCGGGGT CCTCTGTGAT ACGCAGTGGC AAAGGAGACC GCCAGGAAGG CCCCTCCTTC 
    CTCAGGCCGC CGGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG 
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCTC CCAAAGTCAC AGGAACGCAG 
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACCGTGTCCT GTCGGTGCCT 
    CCAGACCAAA GAATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAATGAAG 
    GGAAGAGAAC TTGAAGAGCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC 
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG GCCTCTTAAT 
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT 
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT 
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG 
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAATC CCATTCCTGA GGATGATGAC 
    CTTGGTATAT CAAGTGCCTT GAGTTTTGGT GAGGCCGACT CTGCTGTTCT GAAGCTCCCT 
    GCTGTCAATT TGAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCG GCATACTGAA 
    GACTCACTGT GCTCTTCCGA ACATGCAGGT GATATTCAGA CCACACGGTC AAATGGAATG 
    AATCCTATAC ATCCTGCCCA TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAAGCTAGGA 
    CACAAGACAC AAGAAGGTAT AATGGTGGAG GACAGTCCCA TGTTGAAATC TCCTTTTGCA 
    GGTTCTGGGA TCCTGGCTGC TACAAATAGT ACTGAATTGG GAATTATGGA ACCATCTTCT 
    CCAAATCCTA GCCCTGTGAA AAAAGGCAGT TCAATTAATT GGTCATTGCC AGATAAAATA 
    AAATCTCCAC GAACTGTGAG GAAACTTTCC ATGAAAATGA AAAAGTTGCC AGAATTTAGC 
    CGAAAGCTAA GCGTTAAGGG AACATTGAAT TATATAAACA GTCCAGATAA TACTCCTTCT 
    TTGTCTAAAT ATAACTGCCG AGAAGTTCAT CATACTGATA TTCTGCCCTC TGGGAACACA 
    ACCACCGCTG CTAAGAGGAA TGTTATAAGC CGATACCATC TTGATACCAG TGTATCCTCC 
    CAGCAGAGCT ACCAGAAGAA AAACTCTATG AGTTCTAAGT ATTCCTGCAA AGGTGGTTAC 
    CTTAGTGATG GAGACTCACC TGAACTTACA ACTAAAGCTA GCAAACATGG ATCTGAAAAC 
    AAATTTGGAA AAGGAAAAGA AATAATTTCA AATAGTTGTA GCAAGAATGA AATAGACATT 
    GATGCTTTTA GGCATTATAG CTTTTCTGAT CAACCTAAGT GTTCACAGTA CATATCTGGG 
    CTCATGAGTG TACATTTCTA TGGTGCTGAG GATTTAAAAC CACCTCGGAT AGATTCAAAA 
    GACGTCTTTT GTGCAATTCA GGTAGATTCA GTAAACAAAG CAAGAACAGC TTTGCTCACA 
    TGCCGAACAA CATTTTTAGA CATGGATCAC ACTTTCAACA TAGAAATTGA AAATGCACAA 
    CATTTGAAAC TAGTAGTATT CAGTTGGGAA CCCACTCCAA GAAAAAATCG AGTTTGTTGT 
    CATGGAACTG TTGTTCTTCC CACCTTATTT AGAGTGACAA AGACTCATCA GTTGGCTGTC 
    AAACTTGAAC CTAGAGGTCT TATTTATGTG AAAGTGACTC TTATGGAACA GTGGGAGAAT 
    TCTCTTCATG GACTAGATAT AAACCAAGAA CCAATAATAT TTGGAGTTGA TATTCAAAAA 
    GTTGTAGAGA AAGAAAATAT AGGACTGATG GTGCCCCTTC TGATACAGAA ATGTATTATG 
    GAAATTGAAA AGAGAGGCTG TCAGGTAGTA GGCCTGTATC GATTATGTGG TTCGGCAGCA 
    GTCAAGAAAG AACTGCGAGA GGCTTTTGAG AGAGATAGCA AAGCTGTTGG TCTGTGTGAA 
    AACCAGTACC CAGATATAAA TGTAATAACA GGTGTTCTTA AGGATTATTT AAGAGAACTC 
    CCTTCTCCTC TGATAACAAA GCAGCTTTAT GAGGCTGTAT TAGATGCAAT GGCAAAAAGT 
    CCTTTGAAAA TGTCATCAAA TGGTTGTGAG AATGACCCAG GTGACTCTAA GTACACTGTT 
    GACCTGCTGG ATTGTCTGCC AGAGATTGAG AAGGCAACCC TAAAGATGTT GTTGGATCAT 
    TTGAAATTGG TGGCTTCCTA TCATGAAGTG AATAAGATGA CGTGCCAGAA TTTGGCTGTG 
    TGCTTTGGAC CAGTATTATT AAGTCAGAGG CAAGAGCCTT CCACCCATAA CAACAGAGTC 
    TTTACTGATT CAGAAGAACT TGCAAGTGCT TTGGATTTTA AAAAACACAT TGAAGTTCTT 
    CATTACTTAC TCCAACTCTG GCCAGTGCAG CGTTTAACTG TCAAAAAATC AACAGACAAT 
    TTATTCCCAG AGCAGAAGTC TTCTCTGAAT TATCTGAGGC AGAAGAAAGA ACGACCTCAT 
    ATGTTAAATT TGAGTGGTAC TGATTCATCA GGAGTACTTA GGCCAAGGCA AAACCGATTA 
    GACAGTCCAC TTAGCAATCG TTATGCAGGA GACTGGAGCA GCTGTGGGGA AAACTACTTT 
    TTAAATACAA AAGAAAATTT AAATGATGTG GATTATGATG ATGTCCCTTC AGAAGATAGA 
    AAAATCGGAG AAAATTATAG CAAAATGGAT GGGCCAGAAG TAATGATTGA ACAGCCAATT 
    CCCATGTCCA AAGAGTGTAC ATTTCAGACA TATTTGACAA TGCAGACAGT TGAGTCTACA 
    GTGGATCGAA AAAACAATCT CAAAGATCTA CAAGAAAGTA TTGATACTTT GATTGGAAAT 
    CTGGAACGTG AGCTCAACAA AAACAAGCTT AATATGAGTT TTTGA

