Grin2a cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Grin2a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Grin2a 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
OMv33289 XM_021184964.2
Latest version!
Mus caroli glutamate ionotropic receptor NMDA type subunit 2A (Grin2a), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv33290 XM_021184965.1
Latest version!
Mus caroli glutamate ionotropic receptor NMDA type subunit 2A (Grin2a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
View Old Accession Versions >>
OMv33289 XM_021184964.1 Mus caroli glutamate ionotropic receptor NMDA type subunit 2A (Grin2a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
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)
    CloneID OMv33289
    Clone ID Related Accession (Same CDS sequence) XM_021184964.1 , XM_021184964.2
    Accession Version XM_021184964.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product glutamate receptor ionotropic, NMDA 2A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGGCAGAC TGGGCTACTG GACCTTGCTG GTATTGCCGG CCCTTCTGGT CTGGCACGGT 
    CCGGCGCAGA ACGCGGCGGC GGAGAAGGGT ACTCCGGCGC TGAACATTGC GGTGCTGCTG
    GGTCACAGCC ACGACGTGAC AGAACGCGAA CTTCGAAATC TGTGGGGCCC GGAGCAGGCA
    ACCGGCTTGC CCCTGGATGT GAACGTGGTG GCGTTATTGA TGAACCGCAC TGACCCTAAG
    AGCCTCATCA CGCATGTGTG CGACCTCATG TCCGGGGCGC GCATCCATGG CTTGGTGTTT
    GGAGATGATA CGGACCAAGA GGCTGTGGCT CAGATGCTGG ATTTTATCTC CTCACAGACT
    TTCATCCCCA TCTTGGGCAT TCATGGGGGT GCATCTATGA TCATGGCTGA CAAGGATCCG
    ACATCCACGT TCTTCCAGTT TGGAGCATCC ATCCAGCAGC AAGCCACGGT TATGCTGAAG
    ATCATGCAGG ATTATGACTG GCATGTCTTC TCCCTGGTCA CCACCATCTT CCCTGGCTAC
    AGAGACTTCA TCAGCTTCAT CAAGACAACA GTGGACAACA GCTTTGTGGG CTGGGATATG
    CAGAACGTGA TCACACTAGA CACCTCTTTT GAGGATGCCA AGACACAGGT CCAGCTGAAG
    AAGATCCATT CCTCTGTCAT CCTGCTCTAC AGCTCCAAGG ATGAGGCTGT CCTCATCCTG
    AGCGAGGCTC GCTCCCTTGG CCTCACCGGC TACGATTTCT TCTGGATTGT CCCCAGTTTG
    GTCTCTGGGA ACACAGAGCT CATCCCCAAA GAGTTTCCAT CGGGTCTCAT TTCAGTCTCT
    TACGACGACT GGGACTACAG CCTGGAGGCA AGAGTGAGAG ACGGTCTTGG GATCTTAACC
    ACTGCCGCAT CTTCCATGTT GGAGAAATTC TCCTACATTC CTGAGGCCAA GGCCAGCTGC
    TACGGACAGA CAGAGAAGCC GGAGACCCCG CTACACACTC TGCACCAATT TATGGTCAAT
    GTGACGTGGG ATGGCAAGGA TTTGTCCTTC ACGGAGGAAG GCTATCAGGT GCACCCCAGG
    CTTGTGGTGA TCGTGCTGAA TAAGGACCGG GAATGGGAAA AGGTGGGCAA GTGGGAGAAC
    CAGACTCTGA GCCTGCGGCA TGCTGTGTGG CCAAGGTACA AGTCCTTTTC TGACTGTGAG
    CCAGACGACA ACCACCTCAG CATTGTCACC TTGGAGGAAG CCCCCTTCGT CATCGTAGAA
    GACATAGACC CACTGACTGA GACCTGCGTC AGGAACACGG TACCCTGTCG GAAGTTTGTC
    AAGATCAACA ATTCAACCAA TGAAGGGATG AATGTGAAGA AGTGCTGCAA GGGGTTCTGC
    ATCGACATCC TTAAGAAACT GTCCAGAACT GTAAAGTTCA CCTATGACCT CTATCTGGTG
    ACCAATGGGA AGCATGGGAA AAAGGTTAAC AATGTGTGGA ATGGAATGAT AGGCGAAGTG
    GTCTATCAAC GAGCAGTCAT GGCCGTGGGC TCCCTCACCA TCAATGAGGA GCGTTCTGAA
    GTGGTGGACT TCTCCGTGCC CTTTGTGGAG ACAGGAATCA GCGTCATGGT CTCCAGGAGT
    AATGGCACTG TTTCCCCTTC TGCTTTCCTT GAACCCTTCA GCGCCTCTGT CTGGGTGATG
    ATGTTCGTGA TGCTGCTCAT TGTCTCTGCC ATTGCTGTCT TCGTTTTTGA ATACTTCAGT
