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GRIN2D cDNA ORF clone, Homo sapiens(Human)

Gene Symbol GRIN2D
Entrez Gene ID 2906
Full Name glutamate ionotropic receptor NMDA type subunit 2D
Synonyms EB11,EIEE46,GluN2D,NMDAR2D,NR2D
General protein information
Preferred Names

glutamate ionotropic receptor NMDA type subunit 2D

Names

glutamate receptor ionotropic, NMDA 2D
N-methyl D-aspartate receptor subtype 2D
N-methyl-d-aspartate receptor subunit 2D
estrogen receptor binding CpG island
glutamate [NMDA] receptor subunit epsilon-4
glutamate receptor, ionotropic, N-methyl D-aspartate 2D

Gene Type protein-coding
Organism Homo sapiens(Human)
Genome

19

19q13.33

Summary N-methyl-D-aspartate (NMDA) receptors are a class of ionotropic glutamate receptors. NMDA channel has been shown to be involved in long-term potentiation, an activity-dependent increase in the efficiency of synaptic transmission thought to underlie certain kinds of memory and learning. NMDA receptor channels are heteromers composed of the key receptor subunit NMDAR1 (GRIN1) and 1 or more of the 4 NMDAR2 subunits: NMDAR2A (GRIN2A), NMDAR2B (GRIN2B), NMDAR2C (GRIN2C), and NMDAR2D (GRIN2D). [provided by RefSeq, Mar 2010].
Disorder MIM:

602717


mRNA and Protein(s)

mRNA Protein Name
XM_011526872.1 XP_011525174.1 glutamate receptor ionotropic, NMDA 2D isoform X1
NM_000836.2 NP_000827.2 glutamate receptor ionotropic, NMDA 2D precursor



Anopheles gambiae (African malaria mosquito) AgaP_AGAP012429 XP_314428.4
Xenopus tropicalis (tropical clawed frog) grin2d XP_002935032.1
Homo sapiens (human) GRIN2D NP_000827.2
Drosophila melanogaster (fruit fly) Nmdar2 NP_001162637.1
Canis lupus familiaris (dog) GRIN2D XP_005616409.1
Mus musculus (house mouse) Grin2d NP_032198.2
Rattus norvegicus (Norway rat) Grin2d NP_073634.1
Bos taurus (cattle) GRIN2D XP_002695241.2
Caenorhabditis elegans (roundworm) nmr-2 NP_001256640.1


Related articles in PubMed

GRIN2D Recurrent De Novo Dominant Mutation Causes a Severe Epileptic Encephalopathy Treatable with NMDA Receptor Channel Blockers.
Li D, Yuan H, Ortiz-Gonzalez XR, Marsh ED, Tian L, McCormick EM, Kosobucki GJ, Chen W, Schulien AJ, Chiavacci R, Tankovic A, Naase C, Brueckner F, von Stülpnagel-Steinbeis C, Hu C, Kusumoto H, Hedrich UB, Elsen G, Hörtnagel K, Aizenman E, Lemke JR, Hakonarson H, Traynelis SF, Falk MJ
American journal of human genetics99(4)802-816(2016 Oct)

Pilot study of iPS-derived neural cells to examine biologic effects of alcohol on human neurons in vitro.
Lieberman R, Levine ES, Kranzler HR, Abreu C, Covault J
Alcoholism, clinical and experimental research36(10)1678-87(2012 Oct)

Rare mutations in N-methyl-D-aspartate glutamate receptors in autism spectrum disorders and schizophrenia.
Tarabeux J, Kebir O, Gauthier J, Hamdan FF, Xiong L, Piton A, Spiegelman D, Henrion É, Millet B, , Fathalli F, Joober R, Rapoport JL, DeLisi LE, Fombonne É, Mottron L, Forget-Dubois N, Boivin M, Michaud JL, Drapeau P, Lafrenière RG, Rouleau GA, Krebs MO
Translational psychiatry1e55(2011 Nov)

[Chromosomal instability, microsatellite instability and CpG island methylator phenotype: roles in small intestinal carcinogenesis].
Bläker H, Warth A, Kloor M, Schirmacher P
Der Pathologe32 Suppl 2181-4(2011 Nov)

Association analysis of the glutamic acid decarboxylase 2 and the glutamine synthetase genes (GAD2, GLUL) with schizophrenia.
Arai S, Shibata H, Sakai M, Ninomiya H, Iwata N, Ozaki N, Fukumaki Y
Psychiatric genetics19(1)6-13(2009 Feb)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

This study showed that the higher GluN2D mRNA level in healthy but not in depressed pregnant women as compared to non-pregnant individuals.
Title: AMPA, NMDA and kainate glutamate receptor subunits are expressed in human peripheral blood mononuclear cells (PBMCs) where the expression of GluK4 is altered by pregnancy and GluN2D by depression in pregnant women.

GRIN2D Recurrent De Novo Dominant Mutation Causes a Severe Epileptic Encephalopathy Treatable with NMDA Receptor Channel Blockers
Title: GRIN2D Recurrent De Novo Dominant Mutation Causes a Severe Epileptic Encephalopathy Treatable with NMDA Receptor Channel Blockers.

After 7 days of chronic alcohol exposure, there are significant increases in mRNA expression of GRIN2D in cultured neurons derived from alcoholic subjects, but not in cultures from nonalcoholics.
Title: Pilot study of iPS-derived neural cells to examine biologic effects of alcohol on human neurons in vitro.

Absence of truncating mutation in GRIN1 and GRIN2D genes in patients with autism spectrum disorder and schizophrenia and controls.
Title: Rare mutations in N-methyl-D-aspartate glutamate receptors in autism spectrum disorders and schizophrenia.

In microsatellite instable and microsatellite and chromosomally stable cancers, CIMP and BRAF/KRAS mutations are similarly distributed indicating common mechanisms of tumor initiation or progression in the molecular pathogenesis.
Title: [Chromosomal instability, microsatellite instability and CpG island methylator phenotype: roles in small intestinal carcinogenesis].

The following GRIN2D gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GRIN2D 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.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu30647 NM_000836.2
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Homo sapiens glutamate ionotropic receptor NMDA type subunit 2D (GRIN2D), mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
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OHu30647 XM_011526872.1
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Homo sapiens glutamate ionotropic receptor NMDA type subunit 2D (GRIN2D), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
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** 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.