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

    RefSeq NP_115560.1
    CDS21..3605
    Translation

    Target ORF information:

    RefSeq Version NM_032184.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_032184.2

    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
    ATGCACGACC TGCCCCCTGA CTCGGGCGCG CGGCGGGGCG GCAGGGGCTT GGCGGATCAC 
    AGCTTCCCCG CGGGAGCCCG GGCTCCGGGC CAGCCGCCTT CCCGCGGCGC CGCGTACCGC 
    CGAGCCTGCC CCCGGGACGG GGAGCGGGGA GGCGGCGGAC GCCCTCGGCA GCAGGTGTCC 
    CCGCCCCGGT CGCCTCAGAG GGAGCCGCGG GGAGGCCAGC TGCGGACTCC TCGGATGCGG 
    CCGTCCTGCA GCAGAAGCCT CGAGAGCCTC CGGGTGGGTG CCAAGCCGCC TCCCTTCCAG 
    CGGTGGCCGA GCGACAGCTG GATCAGGTGC GGCGCGCACC GGGACTGGGA CGAGCCCCCG 
    CCACGTGGAG GCAGGATGGA CGGCTGGAGT GGGGACCGCG CCCGGGCGGC TGCACCCACC 
    GGCCTCCAGC CTCCAGGCTG CAAGGACCAC GGCTGCTCCT CGGGAAGCCC TTTCAGGGAT 
    CCAGCGGGGT CCTCTGTGAT ACGCAGTGGC AAAGGAGACC GCCAGGAAGG CCCCTCCTTC 
    CTCAGGCCGC CGGCAGTGAC AGTCAAGAAG CTGCAGAAGT GGATGTACAA AGGGCGTCTG 
    CTGTCCCTGG GAATGAAGGG TCGTGCCCGT GGGACGGCTC CCAAAGTCAC AGGAACGCAG 
    GCAGCCTCCC CAAATGTGGG CGCTTTGAAA GTGCGTGAAA ACCGTGTCCT GTCGGTGCCT 
    CCAGACCAAA GAATTACGCT GACAGATTTA TTTGAAAATG CCTATGGGTC TTCAATGAAG 
    GGAAGAGAAC TTGAAGAGCT GAAGGATAAT ATTGAATTCA GAGGTCATAA GCCACTTAAC 
    AGCATCACTG TTTCAAAGAA ACGCAATTGG CTATATCAGA GTACTCTGAG GCCTCTTAAT 
    CTGGAAGAAG AAAATAAGAA ATGCCAAGAT AGAAGTCATT TATCCATCTC ACCTGTGTCT 
    CTACCTAAAC ATCAGCTATC ACAGTCTTTC CTCAAATCAT CTAAAGAGTA CTGTACATAT 
    GTGGTATGTA ACGCTACAAA CTCTTCATTA TCGAAAAACT GTGCTTTAGA TTTTAATGAG 
    GAAAATGATG CAGATGATGA AGGAGAAATA TGGTACAATC CCATTCCTGA GGATGATGAC 
    CTTGGTATAT CAAGTGCCTT GAGTTTTGGT GAGGCCGACT CTGCTGTTCT GAAGCTCCCT 
    GCTGTCAATT TGAGCATGTT GTCTGGCAGT GACCTGATGA AAGCAGAGCG GCATACTGAA 
    GACTCACTGT GCTCTTCCGA ACATGCAGGT GATATTCAGA CCACACGGTC AAATGGAATG 
    AATCCTATAC ATCCTGCCCA TTCCACAGAA TTTGTGCAGC AGTACAAGCA AAAGCTAGGA 
    CACAAGACAC AAGAAGGTAT AATGGTGGAG GACAGTCCCA TGTTGAAATC TCCTTTTGCA 
    GGTTCTGGGA TCCTGGCTGC TACAAATAGT ACTGAATTGG GAATTATGGA ACCATCTTCT 
    CCAAATCCTA GCCCTGTGAA AAAAGGCAGT TCAATTAATT GGTCATTGCC AGATAAAATA 
    AAATCTCCAC GAACTGTGAG GAAACTTTCC ATGAAAATGA AAAAGTTGCC AGAATTTAGC 
    CGAAAGCTAA GCGTTAAGGG AACATTGAAT TATATAAACA GTCCAGATAA TACTCCTTCT 
    TTGTCTAAAT ATAACTGCCG AGAAGTTCAT CATACTGATA TTCTGCCCTC TGGGAACACA 
    ACCACCGCTG CTAAGAGGAA TGTTATAAGC CGATACCATC TTGATACCAG TGTATCCTCC 
    CAGCAGAGCT ACCAGAAGAA AAACTCTATG AGTTCTAAGT ATTCCTGCAA AGGTGGTTAC 
    CTTAGTGATG GAGACTCACC TGAACTTACA ACTAAAGCTA GCAAACATGG ATCTGAAAAC 
    AAATTTGGAA AAGGAAAAGA AATAATTTCA AATAGTTGTA GCAAGAATGA AATAGACATT 
    GATGCTTTTA GGCATTATAG CTTTTCTGAT CAACCTAAGT GTTCACAGTA CATATCTGGG 
    CTCATGAGTG TACATTTCTA TGGTGCTGAG GATTTAAAAC CACCTCGGAT AGATTCAAAA 
    GACGTCTTTT GTGCAATTCA GGTAGATTCA GTAAACAAAG CAAGAACAGC TTTGCTCACA 
    TGCCGAACAA CATTTTTAGA CATGGATCAC ACTTTCAACA TAGAAATTGA AAATGCACAA 
    CATTTGAAAC TAGTAGTATT CAGTTGGGAA CCCACTCCAA GAAAAAATCG AGTTTGTTGT 
    CATGGAACTG TTGTTCTTCC CACCTTATTT AGAGTGACAA AGACTCATCA GTTGGCTGTC 
    AAACTTGAAC CTAGAGGTCT TATTTATGTG AAAGTGACTC TTATGGAACA GTGGGAGAAT 
    TCTCTTCATG GACTAGATAT AAACCAAGAA CCAATAATAT TTGGAGTTGA TATTCAAAAA 
    GTTGTAGAGA AAGAAAATAT AGGACTGATG GTGCCCCTTC TGATACAGAA ATGTATTATG 
    GAAATTGAAA AGAGAGGCTG TCAGGTAGTA GGCCTGTATC GATTATGTGG TTCGGCAGCA 
    GTCAAGAAAG AACTGCGAGA GGCTTTTGAG AGAGATAGCA AAGCTGTTGG TCTGTGTGAA 
    AACCAGTACC CAGATATAAA TGTAATAACA GGTGTTCTTA AGGATTATTT AAGAGAACTC 
    CCTTCTCCTC TGATAACAAA GCAGCTTTAT GAGGCTGTAT TAGATGCAAT GGCAAAAAGT 
    CCTTTGAAAA TGTCATCAAA TGGTTGTGAG AATGACCCAG GTGACTCTAA GTACACTGTT 
    GACCTGCTGG ATTGTCTGCC AGAGATTGAG AAGGCAACCC TAAAGATGTT GTTGGATCAT 
    TTGAAATTGG TGGCTTCCTA TCATGAAGTG AATAAGATGA CGTGCCAGAA TTTGGCTGTG 
    TGCTTTGGAC CAGTATTATT AAGTCAGAGG CAAGAGCCTT CCACCCATAA CAACAGAGTC 
    TTTACTGATT CAGAAGAACT TGCAAGTGCT TTGGATTTTA AAAAACACAT TGAAGTTCTT 
    CATTACTTAC TCCAACTCTG GCCAGTGCAG CGTTTAACTG TCAAAAAATC AACAGACAAT 
    TTATTCCCAG AGCAGAAGTC TTCTCTGAAT TATCTGAGGC AGAAGAAAGA ACGACCTCAT 
    ATGTTAAATT TGAGTGGTAC TGATTCATCA GGAGTACTTA GGCCAAGGCA AAACCGATTA 
    GACAGTCCAC TTAGCAATCG TTATGCAGGA GACTGGAGCA GCTGTGGGGA AAACTACTTT 
    TTAAATACAA AAGAAAATTT AAATGATGTG GATTATGATG ATGTCCCTTC AGAAGATAGA 
    AAAATCGGAG AAAATTATAG CAAAATGGAT GGGCCAGAAG TAATGATTGA ACAGCCAATT 
    CCCATGTCCA AAGAGTGTAC ATTTCAGACA TATTTGACAA TGCAGACAGT TGAGTCTACA 
    GTGGATCGAA AAAACAATCT CAAAGATCTA CAAGAAAGTA TTGATACTTT GATTGGAAAT 
    CTGGAACGTG AGCTCAACAA AAACAAGCTT AATATGAGTT TTTGA

