ORF » Species Summary » Homo sapiens » SYNGAP1 cDNA ORF clone

SYNGAP1 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following SYNGAP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SYNGAP1 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
OHu102598 NM_001130066.2
Latest version!		 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu18330 NM_006772.3
Latest version!		 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
View Old Accession Versions >>
OHu102598 NM_001130066.1 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu18330 NM_006772.2 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
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)
    SYNGAP1 ( NM_001130066.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001123538.1 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu102598
    Clone ID Related Accession (Same CDS sequence) NM_001130066.1 , NM_001130066.2
    Accession Version NM_001130066.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    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 2019-02-25
    Organism Homo sapiens(human)
    Product ras/Rap GTPase-activating protein SynGAP isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA057307.1, AK307888.1, AK094225.1, AL713634.1 and BM354009.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK307888.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2142680 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCTAT GGACATGGCT CGCCTCCCCT CCCCAACCAA GGAAAAGCCA 
    CCCCCACCAC CGCCTGGTGG TGGTAAAGAC CTGTTCTATG TAAGCCGTCC ACCCCTGGCC 
    CGTTCCTCAC CAGCATACTG CACGAGCAGC TCGGACATCA CAGAGCCAGA GCAGAAGATG 
    CTGAGTGTCA ACAAGAGTGT GTCCATGCTG GACTTACAGG GTGATGGGCC TGGTGGCCGC 
    CTCAACAGCA GCAGTGTTTC GAACCTGGCG GCCGTAGGGG ACCTGCTGCA CTCAAGCCAG 
    GCCTCGCTGA CAGCAGCCTT GGGGCTACGG CCTGCGCCTG CCGGACGCCT CTCCCAGGGG 
    AGTGGCTCAT CCATCACGGC GGCTGGCATG CGCCTCAGCC AGATGGGTGT CACCACAGAC 
    GGTGTCCCTG CCCAGCAACT GCGAATCCCC CTCTCCTTCC AGAACCCTCT CTTCCACATG 
    GCTGCTGATG GGCCAGGTCC CCCAGGCGGC CATGGAGGGG GCGGTGGCCA TGGCCCACCT 
    TCCTCCCATC ACCACCACCA CCACCATCAC CACCACCGAG GTGGAGAGCC CCCTGGGGAC 
    ACCTTTGCCC CATTCCATGG CTATAGCAAG AGTGAGGACC TCTCTTCCGG GGTCCCCAAG 
    CCCCCTGCTG CCTCCATCCT TCATAGCCAC AGCTACAGTG ATGAGTTTGG ACCCTCTGGC 
    ACTGACTTCA CCCGTCGGCA GCTTTCACTC CAGGACAACC TGCAGCACAT GCTGTCCCCT 
    CCCCAGATCA CCATTGGTCC CCAGAGGCCA GCCCCCTCAG GGCCTGGAGG TGGGAGCGGT 
    GGGGGCAGCG GTGGGGGTGG CGGGGGCCAG CCGCCTCCAT TGCAGAGGGG CAAGTCTCAG 
    CAGTTGACAG TCAGCGCAGC CCAGAAACCC CGGCCATCCA GCGGGAATCT ATTGCAGTCC 
    CCAGAGCCAA GTTATGGCCC CGCCCGTCCA CGGCAACAGA GCCTCAGCAA GGAGGGCAGC 
    ATTGGGGGCA GCGGGGGCAG CGGTGGCGGA GGGGGTGGGG GGCTGAAGCC CTCCATCACC 
    AAGCAGCATT CTCAGACACC ATCCACATTG AACCCCACAA TGCCAGCCTC TGAGCGGACA 
    GTGGCCTGGG TCTCCAACAT GCCTCACCTG TCGGCTGACA TCGAGAGTGC CCACATCGAG 
    CGGGAAGAGT ACAAGCTCAA GGAGTACTCA AAATCGATGG ATGAGAGCCG GCTGGATAGG 
    GAGTACGAGG AGGAGATTCA CTCACTGAAA GAGCGGCTGC ACATGTCCAA CCGGAAGCTG 
    GAAGAGTATG AGCGGAGGCT GCTGTCCCAG GAAGAACAAA CCAGCAAAAT CCTGATGCAG 
    TATCAGGCCC GACTGGAGCA GAGTGAGAAG AGGCTAAGGC AGCAGCAGGC AGAGAAGGAT 
    TCCCAGATCA AGAGCATCAT TGGCAGGCTG ATGCTGGTGG AGGAGGAGCT GCGCCGGGAC 
    CACCCCGCCA TGGCTGAGCC GCTGCCAGAA CCCAAGAAGA GGCTGCTCGA CGCTCAGAGA 
    GGCAGCTTCC CCCCTTGGGT CCAACAAACC CGCGTGTGA

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

    RefSeq NP_001123538.1
    CDS196..4074
    Translation

    Target ORF information:

    RefSeq Version NM_001130066.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001130066.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCTAT GGACATGGCT CGCCTCCCCT CCCCAACCAA GGAAAAGCCA 
    CCCCCACCAC CGCCTGGTGG TGGTAAAGAC CTGTTCTATG TAAGCCGTCC ACCCCTGGCC 
    CGTTCCTCAC CAGCATACTG CACGAGCAGC TCGGACATCA CAGAGCCAGA GCAGAAGATG 
    CTGAGTGTCA ACAAGAGTGT GTCCATGCTG GACTTACAGG GTGATGGGCC TGGTGGCCGC 
    CTCAACAGCA GCAGTGTTTC GAACCTGGCG GCCGTAGGGG ACCTGCTGCA CTCAAGCCAG 
    GCCTCGCTGA CAGCAGCCTT GGGGCTACGG CCTGCGCCTG CCGGACGCCT CTCCCAGGGG 
    AGTGGCTCAT CCATCACGGC GGCTGGCATG CGCCTCAGCC AGATGGGTGT CACCACAGAC 
    GGTGTCCCTG CCCAGCAACT GCGAATCCCC CTCTCCTTCC AGAACCCTCT CTTCCACATG 
    GCTGCTGATG GGCCAGGTCC CCCAGGCGGC CATGGAGGGG GCGGTGGCCA TGGCCCACCT 
    TCCTCCCATC ACCACCACCA CCACCATCAC CACCACCGAG GTGGAGAGCC CCCTGGGGAC 
    ACCTTTGCCC CATTCCATGG CTATAGCAAG AGTGAGGACC TCTCTTCCGG GGTCCCCAAG 
    CCCCCTGCTG CCTCCATCCT TCATAGCCAC AGCTACAGTG ATGAGTTTGG ACCCTCTGGC 
    ACTGACTTCA CCCGTCGGCA GCTTTCACTC CAGGACAACC TGCAGCACAT GCTGTCCCCT 
    CCCCAGATCA CCATTGGTCC CCAGAGGCCA GCCCCCTCAG GGCCTGGAGG TGGGAGCGGT 
    GGGGGCAGCG GTGGGGGTGG CGGGGGCCAG CCGCCTCCAT TGCAGAGGGG CAAGTCTCAG 
    CAGTTGACAG TCAGCGCAGC CCAGAAACCC CGGCCATCCA GCGGGAATCT ATTGCAGTCC 
    CCAGAGCCAA GTTATGGCCC CGCCCGTCCA CGGCAACAGA GCCTCAGCAA GGAGGGCAGC 
    ATTGGGGGCA GCGGGGGCAG CGGTGGCGGA GGGGGTGGGG GGCTGAAGCC CTCCATCACC 
    AAGCAGCATT CTCAGACACC ATCCACATTG AACCCCACAA TGCCAGCCTC TGAGCGGACA 
    GTGGCCTGGG TCTCCAACAT GCCTCACCTG TCGGCTGACA TCGAGAGTGC CCACATCGAG 
    CGGGAAGAGT ACAAGCTCAA GGAGTACTCA AAATCGATGG ATGAGAGCCG GCTGGATAGG 
    GAGTACGAGG AGGAGATTCA CTCACTGAAA GAGCGGCTGC ACATGTCCAA CCGGAAGCTG 
    GAAGAGTATG AGCGGAGGCT GCTGTCCCAG GAAGAACAAA CCAGCAAAAT CCTGATGCAG 
    TATCAGGCCC GACTGGAGCA GAGTGAGAAG AGGCTAAGGC AGCAGCAGGC AGAGAAGGAT 
    TCCCAGATCA AGAGCATCAT TGGCAGGCTG ATGCTGGTGG AGGAGGAGCT GCGCCGGGAC 
    CACCCCGCCA TGGCTGAGCC GCTGCCAGAA CCCAAGAAGA GGCTGCTCGA CGCTCAGAGA 
    GGCAGCTTCC CCCCTTGGGT CCAACAAACC CGCGTGTGA