    CCTGTTGGAT ACAACAGAAA CTTAGCCAAA GGGAAAGCTC CCCATGGGCC TTCTTTTACA
    ATTGGAAAAG CTATATGGCT CCTCTGGGGC CTGGTCTTCA ACAATTCTGT GCCTGTCCAG
    AACCCTAAAG GCACAACCAG CAAGATAATG GTGTCAGTGT GGGCCTTCTT TGCTGTCATC
    TTCCTTGCAA GTTACACAGC CAACCTGGCT GCCTTCATGA TCCAGGAGGA GTTTGTGGAC
    CAAGTGACTG GCCTCAGTGA CAAGAAGTTC CAGAGACCTC ATGACTATTC TCCGCCTTTC
    CGATTTGGGA CAGTACCTAA TGGAAGTACA GAAAGGAATA TTCGTAACAA CTACCCCTAT
    ATGCACCAGT ACATGACCAA ATTCAACCAG AGGGGTGTAG AGGATGCCTT GGTCAGCTTG
    AAAACTGGGA AGTTGGACGC TTTCATCTAT GACGCAGCTG TCTTGAACTA CAAGGCCGGG
    AGGGATGAAG GCTGTAAACT GGTGACCATT GGGAGCGGGT ACATCTTTGC CACCACAGGC
    TATGGAATTG CTCTGCAGAA GGGCTCACCC TGGAAGAGGC AGATTGACCT CGCTCTGCTC
    CAGTTTGTTG GTGACGGTGA GATGGAAGAG CTGGAGACAC TGTGGCTTAC GGGCATCTGC
    CATAACGAGA AGAATGAGGT GATGAGCAGC CAGCTGGACA TCGACAACAT GGCAGGAGTT
    TTCTACATGC TGGCTGCAGC TATGGCCCTC AGCCTCATCA CCTTCATCTG GGAGCACCTC
    TTCTACTGGA AGCTGCGCTT CTGCTTCACA GGCGTGTGTT CTGACCGGCC GGGGCTGCTC
    TTCTCCATCA GCAGGGGCAT CTACAGTTGC ATCCATGGAG TGCACATTGA AGAAAAGAAG
    AAGTCTCCAG ACTTCAATCT GACTGGGTCA CAGAGCAACA TGCTAAAGCT TCTCCGCTCA
    GCTAAAAACA TCTCCAACAT GTCCAACATG AACTCCTCGA GAATGGACTC ACCCAAAAGA
    GCTGCTGACT TCATCCAAAG AGGCTCACTT ATTGTGGACA TGGTTTCAGA CAAGGGAAAT
    TTGATATACT CAGATAACAG GTCCTTTCAA GGGAAGGACA GTATATTTGG AGAAAACATG
    AATGAACTGC AAACATTTGT GGCCAACAGG CACAAGGATA GTCTCAGTAA CTATGTGTTT
    CAGGGACAGC ATCCTCTCAC TCTCAATGAG TCCAACCCCA ACACAGTGGA GGTGGCTGTC
    AGCACTGAAT CCAAAGGGAA CTCCCGACCC CGGCAGCTTT GGAAGAAATC CATGGAGTCT
    CTACGCCAGG ATTCTCTAAA CCAGAACCCA GTCTCCCAGA GGGATGAGAA GACTGCAGAG
    AATAGGACCC ACTCCCTAAA GAGTCCTAGG TATCTTCCAG AAGAGGTAGC CCATTCTGAC
    ATTTCTGAAA CCTCAAGCCG GGCCACATGC CACAGGGAGC CAGATAACAA TAAGAACCAC
    AAGACCAAGG ATAACTTCAA AAGGTCAATG GCCTCTAAAT ACCCCAAGGA CTGTAGTGAG
    GTTGAACGTA CCTATGTGAA AACCAAAGCA AGTTCTCCCA GGGATAAGAT CTACACCATC
    GATGGTGAGA AGGAGCCCAG CTTCCACTTA GATCCTCCAC AGTTCATTGA AAACATAGTC
    CTGCCTGAGA ATGTGGACTT CCCAGATACC TACCAAGATC ACAATGAGAA TTTCCGCAAG
    GGGGACTCCA CGCTGCCCAT GAACAGGAAC CCACTACACA ATGAAGATGG GCTTCCCAAC
    AATGACCAGT ATAAACTCTA TGCCAAGCAC TTTACCTTGA AAGACAAGGG TTCCCCACAT
    AGTGAGGGCA GTGATCGATA TCGGCAGAAC TCCACGCATT GCAGAAGCTG CCTCTCAAAC
    CTGCCCACCT ACTCAGGCCA CTTTACCATG AGATCTCCTT TCAAGTGTGA TGCCTGTCTG
    CGGATGGGGA ACCTCTATGA CATTGATGAA GACCAGATGC TTCAGGAGAC AGGTAACCCA
    GCTACTCGTG AGGAGGCCTA CCAGCAGGAC TGGTCACAGA ACAACGCCCT CCAGTTACAG
    AAGAACAAGC TCAAGATTAA TCGACAGCAC TCCTACGATA ACATTCTCGA CAAACCCAGG
    GAGATAGACC TTAGCAGGCC CTCCCGGAGC ATAAGCCTCA AGGACAGGGA AAGGCTACTG
    GAGGGCAACT TATATGGGAG CCTGTTCAGT GTCCCCTCAA GCAAACTCTT GGGGAACAAA
    AGCTCCCTTT TCCCCCAAGG TCTGGAGGAC AGCAAGAGGA GCAAATCTCT CTTGCCAGAC
    CATACCTCTG ATAATCCTTT CCTCCACACG TATGGGGATG ACCAACGCTT AGTTATTGGG
    AGATGTCCCT CGGACCCTTA CAAACACTCA TTGCCATCAC AGGCAGTAAA TGACAGCTAT
    CTTCGGTCAT CCTTGAGGTC AACAGCATCC TATTGCTCCA GGGACAGTCG GGGCCACAGT
    GATGTGTATA TTTCAGAGCA TGTTATGCCT TATGCTGCAA ATAAGAATAA CATGTACTCT
    ACCCCCAGGG TTTTAAATTC CTGCAGCAAT AGACGCGTGT ACAAGAAAAT GCCTAGTATT
    GAATCTGATG TCTAA

