Gria2 - glutamate ionotropic receptor AMPA type subunit 2 Gene

种属: Rattus norvegicus

同用名: GluA2; GluR2; gluR-B; GluR-K2

基因 ID: 29627 | 基因类型: protein coding

关于 Gria2

功能概要

Glutamate receptors are the predominant excitatory neurotransmitter receptors in the mammalian brain and are activated in a variety of normal neurophysiologic processes. This gene product belongs to a family of glutamate receptors that are sensitive to alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA), and function as ligand-activated cation channels. These channels are assembled from 4 related subunits, Gria1-4. The subunit encoded by this gene (Gria2) is subject to RNA editing (Q/R and R/G), which is thought to render the channels impermeable to CA(2+), and to affect the kinetic aspects of these channels in rat brain. Alternative splicing, resulting in transcript variants encoding different isoforms (flip and flop), has been noted for this gene. [provided by RefSeq, Jul 2008]

Gria2 基因产物(2)

mRNA	Protein	Name
NM_001083811.1	NP_001077280.1	glutamate receptor 2 isoform 2 precursor
NM_017261.2	NP_058957.1	glutamate receptor 2 isoform 1 precursor

基因本体论

分子功能
生物过程
细胞组分

分子功能 GO 注释	逻辑证据	参考文献	来源
enables AMPA glutamate receptor activity	IDA IDA: 通过直接分析推断	19265014	RGD
enables PDZ domain binding	IDA IDA: 通过直接分析推断	10558890	RGD
enables PDZ domain binding	IPI IPI: 通过物理相互作用推断	9697854	RGD
enables SNARE binding	IPI IPI: 通过物理相互作用推断	11931741	RGD
enables amyloid-beta binding	IPI IPI: 通过物理相互作用推断	20032460	RGD
enables cytoskeletal protein binding	IPI IPI: 通过物理相互作用推断	18297063	RGD
enables extracellular ligand-gated monoatomic ion channel activity	IDA IDA: 通过直接分析推断	1653450	RGD
enables glutamate receptor binding	IPI IPI: 通过物理相互作用推断	21639859	RGD
enables glutamate-gated calcium ion channel activity	IDA IDA: 通过直接分析推断	11773314	RGD
enables glutamate-gated receptor activity	IDA IDA: 通过直接分析推断	19946266	RGD
enables identical protein binding	IPI IPI: 通过物理相互作用推断	19461580	RGD
enables immunoglobulin binding	IPI IPI: 通过物理相互作用推断	26595655	RGD
enables ionotropic glutamate receptor binding	IPI IPI: 通过物理相互作用推断	10414981	RGD
enables kainate selective glutamate receptor activity	IDA IDA: 通过直接分析推断	21846932	RGD
enables ligand-gated monoatomic cation channel activity	IDA IDA: 通过直接分析推断	11773314	RGD
enables ligand-gated monoatomic ion channel activity involved in regulation of presynaptic membrane potential	IDA IDA: 通过直接分析推断	10704491	RGD
enables ligand-gated monoatomic ion channel activity involved in regulation of presynaptic membrane potential	IMP IMP: 通过突变表型推断	10704491	RGD
enables protein binding	IPI IPI: 通过物理相互作用推断	9647694	RGD
enables protein kinase binding	IPI IPI: 通过物理相互作用推断	17329210	RGD
enables protein-containing complex binding	IPI IPI: 通过物理相互作用推断	21847098	RGD
enables scaffold protein binding	IPI IPI: 通过物理相互作用推断	10414981	RGD
enables signaling receptor activity	IDA IDA: 通过直接分析推断	11348590	RGD
enables transmitter-gated monoatomic ion channel activity involved in regulation of postsynaptic membrane potential	IDA IDA: 通过直接分析推断	11348590	RGD
enables transmitter-gated monoatomic ion channel activity involved in regulation of postsynaptic membrane potential	IMP IMP: 通过突变表型推断	11348590	RGD