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

    SYNGAP1 ( NM_001130066.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001123538.1 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu102598
    Clone ID Related Accession (Same CDS sequence) NM_001130066.1 , NM_001130066.2
    Accession Version NM_001130066.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    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 2019-11-18
    Organism Homo sapiens(human)
    Product ras/Rap GTPase-activating protein SynGAP isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL662799.16, DA057307.1, AK307888.1, AK094225.1, AL713634.1 and AK124666.1. On May 16, 2019 this sequence version replaced NM_001130066.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK307888.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2142680 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCTAT GGACATGGCT CGCCTCCCCT CCCCAACCAA GGAAAAGCCA 
    CCCCCACCAC CGCCTGGTGG TGGTAAAGAC CTGTTCTATG TAAGCCGTCC ACCCCTGGCC 
    CGTTCCTCAC CAGCATACTG CACGAGCAGC TCGGACATCA CAGAGCCAGA GCAGAAGATG 
    CTGAGTGTCA ACAAGAGTGT GTCCATGCTG GACTTACAGG GTGATGGGCC TGGTGGCCGC 
    CTCAACAGCA GCAGTGTTTC GAACCTGGCG GCCGTAGGGG ACCTGCTGCA CTCAAGCCAG 
    GCCTCGCTGA CAGCAGCCTT GGGGCTACGG CCTGCGCCTG CCGGACGCCT CTCCCAGGGG 
    AGTGGCTCAT CCATCACGGC GGCTGGCATG CGCCTCAGCC AGATGGGTGT CACCACAGAC 
    GGTGTCCCTG CCCAGCAACT GCGAATCCCC CTCTCCTTCC AGAACCCTCT CTTCCACATG 
    GCTGCTGATG GGCCAGGTCC CCCAGGCGGC CATGGAGGGG GCGGTGGCCA TGGCCCACCT 
    TCCTCCCATC ACCACCACCA CCACCATCAC CACCACCGAG GTGGAGAGCC CCCTGGGGAC 
    ACCTTTGCCC CATTCCATGG CTATAGCAAG AGTGAGGACC TCTCTTCCGG GGTCCCCAAG 
    CCCCCTGCTG CCTCCATCCT TCATAGCCAC AGCTACAGTG ATGAGTTTGG ACCCTCTGGC 
    ACTGACTTCA CCCGTCGGCA GCTTTCACTC CAGGACAACC TGCAGCACAT GCTGTCCCCT 
    CCCCAGATCA CCATTGGTCC CCAGAGGCCA GCCCCCTCAG GGCCTGGAGG TGGGAGCGGT 
    GGGGGCAGCG GTGGGGGTGG CGGGGGCCAG CCGCCTCCAT TGCAGAGGGG CAAGTCTCAG 
    CAGTTGACAG TCAGCGCAGC CCAGAAACCC CGGCCATCCA GCGGGAATCT ATTGCAGTCC 
    CCAGAGCCAA GTTATGGCCC CGCCCGTCCA CGGCAACAGA GCCTCAGCAA GGAGGGCAGC 
    ATTGGGGGCA GCGGGGGCAG CGGTGGCGGA GGGGGTGGGG GGCTGAAGCC CTCCATCACC 
    AAGCAGCATT CTCAGACACC ATCCACATTG AACCCCACAA TGCCAGCCTC TGAGCGGACA 
    GTGGCCTGGG TCTCCAACAT GCCTCACCTG TCGGCTGACA TCGAGAGTGC CCACATCGAG 
    CGGGAAGAGT ACAAGCTCAA GGAGTACTCA AAATCGATGG ATGAGAGCCG GCTGGATAGG 
    GAGTACGAGG AGGAGATTCA CTCACTGAAA GAGCGGCTGC ACATGTCCAA CCGGAAGCTG 
    GAAGAGTATG AGCGGAGGCT GCTGTCCCAG GAAGAACAAA CCAGCAAAAT CCTGATGCAG 
    TATCAGGCCC GACTGGAGCA GAGTGAGAAG AGGCTAAGGC AGCAGCAGGC AGAGAAGGAT 
    TCCCAGATCA AGAGCATCAT TGGCAGGCTG ATGCTGGTGG AGGAGGAGCT GCGCCGGGAC 
    CACCCCGCCA TGGCTGAGCC GCTGCCAGAA CCCAAGAAGA GGCTGCTCGA CGCTCAGAGA 
    GGCAGCTTCC CCCCTTGGGT CCAACAAACC CGCGTGTGA

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

    RefSeq NP_001123538.1
    CDS201..4079
    Translation

    Target ORF information:

    RefSeq Version NM_001130066.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001130066.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCTAT GGACATGGCT CGCCTCCCCT CCCCAACCAA GGAAAAGCCA 
    CCCCCACCAC CGCCTGGTGG TGGTAAAGAC CTGTTCTATG TAAGCCGTCC ACCCCTGGCC 
    CGTTCCTCAC CAGCATACTG CACGAGCAGC TCGGACATCA CAGAGCCAGA GCAGAAGATG 
    CTGAGTGTCA ACAAGAGTGT GTCCATGCTG GACTTACAGG GTGATGGGCC TGGTGGCCGC 
    CTCAACAGCA GCAGTGTTTC GAACCTGGCG GCCGTAGGGG ACCTGCTGCA CTCAAGCCAG 
    GCCTCGCTGA CAGCAGCCTT GGGGCTACGG CCTGCGCCTG CCGGACGCCT CTCCCAGGGG 
    AGTGGCTCAT CCATCACGGC GGCTGGCATG CGCCTCAGCC AGATGGGTGT CACCACAGAC 
    GGTGTCCCTG CCCAGCAACT GCGAATCCCC CTCTCCTTCC AGAACCCTCT CTTCCACATG 
    GCTGCTGATG GGCCAGGTCC CCCAGGCGGC CATGGAGGGG GCGGTGGCCA TGGCCCACCT 
    TCCTCCCATC ACCACCACCA CCACCATCAC CACCACCGAG GTGGAGAGCC CCCTGGGGAC 
    ACCTTTGCCC CATTCCATGG CTATAGCAAG AGTGAGGACC TCTCTTCCGG GGTCCCCAAG 
    CCCCCTGCTG CCTCCATCCT TCATAGCCAC AGCTACAGTG ATGAGTTTGG ACCCTCTGGC 
    ACTGACTTCA CCCGTCGGCA GCTTTCACTC CAGGACAACC TGCAGCACAT GCTGTCCCCT 
    CCCCAGATCA CCATTGGTCC CCAGAGGCCA GCCCCCTCAG GGCCTGGAGG TGGGAGCGGT 
    GGGGGCAGCG GTGGGGGTGG CGGGGGCCAG CCGCCTCCAT TGCAGAGGGG CAAGTCTCAG 
    CAGTTGACAG TCAGCGCAGC CCAGAAACCC CGGCCATCCA GCGGGAATCT ATTGCAGTCC 
    CCAGAGCCAA GTTATGGCCC CGCCCGTCCA CGGCAACAGA GCCTCAGCAA GGAGGGCAGC 
    ATTGGGGGCA GCGGGGGCAG CGGTGGCGGA GGGGGTGGGG GGCTGAAGCC CTCCATCACC 
    AAGCAGCATT CTCAGACACC ATCCACATTG AACCCCACAA TGCCAGCCTC TGAGCGGACA 
    GTGGCCTGGG TCTCCAACAT GCCTCACCTG TCGGCTGACA TCGAGAGTGC CCACATCGAG 
    CGGGAAGAGT ACAAGCTCAA GGAGTACTCA AAATCGATGG ATGAGAGCCG GCTGGATAGG 
    GAGTACGAGG AGGAGATTCA CTCACTGAAA GAGCGGCTGC ACATGTCCAA CCGGAAGCTG 
    GAAGAGTATG AGCGGAGGCT GCTGTCCCAG GAAGAACAAA CCAGCAAAAT CCTGATGCAG 
    TATCAGGCCC GACTGGAGCA GAGTGAGAAG AGGCTAAGGC AGCAGCAGGC AGAGAAGGAT 
    TCCCAGATCA AGAGCATCAT TGGCAGGCTG ATGCTGGTGG AGGAGGAGCT GCGCCGGGAC 
    CACCCCGCCA TGGCTGAGCC GCTGCCAGAA CCCAAGAAGA GGCTGCTCGA CGCTCAGAGA 
    GGCAGCTTCC CCCCTTGGGT CCAACAAACC CGCGTGTGA