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

    RefSeq XP_021040623.1
    CDS309..4703
    Translation

    Target ORF information:

    RefSeq Version XM_021184964.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli glutamate ionotropic receptor NMDA type subunit 2A (Grin2a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184964.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGGCAGAC TGGGCTACTG GACCTTGCTG GTATTGCCGG CCCTTCTGGT CTGGCACGGT 
    CCGGCGCAGA ACGCGGCGGC GGAGAAGGGT ACTCCGGCGC TGAACATTGC GGTGCTGCTG
    GGTCACAGCC ACGACGTGAC AGAACGCGAA CTTCGAAATC TGTGGGGCCC GGAGCAGGCA
    ACCGGCTTGC CCCTGGATGT GAACGTGGTG GCGTTATTGA TGAACCGCAC TGACCCTAAG
    AGCCTCATCA CGCATGTGTG CGACCTCATG TCCGGGGCGC GCATCCATGG CTTGGTGTTT
    GGAGATGATA CGGACCAAGA GGCTGTGGCT CAGATGCTGG ATTTTATCTC CTCACAGACT
    TTCATCCCCA TCTTGGGCAT TCATGGGGGT GCATCTATGA TCATGGCTGA CAAGGATCCG
    ACATCCACGT TCTTCCAGTT TGGAGCATCC ATCCAGCAGC AAGCCACGGT TATGCTGAAG
    ATCATGCAGG ATTATGACTG GCATGTCTTC TCCCTGGTCA CCACCATCTT CCCTGGCTAC
    AGAGACTTCA TCAGCTTCAT CAAGACAACA GTGGACAACA GCTTTGTGGG CTGGGATATG
    CAGAACGTGA TCACACTAGA CACCTCTTTT GAGGATGCCA AGACACAGGT CCAGCTGAAG
    AAGATCCATT CCTCTGTCAT CCTGCTCTAC AGCTCCAAGG ATGAGGCTGT CCTCATCCTG
    AGCGAGGCTC GCTCCCTTGG CCTCACCGGC TACGATTTCT TCTGGATTGT CCCCAGTTTG
    GTCTCTGGGA ACACAGAGCT CATCCCCAAA GAGTTTCCAT CGGGTCTCAT TTCAGTCTCT
    TACGACGACT GGGACTACAG CCTGGAGGCA AGAGTGAGAG ACGGTCTTGG GATCTTAACC
    ACTGCCGCAT CTTCCATGTT GGAGAAATTC TCCTACATTC CTGAGGCCAA GGCCAGCTGC
    TACGGACAGA CAGAGAAGCC GGAGACCCCG CTACACACTC TGCACCAATT TATGGTCAAT
    GTGACGTGGG ATGGCAAGGA TTTGTCCTTC ACGGAGGAAG GCTATCAGGT GCACCCCAGG
    CTTGTGGTGA TCGTGCTGAA TAAGGACCGG GAATGGGAAA AGGTGGGCAA GTGGGAGAAC
    CAGACTCTGA GCCTGCGGCA TGCTGTGTGG CCAAGGTACA AGTCCTTTTC TGACTGTGAG
    CCAGACGACA ACCACCTCAG CATTGTCACC TTGGAGGAAG CCCCCTTCGT CATCGTAGAA
    GACATAGACC CACTGACTGA GACCTGCGTC AGGAACACGG TACCCTGTCG GAAGTTTGTC
    AAGATCAACA ATTCAACCAA TGAAGGGATG AATGTGAAGA AGTGCTGCAA GGGGTTCTGC
    ATCGACATCC TTAAGAAACT GTCCAGAACT GTAAAGTTCA CCTATGACCT CTATCTGGTG
    ACCAATGGGA AGCATGGGAA AAAGGTTAAC AATGTGTGGA ATGGAATGAT AGGCGAAGTG
    GTCTATCAAC GAGCAGTCAT GGCCGTGGGC TCCCTCACCA TCAATGAGGA GCGTTCTGAA
    GTGGTGGACT TCTCCGTGCC CTTTGTGGAG ACAGGAATCA GCGTCATGGT CTCCAGGAGT
    AATGGCACTG TTTCCCCTTC TGCTTTCCTT GAACCCTTCA GCGCCTCTGT CTGGGTGATG
    ATGTTCGTGA TGCTGCTCAT TGTCTCTGCC ATTGCTGTCT TCGTTTTTGA ATACTTCAGT
    CCTGTTGGAT ACAACAGAAA CTTAGCCAAA GGGAAAGCTC CCCATGGGCC TTCTTTTACA
    ATTGGAAAAG CTATATGGCT CCTCTGGGGC CTGGTCTTCA ACAATTCTGT GCCTGTCCAG
    AACCCTAAAG GCACAACCAG CAAGATAATG GTGTCAGTGT GGGCCTTCTT TGCTGTCATC
    TTCCTTGCAA GTTACACAGC CAACCTGGCT GCCTTCATGA TCCAGGAGGA GTTTGTGGAC
    CAAGTGACTG GCCTCAGTGA CAAGAAGTTC CAGAGACCTC ATGACTATTC TCCGCCTTTC
    CGATTTGGGA CAGTACCTAA TGGAAGTACA GAAAGGAATA TTCGTAACAA CTACCCCTAT
    ATGCACCAGT ACATGACCAA ATTCAACCAG AGGGGTGTAG AGGATGCCTT GGTCAGCTTG
    AAAACTGGGA AGTTGGACGC TTTCATCTAT GACGCAGCTG TCTTGAACTA CAAGGCCGGG
    AGGGATGAAG GCTGTAAACT GGTGACCATT GGGAGCGGGT ACATCTTTGC CACCACAGGC
    TATGGAATTG CTCTGCAGAA GGGCTCACCC TGGAAGAGGC AGATTGACCT CGCTCTGCTC
    CAGTTTGTTG GTGACGGTGA GATGGAAGAG CTGGAGACAC TGTGGCTTAC GGGCATCTGC
    CATAACGAGA AGAATGAGGT GATGAGCAGC CAGCTGGACA TCGACAACAT GGCAGGAGTT
    TTCTACATGC TGGCTGCAGC TATGGCCCTC AGCCTCATCA CCTTCATCTG GGAGCACCTC
    TTCTACTGGA AGCTGCGCTT CTGCTTCACA GGCGTGTGTT CTGACCGGCC GGGGCTGCTC
    TTCTCCATCA GCAGGGGCAT CTACAGTTGC ATCCATGGAG TGCACATTGA AGAAAAGAAG
    AAGTCTCCAG ACTTCAATCT GACTGGGTCA CAGAGCAACA TGCTAAAGCT TCTCCGCTCA
    GCTAAAAACA TCTCCAACAT GTCCAACATG AACTCCTCGA GAATGGACTC ACCCAAAAGA
    GCTGCTGACT TCATCCAAAG AGGCTCACTT ATTGTGGACA TGGTTTCAGA CAAGGGAAAT
    TTGATATACT CAGATAACAG GTCCTTTCAA GGGAAGGACA GTATATTTGG AGAAAACATG
    AATGAACTGC AAACATTTGT GGCCAACAGG CACAAGGATA GTCTCAGTAA CTATGTGTTT
    CAGGGACAGC ATCCTCTCAC TCTCAATGAG TCCAACCCCA ACACAGTGGA GGTGGCTGTC
    AGCACTGAAT CCAAAGGGAA CTCCCGACCC CGGCAGCTTT GGAAGAAATC CATGGAGTCT
    CTACGCCAGG ATTCTCTAAA CCAGAACCCA GTCTCCCAGA GGGATGAGAA GACTGCAGAG
    AATAGGACCC ACTCCCTAAA GAGTCCTAGG TATCTTCCAG AAGAGGTAGC CCATTCTGAC
    ATTTCTGAAA CCTCAAGCCG GGCCACATGC CACAGGGAGC CAGATAACAA TAAGAACCAC
    AAGACCAAGG ATAACTTCAA AAGGTCAATG GCCTCTAAAT ACCCCAAGGA CTGTAGTGAG
    GTTGAACGTA CCTATGTGAA AACCAAAGCA AGTTCTCCCA GGGATAAGAT CTACACCATC
    GATGGTGAGA AGGAGCCCAG CTTCCACTTA GATCCTCCAC AGTTCATTGA AAACATAGTC
    CTGCCTGAGA ATGTGGACTT CCCAGATACC TACCAAGATC ACAATGAGAA TTTCCGCAAG
    GGGGACTCCA CGCTGCCCAT GAACAGGAAC CCACTACACA ATGAAGATGG GCTTCCCAAC
    AATGACCAGT ATAAACTCTA TGCCAAGCAC TTTACCTTGA AAGACAAGGG TTCCCCACAT
    AGTGAGGGCA GTGATCGATA TCGGCAGAAC TCCACGCATT GCAGAAGCTG CCTCTCAAAC
    CTGCCCACCT ACTCAGGCCA CTTTACCATG AGATCTCCTT TCAAGTGTGA TGCCTGTCTG
    CGGATGGGGA ACCTCTATGA CATTGATGAA GACCAGATGC TTCAGGAGAC AGGTAACCCA
    GCTACTCGTG AGGAGGCCTA CCAGCAGGAC TGGTCACAGA ACAACGCCCT CCAGTTACAG
    AAGAACAAGC TCAAGATTAA TCGACAGCAC TCCTACGATA ACATTCTCGA CAAACCCAGG
    GAGATAGACC TTAGCAGGCC CTCCCGGAGC ATAAGCCTCA AGGACAGGGA AAGGCTACTG
    GAGGGCAACT TATATGGGAG CCTGTTCAGT GTCCCCTCAA GCAAACTCTT GGGGAACAAA
    AGCTCCCTTT TCCCCCAAGG TCTGGAGGAC AGCAAGAGGA GCAAATCTCT CTTGCCAGAC
    CATACCTCTG ATAATCCTTT CCTCCACACG TATGGGGATG ACCAACGCTT AGTTATTGGG
    AGATGTCCCT CGGACCCTTA CAAACACTCA TTGCCATCAC AGGCAGTAAA TGACAGCTAT
    CTTCGGTCAT CCTTGAGGTC AACAGCATCC TATTGCTCCA GGGACAGTCG GGGCCACAGT
    GATGTGTATA TTTCAGAGCA TGTTATGCCT TATGCTGCAA ATAAGAATAA CATGTACTCT
    ACCCCCAGGG TTTTAAATTC CTGCAGCAAT AGACGCGTGT ACAAGAAAAT GCCTAGTATT
    GAATCTGATG TCTAA