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

    SYDE2 ( XM_006710946.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006711009.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu33866
    Clone ID Related Accession (Same CDS sequence) XM_006710946.3
    Accession Version XM_006710946.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3327bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein SYDE2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006710946.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGAAGAGGC ATATTTCTAC AAAAAATTGA GATACCTGAA 
    GAATGTTCTT TCCTTGTTAA TGTGTAA

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

    RefSeq XP_006711009.1
    CDS138..3464
    Translation

    Target ORF information:

    RefSeq Version XM_006710946.3
    Organism Homo sapiens(human)
    Definition Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006710946.3

    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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGAAGAGGC ATATTTCTAC AAAAAATTGA GATACCTGAA 
    GAATGTTCTT TCCTTGTTAA TGTGTAA

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

    SYDE2 ( XM_005271254.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005271311.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu33867
    Clone ID Related Accession (Same CDS sequence) XM_005271254.3
    Accession Version XM_005271254.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3156bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein SYDE2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005271254.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTGTT CTTAAGGATT ATTTAA

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

    RefSeq XP_005271311.1
    CDS137..3292
    Translation

    Target ORF information:

    RefSeq Version XM_005271254.3
    Organism Homo sapiens(human)
    Definition Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005271254.3

    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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTGTT CTTAAGGATT ATTTAA

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

    SYDE2 ( XM_017002483.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016857972.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu90628
    Clone ID Related Accession (Same CDS sequence) XM_017002483.1
    Accession Version XM_017002483.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3789bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000001.11) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGTGTTCTT AAGGATTATT TAAGAGAACT CCCTTCTCCT 
    CTGATAACAA AGCAGCTTTA TGAGGCTGTA TTAGATGCAA TGGCAAAAAG TCCTTTGAAA 
    ATGTCATCAA ATGGTTGTGA GAATGACCCA GGTGACTCTA AGTACACTGT TGACCTGCTG 
    GATTGTCTGC CAGAGATTGA GAAGGCAACC CTAAAGATGT TGTTGGATCA TTTGAAATTG 
    GTGGCTTCCT ATCATGAAGT GAATAAGATG ACGTGCCAGA ATTTGGCTGT GTGCTTTGGA 
    CCAGTATTAT TAAGTCAGAG GCAAGAGCCT TCCACCCATA ACAACAGAGT CTTTACTGAT 
    TCAGAAGAAC TTGCAAGTGC TTTGGATTTT AAAAAACACA TTGAAGTTCT TCATTACTTA 
    CTCCAACTCT GGCCAGCGTT TAACTGTCAA AAAATCAACA GACAATTTAT TCCCAGAGCA 
    GAAGTCTTCT CTGAATTATC TGAGGCAGAA GAAAGAACGA CCTCATATGT TAAATTTGAG 
    TGGTACTGA