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

    SYNGAP1 ( NM_006772.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_006763.2 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu18330
    Clone ID Related Accession (Same CDS sequence) NM_006772.3 , NM_006772.2
    Accession Version NM_006772.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4032bp)
    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 2019-12-23
    Organism Homo sapiens(human)
    Product ras/Rap GTPase-activating protein SynGAP isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL662799.16, DA057307.1, AK307888.1, AK094225.1, AL713634.1, BX282051.1 and AK124666.1. This sequence is a reference standard in the RefSeqGene project. On May 16, 2019 this sequence version replaced NM_006772.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000646630.1/ ENSP00000496007.1 RefSeq Select criteria :: based on manual assertion, conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCCAT CGACCTTCAG TCCTTCATGG CTCGAGGCCT CAACAGCTCT 
    ATGGACATGG CTCGCCTCCC CTCCCCAACC AAGGAAAAGC CACCCCCACC ACCGCCTGGT 
    GGTGGTAAAG ACCTGTTCTA TGTAAGCCGT CCACCCCTGG CCCGTTCCTC ACCAGCATAC 
    TGCACGAGCA GCTCGGACAT CACAGAGCCA GAGCAGAAGA TGCTGAGTGT CAACAAGAGT 
    GTGTCCATGC TGGACTTACA GGGTGATGGG CCTGGTGGCC GCCTCAACAG CAGCAGTGTT 
    TCGAACCTGG CGGCCGTAGG GGACCTGCTG CACTCAAGCC AGGCCTCGCT GACAGCAGCC 
    TTGGGGCTAC GGCCTGCGCC TGCCGGACGC CTCTCCCAGG GGAGTGGCTC ATCCATCACG 
    GCGGCTGGCA TGCGCCTCAG CCAGATGGGT GTCACCACAG ACGGTGTCCC TGCCCAGCAA 
    CTGCGAATCC CCCTCTCCTT CCAGAACCCT CTCTTCCACA TGGCTGCTGA TGGGCCAGGT 
    CCCCCAGGCG GCCATGGAGG GGGCGGTGGC CATGGCCCAC CTTCCTCCCA TCACCACCAC 
    CACCACCATC ACCACCACCG AGGTGGAGAG CCCCCTGGGG ACACCTTTGC CCCATTCCAT 
    GGCTATAGCA AGAGTGAGGA CCTCTCTTCC GGGGTCCCCA AGCCCCCTGC TGCCTCCATC 
    CTTCATAGCC ACAGCTACAG TGATGAGTTT GGACCCTCTG GCACTGACTT CACCCGTCGG 
    CAGCTTTCAC TCCAGGACAA CCTGCAGCAC ATGCTGTCCC CTCCCCAGAT CACCATTGGT 
    CCCCAGAGGC CAGCCCCCTC AGGGCCTGGA GGTGGGAGCG GTGGGGGCAG CGGTGGGGGT 
    GGCGGGGGCC AGCCGCCTCC ATTGCAGAGG GGCAAGTCTC AGCAGTTGAC AGTCAGCGCA 
    GCCCAGAAAC CCCGGCCATC CAGCGGGAAT CTATTGCAGT CCCCAGAGCC AAGTTATGGC 
    CCCGCCCGTC CACGGCAACA GAGCCTCAGC AAGGAGGGCA GCATTGGGGG CAGCGGGGGC 
    AGCGGTGGCG GAGGGGGTGG GGGGCTGAAG CCCTCCATCA CCAAGCAGCA TTCTCAGACA 
    CCATCCACAT TGAACCCCAC AATGCCAGCC TCTGAGCGGA CAGTGGCCTG GGTCTCCAAC 
    ATGCCTCACC TGTCGGCTGA CATCGAGAGT GCCCACATCG AGCGGGAAGA GTACAAGCTC 
    AAGGAGTACT CAAAATCGAT GGATGAGAGC CGGCTGGATA GGGTGAAGGA GTACGAGGAG 
    GAGATTCACT CACTGAAAGA GCGGCTGCAC ATGTCCAACC GGAAGCTGGA AGAGTATGAG 
    CGGAGGCTGC TGTCCCAGGA AGAACAAACC AGCAAAATCC TGATGCAGTA TCAGGCCCGA 
    CTGGAGCAGA GTGAGAAGAG GCTAAGGCAG CAGCAGGCAG AGAAGGATTC CCAGATCAAG 
    AGCATCATTG GCAGGCTGAT GCTGGTGGAG GAGGAGCTGC GCCGGGACCA CCCCGCCATG 
    GCTGAGCCGC TGCCAGAACC CAAGAAGAGG CTGCTCGACG CTCAGGAGAG GCAGCTTCCC 
    CCCTTGGGTC CAACAAACCC GCGTGTGACG CTGGCCCCAC CGTGGAATGG CCTGGCCCCC 
    CCAGCCCCAC CACCCCCACC CCGGCTGCAG ATTACGGAGA ACGGCGAGTT CCGAAACACC 
    GCAGACCACT AG