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

    CloneID OMv33289
    Clone ID Related Accession (Same CDS sequence) XM_021184964.1 , XM_021184964.2
    Accession Version XM_021184964.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product glutamate receptor ionotropic, NMDA 2A
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021184964.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGGCAGAC TGGGCTACTG GACCTTGCTG GTATTGCCGG CCCTTCTGGT CTGGCACGGT 
    CCGGCGCAGA ACGCGGCGGC GGAGAAGGGT ACTCCGGCGC TGAACATTGC GGTGCTGCTG
    GGTCACAGCC ACGACGTGAC AGAACGCGAA CTTCGAAATC TGTGGGGCCC GGAGCAGGCA
    ACCGGCTTGC CCCTGGATGT GAACGTGGTG GCGTTATTGA TGAACCGCAC TGACCCTAAG
    AGCCTCATCA CGCATGTGTG CGACCTCATG TCCGGGGCGC GCATCCATGG CTTGGTGTTT
    GGAGATGATA CGGACCAAGA GGCTGTGGCT CAGATGCTGG ATTTTATCTC CTCACAGACT
    TTCATCCCCA TCTTGGGCAT TCATGGGGGT GCATCTATGA TCATGGCTGA CAAGGATCCG
    ACATCCACGT TCTTCCAGTT TGGAGCATCC ATCCAGCAGC AAGCCACGGT TATGCTGAAG
    ATCATGCAGG ATTATGACTG GCATGTCTTC TCCCTGGTCA CCACCATCTT CCCTGGCTAC
    AGAGACTTCA TCAGCTTCAT CAAGACAACA GTGGACAACA GCTTTGTGGG CTGGGATATG
    CAGAACGTGA TCACACTAGA CACCTCTTTT GAGGATGCCA AGACACAGGT CCAGCTGAAG
    AAGATCCATT CCTCTGTCAT CCTGCTCTAC AGCTCCAAGG ATGAGGCTGT CCTCATCCTG
    AGCGAGGCTC GCTCCCTTGG CCTCACCGGC TACGATTTCT TCTGGATTGT CCCCAGTTTG
    GTCTCTGGGA ACACAGAGCT CATCCCCAAA GAGTTTCCAT CGGGTCTCAT TTCAGTCTCT
    TACGACGACT GGGACTACAG CCTGGAGGCA AGAGTGAGAG ACGGTCTTGG GATCTTAACC
    ACTGCCGCAT CTTCCATGTT GGAGAAATTC TCCTACATTC CTGAGGCCAA GGCCAGCTGC
    TACGGACAGA CAGAGAAGCC GGAGACCCCG CTACACACTC TGCACCAATT TATGGTCAAT
    GTGACGTGGG ATGGCAAGGA TTTGTCCTTC ACGGAGGAAG GCTATCAGGT GCACCCCAGG
    CTTGTGGTGA TCGTGCTGAA TAAGGACCGG GAATGGGAAA AGGTGGGCAA GTGGGAGAAC
    CAGACTCTGA GCCTGCGGCA TGCTGTGTGG CCAAGGTACA AGTCCTTTTC TGACTGTGAG
    CCAGACGACA ACCACCTCAG CATTGTCACC TTGGAGGAAG CCCCCTTCGT CATCGTAGAA
    GACATAGACC CACTGACTGA GACCTGCGTC AGGAACACGG TACCCTGTCG GAAGTTTGTC
    AAGATCAACA ATTCAACCAA TGAAGGGATG AATGTGAAGA AGTGCTGCAA GGGGTTCTGC
    ATCGACATCC TTAAGAAACT GTCCAGAACT GTAAAGTTCA CCTATGACCT CTATCTGGTG
    ACCAATGGGA AGCATGGGAA AAAGGTTAAC AATGTGTGGA ATGGAATGAT AGGCGAAGTG
    GTCTATCAAC GAGCAGTCAT GGCCGTGGGC TCCCTCACCA TCAATGAGGA GCGTTCTGAA
    GTGGTGGACT TCTCCGTGCC CTTTGTGGAG ACAGGAATCA GCGTCATGGT CTCCAGGAGT
    AATGGCACTG TTTCCCCTTC TGCTTTCCTT GAACCCTTCA GCGCCTCTGT CTGGGTGATG
    ATGTTCGTGA TGCTGCTCAT TGTCTCTGCC ATTGCTGTCT TCGTTTTTGA ATACTTCAGT
    CCTGTTGGAT ACAACAGAAA CTTAGCCAAA GGGAAAGCTC CCCATGGGCC TTCTTTTACA
    ATTGGAAAAG CTATATGGCT CCTCTGGGGC CTGGTCTTCA ACAATTCTGT GCCTGTCCAG
    AACCCTAAAG GCACAACCAG CAAGATAATG GTGTCAGTGT GGGCCTTCTT TGCTGTCATC
    TTCCTTGCAA GTTACACAGC CAACCTGGCT GCCTTCATGA TCCAGGAGGA GTTTGTGGAC
    CAAGTGACTG GCCTCAGTGA CAAGAAGTTC CAGAGACCTC ATGACTATTC TCCGCCTTTC
    CGATTTGGGA CAGTACCTAA TGGAAGTACA GAAAGGAATA TTCGTAACAA CTACCCCTAT
    ATGCACCAGT ACATGACCAA ATTCAACCAG AGGGGTGTAG AGGATGCCTT GGTCAGCTTG
    AAAACTGGGA AGTTGGACGC TTTCATCTAT GACGCAGCTG TCTTGAACTA CAAGGCCGGG
    AGGGATGAAG GCTGTAAACT GGTGACCATT GGGAGCGGGT ACATCTTTGC CACCACAGGC
    TATGGAATTG CTCTGCAGAA GGGCTCACCC TGGAAGAGGC AGATTGACCT CGCTCTGCTC
    CAGTTTGTTG GTGACGGTGA GATGGAAGAG CTGGAGACAC TGTGGCTTAC GGGCATCTGC
    CATAACGAGA AGAATGAGGT GATGAGCAGC CAGCTGGACA TCGACAACAT GGCAGGAGTT
    TTCTACATGC TGGCTGCAGC TATGGCCCTC AGCCTCATCA CCTTCATCTG GGAGCACCTC
    TTCTACTGGA AGCTGCGCTT CTGCTTCACA GGCGTGTGTT CTGACCGGCC GGGGCTGCTC
    TTCTCCATCA GCAGGGGCAT CTACAGTTGC ATCCATGGAG TGCACATTGA AGAAAAGAAG
    AAGTCTCCAG ACTTCAATCT GACTGGGTCA CAGAGCAACA TGCTAAAGCT TCTCCGCTCA
    GCTAAAAACA TCTCCAACAT GTCCAACATG AACTCCTCGA GAATGGACTC ACCCAAAAGA
    GCTGCTGACT TCATCCAAAG AGGCTCACTT ATTGTGGACA TGGTTTCAGA CAAGGGAAAT
    TTGATATACT CAGATAACAG GTCCTTTCAA GGGAAGGACA GTATATTTGG AGAAAACATG
    AATGAACTGC AAACATTTGT GGCCAACAGG CACAAGGATA GTCTCAGTAA CTATGTGTTT
    CAGGGACAGC ATCCTCTCAC TCTCAATGAG TCCAACCCCA ACACAGTGGA GGTGGCTGTC
    AGCACTGAAT CCAAAGGGAA CTCCCGACCC CGGCAGCTTT GGAAGAAATC CATGGAGTCT
    CTACGCCAGG ATTCTCTAAA CCAGAACCCA GTCTCCCAGA GGGATGAGAA GACTGCAGAG
    AATAGGACCC ACTCCCTAAA GAGTCCTAGG TATCTTCCAG AAGAGGTAGC CCATTCTGAC
    ATTTCTGAAA CCTCAAGCCG GGCCACATGC CACAGGGAGC CAGATAACAA TAAGAACCAC
    AAGACCAAGG ATAACTTCAA AAGGTCAATG GCCTCTAAAT ACCCCAAGGA CTGTAGTGAG
    GTTGAACGTA CCTATGTGAA AACCAAAGCA AGTTCTCCCA GGGATAAGAT CTACACCATC
    GATGGTGAGA AGGAGCCCAG CTTCCACTTA GATCCTCCAC AGTTCATTGA AAACATAGTC
    CTGCCTGAGA ATGTGGACTT CCCAGATACC TACCAAGATC ACAATGAGAA TTTCCGCAAG
    GGGGACTCCA CGCTGCCCAT GAACAGGAAC CCACTACACA ATGAAGATGG GCTTCCCAAC
    AATGACCAGT ATAAACTCTA TGCCAAGCAC TTTACCTTGA AAGACAAGGG TTCCCCACAT
    AGTGAGGGCA GTGATCGATA TCGGCAGAAC TCCACGCATT GCAGAAGCTG CCTCTCAAAC
    CTGCCCACCT ACTCAGGCCA CTTTACCATG AGATCTCCTT TCAAGTGTGA TGCCTGTCTG
    CGGATGGGGA ACCTCTATGA CATTGATGAA GACCAGATGC TTCAGGAGAC AGGTAACCCA
    GCTACTCGTG AGGAGGCCTA CCAGCAGGAC TGGTCACAGA ACAACGCCCT CCAGTTACAG
    AAGAACAAGC TCAAGATTAA TCGACAGCAC TCCTACGATA ACATTCTCGA CAAACCCAGG
    GAGATAGACC TTAGCAGGCC CTCCCGGAGC ATAAGCCTCA AGGACAGGGA AAGGCTACTG
    GAGGGCAACT TATATGGGAG CCTGTTCAGT GTCCCCTCAA GCAAACTCTT GGGGAACAAA
    AGCTCCCTTT TCCCCCAAGG TCTGGAGGAC AGCAAGAGGA GCAAATCTCT CTTGCCAGAC
    CATACCTCTG ATAATCCTTT CCTCCACACG TATGGGGATG ACCAACGCTT AGTTATTGGG
    AGATGTCCCT CGGACCCTTA CAAACACTCA TTGCCATCAC AGGCAGTAAA TGACAGCTAT
    CTTCGGTCAT CCTTGAGGTC AACAGCATCC TATTGCTCCA GGGACAGTCG GGGCCACAGT
    GATGTGTATA TTTCAGAGCA TGTTATGCCT TATGCTGCAA ATAAGAATAA CATGTACTCT
    ACCCCCAGGG TTTTAAATTC CTGCAGCAAT AGACGCGTGT ACAAGAAAAT GCCTAGTATT
    GAATCTGATG TCTAA