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

    RefSeq XP_016857972.1
    CDS139..3927
    Translation

    Target ORF information:

    RefSeq Version XM_017002483.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017002483.1

    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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGTGTTCTT AAGGATTATT TAAGAGAACT CCCTTCTCCT 
    CTGATAACAA AGCAGCTTTA TGAGGCTGTA TTAGATGCAA TGGCAAAAAG TCCTTTGAAA 
    ATGTCATCAA ATGGTTGTGA GAATGACCCA GGTGACTCTA AGTACACTGT TGACCTGCTG 
    GATTGTCTGC CAGAGATTGA GAAGGCAACC CTAAAGATGT TGTTGGATCA TTTGAAATTG 
    GTGGCTTCCT ATCATGAAGT GAATAAGATG ACGTGCCAGA ATTTGGCTGT GTGCTTTGGA 
    CCAGTATTAT TAAGTCAGAG GCAAGAGCCT TCCACCCATA ACAACAGAGT CTTTACTGAT 
    TCAGAAGAAC TTGCAAGTGC TTTGGATTTT AAAAAACACA TTGAAGTTCT TCATTACTTA 
    CTCCAACTCT GGCCAGCGTT TAACTGTCAA AAAATCAACA GACAATTTAT TCCCAGAGCA 
    GAAGTCTTCT CTGAATTATC TGAGGCAGAA GAAAGAACGA CCTCATATGT TAAATTTGAG 
    TGGTACTGA

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

    SYDE2 ( XM_017002484.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016857973.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu90629
    Clone ID Related Accession (Same CDS sequence) XM_017002484.1 , XM_017002484.2
    Accession Version XM_017002484.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3687bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    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_000001.11) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGTGTTCTT AAGGATTATT TAAGAGAACT CCCTTCTCCT 
    CTGATAACAA AGCAGCTTTA TGAGGCTGTA TTAGATGCAA TGGCAAAAAG TCCTTTGAAA 
    ATGTCATCAA ATGGTTGTGA GAATGACCCA GGTGACTCTA AGTACACTGT TGACCTGCTG 
    GATTGTCTGC CAGAGATTGA GAAGGCAACC CTAAAGATGT TGTTGGATCA TTTGAAATTG 
    GTGGCTTCCT ATCATGAAGT GAATAAGATG ACGTGCCAGA ATTTGGCTGT GTGCTTTGGA 
    CCAGTATTAT TAAGTCAGAG GCAAGAGCCT TCCACCCATA ACAACAGAGT CTTTACTGAT 
    TCAGAAGAAC TTGCAAGTGC TTTGGATTTT AAAAAACACA TTGAAGTTCT TCATTACTTA 
    CTCCAACTCT GGCCAGGCAA TAAATGA

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

    RefSeq XP_016857973.1
    CDS138..3824
    Translation

    Target ORF information:

    RefSeq Version XM_017002484.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017002484.1

    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
    ATGGCGGACC CTCTGAGGAG GACGCTGTCC AGGCTCCGGG GAAGGCGGGG TCCCCGCGGC 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGTGTTCTT AAGGATTATT TAAGAGAACT CCCTTCTCCT 
    CTGATAACAA AGCAGCTTTA TGAGGCTGTA TTAGATGCAA TGGCAAAAAG TCCTTTGAAA 
    ATGTCATCAA ATGGTTGTGA GAATGACCCA GGTGACTCTA AGTACACTGT TGACCTGCTG 
    GATTGTCTGC CAGAGATTGA GAAGGCAACC CTAAAGATGT TGTTGGATCA TTTGAAATTG 
    GTGGCTTCCT ATCATGAAGT GAATAAGATG ACGTGCCAGA ATTTGGCTGT GTGCTTTGGA 
    CCAGTATTAT TAAGTCAGAG GCAAGAGCCT TCCACCCATA ACAACAGAGT CTTTACTGAT 
    TCAGAAGAAC TTGCAAGTGC TTTGGATTTT AAAAAACACA TTGAAGTTCT TCATTACTTA 
    CTCCAACTCT GGCCAGGCAA TAAATGA