CloneID OHu30647
Clone ID Related Accession (Same CDS sequence) XM_011526872.1 , NM_000836.2
Accession Version NM_000836.2 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4011bp)
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 2017-04-30
Organism Homo sapiens(Human)
Product glutamate receptor ionotropic, NMDA 2D precursor
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from U77783.1, AB209292.1 and AW139866.1. This sequence is a reference standard in the RefSeqGene project. On Jul 26, 2007 this sequence version replaced NM_000836.1. 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 :: U77783.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

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ATGCGCGGCG CCGGTGGCCC CCGCGGCCCT CGGGGCCCCG CTAAGATGCT GCTGCTGCTG 
GCGCTGGCCT GCGCCAGCCC GTTCCCGGAG GAGGCGCCGG GGCCGGGCGG GGCCGGTGGG
CCCGGCGGCG GCCTCGGCGG GGCGCGGCCG CTCAACGTGG CGCTCGTGTT CTCGGGGCCC
GCGTACGCGG CCGAGGCGGC ACGCCTGGGC CCGGCCGTGG CGGCGGCGGT GCGCAGCCCG
GGCCTAGACG TGCGGCCCGT GGCGCTGGTG CTCAACGGCT CGGACCCGCG CAGCCTCGTG
CTGCAGCTCT GCGACCTGCT GTCGGGGTTG CGCGTGCACG GCGTGGTCTT CGAAGACGAC
TCGCGCGCGC CCGCCGTCGC GCCCATCCTC GACTTCCTGT CGGCGCAGAC CTCGCTGCCC
ATCGTGGCCG TGCACGGCGG CGCCGCGCTC GTGCTCACGC CCAAGGAGAA GGGCTCCACC
TTCCTGCAGC TGGGCTCTTC CACCGAGCAA CAGCTTCAGG TCATCTTTGA GGTGCTGGAG
GAGTATGACT GGACGTCCTT TGTAGCCGTG ACCACTCGTG CCCCTGGCCA CCGGGCCTTC
CTGTCCTACA TTGAGGTGCT GACTGACGGT AGTCTGGTGG GCTGGGAGCA CCGCGGAGCG
CTGACGCTGG ACCCTGGGGC GGGCGAGGCC GTGCTCAGTG CCCAGCTCCG CAGTGTCAGC
GCGCAGATCC GCCTGCTCTT CTGCGCCCGA GAGGAGGCCG AGCCCGTGTT CCGCGCAGCT
GAGGAGGCTG GCCTCACTGG ATCTGGCTAC GTCTGGTTCA TGGTGGGGCC CCAGCTGGCT
GGAGGCGGGG GCTCTGGGGC CCCTGGTGAG CCCCCTCTTC TGCCAGGAGG CGCCCCCCTG
CCTGCCGGGC TGTTTGCAGT GCGCTCGGCT GGCTGGCGGG ATGACCTGGC TCGGCGAGTG
GCAGCTGGCG TGGCCGTAGT GGCCAGAGGT GCCCAGGCCC TGCTGCGTGA TTATGGTTTC
CTTCCTGAGC TCGGCCACGA CTGTCGCGCC CAGAACCGCA CCCACCGCGG CGAGAGTCTG
CATAGGTACT TCATGAACAT CACGTGGGAT AACCGGGATT ACTCCTTCAA TGAGGACGGC
TTCCTAGTGA ACCCCTCCCT GGTGGTCATC TCCCTCACCA GAGACAGGAC GTGGGAGGTG
GTGGGCAGCT GGGAGCAGCA GACGCTCCGC CTCAAGTACC CGCTGTGGTC CCGCTATGGT
CGCTTCCTGC AGCCAGTGGA CGACACGCAG CACCTCACGG TGGCCACGCT GGAGGAAAGG
CCGTTTGTCA TCGTGGAGCC TGCAGACCCT ATCAGCGGCA CCTGCATCCG AGACTCCGTC
CCCTGCCGGA GCCAGCTCAA CCGAACCCAC AGCCCTCCAC CGGATGCCCC CCGCCCGGAA
AAGCGCTGCT GCAAGGGTTT CTGCATCGAC ATTCTGAAGC GGCTGGCGCA TACCATCGGC
TTCAGCTACG ACCTCTACCT GGTCACCAAT GGCAAGCACG GAAAGAAGAT CGATGGCGTC
TGGAACGGCA TGATCGGGGA GGTGTTCTAC CAGCGCGCAG ACATGGCCAT CGGCTCCCTC
ACCATCAACG AGGAGCGCTC CGAGATCGTG GACTTCTCCG TCCCCTTCGT GGAGACCGGC
ATCAGCGTCA TGGTGGCGCG CAGCAATGGC ACGGTGTCCC CCTCGGCCTT CCTCGAGCCC
TACAGCCCCG CCGTGTGGGT GATGATGTTC GTCATGTGCC TCACTGTGGT CGCCGTCACT
GTTTTCATCT TCGAGTACCT CAGTCCTGTT GGTTACAACC GCAGCCTGGC CACGGGCAAG
CGCCCTGGCG GTTCAACCTT CACCATTGGG AAATCCATCT GGCTGCTCTG GGCCCTGGTG
TTCAATAATT CGGTGCCCGT GGAGAACCCC CGGGGAACCA CCAGCAAAAT CATGGTGCTG
GTGTGGGCCT TCTTCGCCGT CATCTTCCTC GCCAGCTACA CAGCCAACCT GGCCGCCTTC
ATGATCCAGG AGGAGTACGT GGATACTGTG TCTGGGCTCA GTGACCGCAA GTTCCAGAGG
CCCCAGGAGC AGTACCCGCC CCTGAAGTTT GGGACCGTGC CCAACGGCTC CACGGAGAAG
AACATCCGCA GCAACTATCC CGACATGCAC AGCTACATGG TGCGCTACAA CCAGCCCCGC
GTAGAGGAAG CGCTCACTCA GCTCAAGGCA GGGAAGCTGG ACGCCTTCAT CTACGATGCT
GCAGTGCTCA ATTACATGGC CCGCAAGGAC GAGGGCTGCA AGCTTGTCAC CATCGGCTCC
GGCAAGGTCT TCGCCACGAC AGGCTATGGC ATCGCCCTGC ACAAGGGCTC CCGCTGGAAG
CGGCCCATCG ACCTGGCGTT GCTGCAGTTC CTGGGGGATG ATGAGATCGA GATGCTGGAG
CGGCTGTGGC TCTCTGGGAT CTGCCACAAT GACAAAATCG AGGTGATGAG CAGCAAGCTG
GACATCGACA ACATGGCGGG CGTCTTCTAC ATGCTCCTGG TGGCCATGGG CCTGTCCCTG
CTGGTCTTCG CCTGGGAGCA CCTGGTGTAC TGGCGCCTGC GGCACTGCCT GGGGCCCACC
CACCGCATGG ACTTCCTGCT GGCCTTCTCC AGGGGCATGT ACAGCTGCTG CAGCGCTGAG
GCCGCCCCAC CGCCCGCCAA GCCCCCGCCG CCGCCACAGC CCCTGCCCAG CCCCGCGTAC
CCCGCGCCGC GGCCGGCTCC CGGGCCCGCA CCTTTCGTGC CCCGCGAGCG CGCCTCAGTG
GACCGCTGGC GCCGGACCAA GGGCGCGGGG CCGCCGGGGG GCGCGGGCCT GGCCGACGGC
TTCCACCGCT ACTACGGCCC CATCGAGCCG CAGGGCCTAG GCCTCGGCCT GGGCGAAGCG
CGCGCGGCAC CGCGGGGCGC AGCCGGGCGC CCGCTGTCCC CGCCGGCCGC TCAGCCCCCG
CAGAAGCCGC CGCCCTCCTA TTTCGCCATC GTACGCGACA AGGAGCCAGC CGAGCCCCCC
GCCGGCGCCT TCCCCGGCTT CCCGTCGCCG CCCGCGCCCC CCGCCGCCGC GGCCACCGCC
GTCGGGCCGC CACTCTGCCG CTTGGCCTTC GAGGACGAGA GCCCGCCGGC GCCCGCGCGG
TGGCCGCGCT CGGACCCCGA GAGCCAACCC CTGCTGGGGC CAGGCGCGGG CGGCGCGGGG
GGCACGGGGG GCGCAGGCGG AGGAGCCCCG GCCGCTCCGC CCCCGTGCCG CGCCGCGCCG
CCCCCGTGCC CTTACCTCGA TCTCGAGCCG TCGCCGTCGG ACTCGGAGGA CTCGGAGAGC
CTGGGCGGCG CGTCGCTGGG CGGCCTGGAG CCCTGGTGGT TCGCCGACTT CCCTTACCCG
TATGCCGAGC GCCTCGGGCC GCCGCCCGGC CGCTACTGGT CGGTCGACAA GCTCGGGGGC
TGGCGCGCCG GGAGCTGGGA CTACCTGCCC CCGCGCAGCG GTCCGGCCGC CTGGCACTGT
CGGCACTGCG CCAGCCTGGA GCTGCTGCCG CCGCCGCGCC ATCTCAGCTG CTCGCACGAT
GGCCTGGACG GCGGCTGGTG GGCGCCACCG CCTCCACCCT GGGCCGCCGG GCCCCTGCCC
CGACGCCGGG CCCGCTGCGG GTGCCCGCGG TCGCACCCGC ACCGCCCGCG GGCCTCGCAC
CGCACGCCCG CCGCCGCCGC GCCCCACCAC CACAGGCACC GGCGCGCCGC TGGGGGCTGG
GACCTCCCGC CGCCCGCGCC CACCTCGCGC TCGCTCGAGG ACCTCAGCTC GTGCCCTCGC
GCCGCCCCTG CGCGCAGGCT TACCGGGCCC TCCCGCCACG CTCGCAGGTG TCCGCACGCC
GCGCACTGGG GGCCGCCGCT GCCCACAGCT TCCCACCGGA GACACCGGGG CGGGGACCTG
GGCACCCGCA GGGGCTCGGC GCACTTCTCT AGCCTCGAGT CCGAGGTATG A