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

    RefSeq XP_021040623.1
    CDS1152..5546
    Translation

    Target ORF information:

    RefSeq Version XM_021184964.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli glutamate ionotropic receptor NMDA type subunit 2A (Grin2a), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184964.2

    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
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGGCAGAC TGGGCTACTG GACCTTGCTG GTATTGCCGG CCCTTCTGGT CTGGCACGGT 
    CCGGCGCAGA ACGCGGCGGC GGAGAAGGGT ACTCCGGCGC TGAACATTGC GGTGCTGCTG
    GGTCACAGCC ACGACGTGAC AGAACGCGAA CTTCGAAATC TGTGGGGCCC GGAGCAGGCA
    ACCGGCTTGC CCCTGGATGT GAACGTGGTG GCGTTATTGA TGAACCGCAC TGACCCTAAG
    AGCCTCATCA CGCATGTGTG CGACCTCATG TCCGGGGCGC GCATCCATGG CTTGGTGTTT
    GGAGATGATA CGGACCAAGA GGCTGTGGCT CAGATGCTGG ATTTTATCTC CTCACAGACT
    TTCATCCCCA TCTTGGGCAT TCATGGGGGT GCATCTATGA TCATGGCTGA CAAGGATCCG
    ACATCCACGT TCTTCCAGTT TGGAGCATCC ATCCAGCAGC AAGCCACGGT TATGCTGAAG
    ATCATGCAGG ATTATGACTG GCATGTCTTC TCCCTGGTCA CCACCATCTT CCCTGGCTAC
    AGAGACTTCA TCAGCTTCAT CAAGACAACA GTGGACAACA GCTTTGTGGG CTGGGATATG
    CAGAACGTGA TCACACTAGA CACCTCTTTT GAGGATGCCA AGACACAGGT CCAGCTGAAG
    AAGATCCATT CCTCTGTCAT CCTGCTCTAC AGCTCCAAGG ATGAGGCTGT CCTCATCCTG
    AGCGAGGCTC GCTCCCTTGG CCTCACCGGC TACGATTTCT TCTGGATTGT CCCCAGTTTG
    GTCTCTGGGA ACACAGAGCT CATCCCCAAA GAGTTTCCAT CGGGTCTCAT TTCAGTCTCT
    TACGACGACT GGGACTACAG CCTGGAGGCA AGAGTGAGAG ACGGTCTTGG GATCTTAACC
    ACTGCCGCAT CTTCCATGTT GGAGAAATTC TCCTACATTC CTGAGGCCAA GGCCAGCTGC
    TACGGACAGA CAGAGAAGCC GGAGACCCCG CTACACACTC TGCACCAATT TATGGTCAAT
    GTGACGTGGG ATGGCAAGGA TTTGTCCTTC ACGGAGGAAG GCTATCAGGT GCACCCCAGG
    CTTGTGGTGA TCGTGCTGAA TAAGGACCGG GAATGGGAAA AGGTGGGCAA GTGGGAGAAC
    CAGACTCTGA GCCTGCGGCA TGCTGTGTGG CCAAGGTACA AGTCCTTTTC TGACTGTGAG
    CCAGACGACA ACCACCTCAG CATTGTCACC TTGGAGGAAG CCCCCTTCGT CATCGTAGAA
    GACATAGACC CACTGACTGA GACCTGCGTC AGGAACACGG TACCCTGTCG GAAGTTTGTC
    AAGATCAACA ATTCAACCAA TGAAGGGATG AATGTGAAGA AGTGCTGCAA GGGGTTCTGC
    ATCGACATCC TTAAGAAACT GTCCAGAACT GTAAAGTTCA CCTATGACCT CTATCTGGTG
    ACCAATGGGA AGCATGGGAA AAAGGTTAAC AATGTGTGGA ATGGAATGAT AGGCGAAGTG
    GTCTATCAAC GAGCAGTCAT GGCCGTGGGC TCCCTCACCA TCAATGAGGA GCGTTCTGAA
    GTGGTGGACT TCTCCGTGCC CTTTGTGGAG ACAGGAATCA GCGTCATGGT CTCCAGGAGT
    AATGGCACTG TTTCCCCTTC TGCTTTCCTT GAACCCTTCA GCGCCTCTGT CTGGGTGATG
    ATGTTCGTGA TGCTGCTCAT TGTCTCTGCC ATTGCTGTCT TCGTTTTTGA ATACTTCAGT
    CCTGTTGGAT ACAACAGAAA CTTAGCCAAA GGGAAAGCTC CCCATGGGCC TTCTTTTACA
    ATTGGAAAAG CTATATGGCT CCTCTGGGGC CTGGTCTTCA ACAATTCTGT GCCTGTCCAG
    AACCCTAAAG GCACAACCAG CAAGATAATG GTGTCAGTGT GGGCCTTCTT TGCTGTCATC
    TTCCTTGCAA GTTACACAGC CAACCTGGCT GCCTTCATGA TCCAGGAGGA GTTTGTGGAC