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

    SYDE2 ( XM_017002484.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016857973.1 Homo sapiens synapse defective Rho GTPase homolog 2 (SYDE2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu90629
    Clone ID Related Accession (Same CDS sequence) XM_017002484.1 , XM_017002484.2
    Accession Version XM_017002484.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3687bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002484.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGTGTTCTT AAGGATTATT TAAGAGAACT CCCTTCTCCT 
    CTGATAACAA AGCAGCTTTA TGAGGCTGTA TTAGATGCAA TGGCAAAAAG TCCTTTGAAA 
    ATGTCATCAA ATGGTTGTGA GAATGACCCA GGTGACTCTA AGTACACTGT TGACCTGCTG 
    GATTGTCTGC CAGAGATTGA GAAGGCAACC CTAAAGATGT TGTTGGATCA TTTGAAATTG 
    GTGGCTTCCT ATCATGAAGT GAATAAGATG ACGTGCCAGA ATTTGGCTGT GTGCTTTGGA 
    CCAGTATTAT TAAGTCAGAG GCAAGAGCCT TCCACCCATA ACAACAGAGT CTTTACTGAT 
    TCAGAAGAAC TTGCAAGTGC TTTGGATTTT AAAAAACACA TTGAAGTTCT TCATTACTTA 
    CTCCAACTCT GGCCAGGCAA TAAATGA

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

    RefSeq XP_016857973.1
    CDS138..3824
    Translation

    Target ORF information:

    RefSeq Version XM_017002484.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017002484.2