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

    RefSeq NP_006763.2
    CDS201..4232
    Translation

    Target ORF information:

    RefSeq Version NM_006772.3
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_006772.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCCAT CGACCTTCAG TCCTTCATGG CTCGAGGCCT CAACAGCTCT 
    ATGGACATGG CTCGCCTCCC CTCCCCAACC AAGGAAAAGC CACCCCCACC ACCGCCTGGT 
    GGTGGTAAAG ACCTGTTCTA TGTAAGCCGT CCACCCCTGG CCCGTTCCTC ACCAGCATAC 
    TGCACGAGCA GCTCGGACAT CACAGAGCCA GAGCAGAAGA TGCTGAGTGT CAACAAGAGT 
    GTGTCCATGC TGGACTTACA GGGTGATGGG CCTGGTGGCC GCCTCAACAG CAGCAGTGTT 
    TCGAACCTGG CGGCCGTAGG GGACCTGCTG CACTCAAGCC AGGCCTCGCT GACAGCAGCC 
    TTGGGGCTAC GGCCTGCGCC TGCCGGACGC CTCTCCCAGG GGAGTGGCTC ATCCATCACG 
    GCGGCTGGCA TGCGCCTCAG CCAGATGGGT GTCACCACAG ACGGTGTCCC TGCCCAGCAA 
    CTGCGAATCC CCCTCTCCTT CCAGAACCCT CTCTTCCACA TGGCTGCTGA TGGGCCAGGT 
    CCCCCAGGCG GCCATGGAGG GGGCGGTGGC CATGGCCCAC CTTCCTCCCA TCACCACCAC 
    CACCACCATC ACCACCACCG AGGTGGAGAG CCCCCTGGGG ACACCTTTGC CCCATTCCAT 
    GGCTATAGCA AGAGTGAGGA CCTCTCTTCC GGGGTCCCCA AGCCCCCTGC TGCCTCCATC 
    CTTCATAGCC ACAGCTACAG TGATGAGTTT GGACCCTCTG GCACTGACTT CACCCGTCGG 
    CAGCTTTCAC TCCAGGACAA CCTGCAGCAC ATGCTGTCCC CTCCCCAGAT CACCATTGGT 
    CCCCAGAGGC CAGCCCCCTC AGGGCCTGGA GGTGGGAGCG GTGGGGGCAG CGGTGGGGGT 
    GGCGGGGGCC AGCCGCCTCC ATTGCAGAGG GGCAAGTCTC AGCAGTTGAC AGTCAGCGCA 
    GCCCAGAAAC CCCGGCCATC CAGCGGGAAT CTATTGCAGT CCCCAGAGCC AAGTTATGGC 
    CCCGCCCGTC CACGGCAACA GAGCCTCAGC AAGGAGGGCA GCATTGGGGG CAGCGGGGGC 
    AGCGGTGGCG GAGGGGGTGG GGGGCTGAAG CCCTCCATCA CCAAGCAGCA TTCTCAGACA 
    CCATCCACAT TGAACCCCAC AATGCCAGCC TCTGAGCGGA CAGTGGCCTG GGTCTCCAAC 
    ATGCCTCACC TGTCGGCTGA CATCGAGAGT GCCCACATCG AGCGGGAAGA GTACAAGCTC 
    AAGGAGTACT CAAAATCGAT GGATGAGAGC CGGCTGGATA GGGTGAAGGA GTACGAGGAG 
    GAGATTCACT CACTGAAAGA GCGGCTGCAC ATGTCCAACC GGAAGCTGGA AGAGTATGAG 
    CGGAGGCTGC TGTCCCAGGA AGAACAAACC AGCAAAATCC TGATGCAGTA TCAGGCCCGA 
    CTGGAGCAGA GTGAGAAGAG GCTAAGGCAG CAGCAGGCAG AGAAGGATTC CCAGATCAAG 
    AGCATCATTG GCAGGCTGAT GCTGGTGGAG GAGGAGCTGC GCCGGGACCA CCCCGCCATG 
    GCTGAGCCGC TGCCAGAACC CAAGAAGAGG CTGCTCGACG CTCAGGAGAG GCAGCTTCCC 
    CCCTTGGGTC CAACAAACCC GCGTGTGACG CTGGCCCCAC CGTGGAATGG CCTGGCCCCC 
    CCAGCCCCAC CACCCCCACC CCGGCTGCAG ATTACGGAGA ACGGCGAGTT CCGAAACACC 
    GCAGACCACT AG