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

RefSeq NP_000827.2
CDS89..4099
Misc Feature(1)56..58
Misc Feature(2)233..1342
Misc Feature(3)order(377..379,383..388,395..400,497..499,704..706,713..715,755..757,761..763)
Misc Feature(4)1376..2578
Misc Feature(5)1484..>1795
Misc Feature(6)order(1703..1714,1718..1720,1724..1732,2168..2170,2234..2239,2249..2251,2363..2365,2438..2446,2453..2455,2471..2473,2519..2530,2537..2539)
Misc Feature(7)order(1703..1711,1724..1726,2234..2242,2360..2365)
Misc Feature(8)1838..2656
Misc Feature(9)1838..1900
Misc Feature(10)2012..2014
Misc Feature(11)2057..2119
Misc Feature(12)2621..2683
Misc Feature(13)2687..>2776
Misc Feature(14)4034..4036
Misc Feature(15)4064..4066
Misc Feature(16)4088..4096
Exon (1)1..62
Exon (2)63..553
Exon (3)554..1173
Exon (4)1174..1288
Exon (5)1289..1500
Exon (6)1501..1669
Exon (7)1670..1823
Exon (8)1824..1949
Exon (9)1950..2179
Exon (10)2180..2340
Exon (11)2341..2528
Exon (12)2529..2761
Exon (13)2762..5093
Translation

Target ORF information:

RefSeq Version NM_000836.2
Organism Homo sapiens(Human)
Definition Homo sapiens glutamate ionotropic receptor NMDA type subunit 2D (GRIN2D), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_000836.2

ORF Insert Sequence:

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1981
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3181
3241
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3721
3781
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3961
ATGCGCGGCG CCGGTGGCCC CCGCGGCCCT CGGGGCCCCG CTAAGATGCT GCTGCTGCTG 
GCGCTGGCCT GCGCCAGCCC GTTCCCGGAG GAGGCGCCGG GGCCGGGCGG GGCCGGTGGG
CCCGGCGGCG GCCTCGGCGG GGCGCGGCCG CTCAACGTGG CGCTCGTGTT CTCGGGGCCC
GCGTACGCGG CCGAGGCGGC ACGCCTGGGC CCGGCCGTGG CGGCGGCGGT GCGCAGCCCG
GGCCTAGACG TGCGGCCCGT GGCGCTGGTG CTCAACGGCT CGGACCCGCG CAGCCTCGTG
CTGCAGCTCT GCGACCTGCT GTCGGGGTTG CGCGTGCACG GCGTGGTCTT CGAAGACGAC
TCGCGCGCGC CCGCCGTCGC GCCCATCCTC GACTTCCTGT CGGCGCAGAC CTCGCTGCCC
ATCGTGGCCG TGCACGGCGG CGCCGCGCTC GTGCTCACGC CCAAGGAGAA GGGCTCCACC
TTCCTGCAGC TGGGCTCTTC CACCGAGCAA CAGCTTCAGG TCATCTTTGA GGTGCTGGAG
GAGTATGACT GGACGTCCTT TGTAGCCGTG ACCACTCGTG CCCCTGGCCA CCGGGCCTTC
CTGTCCTACA TTGAGGTGCT GACTGACGGT AGTCTGGTGG GCTGGGAGCA CCGCGGAGCG
CTGACGCTGG ACCCTGGGGC GGGCGAGGCC GTGCTCAGTG CCCAGCTCCG CAGTGTCAGC
GCGCAGATCC GCCTGCTCTT CTGCGCCCGA GAGGAGGCCG AGCCCGTGTT CCGCGCAGCT
GAGGAGGCTG GCCTCACTGG ATCTGGCTAC GTCTGGTTCA TGGTGGGGCC CCAGCTGGCT
GGAGGCGGGG GCTCTGGGGC CCCTGGTGAG CCCCCTCTTC TGCCAGGAGG CGCCCCCCTG
CCTGCCGGGC TGTTTGCAGT GCGCTCGGCT GGCTGGCGGG ATGACCTGGC TCGGCGAGTG
GCAGCTGGCG TGGCCGTAGT GGCCAGAGGT GCCCAGGCCC TGCTGCGTGA TTATGGTTTC
CTTCCTGAGC TCGGCCACGA CTGTCGCGCC CAGAACCGCA CCCACCGCGG CGAGAGTCTG
CATAGGTACT TCATGAACAT CACGTGGGAT AACCGGGATT ACTCCTTCAA TGAGGACGGC
TTCCTAGTGA ACCCCTCCCT GGTGGTCATC TCCCTCACCA GAGACAGGAC GTGGGAGGTG
GTGGGCAGCT GGGAGCAGCA GACGCTCCGC CTCAAGTACC CGCTGTGGTC CCGCTATGGT
CGCTTCCTGC AGCCAGTGGA CGACACGCAG CACCTCACGG TGGCCACGCT GGAGGAAAGG
CCGTTTGTCA TCGTGGAGCC TGCAGACCCT ATCAGCGGCA CCTGCATCCG AGACTCCGTC
CCCTGCCGGA GCCAGCTCAA CCGAACCCAC AGCCCTCCAC CGGATGCCCC CCGCCCGGAA
AAGCGCTGCT GCAAGGGTTT CTGCATCGAC ATTCTGAAGC GGCTGGCGCA TACCATCGGC
TTCAGCTACG ACCTCTACCT GGTCACCAAT GGCAAGCACG GAAAGAAGAT CGATGGCGTC
TGGAACGGCA TGATCGGGGA GGTGTTCTAC CAGCGCGCAG ACATGGCCAT CGGCTCCCTC
ACCATCAACG AGGAGCGCTC CGAGATCGTG GACTTCTCCG TCCCCTTCGT GGAGACCGGC
ATCAGCGTCA TGGTGGCGCG CAGCAATGGC ACGGTGTCCC CCTCGGCCTT CCTCGAGCCC
TACAGCCCCG CCGTGTGGGT GATGATGTTC GTCATGTGCC TCACTGTGGT CGCCGTCACT
GTTTTCATCT TCGAGTACCT CAGTCCTGTT GGTTACAACC GCAGCCTGGC CACGGGCAAG
CGCCCTGGCG GTTCAACCTT CACCATTGGG AAATCCATCT GGCTGCTCTG GGCCCTGGTG
TTCAATAATT CGGTGCCCGT GGAGAACCCC CGGGGAACCA CCAGCAAAAT CATGGTGCTG
GTGTGGGCCT TCTTCGCCGT CATCTTCCTC GCCAGCTACA CAGCCAACCT GGCCGCCTTC
ATGATCCAGG AGGAGTACGT GGATACTGTG TCTGGGCTCA GTGACCGCAA GTTCCAGAGG
CCCCAGGAGC AGTACCCGCC CCTGAAGTTT GGGACCGTGC CCAACGGCTC CACGGAGAAG
AACATCCGCA GCAACTATCC CGACATGCAC AGCTACATGG TGCGCTACAA CCAGCCCCGC
GTAGAGGAAG CGCTCACTCA GCTCAAGGCA GGGAAGCTGG ACGCCTTCAT CTACGATGCT
GCAGTGCTCA ATTACATGGC CCGCAAGGAC GAGGGCTGCA AGCTTGTCAC CATCGGCTCC
GGCAAGGTCT TCGCCACGAC AGGCTATGGC ATCGCCCTGC ACAAGGGCTC CCGCTGGAAG
CGGCCCATCG ACCTGGCGTT GCTGCAGTTC CTGGGGGATG ATGAGATCGA GATGCTGGAG
CGGCTGTGGC TCTCTGGGAT CTGCCACAAT GACAAAATCG AGGTGATGAG CAGCAAGCTG
GACATCGACA ACATGGCGGG CGTCTTCTAC ATGCTCCTGG TGGCCATGGG CCTGTCCCTG
CTGGTCTTCG CCTGGGAGCA CCTGGTGTAC TGGCGCCTGC GGCACTGCCT GGGGCCCACC
CACCGCATGG ACTTCCTGCT GGCCTTCTCC AGGGGCATGT ACAGCTGCTG CAGCGCTGAG
GCCGCCCCAC CGCCCGCCAA GCCCCCGCCG CCGCCACAGC CCCTGCCCAG CCCCGCGTAC
CCCGCGCCGC GGCCGGCTCC CGGGCCCGCA CCTTTCGTGC CCCGCGAGCG CGCCTCAGTG
GACCGCTGGC GCCGGACCAA GGGCGCGGGG CCGCCGGGGG GCGCGGGCCT GGCCGACGGC
TTCCACCGCT ACTACGGCCC CATCGAGCCG CAGGGCCTAG GCCTCGGCCT GGGCGAAGCG
CGCGCGGCAC CGCGGGGCGC AGCCGGGCGC CCGCTGTCCC CGCCGGCCGC TCAGCCCCCG
CAGAAGCCGC CGCCCTCCTA TTTCGCCATC GTACGCGACA AGGAGCCAGC CGAGCCCCCC
GCCGGCGCCT TCCCCGGCTT CCCGTCGCCG CCCGCGCCCC CCGCCGCCGC GGCCACCGCC
GTCGGGCCGC CACTCTGCCG CTTGGCCTTC GAGGACGAGA GCCCGCCGGC GCCCGCGCGG
TGGCCGCGCT CGGACCCCGA GAGCCAACCC CTGCTGGGGC CAGGCGCGGG CGGCGCGGGG
GGCACGGGGG GCGCAGGCGG AGGAGCCCCG GCCGCTCCGC CCCCGTGCCG CGCCGCGCCG
CCCCCGTGCC CTTACCTCGA TCTCGAGCCG TCGCCGTCGG ACTCGGAGGA CTCGGAGAGC
CTGGGCGGCG CGTCGCTGGG CGGCCTGGAG CCCTGGTGGT TCGCCGACTT CCCTTACCCG
TATGCCGAGC GCCTCGGGCC GCCGCCCGGC CGCTACTGGT CGGTCGACAA GCTCGGGGGC
TGGCGCGCCG GGAGCTGGGA CTACCTGCCC CCGCGCAGCG GTCCGGCCGC CTGGCACTGT
CGGCACTGCG CCAGCCTGGA GCTGCTGCCG CCGCCGCGCC ATCTCAGCTG CTCGCACGAT
GGCCTGGACG GCGGCTGGTG GGCGCCACCG CCTCCACCCT GGGCCGCCGG GCCCCTGCCC
CGACGCCGGG CCCGCTGCGG GTGCCCGCGG TCGCACCCGC ACCGCCCGCG GGCCTCGCAC
CGCACGCCCG CCGCCGCCGC GCCCCACCAC CACAGGCACC GGCGCGCCGC TGGGGGCTGG
GACCTCCCGC CGCCCGCGCC CACCTCGCGC TCGCTCGAGG ACCTCAGCTC GTGCCCTCGC
GCCGCCCCTG CGCGCAGGCT TACCGGGCCC TCCCGCCACG CTCGCAGGTG TCCGCACGCC
GCGCACTGGG GGCCGCCGCT GCCCACAGCT TCCCACCGGA GACACCGGGG CGGGGACCTG
GGCACCCGCA GGGGCTCGGC GCACTTCTCT AGCCTCGAGT CCGAGGTATG A