    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 
    ACCGGGGGGC TAGGGCTCCG GGCGGCAGCC GCAGCTGCGG TGGCGGCCTC TTCGGCAGCC 
    GCGGGAGACG CCTGGGGTGC CGCAGACACC CTCCCACGTG AGCACGCCGG GGGACACGGG 
    CGGAGCCTAC AGCAGCCCTC GCCGTCACCT GAGGCGTGGG GTCCCGGGGC GCGGGTCCCC 
    GGAGGGCACC CGGAGCAGTT GGGGGCGCTC GGGCCTCGGC CGCGCGGCGG GCAGGAGGCC 
    GCCCCCCAGA GCCATGGGCT CGCTCACGCC CCTCCGCACT CCCCGGAGGG CTCCGAGGAC 
    AGCGGAGAGG AGGAGGAAGA CGACAAGGAC GAAGACGACT ACGACGCCGA CTACTACGAA 
    AACCTGCCCG GCGGCTCGCA GTCTGCGCCC GAGCCTGAGG GGGCGGAGGC GGAACGGCGT 
    CCCCCGCCTC CCCCAGCGGC GGGCTCCTCC CTGGGGGCGG AGGGCGGCCG CCTGGAGACA 
    GGCAGGCTGC GGACCCAGTT GCGAGAGGCC TATTATCTGC TGATCCAGGC CATGCACGAC 
    CTGCCCCCTG ACTCGGGCGC GCGGCGGGGC GGCAGGGGCT TGGCGGATCA CAGCTTCCCC 
    GCGGGAGCCC GGGCTCCGGG CCAGCCGCCT TCCCGCGGCG CCGCGTACCG CCGAGCCTGC 
    CCCCGGGACG GGGAGCGGGG AGGCGGCGGA CGCCCTCGGC AGCAGGTGTC CCCGCCCCGG 
    TCGCCTCAGA GGGAGCCGCG GGGAGGCCAG CTGCGGACTC CTCGGATGCG GCCGTCCTGC 
    AGCAGAAGCC TCGAGAGCCT CCGGGTGGGT GCCAAGCCGC CTCCCTTCCA GCGGTGGCCG 
    AGCGACAGCT GGATCAGGTG CGGCGCGCAC CGGGACTGGG ACGAGCCCCC GCCACGTGGA 
    GGCAGGATGG ACGGCTGGAG TGGGGACCGC GCCCGGGCGG CTGCACCCAC CGGCCTCCAG 
    CCTCCAGGCT GCAAGGACCA CGGCTGCTCC TCGGGAAGCC CTTTCAGGGA TCCAGCGGGG 
    TCCTCTGTGA TACGCAGTGG CAAAGGAGAC CGCCAGGAAG GCCCCTCCTT CCTCAGGCCG 
    CCGGCAGTGA CAGTCAAGAA GCTGCAGAAG TGGATGTACA AAGGGCGTCT GCTGTCCCTG 
    GGAATGAAGG GTCGTGCCCG TGGGACGGCT CCCAAAGTCA CAGGAACGCA GGCAGCCTCC 
    CCAAATGTGG GCGCTTTGAA AGTGCGTGAA AACCGTGTCC TGTCGGTGCC TCCAGACCAA 
    AGAATTACGC TGACAGATTT ATTTGAAAAT GCCTATGGGT CTTCAATGAA GGGAAGAGAA 
    CTTGAAGAGC TGAAGGATAA TATTGAATTC AGAGGTCATA AGCCACTTAA CAGCATCACT 
    GTTTCAAAGA AACGCAATTG GCTATATCAG AGTACTCTGA GGCCTCTTAA TCTGGAAGAA 
    GAAAATAAGA AATGCCAAGA TAGAAGTCAT TTATCCATCT CACCTGTGTC TCTACCTAAA 
    CATCAGCTAT CACAGTCTTT CCTCAAATCA TCTAAAGAGT ACTGTACATA TGTGGTATGT 
    AACGCTACAA ACTCTTCATT ATCGAAAAAC TGTGCTTTAG ATTTTAATGA GGAAAATGAT 
    GCAGATGATG AAGGAGAAAT ATGGTACAAT CCCATTCCTG AGGATGATGA CCTTGGTATA 
    TCAAGTGCCT TGAGTTTTGG TGAGGCCGAC TCTGCTGTTC TGAAGCTCCC TGCTGTCAAT 
    TTGAGCATGT TGTCTGGCAG TGACCTGATG AAAGCAGAGC GGCATACTGA AGACTCACTG 