    CAAGTGACTG GCCTCAGTGA CAAGAAGTTC CAGAGACCTC ATGACTATTC TCCGCCTTTC
    CGATTTGGGA CAGTACCTAA TGGAAGTACA GAAAGGAATA TTCGTAACAA CTACCCCTAT
    ATGCACCAGT ACATGACCAA ATTCAACCAG AGGGGTGTAG AGGATGCCTT GGTCAGCTTG
    AAAACTGGGA AGTTGGACGC TTTCATCTAT GACGCAGCTG TCTTGAACTA CAAGGCCGGG
    AGGGATGAAG GCTGTAAACT GGTGACCATT GGGAGCGGGT ACATCTTTGC CACCACAGGC
    TATGGAATTG CTCTGCAGAA GGGCTCACCC TGGAAGAGGC AGATTGACCT CGCTCTGCTC
    CAGTTTGTTG GTGACGGTGA GATGGAAGAG CTGGAGACAC TGTGGCTTAC GGGCATCTGC
    CATAACGAGA AGAATGAGGT GATGAGCAGC CAGCTGGACA TCGACAACAT GGCAGGAGTT
    TTCTACATGC TGGCTGCAGC TATGGCCCTC AGCCTCATCA CCTTCATCTG GGAGCACCTC
    TTCTACTGGA AGCTGCGCTT CTGCTTCACA GGCGTGTGTT CTGACCGGCC GGGGCTGCTC
    TTCTCCATCA GCAGGGGCAT CTACAGTTGC ATCCATGGAG TGCACATTGA AGAAAAGAAG
    AAGTCTCCAG ACTTCAATCT GACTGGGTCA CAGAGCAACA TGCTAAAGCT TCTCCGCTCA
    GCTAAAAACA TCTCCAACAT GTCCAACATG AACTCCTCGA GAATGGACTC ACCCAAAAGA
    GCTGCTGACT TCATCCAAAG AGGCTCACTT ATTGTGGACA TGGTTTCAGA CAAGGGAAAT
    TTGATATACT CAGATAACAG GTCCTTTCAA GGGAAGGACA GTATATTTGG AGAAAACATG
    AATGAACTGC AAACATTTGT GGCCAACAGG CACAAGGATA GTCTCAGTAA CTATGTGTTT
    CAGGGACAGC ATCCTCTCAC TCTCAATGAG TCCAACCCCA ACACAGTGGA GGTGGCTGTC
    AGCACTGAAT CCAAAGGGAA CTCCCGACCC CGGCAGCTTT GGAAGAAATC CATGGAGTCT
    CTACGCCAGG ATTCTCTAAA CCAGAACCCA GTCTCCCAGA GGGATGAGAA GACTGCAGAG
    AATAGGACCC ACTCCCTAAA GAGTCCTAGG TATCTTCCAG AAGAGGTAGC CCATTCTGAC
    ATTTCTGAAA CCTCAAGCCG GGCCACATGC CACAGGGAGC CAGATAACAA TAAGAACCAC
    AAGACCAAGG ATAACTTCAA AAGGTCAATG GCCTCTAAAT ACCCCAAGGA CTGTAGTGAG
    GTTGAACGTA CCTATGTGAA AACCAAAGCA AGTTCTCCCA GGGATAAGAT CTACACCATC
    GATGGTGAGA AGGAGCCCAG CTTCCACTTA GATCCTCCAC AGTTCATTGA AAACATAGTC
    CTGCCTGAGA ATGTGGACTT CCCAGATACC TACCAAGATC ACAATGAGAA TTTCCGCAAG
    GGGGACTCCA CGCTGCCCAT GAACAGGAAC CCACTACACA ATGAAGATGG GCTTCCCAAC
    AATGACCAGT ATAAACTCTA TGCCAAGCAC TTTACCTTGA AAGACAAGGG TTCCCCACAT
    AGTGAGGGCA GTGATCGATA TCGGCAGAAC TCCACGCATT GCAGAAGCTG CCTCTCAAAC
    CTGCCCACCT ACTCAGGCCA CTTTACCATG AGATCTCCTT TCAAGTGTGA TGCCTGTCTG
    CGGATGGGGA ACCTCTATGA CATTGATGAA GACCAGATGC TTCAGGAGAC AGGTAACCCA
    GCTACTCGTG AGGAGGCCTA CCAGCAGGAC TGGTCACAGA ACAACGCCCT CCAGTTACAG
    AAGAACAAGC TCAAGATTAA TCGACAGCAC TCCTACGATA ACATTCTCGA CAAACCCAGG
    GAGATAGACC TTAGCAGGCC CTCCCGGAGC ATAAGCCTCA AGGACAGGGA AAGGCTACTG
    GAGGGCAACT TATATGGGAG CCTGTTCAGT GTCCCCTCAA GCAAACTCTT GGGGAACAAA
    AGCTCCCTTT TCCCCCAAGG TCTGGAGGAC AGCAAGAGGA GCAAATCTCT CTTGCCAGAC
    CATACCTCTG ATAATCCTTT CCTCCACACG TATGGGGATG ACCAACGCTT AGTTATTGGG
    AGATGTCCCT CGGACCCTTA CAAACACTCA TTGCCATCAC AGGCAGTAAA TGACAGCTAT
    CTTCGGTCAT CCTTGAGGTC AACAGCATCC TATTGCTCCA GGGACAGTCG GGGCCACAGT
    GATGTGTATA TTTCAGAGCA TGTTATGCCT TATGCTGCAA ATAAGAATAA CATGTACTCT
    ACCCCCAGGG TTTTAAATTC CTGCAGCAAT AGACGCGTGT ACAAGAAAAT GCCTAGTATT
    GAATCTGATG TCTAA