生物过程 GO 注释	逻辑证据	参考文献	来源
involved in cellular response to brain-derived neurotrophic factor stimulus	IDA IDA: 通过直接分析推断	14597197	RGD
involved in cellular response to glycine	IDA IDA: 通过直接分析推断	21847098	RGD
involved in cerebral cortex development	IEP IEP: 通过表达模式推断	14597197	RGD
involved in chemical synaptic transmission	IDA IDA: 通过直接分析推断	12554656	RGD
involved in establishment of protein localization	IMP IMP: 通过突变表型推断	11348590	RGD
involved in positive regulation of synaptic transmission	IMP IMP: 通过突变表型推断	11348590	RGD
involved in protein tetramerization	IDA IDA: 通过直接分析推断	19946266	RGD
involved in receptor internalization	IDA IDA: 通过直接分析推断	11100149	RGD
involved in regulation of receptor recycling	IMP IMP: 通过突变表型推断	11348590	RGD
involved in regulation of synaptic transmission, glutamatergic	IMP IMP: 通过突变表型推断	9697854	RGD
involved in response to fungicide	IEP IEP: 通过表达模式推断	19591855	RGD
involved in response to lithium ion	IEP IEP: 通过表达模式推断	15269270	RGD

细胞组分 GO 注释	逻辑证据	参考文献	来源
part of AMPA glutamate receptor complex	IDA IDA: 通过直接分析推断	19265014	RGD
is active in Schaffer collateral - CA1 synapse	IDA IDA: 通过直接分析推断	11348590	RGD
is active in Schaffer collateral - CA1 synapse	IMP IMP: 通过突变表型推断	11348590	RGD
located in asymmetric synapse	IDA IDA: 通过直接分析推断	10701825	RGD
located in axon	IDA IDA: 通过直接分析推断	16157387	RGD
located in cell surface	IDA IDA: 通过直接分析推断	19321442	RGD
located in dendrite	IDA IDA: 通过直接分析推断	10701825	RGD
located in dendrite cytoplasm	IDA IDA: 通过直接分析推断	17207780	RGD
located in dendrite membrane	IDA IDA: 通过直接分析推断	11931740	RGD
located in dendritic shaft	IDA IDA: 通过直接分析推断	10414981	RGD
located in dendritic spine	IDA IDA: 通过直接分析推断	11348590	RGD
located in dendritic spine head	IDA IDA: 通过直接分析推断	11007883	RGD
located in dendritic spine neck	IDA IDA: 通过直接分析推断	11007883	RGD
is active in glutamatergic synapse	IDA IDA: 通过直接分析推断	15610164	RGD
located in growth cone	IDA IDA: 通过直接分析推断	12554656	RGD
located in neuronal cell body	IDA IDA: 通过直接分析推断	10414981	RGD
located in perikaryon	IDA IDA: 通过直接分析推断	15844209	RGD
located in plasma membrane	IDA IDA: 通过直接分析推断	21846932	RGD
located in postsynaptic density	IDA IDA: 通过直接分析推断	10701825	RGD
is active in postsynaptic density membrane	IDA IDA: 通过直接分析推断	28057533	RGD
is active in postsynaptic membrane	IDA IDA: 通过直接分析推断	16903873	RGD
located in presynapse	IDA IDA: 通过直接分析推断	21807099	RGD
is active in presynaptic active zone membrane	IDA IDA: 通过直接分析推断	28057533	RGD
is active in presynaptic membrane	IDA IDA: 通过直接分析推断	15610164	RGD
located in presynaptic membrane	IDA IDA: 通过直接分析推断	12554656	RGD
part of protein-containing complex	IDA IDA: 通过直接分析推断	17329210	RGD
part of protein-containing complex	IPI IPI: 通过物理相互作用推断	10027300	RGD
located in spine synapse	IDA IDA: 通过直接分析推断	11007883	RGD
located in synapse	IDA IDA: 通过直接分析推断	10027300	RGD
located in synaptic vesicle membrane	IDA IDA: 通过直接分析推断	12554656	RGD
located in terminal bouton	IDA IDA: 通过直接分析推断	15844209	RGD