    TGCTCTTCCG AACATGCAGG TGATATTCAG ACCACACGGT CAAATGGAAT GAATCCTATA 
    CATCCTGCCC ATTCCACAGA ATTTGTGCAG CAGTACAAGC AAAAGCTAGG ACACAAGACA 
    CAAGAAGGTA TAATGGTGGA GGACAGTCCC ATGTTGAAAT CTCCTTTTGC AGGTTCTGGG 
    ATCCTGGCTG CTACAAATAG TACTGAATTG GGAATTATGG AACCATCTTC TCCAAATCCT 
    AGCCCTGTGA AAAAAGGCAG TTCAATTAAT TGGTCATTGC CAGATAAAAT AAAATCTCCA 
    CGAACTGTGA GGAAACTTTC CATGAAAATG AAAAAGTTGC CAGAATTTAG CCGAAAGCTA 
    AGCGTTAAGG GAACATTGAA TTATATAAAC AGTCCAGATA ATACTCCTTC TTTGTCTAAA 
    TATAACTGCC GAGAAGTTCA TCATACTGAT ATTCTGCCCT CTGGGAACAC AACCACCGCT 
    GCTAAGAGGA ATGTTATAAG CCGATACCAT CTTGATACCA GTGTATCCTC CCAGCAGAGC 
    TACCAGAAGA AAAACTCTAT GAGTTCTAAG TATTCCTGCA AAGGTGGTTA CCTTAGTGAT 
    GGAGACTCAC CTGAACTTAC AACTAAAGCT AGCAAACATG GATCTGAAAA CAAATTTGGA 
    AAAGGAAAAG AAATAATTTC AAATAGTTGT AGCAAGAATG AAATAGACAT TGATGCTTTT 
    AGGCATTATA GCTTTTCTGA TCAACCTAAG TGTTCACAGT ACATATCTGG GCTCATGAGT 
    GTACATTTCT ATGGTGCTGA GGATTTAAAA CCACCTCGGA TAGATTCAAA AGACGTCTTT 
    TGTGCAATTC AGGTAGATTC AGTAAACAAA GCAAGAACAG CTTTGCTCAC ATGCCGAACA 
    ACATTTTTAG ACATGGATCA CACTTTCAAC ATAGAAATTG AAAATGCACA ACATTTGAAA 
    CTAGTAGTAT TCAGTTGGGA ACCCACTCCA AGAAAAAATC GAGTTTGTTG TCATGGAACT 
    GTTGTTCTTC CCACCTTATT TAGAGTGACA AAGACTCATC AGTTGGCTGT CAAACTTGAA 
    CCTAGAGGTC TTATTTATGT GAAAGTGACT CTTATGGAAC AGTGGGAGAA TTCTCTTCAT 
    GGACTAGATA TAAACCAAGA ACCAATAATA TTTGGAGTTG ATATTCAAAA AGTTGTAGAG 
    AAAGAAAATA TAGGACTGAT GGTGCCCCTT CTGATACAGA AATGTATTAT GGAAATTGAA 
    AAGAGAGGCT GTCAGGTAGT AGGCCTGTAT CGATTATGTG GTTCGGCAGC AGTCAAGAAA 
    GAACTGCGAG AGGCTTTTGA GAGAGATAGC AAAGCTGTTG GTCTGTGTGA AAACCAGTAC 
    CCAGATATAA ATGTAATAAC AGGTGTTCTT AAGGATTATT TAAGAGAACT CCCTTCTCCT 
    CTGATAACAA AGCAGCTTTA TGAGGCTGTA TTAGATGCAA TGGCAAAAAG TCCTTTGAAA 
    ATGTCATCAA ATGGTTGTGA GAATGACCCA GGTGACTCTA AGTACACTGT TGACCTGCTG 
    GATTGTCTGC CAGAGATTGA GAAGGCAACC CTAAAGATGT TGTTGGATCA TTTGAAATTG 
    GTGGCTTCCT ATCATGAAGT GAATAAGATG ACGTGCCAGA ATTTGGCTGT GTGCTTTGGA 
    CCAGTATTAT TAAGTCAGAG GCAAGAGCCT TCCACCCATA ACAACAGAGT CTTTACTGAT 
    TCAGAAGAAC TTGCAAGTGC TTTGGATTTT AAAAAACACA TTGAAGTTCT TCATTACTTA 
    CTCCAACTCT GGCCAGGCAA TAAATGA