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

    CloneID OMv33290
    Clone ID Related Accession (Same CDS sequence) XM_021184965.1
    Accession Version XM_021184965.1 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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product glutamate receptor ionotropic, NMDA 2A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGGCAGAC TGGGCTACTG GACCTTGCTG GTATTGCCGG CCCTTCTGGT CTGGCACGGT 
    CCGGCGCAGA ACGCGGCGGC GGAGAAGGGT ACTCCGGCGC TGAACATTGC GGTGCTGCTG
    GGTCACAGCC ACGACGTGAC AGAACGCGAA CTTCGAAATC TGTGGGGCCC GGAGCAGGCA
    ACCGGCTTGC CCCTGGATGT GAACGTGGTG GCGTTATTGA TGAACCGCAC TGACCCTAAG
    AGCCTCATCA CGCATGTGTG CGACCTCATG TCCGGGGCGC GCATCCATGG CTTGGTGTTT
    GGAGATGATA CGGACCAAGA GGCTGTGGCT CAGATGCTGG ATTTTATCTC CTCACAGACT
    TTCATCCCCA TCTTGGGCAT TCATGGGGGT GCATCTATGA TCATGGCTGA CAAGGATCCG
    ACATCCACGT TCTTCCAGTT TGGAGCATCC ATCCAGCAGC AAGCCACGGT TATGCTGAAG
    ATCATGCAGG ATTATGACTG GCATGTCTTC TCCCTGGTCA CCACCATCTT CCCTGGCTAC
    AGAGACTTCA TCAGCTTCAT CAAGACAACA GTGGACAACA GCTTTGTGGG CTGGGATATG
    CAGAACGTGA TCACACTAGA CACCTCTTTT GAGGATGCCA AGACACAGGT CCAGCTGAAG
    AAGATCCATT CCTCTGTCAT CCTGCTCTAC AGCTCCAAGG ATGAGGCTGT CCTCATCCTG
    AGCGAGGCTC GCTCCCTTGG CCTCACCGGC TACGATTTCT TCTGGATTGT CCCCAGTTTG
    GTCTCTGGGA ACACAGAGCT CATCCCCAAA GAGTTTCCAT CGGGTCTCAT TTCAGTCTCT
    TACGACGACT GGGACTACAG CCTGGAGGCA AGAGTGAGAG ACGGTCTTGG GATCTTAACC
    ACTGCCGCAT CTTCCATGTT GGAGAAATTC TCCTACATTC CTGAGGCCAA GGCCAGCTGC
    TACGGACAGA CAGAGAAGCC GGAGACCCCG CTACACACTC TGCACCAATT TATGGTCAAT
    GTGACGTGGG ATGGCAAGGA TTTGTCCTTC ACGGAGGAAG GCTATCAGGT GCACCCCAGG
    CTTGTGGTGA TCGTGCTGAA TAAGGACCGG GAATGGGAAA AGGTGGGCAA GTGGGAGAAC
    CAGACTCTGA GCCTGCGGCA TGCTGTGTGG CCAAGGTACA AGTCCTTTTC TGACTGTGAG
    CCAGACGACA ACCACCTCAG CATTGTCACC TTGGAGGAAG CCCCCTTCGT CATCGTAGAA
    GACATAGACC CACTGACTGA GACCTGCGTC AGGAACACGG TACCCTGTCG GAAGTTTGTC
    AAGATCAACA ATTCAACCAA TGAAGGGATG AATGTGAAGA AGTGCTGCAA GGGGTTCTGC
    ATCGACATCC TTAAGAAACT GTCCAGAACT GTAAAGTTCA CCTATGACCT CTATCTGGTG
    ACCAATGGGA AGCATGGGAA AAAGGTTAAC AATGTGTGGA ATGGAATGAT AGGCGAAGTG
    GTCTATCAAC GAGCAGTCAT GGCCGTGGGC TCCCTCACCA TCAATGAGGA GCGTTCTGAA
    GTGGTGGACT TCTCCGTGCC CTTTGTGGAG ACAGGAATCA GCGTCATGGT CTCCAGGAGT
    AATGGCACTG TTTCCCCTTC TGCTTTCCTT GAACCCTTCA GCGCCTCTGT CTGGGTGATG
    ATGTTCGTGA TGCTGCTCAT TGTCTCTGCC ATTGCTGTCT TCGTTTTTGA ATACTTCAGT
    CCTGTTGGAT ACAACAGAAA CTTAGCCAAA GGGAAAGCTC CCCATGGGCC TTCTTTTACA
    ATTGGAAAAG CTATATGGCT CCTCTGGGGC CTGGTCTTCA ACAATTCTGT GCCTGTCCAG
    AACCCTAAAG GCACAACCAG CAAGATAATG GTGTCAGTGT GGGCCTTCTT TGCTGTCATC
    TTCCTTGCAA GTTACACAGC CAACCTGGCT GCCTTCATGA TCCAGGAGGA GTTTGTGGAC
    CAAGTGACTG GCCTCAGTGA CAAGAAGTTC CAGAGACCTC ATGACTATTC TCCGCCTTTC
    CGATTTGGGA CAGTACCTAA TGGAAGTACA GAAAGGAATA TTCGTAACAA CTACCCCTAT
    ATGCACCAGT ACATGACCAA ATTCAACCAG AGGGGTGTAG AGGATGCCTT GGTCAGCTTG
    AAAACTGGGA AGTTGGACGC TTTCATCTAT GACGCAGCTG TCTTGAACTA CAAGGCCGGG
    AGGGATGAAG GCTGTAAACT GGTGACCATT GGGAGCGGGT ACATCTTTGC CACCACAGGC
    TATGGAATTG CTCTGCAGAA GGGCTCACCC TGGAAGAGGC AGATTGACCT CGCTCTGCTC
    CAGTTTGTTG GTGACGGTGA GATGGAAGAG CTGGAGACAC TGTGGCTTAC GGGCATCTGC
    CATAACGAGA AGAATGAGGT GATGAGCAGC CAGCTGGACA TCGACAACAT GGCAGGAGTT
    TTCTACATGC TGGCTGCAGC TATGGCCCTC AGCCTCATCA CCTTCATCTG GGAGCACCTC
    TTCTACTGGA AGCTGCGCTT CTGCTTCACA GGCGTGTGTT CTGACCGGCC GGGGCTGCTC
    TTCTCCATCA GCAGGGGCAT CTACAGTTGC ATCCATGGAG TGCACATTGA AGAAAAGAAG
    AAGTCTCCAG ACTTCAATCT GACTGGGTCA CAGAGCAACA TGCTAAAGCT TCTCCGCTCA
    GCTAAAAACA TCTCCAACAT GTCCAACATG AACTCCTCGA GAATGGACTC ACCCAAAAGA
    GCTGCTGACT TCATCCAAAG AGGCTCACTT ATTGTGGACA TGGTTTCAGA CAAGGGAAAT
    TTGATATACT CAGATAACAG GTCCTTTCAA GGGAAGGACA GTATATTTGG AGAAAACATG
    AATGAACTGC AAACATTTGT GGCCAACAGG CACAAGGATA GTCTCAGTAA CTATGTGTTT
    CAGGGACAGC ATCCTCTCAC TCTCAATGAG TCCAACCCCA ACACAGTGGA GGTGGCTGTC
    AGCACTGAAT CCAAAGGGAA CTCCCGACCC CGGCAGCTTT GGAAGAAATC CATGGAGTCT
    CTACGCCAGG ATTCTCTAAA CCAGAACCCA GTCTCCCAGA GGGATGAGAA GACTGCAGAG
    AATAGGACCC ACTCCCTAAA GAGTCCTAGG TATCTTCCAG AAGAGGTAGC CCATTCTGAC
    ATTTCTGAAA CCTCAAGCCG GGCCACATGC CACAGGGAGC CAGATAACAA TAAGAACCAC
    AAGACCAAGG ATAACTTCAA AAGGTCAATG GCCTCTAAAT ACCCCAAGGA CTGTAGTGAG
    GTTGAACGTA CCTATGTGAA AACCAAAGCA AGTTCTCCCA GGGATAAGAT CTACACCATC
    GATGGTGAGA AGGAGCCCAG CTTCCACTTA GATCCTCCAC AGTTCATTGA AAACATAGTC
    CTGCCTGAGA ATGTGGACTT CCCAGATACC TACCAAGATC ACAATGAGAA TTTCCGCAAG
    GGGGACTCCA CGCTGCCCAT GAACAGGAAC CCACTACACA ATGAAGATGG GCTTCCCAAC
    AATGACCAGT ATAAACTCTA TGCCAAGCAC TTTACCTTGA AAGACAAGGG TTCCCCACAT
    AGTGAGGGCA GTGATCGATA TCGGCAGAAC TCCACGCATT GCAGAAGCTG CCTCTCAAAC
    CTGCCCACCT ACTCAGGCCA CTTTACCATG AGATCTCCTT TCAAGTGTGA TGCCTGTCTG
    CGGATGGGGA ACCTCTATGA CATTGATGAA GACCAGATGC TTCAGGAGAC GGGGATGACC
    AACGCTTAG

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

    RefSeq XP_021040624.1
    CDS1..3789
    Translation

    Target ORF information:

    RefSeq Version XM_021184965.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli glutamate ionotropic receptor NMDA type subunit 2A (Grin2a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184965.1