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

CloneID OHu30647
Clone ID Related Accession (Same CDS sequence) XM_011526872.1 , NM_000836.2
Accession Version XM_011526872.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4011bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product glutamate receptor ionotropic, NMDA 2D isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

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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
ATGCGCGGCG CCGGTGGCCC CCGCGGCCCT CGGGGCCCCG CTAAGATGCT GCTGCTGCTG 
GCGCTGGCCT GCGCCAGCCC GTTCCCGGAG GAGGCGCCGG GGCCGGGCGG GGCCGGTGGG
CCCGGCGGCG GCCTCGGCGG GGCGCGGCCG CTCAACGTGG CGCTCGTGTT CTCGGGGCCC
GCGTACGCGG CCGAGGCGGC ACGCCTGGGC CCGGCCGTGG CGGCGGCGGT GCGCAGCCCG
GGCCTAGACG TGCGGCCCGT GGCGCTGGTG CTCAACGGCT CGGACCCGCG CAGCCTCGTG
CTGCAGCTCT GCGACCTGCT GTCGGGGTTG CGCGTGCACG GCGTGGTCTT CGAAGACGAC
TCGCGCGCGC CCGCCGTCGC GCCCATCCTC GACTTCCTGT CGGCGCAGAC CTCGCTGCCC
ATCGTGGCCG TGCACGGCGG CGCCGCGCTC GTGCTCACGC CCAAGGAGAA GGGCTCCACC
TTCCTGCAGC TGGGCTCTTC CACCGAGCAA CAGCTTCAGG TCATCTTTGA GGTGCTGGAG
GAGTATGACT GGACGTCCTT TGTAGCCGTG ACCACTCGTG CCCCTGGCCA CCGGGCCTTC
CTGTCCTACA TTGAGGTGCT GACTGACGGT AGTCTGGTGG GCTGGGAGCA CCGCGGAGCG
CTGACGCTGG ACCCTGGGGC GGGCGAGGCC GTGCTCAGTG CCCAGCTCCG CAGTGTCAGC
GCGCAGATCC GCCTGCTCTT CTGCGCCCGA GAGGAGGCCG AGCCCGTGTT CCGCGCAGCT
GAGGAGGCTG GCCTCACTGG ATCTGGCTAC GTCTGGTTCA TGGTGGGGCC CCAGCTGGCT
GGAGGCGGGG GCTCTGGGGC CCCTGGTGAG CCCCCTCTTC TGCCAGGAGG CGCCCCCCTG
CCTGCCGGGC TGTTTGCAGT GCGCTCGGCT GGCTGGCGGG ATGACCTGGC TCGGCGAGTG
GCAGCTGGCG TGGCCGTAGT GGCCAGAGGT GCCCAGGCCC TGCTGCGTGA TTATGGTTTC
CTTCCTGAGC TCGGCCACGA CTGTCGCGCC CAGAACCGCA CCCACCGCGG CGAGAGTCTG
CATAGGTACT TCATGAACAT CACGTGGGAT AACCGGGATT ACTCCTTCAA TGAGGACGGC
TTCCTAGTGA ACCCCTCCCT GGTGGTCATC TCCCTCACCA GAGACAGGAC GTGGGAGGTG
GTGGGCAGCT GGGAGCAGCA GACGCTCCGC CTCAAGTACC CGCTGTGGTC CCGCTATGGT
CGCTTCCTGC AGCCAGTGGA CGACACGCAG CACCTCACGG TGGCCACGCT GGAGGAAAGG
CCGTTTGTCA TCGTGGAGCC TGCAGACCCT ATCAGCGGCA CCTGCATCCG AGACTCCGTC
CCCTGCCGGA GCCAGCTCAA CCGAACCCAC AGCCCTCCAC CGGATGCCCC CCGCCCGGAA
AAGCGCTGCT GCAAGGGTTT CTGCATCGAC ATTCTGAAGC GGCTGGCGCA TACCATCGGC
TTCAGCTACG ACCTCTACCT GGTCACCAAT GGCAAGCACG GAAAGAAGAT CGATGGCGTC
TGGAACGGCA TGATCGGGGA GGTGTTCTAC CAGCGCGCAG ACATGGCCAT CGGCTCCCTC
ACCATCAACG AGGAGCGCTC CGAGATCGTG GACTTCTCCG TCCCCTTCGT GGAGACCGGC
ATCAGCGTCA TGGTGGCGCG CAGCAATGGC ACGGTGTCCC CCTCGGCCTT CCTCGAGCCC
TACAGCCCCG CCGTGTGGGT GATGATGTTC GTCATGTGCC TCACTGTGGT CGCCGTCACT
GTTTTCATCT TCGAGTACCT CAGTCCTGTT GGTTACAACC GCAGCCTGGC CACGGGCAAG
CGCCCTGGCG GTTCAACCTT CACCATTGGG AAATCCATCT GGCTGCTCTG GGCCCTGGTG
TTCAATAATT CGGTGCCCGT GGAGAACCCC CGGGGAACCA CCAGCAAAAT CATGGTGCTG
GTGTGGGCCT TCTTCGCCGT CATCTTCCTC GCCAGCTACA CAGCCAACCT GGCCGCCTTC
ATGATCCAGG AGGAGTACGT GGATACTGTG TCTGGGCTCA GTGACCGCAA GTTCCAGAGG
CCCCAGGAGC AGTACCCGCC CCTGAAGTTT GGGACCGTGC CCAACGGCTC CACGGAGAAG
AACATCCGCA GCAACTATCC CGACATGCAC AGCTACATGG TGCGCTACAA CCAGCCCCGC
GTAGAGGAAG CGCTCACTCA GCTCAAGGCA GGGAAGCTGG ACGCCTTCAT CTACGATGCT
GCAGTGCTCA ATTACATGGC CCGCAAGGAC GAGGGCTGCA AGCTTGTCAC CATCGGCTCC
GGCAAGGTCT TCGCCACGAC AGGCTATGGC ATCGCCCTGC ACAAGGGCTC CCGCTGGAAG
CGGCCCATCG ACCTGGCGTT GCTGCAGTTC CTGGGGGATG ATGAGATCGA GATGCTGGAG
CGGCTGTGGC TCTCTGGGAT CTGCCACAAT GACAAAATCG AGGTGATGAG CAGCAAGCTG
GACATCGACA ACATGGCGGG CGTCTTCTAC ATGCTCCTGG TGGCCATGGG CCTGTCCCTG
CTGGTCTTCG CCTGGGAGCA CCTGGTGTAC TGGCGCCTGC GGCACTGCCT GGGGCCCACC
CACCGCATGG ACTTCCTGCT GGCCTTCTCC AGGGGCATGT ACAGCTGCTG CAGCGCTGAG
GCCGCCCCAC CGCCCGCCAA GCCCCCGCCG CCGCCACAGC CCCTGCCCAG CCCCGCGTAC
CCCGCGCCGC GGCCGGCTCC CGGGCCCGCA CCTTTCGTGC CCCGCGAGCG CGCCTCAGTG
GACCGCTGGC GCCGGACCAA GGGCGCGGGG CCGCCGGGGG GCGCGGGCCT GGCCGACGGC
TTCCACCGCT ACTACGGCCC CATCGAGCCG CAGGGCCTAG GCCTCGGCCT GGGCGAAGCG
CGCGCGGCAC CGCGGGGCGC AGCCGGGCGC CCGCTGTCCC CGCCGGCCGC TCAGCCCCCG
CAGAAGCCGC CGCCCTCCTA TTTCGCCATC GTACGCGACA AGGAGCCAGC CGAGCCCCCC
GCCGGCGCCT TCCCCGGCTT CCCGTCGCCG CCCGCGCCCC CCGCCGCCGC GGCCACCGCC
GTCGGGCCGC CACTCTGCCG CTTGGCCTTC GAGGACGAGA GCCCGCCGGC GCCCGCGCGG
TGGCCGCGCT CGGACCCCGA GAGCCAACCC CTGCTGGGGC CAGGCGCGGG CGGCGCGGGG
GGCACGGGGG GCGCAGGCGG AGGAGCCCCG GCCGCTCCGC CCCCGTGCCG CGCCGCGCCG
CCCCCGTGCC CTTACCTCGA TCTCGAGCCG TCGCCGTCGG ACTCGGAGGA CTCGGAGAGC
CTGGGCGGCG CGTCGCTGGG CGGCCTGGAG CCCTGGTGGT TCGCCGACTT CCCTTACCCG
TATGCCGAGC GCCTCGGGCC GCCGCCCGGC CGCTACTGGT CGGTCGACAA GCTCGGGGGC
TGGCGCGCCG GGAGCTGGGA CTACCTGCCC CCGCGCAGCG GTCCGGCCGC CTGGCACTGT
CGGCACTGCG CCAGCCTGGA GCTGCTGCCG CCGCCGCGCC ATCTCAGCTG CTCGCACGAT
GGCCTGGACG GCGGCTGGTG GGCGCCACCG CCTCCACCCT GGGCCGCCGG GCCCCTGCCC
CGACGCCGGG CCCGCTGCGG GTGCCCGCGG TCGCACCCGC ACCGCCCGCG GGCCTCGCAC
CGCACGCCCG CCGCCGCCGC GCCCCACCAC CACAGGCACC GGCGCGCCGC TGGGGGCTGG
GACCTCCCGC CGCCCGCGCC CACCTCGCGC TCGCTCGAGG ACCTCAGCTC GTGCCCTCGC
GCCGCCCCTG CGCGCAGGCT TACCGGGCCC TCCCGCCACG CTCGCAGGTG TCCGCACGCC
GCGCACTGGG GGCCGCCGCT GCCCACAGCT TCCCACCGGA GACACCGGGG CGGGGACCTG
GGCACCCGCA GGGGCTCGGC GCACTTCTCT AGCCTCGAGT CCGAGGTATG A