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

  • PubMed

    Complete sequencing and characterization of 21,243 full-length human cDNAs.
    Nature genetics36(1)40-5(2004 Jan)
    Ota T,Suzuki Y,Nishikawa T,Otsuki T,Sugiyama T,Irie R,Wakamatsu A,Hayashi K,Sato H,Nagai K,Kimura K,Makita H,Sekine M,Obayashi M,Nishi T,Shibahara T,Tanaka T,Ishii S,Yamamoto J,Saito K,Kawai Y,Isono Y,Nakamura Y,Nagahari K,Murakami K,Yasuda T,Iwayanagi T,Wagatsuma M,Shiratori A,Sudo H,Hosoiri T,Kaku Y,Kodaira H,Kondo H,Sugawara M,Takahashi M,Kanda K,Yokoi T,Furuya T,Kikkawa E,Omura Y,Abe K,Kamihara K,Katsuta N,Sato K,Tanikawa M,Yamazaki M,Ninomiya K,Ishibashi T,Yamashita H,Murakawa K,Fujimori K,Tanai H,Kimata M,Watanabe M,Hiraoka S,Chiba Y,Ishida S,Ono Y,Takiguchi S,Watanabe S,Yosida M,Hotuta T,Kusano J,Kanehori K,Takahashi-Fujii A,Hara H,Tanase TO,Nomura Y,Togiya S,Komai F,Hara R,Takeuchi K,Arita M,Imose N,Musashino K,Yuuki H,Oshima A,Sasaki N,Aotsuka S,Yoshikawa Y,Matsunawa H,Ichihara T,Shiohata N,Sano S,Moriya S,Momiyama H,Satoh N,Takami S,Terashima Y,Suzuki O,Nakagawa S,Senoh A,Mizoguchi H,Goto Y,Shimizu F,Wakebe H,Hishigaki H,Watanabe T,Sugiyama A,Takemoto M,Kawakami B,Yamazaki M,Watanabe K,Kumagai A,Itakura S,Fukuzumi Y,Fujimori Y,Komiyama M,Tashiro H,Tanigami A,Fujiwara T,Ono T,Yamada K,Fujii Y,Ozaki K,Hirao M,Ohmori Y,Kawabata A,Hikiji T,Kobatake N,Inagaki H,Ikema Y,Okamoto S,Okitani R,Kawakami T,Noguchi S,Itoh T,Shigeta K,Senba T,Matsumura K,Nakajima Y,Mizuno T,Morinaga M,Sasaki M,Togashi T,Oyama M,Hata H,Watanabe M,Komatsu T,Mizushima-Sugano J,Satoh T,Shirai Y,Takahashi Y,Nakagawa K,Okumura K,Nagase T,Nomura N,Kikuchi H,Masuho Y,Yamashita R,Nakai K,Yada T,Nakamura Y,Ohara O,Isogai T,Sugano S


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