    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
    ATGGGCAGAC TGGGCTACTG GACCTTGCTG GTATTGCCGG CCCTTCTGGT CTGGCACGGT 
    CCGGCGCAGA ACGCGGCGGC GGAGAAGGGT ACTCCGGCGC TGAACATTGC GGTGCTGCTG
    GGTCACAGCC ACGACGTGAC AGAACGCGAA CTTCGAAATC TGTGGGGCCC GGAGCAGGCA
    ACCGGCTTGC CCCTGGATGT GAACGTGGTG GCGTTATTGA TGAACCGCAC TGACCCTAAG
    AGCCTCATCA CGCATGTGTG CGACCTCATG TCCGGGGCGC GCATCCATGG CTTGGTGTTT
    GGAGATGATA CGGACCAAGA GGCTGTGGCT CAGATGCTGG ATTTTATCTC CTCACAGACT
    TTCATCCCCA TCTTGGGCAT TCATGGGGGT GCATCTATGA TCATGGCTGA CAAGGATCCG
    ACATCCACGT TCTTCCAGTT TGGAGCATCC ATCCAGCAGC AAGCCACGGT TATGCTGAAG
    ATCATGCAGG ATTATGACTG GCATGTCTTC TCCCTGGTCA CCACCATCTT CCCTGGCTAC
    AGAGACTTCA TCAGCTTCAT CAAGACAACA GTGGACAACA GCTTTGTGGG CTGGGATATG
    CAGAACGTGA TCACACTAGA CACCTCTTTT GAGGATGCCA AGACACAGGT CCAGCTGAAG
    AAGATCCATT CCTCTGTCAT CCTGCTCTAC AGCTCCAAGG ATGAGGCTGT CCTCATCCTG
    AGCGAGGCTC GCTCCCTTGG CCTCACCGGC TACGATTTCT TCTGGATTGT CCCCAGTTTG
    GTCTCTGGGA ACACAGAGCT CATCCCCAAA GAGTTTCCAT CGGGTCTCAT TTCAGTCTCT
    TACGACGACT GGGACTACAG CCTGGAGGCA AGAGTGAGAG ACGGTCTTGG GATCTTAACC
    ACTGCCGCAT CTTCCATGTT GGAGAAATTC TCCTACATTC CTGAGGCCAA GGCCAGCTGC
    TACGGACAGA CAGAGAAGCC GGAGACCCCG CTACACACTC TGCACCAATT TATGGTCAAT
    GTGACGTGGG ATGGCAAGGA TTTGTCCTTC ACGGAGGAAG GCTATCAGGT GCACCCCAGG
    CTTGTGGTGA TCGTGCTGAA TAAGGACCGG GAATGGGAAA AGGTGGGCAA GTGGGAGAAC
    CAGACTCTGA GCCTGCGGCA TGCTGTGTGG CCAAGGTACA AGTCCTTTTC TGACTGTGAG
    CCAGACGACA ACCACCTCAG CATTGTCACC TTGGAGGAAG CCCCCTTCGT CATCGTAGAA
    GACATAGACC CACTGACTGA GACCTGCGTC AGGAACACGG TACCCTGTCG GAAGTTTGTC
    AAGATCAACA ATTCAACCAA TGAAGGGATG AATGTGAAGA AGTGCTGCAA GGGGTTCTGC
    ATCGACATCC TTAAGAAACT GTCCAGAACT GTAAAGTTCA CCTATGACCT CTATCTGGTG
    ACCAATGGGA AGCATGGGAA AAAGGTTAAC AATGTGTGGA ATGGAATGAT AGGCGAAGTG
    GTCTATCAAC GAGCAGTCAT GGCCGTGGGC TCCCTCACCA TCAATGAGGA GCGTTCTGAA
    GTGGTGGACT TCTCCGTGCC CTTTGTGGAG ACAGGAATCA GCGTCATGGT CTCCAGGAGT
    AATGGCACTG TTTCCCCTTC TGCTTTCCTT GAACCCTTCA GCGCCTCTGT CTGGGTGATG
    ATGTTCGTGA TGCTGCTCAT TGTCTCTGCC ATTGCTGTCT TCGTTTTTGA ATACTTCAGT
    CCTGTTGGAT ACAACAGAAA CTTAGCCAAA GGGAAAGCTC CCCATGGGCC TTCTTTTACA
    ATTGGAAAAG CTATATGGCT CCTCTGGGGC CTGGTCTTCA ACAATTCTGT GCCTGTCCAG
    AACCCTAAAG GCACAACCAG CAAGATAATG GTGTCAGTGT GGGCCTTCTT TGCTGTCATC
    TTCCTTGCAA GTTACACAGC CAACCTGGCT GCCTTCATGA TCCAGGAGGA GTTTGTGGAC
    CAAGTGACTG GCCTCAGTGA CAAGAAGTTC CAGAGACCTC ATGACTATTC TCCGCCTTTC
    CGATTTGGGA CAGTACCTAA TGGAAGTACA GAAAGGAATA TTCGTAACAA CTACCCCTAT
    ATGCACCAGT ACATGACCAA ATTCAACCAG AGGGGTGTAG AGGATGCCTT GGTCAGCTTG
    AAAACTGGGA AGTTGGACGC TTTCATCTAT GACGCAGCTG TCTTGAACTA CAAGGCCGGG
    AGGGATGAAG GCTGTAAACT GGTGACCATT GGGAGCGGGT ACATCTTTGC CACCACAGGC
    TATGGAATTG CTCTGCAGAA GGGCTCACCC TGGAAGAGGC AGATTGACCT CGCTCTGCTC
    CAGTTTGTTG GTGACGGTGA GATGGAAGAG CTGGAGACAC TGTGGCTTAC GGGCATCTGC
    CATAACGAGA AGAATGAGGT GATGAGCAGC CAGCTGGACA TCGACAACAT GGCAGGAGTT
    TTCTACATGC TGGCTGCAGC TATGGCCCTC AGCCTCATCA CCTTCATCTG GGAGCACCTC
    TTCTACTGGA AGCTGCGCTT CTGCTTCACA GGCGTGTGTT CTGACCGGCC GGGGCTGCTC
    TTCTCCATCA GCAGGGGCAT CTACAGTTGC ATCCATGGAG TGCACATTGA AGAAAAGAAG
    AAGTCTCCAG ACTTCAATCT GACTGGGTCA CAGAGCAACA TGCTAAAGCT TCTCCGCTCA
    GCTAAAAACA TCTCCAACAT GTCCAACATG AACTCCTCGA GAATGGACTC ACCCAAAAGA
    GCTGCTGACT TCATCCAAAG AGGCTCACTT ATTGTGGACA TGGTTTCAGA CAAGGGAAAT
    TTGATATACT CAGATAACAG GTCCTTTCAA GGGAAGGACA GTATATTTGG AGAAAACATG
    AATGAACTGC AAACATTTGT GGCCAACAGG CACAAGGATA GTCTCAGTAA CTATGTGTTT
    CAGGGACAGC ATCCTCTCAC TCTCAATGAG TCCAACCCCA ACACAGTGGA GGTGGCTGTC
    AGCACTGAAT CCAAAGGGAA CTCCCGACCC CGGCAGCTTT GGAAGAAATC CATGGAGTCT
    CTACGCCAGG ATTCTCTAAA CCAGAACCCA GTCTCCCAGA GGGATGAGAA GACTGCAGAG
    AATAGGACCC ACTCCCTAAA GAGTCCTAGG TATCTTCCAG AAGAGGTAGC CCATTCTGAC
    ATTTCTGAAA CCTCAAGCCG GGCCACATGC CACAGGGAGC CAGATAACAA TAAGAACCAC
    AAGACCAAGG ATAACTTCAA AAGGTCAATG GCCTCTAAAT ACCCCAAGGA CTGTAGTGAG
    GTTGAACGTA CCTATGTGAA AACCAAAGCA AGTTCTCCCA GGGATAAGAT CTACACCATC
    GATGGTGAGA AGGAGCCCAG CTTCCACTTA GATCCTCCAC AGTTCATTGA AAACATAGTC
    CTGCCTGAGA ATGTGGACTT CCCAGATACC TACCAAGATC ACAATGAGAA TTTCCGCAAG
    GGGGACTCCA CGCTGCCCAT GAACAGGAAC CCACTACACA ATGAAGATGG GCTTCCCAAC
    AATGACCAGT ATAAACTCTA TGCCAAGCAC TTTACCTTGA AAGACAAGGG TTCCCCACAT
    AGTGAGGGCA GTGATCGATA TCGGCAGAAC TCCACGCATT GCAGAAGCTG CCTCTCAAAC
    CTGCCCACCT ACTCAGGCCA CTTTACCATG AGATCTCCTT TCAAGTGTGA TGCCTGTCTG
    CGGATGGGGA ACCTCTATGA CATTGATGAA GACCAGATGC TTCAGGAGAC GGGGATGACC
    AACGCTTAG

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