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

RefSeq XP_011525174.1
CDS257..4267
Misc Feature(1)401..1510
Misc Feature(2)order(545..547,551..556,563..568,665..667,872..874,881..883,923..925,929..931)
Misc Feature(3)1544..2746
Misc Feature(4)1652..>1963
Misc Feature(5)order(1871..1882,1886..1888,1892..1900,2336..2338,2402..2407,2417..2419,2531..2533,2606..2614,2621..2623,2639..2641,2687..2698,2705..2707)
Misc Feature(6)order(1871..1879,1892..1894,2402..2410,2528..2533)
Misc Feature(7)2006..2824
Misc Feature(8)2855..>2944
Translation

Target ORF information:

RefSeq Version XM_011526872.1
Organism Homo sapiens(Human)
Definition Homo sapiens glutamate ionotropic receptor NMDA type subunit 2D (GRIN2D), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011526872.1

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
ATGCGCGGCG CCGGTGGCCC CCGCGGCCCT CGGGGCCCCG CTAAGATGCT GCTGCTGCTG 
GCGCTGGCCT GCGCCAGCCC GTTCCCGGAG GAGGCGCCGG GGCCGGGCGG GGCCGGTGGG
CCCGGCGGCG GCCTCGGCGG GGCGCGGCCG CTCAACGTGG CGCTCGTGTT CTCGGGGCCC
GCGTACGCGG CCGAGGCGGC ACGCCTGGGC CCGGCCGTGG CGGCGGCGGT GCGCAGCCCG
GGCCTAGACG TGCGGCCCGT GGCGCTGGTG CTCAACGGCT CGGACCCGCG CAGCCTCGTG
CTGCAGCTCT GCGACCTGCT GTCGGGGTTG CGCGTGCACG GCGTGGTCTT CGAAGACGAC
TCGCGCGCGC CCGCCGTCGC GCCCATCCTC GACTTCCTGT CGGCGCAGAC CTCGCTGCCC
ATCGTGGCCG TGCACGGCGG CGCCGCGCTC GTGCTCACGC CCAAGGAGAA GGGCTCCACC
TTCCTGCAGC TGGGCTCTTC CACCGAGCAA CAGCTTCAGG TCATCTTTGA GGTGCTGGAG
GAGTATGACT GGACGTCCTT TGTAGCCGTG ACCACTCGTG CCCCTGGCCA CCGGGCCTTC
CTGTCCTACA TTGAGGTGCT GACTGACGGT AGTCTGGTGG GCTGGGAGCA CCGCGGAGCG
CTGACGCTGG ACCCTGGGGC GGGCGAGGCC GTGCTCAGTG CCCAGCTCCG CAGTGTCAGC
GCGCAGATCC GCCTGCTCTT CTGCGCCCGA GAGGAGGCCG AGCCCGTGTT CCGCGCAGCT
GAGGAGGCTG GCCTCACTGG ATCTGGCTAC GTCTGGTTCA TGGTGGGGCC CCAGCTGGCT
GGAGGCGGGG GCTCTGGGGC CCCTGGTGAG CCCCCTCTTC TGCCAGGAGG CGCCCCCCTG
CCTGCCGGGC TGTTTGCAGT GCGCTCGGCT GGCTGGCGGG ATGACCTGGC TCGGCGAGTG
GCAGCTGGCG TGGCCGTAGT GGCCAGAGGT GCCCAGGCCC TGCTGCGTGA TTATGGTTTC
CTTCCTGAGC TCGGCCACGA CTGTCGCGCC CAGAACCGCA CCCACCGCGG CGAGAGTCTG
CATAGGTACT TCATGAACAT CACGTGGGAT AACCGGGATT ACTCCTTCAA TGAGGACGGC
TTCCTAGTGA ACCCCTCCCT GGTGGTCATC TCCCTCACCA GAGACAGGAC GTGGGAGGTG
GTGGGCAGCT GGGAGCAGCA GACGCTCCGC CTCAAGTACC CGCTGTGGTC CCGCTATGGT
CGCTTCCTGC AGCCAGTGGA CGACACGCAG CACCTCACGG TGGCCACGCT GGAGGAAAGG
CCGTTTGTCA TCGTGGAGCC TGCAGACCCT ATCAGCGGCA CCTGCATCCG AGACTCCGTC
CCCTGCCGGA GCCAGCTCAA CCGAACCCAC AGCCCTCCAC CGGATGCCCC CCGCCCGGAA
AAGCGCTGCT GCAAGGGTTT CTGCATCGAC ATTCTGAAGC GGCTGGCGCA TACCATCGGC
TTCAGCTACG ACCTCTACCT GGTCACCAAT GGCAAGCACG GAAAGAAGAT CGATGGCGTC
TGGAACGGCA TGATCGGGGA GGTGTTCTAC CAGCGCGCAG ACATGGCCAT CGGCTCCCTC