EXP：通过实验结果推断 IDA：通过直接分析推断 IPI：通过物理相互作用推断 IMP：通过突变表型推断 IGI：通过遗传相互作用推断 IEP：通过表达模式推断

蛋白主名

其他名称

glutamate receptor 2

AMPA-selective glutamate receptor 2	glutamate receptor B
glutamate receptor, ionotropic, AMPA 2

Gria2 蛋白互作信息

分类	蛋白名称	蛋白编号	互作蛋白	互作蛋白种属	互作蛋白编号	实验方法	参考文献
种属内	Gria2	P19491	Ap2m1	Rattus norvegicus	P84092	Pull Down	17289840
种属内	Gria2	P19491	Atad1	Rattus norvegicus	Q505J9	Pull Down	21496646
种属内	Gria2	P19491	Agap2	Rattus norvegicus	Q8CGU4	IF	21847098
种属内	Gria2	P19491	Agap2	Rattus norvegicus	Q8CGU4	Anti Bait CoIP	21847098
种属内	Gria2	P19491	Syt3	Rattus norvegicus	P40748	Pull Down	30545844
种属间	Gria2	P19491	PPFIA1	Homo sapiens	Q13136	Anti Bait CoIP	11931740
种属内	Gria2	P19491	Grip1	Rattus norvegicus	P97879	Anti Bait CoIP	21847098
种属内	Gria2	P19491	Grip1	Rattus norvegicus	P97879	Pull Down	11891216
种属内	Gria2	P19491	Grip1	Rattus norvegicus	P97879	Pull Down	21496646
种属内	Gria2	P19491	Pick1	Rattus norvegicus	Q9EP80	Anti Bait CoIP	10027300
种属内	Gria2	P19491	Grip1	Rattus norvegicus	P97879	Y2H	11891216
种属内	Gria2	P19491	Grip1	Rattus norvegicus	P97879	IF	16055064
种属内	Gria2	P19491	Pick1	Rattus norvegicus	Q9EP80	Y2H	11891216
种属内	Gria2	P19491	Pick1	Rattus norvegicus	Q9EP80	NMR	17914463
种属内	Gria2	P19491	Grip1	Rattus norvegicus	P97879	Anti Bait CoIP	11931740
种属内	Gria2	P19491	Pick1	Rattus norvegicus	Q9EP80	Pull Down	11891216
种属内	Gria2	P19491	Grip1	Rattus norvegicus	P97879	Y2H	9768844
种属内	Gria2	P19491	Pick1	Rattus norvegicus	Q9EP80	Pull Down	16055064
种属内	Gria2	P19491	Pick1	Rattus norvegicus	Q9EP80	Y2H	10027300
种属内	Gria2	P19491	Pick1	Rattus norvegicus	Q9EP80	CoIP	10340301
种属内	Gria2	P19491	Ppfia4	Rattus norvegicus	Q91Z80	Anti Bait CoIP	11931740
种属内	Gria2	P19491	Nsf	Rattus norvegicus	Q9QUL6	Y2H	9697854
种属内	Gria2	P19491	Grip2	Rattus norvegicus	Q9WTW1-3	Y2H	9768844
种属内	Gria2	P19491	Grip2	Rattus norvegicus	Q9WTW1-3	Anti Bait CoIP	9768844
种属内	Gria2	P19491	Grip2	Rattus norvegicus	Q9WTW1-3	Anti Tag CoIP	9768844

种属间: 跨种属相互作用 种属内: 同种属相互作用

Cat. No.	产品名	作用方式	纯度	是否罕见病
HY-RS05792	GRIA2 Human Pre-designed siRNA Set A	Pre-designed Sets	/	否

直系同源

种属	基因名	来源	基因 ID
Homo sapiens	Gria2	NCBI	NCBI:2891

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