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

    SYNGAP1 ( NM_006772.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_006763.2 Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu18330
    Clone ID Related Accession (Same CDS sequence) NM_006772.3 , NM_006772.2
    Accession Version NM_006772.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4032bp)
    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 2019-02-24
    Organism Homo sapiens(human)
    Product ras/Rap GTPase-activating protein SynGAP isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA057307.1, AK307888.1, AK094225.1, AL713634.1, BX282051.1 and BM354009.1. This sequence is a reference standard in the RefSeqGene project. On Jul 15, 2008 this sequence version replaced NM_006772.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCCAT CGACCTTCAG TCCTTCATGG CTCGAGGCCT CAACAGCTCT 
    ATGGACATGG CTCGCCTCCC CTCCCCAACC AAGGAAAAGC CACCCCCACC ACCGCCTGGT 
    GGTGGTAAAG ACCTGTTCTA TGTAAGCCGT CCACCCCTGG CCCGTTCCTC ACCAGCATAC 
    TGCACGAGCA GCTCGGACAT CACAGAGCCA GAGCAGAAGA TGCTGAGTGT CAACAAGAGT 
    GTGTCCATGC TGGACTTACA GGGTGATGGG CCTGGTGGCC GCCTCAACAG CAGCAGTGTT 
    TCGAACCTGG CGGCCGTAGG GGACCTGCTG CACTCAAGCC AGGCCTCGCT GACAGCAGCC 
    TTGGGGCTAC GGCCTGCGCC TGCCGGACGC CTCTCCCAGG GGAGTGGCTC ATCCATCACG 
    GCGGCTGGCA TGCGCCTCAG CCAGATGGGT GTCACCACAG ACGGTGTCCC TGCCCAGCAA 
    CTGCGAATCC CCCTCTCCTT CCAGAACCCT CTCTTCCACA TGGCTGCTGA TGGGCCAGGT 
    CCCCCAGGCG GCCATGGAGG GGGCGGTGGC CATGGCCCAC CTTCCTCCCA TCACCACCAC 
    CACCACCATC ACCACCACCG AGGTGGAGAG CCCCCTGGGG ACACCTTTGC CCCATTCCAT 
    GGCTATAGCA AGAGTGAGGA CCTCTCTTCC GGGGTCCCCA AGCCCCCTGC TGCCTCCATC 
    CTTCATAGCC ACAGCTACAG TGATGAGTTT GGACCCTCTG GCACTGACTT CACCCGTCGG 
    CAGCTTTCAC TCCAGGACAA CCTGCAGCAC ATGCTGTCCC CTCCCCAGAT CACCATTGGT 
    CCCCAGAGGC CAGCCCCCTC AGGGCCTGGA GGTGGGAGCG GTGGGGGCAG CGGTGGGGGT 
    GGCGGGGGCC AGCCGCCTCC ATTGCAGAGG GGCAAGTCTC AGCAGTTGAC AGTCAGCGCA 
    GCCCAGAAAC CCCGGCCATC CAGCGGGAAT CTATTGCAGT CCCCAGAGCC AAGTTATGGC 
    CCCGCCCGTC CACGGCAACA GAGCCTCAGC AAGGAGGGCA GCATTGGGGG CAGCGGGGGC 
    AGCGGTGGCG GAGGGGGTGG GGGGCTGAAG CCCTCCATCA CCAAGCAGCA TTCTCAGACA 
    CCATCCACAT TGAACCCCAC AATGCCAGCC TCTGAGCGGA CAGTGGCCTG GGTCTCCAAC 
    ATGCCTCACC TGTCGGCTGA CATCGAGAGT GCCCACATCG AGCGGGAAGA GTACAAGCTC 
    AAGGAGTACT CAAAATCGAT GGATGAGAGC CGGCTGGATA GGGTGAAGGA GTACGAGGAG 
    GAGATTCACT CACTGAAAGA GCGGCTGCAC ATGTCCAACC GGAAGCTGGA AGAGTATGAG 
    CGGAGGCTGC TGTCCCAGGA AGAACAAACC AGCAAAATCC TGATGCAGTA TCAGGCCCGA 
    CTGGAGCAGA GTGAGAAGAG GCTAAGGCAG CAGCAGGCAG AGAAGGATTC CCAGATCAAG 
    AGCATCATTG GCAGGCTGAT GCTGGTGGAG GAGGAGCTGC GCCGGGACCA CCCCGCCATG 
    GCTGAGCCGC TGCCAGAACC CAAGAAGAGG CTGCTCGACG CTCAGGAGAG GCAGCTTCCC 
    CCCTTGGGTC CAACAAACCC GCGTGTGACG CTGGCCCCAC CGTGGAATGG CCTGGCCCCC 
    CCAGCCCCAC CACCCCCACC CCGGCTGCAG ATTACGGAGA ACGGCGAGTT CCGAAACACC 
    GCAGACCACT AG