ACCATCAACG AGGAGCGCTC CGAGATCGTG GACTTCTCCG TCCCCTTCGT GGAGACCGGC
ATCAGCGTCA TGGTGGCGCG CAGCAATGGC ACGGTGTCCC CCTCGGCCTT CCTCGAGCCC
TACAGCCCCG CCGTGTGGGT GATGATGTTC GTCATGTGCC TCACTGTGGT CGCCGTCACT
GTTTTCATCT TCGAGTACCT CAGTCCTGTT GGTTACAACC GCAGCCTGGC CACGGGCAAG
CGCCCTGGCG GTTCAACCTT CACCATTGGG AAATCCATCT GGCTGCTCTG GGCCCTGGTG
TTCAATAATT CGGTGCCCGT GGAGAACCCC CGGGGAACCA CCAGCAAAAT CATGGTGCTG
GTGTGGGCCT TCTTCGCCGT CATCTTCCTC GCCAGCTACA CAGCCAACCT GGCCGCCTTC
ATGATCCAGG AGGAGTACGT GGATACTGTG TCTGGGCTCA GTGACCGCAA GTTCCAGAGG
CCCCAGGAGC AGTACCCGCC CCTGAAGTTT GGGACCGTGC CCAACGGCTC CACGGAGAAG
AACATCCGCA GCAACTATCC CGACATGCAC AGCTACATGG TGCGCTACAA CCAGCCCCGC
GTAGAGGAAG CGCTCACTCA GCTCAAGGCA GGGAAGCTGG ACGCCTTCAT CTACGATGCT
GCAGTGCTCA ATTACATGGC CCGCAAGGAC GAGGGCTGCA AGCTTGTCAC CATCGGCTCC
GGCAAGGTCT TCGCCACGAC AGGCTATGGC ATCGCCCTGC ACAAGGGCTC CCGCTGGAAG
CGGCCCATCG ACCTGGCGTT GCTGCAGTTC CTGGGGGATG ATGAGATCGA GATGCTGGAG
CGGCTGTGGC TCTCTGGGAT CTGCCACAAT GACAAAATCG AGGTGATGAG CAGCAAGCTG
GACATCGACA ACATGGCGGG CGTCTTCTAC ATGCTCCTGG TGGCCATGGG CCTGTCCCTG
CTGGTCTTCG CCTGGGAGCA CCTGGTGTAC TGGCGCCTGC GGCACTGCCT GGGGCCCACC
CACCGCATGG ACTTCCTGCT GGCCTTCTCC AGGGGCATGT ACAGCTGCTG CAGCGCTGAG
GCCGCCCCAC CGCCCGCCAA GCCCCCGCCG CCGCCACAGC CCCTGCCCAG CCCCGCGTAC
CCCGCGCCGC GGCCGGCTCC CGGGCCCGCA CCTTTCGTGC CCCGCGAGCG CGCCTCAGTG
GACCGCTGGC GCCGGACCAA GGGCGCGGGG CCGCCGGGGG GCGCGGGCCT GGCCGACGGC
TTCCACCGCT ACTACGGCCC CATCGAGCCG CAGGGCCTAG GCCTCGGCCT GGGCGAAGCG
CGCGCGGCAC CGCGGGGCGC AGCCGGGCGC CCGCTGTCCC CGCCGGCCGC TCAGCCCCCG
CAGAAGCCGC CGCCCTCCTA TTTCGCCATC GTACGCGACA AGGAGCCAGC CGAGCCCCCC
GCCGGCGCCT TCCCCGGCTT CCCGTCGCCG CCCGCGCCCC CCGCCGCCGC GGCCACCGCC
GTCGGGCCGC CACTCTGCCG CTTGGCCTTC GAGGACGAGA GCCCGCCGGC GCCCGCGCGG
TGGCCGCGCT CGGACCCCGA GAGCCAACCC CTGCTGGGGC CAGGCGCGGG CGGCGCGGGG
GGCACGGGGG GCGCAGGCGG AGGAGCCCCG GCCGCTCCGC CCCCGTGCCG CGCCGCGCCG
CCCCCGTGCC CTTACCTCGA TCTCGAGCCG TCGCCGTCGG ACTCGGAGGA CTCGGAGAGC
CTGGGCGGCG CGTCGCTGGG CGGCCTGGAG CCCTGGTGGT TCGCCGACTT CCCTTACCCG
TATGCCGAGC GCCTCGGGCC GCCGCCCGGC CGCTACTGGT CGGTCGACAA GCTCGGGGGC
TGGCGCGCCG GGAGCTGGGA CTACCTGCCC CCGCGCAGCG GTCCGGCCGC CTGGCACTGT
CGGCACTGCG CCAGCCTGGA GCTGCTGCCG CCGCCGCGCC ATCTCAGCTG CTCGCACGAT
GGCCTGGACG GCGGCTGGTG GGCGCCACCG CCTCCACCCT GGGCCGCCGG GCCCCTGCCC
CGACGCCGGG CCCGCTGCGG GTGCCCGCGG TCGCACCCGC ACCGCCCGCG GGCCTCGCAC
CGCACGCCCG CCGCCGCCGC GCCCCACCAC CACAGGCACC GGCGCGCCGC TGGGGGCTGG
GACCTCCCGC CGCCCGCGCC CACCTCGCGC TCGCTCGAGG ACCTCAGCTC GTGCCCTCGC
GCCGCCCCTG CGCGCAGGCT TACCGGGCCC TCCCGCCACG CTCGCAGGTG TCCGCACGCC
GCGCACTGGG GGCCGCCGCT GCCCACAGCT TCCCACCGGA GACACCGGGG CGGGGACCTG
GGCACCCGCA GGGGCTCGGC GCACTTCTCT AGCCTCGAGT CCGAGGTATG A