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

    RefSeq NP_006763.2
    CDS196..4227
    Translation

    Target ORF information:

    RefSeq Version NM_006772.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptic Ras GTPase activating protein 1 (SYNGAP1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_006772.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCAGGT CTCGAGCCTC CATCCATCGG GGGAGCATCC CCGCGATGTC CTATGCCCCC 
    TTCAGAGATG TACGGGGACC CTCTATGCAC CGAACCCAAT ACGTTCATTC CCCGTATGAT 
    CGTCCTGGTT GGAACCCTCG GTTCTGCATC ATCTCGGGGA ACCAGCTGCT CATGCTGGAT 
    GAGGATGAGA TACACCCCCT ACTGATCCGG GACCGGAGGA GCGAGTCCAG TCGCAACAAA 
    CTGCTGAGAC GCACAGTCTC CGTGCCGGTG GAGGGGCGGC CCCACGGCGA GCATGAATAC 
    CACTTGGGTC GCTCGAGGAG GAAGAGTGTC CCAGGGGGGA AGCAGTACAG CATGGAGGGT 
    GCCCCTGCTG CGCCCTTCCG GCCCTCGCAA GGCTTCCTGA GCCGACGGCT AAAAAGCTCC 
    ATCAAACGAA CGAAGTCACA ACCCAAACTT GACCGGACCA GCAGCTTTCG CCAGATCCTG 
    CCTCGCTTCC GAAGTGCTGA CCATGACCGG GCCCGGCTGA TGCAAAGCTT TAAGGAGTCA 
    CACTCTCATG AGTCCTTGCT GAGTCCTAGC AGTGCAGCTG AGGCATTGGA GCTCAACTTG 
    GATGAAGATT CCATTATCAA GCCAGTGCAC AGCTCCATCC TGGGCCAGGA GTTCTGTTTT 
    GAGGTAACAA CTTCATCAGG AACAAAATGC TTTGCCTGTC GGTCTGCGGC CGAAAGAGAC 
    AAATGGATTG AGAATCTGCA GCGGGCAGTA AAGCCCAACA AGGACAACAG CCGCCGGGTA 
    GACAATGTGC TAAAGCTGTG GATCATAGAG GCCCGGGAGC TGCCCCCCAA GAAGCGGTAC 
    TACTGTGAGC TCTGCCTGGA TGACATGCTG TATGCACGCA CCACCTCCAA GCCCCGCTCT 
    GCCTCTGGGG ACACCGTCTT CTGGGGCGAG CACTTCGAGT TTAACAACCT GCCGGCTGTC 
    CGTGCCCTGC GGCTGCATCT GTACCGTGAC TCAGACAAAA AGCGCAAGAA GGACAAGGCA 
    GGCTATGTCG GCCTGGTGAC TGTGCCAGTG GCCACCCTGG CTGGGCGCCA CTTCACAGAG 
    CAGTGGTACC CTGTAACCCT GCCAACAGGC AGTGGGGGAT CTGGGGGCAT GGGTTCGGGA 
    GGGGGAGGGG GCTCGGGGGG TGGCTCAGGG GGCAAGGGCA AAGGAGGTTG CCCGGCTGTG 
    CGGCTGAAAG CACGTTACCA GACAATGAGC ATCTTGCCCA TGGAGCTATA TAAAGAGTTT 
    GCAGAGTATG TCACCAACCA TTATCGGATG CTGTGTGCAG TCTTGGAGCC CGCCCTGAAT 
    GTCAAAGGCA AGGAGGAGGT TGCCAGTGCA CTAGTTCACA TCCTGCAGAG TACAGGCAAG 
    GCCAAGGACT TCCTTTCAGA CATGGCCATG TCTGAGGTAG ACCGGTTCAT GGAACGGGAG 
    CACCTCATAT TCCGCGAGAA CACGCTTGCC ACTAAAGCCA TAGAAGAGTA TATGAGACTG 
    ATTGGTCAGA AATACCTCAA GGATGCCATT GGAGAATTCA TCCGTGCTCT GTATGAATCT 
    GAGGAAAACT GCGAGGTAGA CCCTATCAAG TGCACAGCAT CCAGTTTGGC AGAGCACCAG 
    GCCAACCTGC GAATGTGCTG TGAGTTGGCC CTGTGCAAGG TGGTCAACTC CCACTGCGTG 
    TTCCCGAGGG AGCTGAAGGA GGTGTTTGCT TCGTGGCGGC TGCGCTGCGC AGAGCGAGGC 
    CGGGAGGACA TCGCAGACAG GCTTATCAGC GCCTCACTCT TCCTGCGCTT CCTCTGCCCA 
    GCGATTATGT CGCCCAGTCT CTTTGGGCTT ATGCAGGAGT ACCCAGATGA GCAGACCTCA 
    CGAACCCTCA CCCTCATTGC CAAGGTCATC CAGAACCTGG CCAACTTTTC CAAGTTTACC 
    TCAAAGGAGG ACTTTCTGGG CTTCATGAAT GAGTTTCTGG AGCTGGAATG GGGTTCCATG 
    CAGCAGTTTT TGTATGAGAT CTCCAATCTG GACACGCTAA CCAACAGCAG TAGCTTTGAG 
    GGTTACATCG ACTTGGGCCG AGAGCTCTCC ACACTGCATG CCCTACTCTG GGAGGTGCTG 
    CCCCAGCTCA GCAAGGAAGC CCTCCTGAAG CTGGGTCCAC TGCCCCGGCT CCTCAACGAC 
    ATCAGCACAG CTCTGAGGAA CCCCAACATC CAAAGGCAGC CAAGCCGCCA GAGTGAGCGG 
    CCCCGGCCTC AGCCTGTGGT ACTGCGGGGG CCATCGGCTG AGATGCAGGG CTACATGATG 
    CGGGACCTCA ACAGCTCCAT CGACCTTCAG TCCTTCATGG CTCGAGGCCT CAACAGCTCT 
    ATGGACATGG CTCGCCTCCC CTCCCCAACC AAGGAAAAGC CACCCCCACC ACCGCCTGGT 
    GGTGGTAAAG ACCTGTTCTA TGTAAGCCGT CCACCCCTGG CCCGTTCCTC ACCAGCATAC 
    TGCACGAGCA GCTCGGACAT CACAGAGCCA GAGCAGAAGA TGCTGAGTGT CAACAAGAGT 
    GTGTCCATGC TGGACTTACA GGGTGATGGG CCTGGTGGCC GCCTCAACAG CAGCAGTGTT 
    TCGAACCTGG CGGCCGTAGG GGACCTGCTG CACTCAAGCC AGGCCTCGCT GACAGCAGCC 
    TTGGGGCTAC GGCCTGCGCC TGCCGGACGC CTCTCCCAGG GGAGTGGCTC ATCCATCACG 
    GCGGCTGGCA TGCGCCTCAG CCAGATGGGT GTCACCACAG ACGGTGTCCC TGCCCAGCAA 
    CTGCGAATCC CCCTCTCCTT CCAGAACCCT CTCTTCCACA TGGCTGCTGA TGGGCCAGGT 
    CCCCCAGGCG GCCATGGAGG GGGCGGTGGC CATGGCCCAC CTTCCTCCCA TCACCACCAC 
    CACCACCATC ACCACCACCG AGGTGGAGAG CCCCCTGGGG ACACCTTTGC CCCATTCCAT 
    GGCTATAGCA AGAGTGAGGA CCTCTCTTCC GGGGTCCCCA AGCCCCCTGC TGCCTCCATC 
    CTTCATAGCC ACAGCTACAG TGATGAGTTT GGACCCTCTG GCACTGACTT CACCCGTCGG 
    CAGCTTTCAC TCCAGGACAA CCTGCAGCAC ATGCTGTCCC CTCCCCAGAT CACCATTGGT 
    CCCCAGAGGC CAGCCCCCTC AGGGCCTGGA GGTGGGAGCG GTGGGGGCAG CGGTGGGGGT 
    GGCGGGGGCC AGCCGCCTCC ATTGCAGAGG GGCAAGTCTC AGCAGTTGAC AGTCAGCGCA 
    GCCCAGAAAC CCCGGCCATC CAGCGGGAAT CTATTGCAGT CCCCAGAGCC AAGTTATGGC 
    CCCGCCCGTC CACGGCAACA GAGCCTCAGC AAGGAGGGCA GCATTGGGGG CAGCGGGGGC 
    AGCGGTGGCG GAGGGGGTGG GGGGCTGAAG CCCTCCATCA CCAAGCAGCA TTCTCAGACA 
    CCATCCACAT TGAACCCCAC AATGCCAGCC TCTGAGCGGA CAGTGGCCTG GGTCTCCAAC 
    ATGCCTCACC TGTCGGCTGA CATCGAGAGT GCCCACATCG AGCGGGAAGA GTACAAGCTC 
    AAGGAGTACT CAAAATCGAT GGATGAGAGC CGGCTGGATA GGGTGAAGGA GTACGAGGAG 
    GAGATTCACT CACTGAAAGA GCGGCTGCAC ATGTCCAACC GGAAGCTGGA AGAGTATGAG 
    CGGAGGCTGC TGTCCCAGGA AGAACAAACC AGCAAAATCC TGATGCAGTA TCAGGCCCGA 
    CTGGAGCAGA GTGAGAAGAG GCTAAGGCAG CAGCAGGCAG AGAAGGATTC CCAGATCAAG 
    AGCATCATTG GCAGGCTGAT GCTGGTGGAG GAGGAGCTGC GCCGGGACCA CCCCGCCATG 
    GCTGAGCCGC TGCCAGAACC CAAGAAGAGG CTGCTCGACG CTCAGGAGAG GCAGCTTCCC 
    CCCTTGGGTC CAACAAACCC GCGTGTGACG CTGGCCCCAC CGTGGAATGG CCTGGCCCCC 
    CCAGCCCCAC CACCCCCACC CCGGCTGCAG ATTACGGAGA ACGGCGAGTT CCGAAACACC 
    GCAGACCACT AG

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

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