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

book

GRIN2D Recurrent De Novo Dominant Mutation Causes a Severe Epileptic Encephalopathy Treatable with NMDA Receptor Channel Blockers.
American journal of human genetics99(4)802-816(2016 Oct)
Li D,Yuan H,Ortiz-Gonzalez XR,Marsh ED,Tian L,McCormick EM,Kosobucki GJ,Chen W,Schulien AJ,Chiavacci R,Tankovic A,Naase C,Brueckner F,von Stülpnagel-Steinbeis C,Hu C,Kusumoto H,Hedrich UB,Elsen G,Hörtnagel K,Aizenman E,Lemke JR,Hakonarson H,Traynelis SF,Falk MJ


book

Pilot study of iPS-derived neural cells to examine biologic effects of alcohol on human neurons in vitro.
Alcoholism, clinical and experimental research36(10)1678-87(2012 Oct)
Lieberman R,Levine ES,Kranzler HR,Abreu C,Covault J


book

Rare mutations in N-methyl-D-aspartate glutamate receptors in autism spectrum disorders and schizophrenia.
Translational psychiatry1e55(2011 Nov)
Tarabeux J,Kebir O,Gauthier J,Hamdan FF,Xiong L,Piton A,Spiegelman D,Henrion É,Millet B,,Fathalli F,Joober R,Rapoport JL,DeLisi LE,Fombonne É,Mottron L,Forget-Dubois N,Boivin M,Michaud JL,Drapeau P,Lafrenière RG,Rouleau GA,Krebs MO


book

[Chromosomal instability, microsatellite instability and CpG island methylator phenotype: roles in small intestinal carcinogenesis].
Der Pathologe32 Suppl 2181-4(2011 Nov)
Bläker H,Warth A,Kloor M,Schirmacher P


book

Association analysis of the glutamic acid decarboxylase 2 and the glutamine synthetase genes (GAD2, GLUL) with schizophrenia.
Psychiatric genetics19(1)6-13(2009 Feb)
Arai S,Shibata H,Sakai M,Ninomiya H,Iwata N,Ozaki N,Fukumaki Y


 
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