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Merck
CN

MAB363

抗-NMDAR1抗体,克隆54.1

clone 54.1, Chemicon®, from mouse

别名:

N-methyl-D-aspartate receptor channel, subunit zeta-1, N-methyl-D-aspartate receptor subunit NR1, NMDA receptor 1, glutamate [NMDA] receptor subunit zeta 1, glutamate receptor, ionotropic, N-methyl D-aspartate 1

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关于此项目

UNSPSC代码:
12352203
eCl@ss:
32160702
NACRES:
NA.41

主要文件

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生物来源

mouse

质量水平

100

偶联物

unconjugated

抗体形式

purified immunoglobulin

抗体产品类型

primary antibodies

克隆

54.1, monoclonal

种属反应性

rat, monkey, human, Xenopus

制造商/商品名称

Chemicon®

技术

ELISA: suitable
immunocytochemistry: suitable
immunohistochemistry (formalin-fixed, paraffin-embedded sections): suitable
radioimmunoassay: suitable

同位素/亚型

IgG2a

NCBI登记号

NM_000832.5

UniProt登记号

Q05586

运输

dry ice

靶向翻译后修饰

unmodified

基因信息

frog ... Grin1(780048)
human ... GRIN1(2902)
rat ... Grin1(24408)
rhesus monkey ... Grin1(574380)

相关类别

一般描述

103-116 kDa
谷氨酸是哺乳动物大脑中广泛使用的兴奋性神经递质。谷氨酸激活的离子通道通常分为两类。对N-甲基-D-天冬氨酸(NMDA)敏感的那些被称为NMDA受体(NMDAR),而被红藻氨酸(KA)和a-氨基-3-羟基-5-甲基-4-异恶唑丙酸激活的那些(AMPA)被称为非NMDA受体。两个不同的基因编码NMDA受体亚基NR1和NR2。NR1亚基实际上在大脑的所有区域都大量表达。

免疫原

含有GST和NMDAR1 aa的重组融合蛋白。660-811。
表位:跨膜区域III&IV之间的细胞外环。

应用

免疫细胞化学:
该抗体的一个先前批次已被用于IC。

RIA:
该抗体的一个先前批次已被用于RIA。

ELISA:
该抗体的一个先前批次已被用于ELISA。

免疫组织化学:1:500-2000,针对2-4%多聚甲醛固定的组织:通常是自由浮动的、冷冻的或玻璃纤维切片,在4°C下24-48小时。石蜡包埋的福尔马林固定切片也以相似的稀释度和孵育时间使用。应注意不要过度固定组织。克隆54.1已用于光学和电子显微镜。

蛋白质印迹:
1:500,50μg/泳道材料。识别103-116kDa的条带。

最佳工作稀释度必须由最终使用者进行确定。
抗NMDAR1抗体,克隆54.1是用于ELISA、IC、IH、IH(P)、RIA的抗NMDAR1抗体。
研究子类别
神经递质&受体
研究类别
神经科学

生化/生理作用

识别NMDAR1受体氨基酸660-811之间的表位。显示与NMDAR2、NMDAR3、NMDAR4或NMDAR5无交叉反应性。

外形

形式:纯化
纯化的小鼠单克隆IgG2a液体,溶于缓冲液PBS中,不含防腐剂。
纯化蛋白A

制备说明

自收到之日起在-20ºC可稳定保存1年。

分析说明

对照
大鼠脑和脊髓组织
通过免疫组织化学对大鼠脑和脊髓组织进行评估。

免疫组织化学(石蜡)分析:
NMDAR1在1:200稀释度下在大鼠脊髓上具有代表性的染色模式/形态。免疫反应性被视为神经元的完整膜和神经纤维染色。冷冻切片。IHC -冷冻染色示例:大鼠脊髓

其他说明

浓度:关于批次特定浓度请参见检验报告。

法律信息

CHEMICON is a registered trademark of Merck KGaA, Darmstadt, Germany

免责声明

除非我们的目录或产品随附的其他公司文件中另有说明,否则我们的产品预期仅用于研究用途,不得用于任何其他目的,包括但不限于未经授权的商业用途、体外诊断用途、离体或体内治疗用途或对人类或动物的任何类型的消费或应用。

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储存分类代码

12 - Non Combustible Liquids

WGK

WGK 2

闪点(°F)

Not applicable

闪点(°C)

Not applicable

分析证书(COA)

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Stroke patients develop antibodies that react with components of N-methyl-D-aspartate receptor subunit 1 in proportion to lesion size.
Kalev-Zylinska, ML; Symes, W; Little, KC; Sun, P; Wen, D; Qiao, L; Young, D; During, MJ; Barber, PA
Stroke null
Catherine L Salussolia et al.
The Journal of neuroscience : the official journal of the Society for Neuroscience, 31(31), 11295-11304 (2011-08-05)
Ionotropic glutamate receptors (iGluRs), including the NMDA receptor subtype, are ligand-gated ion channels critical to fast signaling in the CNS. NMDA receptors are obligate heterotetramers composed of two GluN1 and typically two GluN2 subunits. However, the arrangement of GluN subunits
Csaba Cserép et al.
PloS one, 7(5), e37753-e37753 (2012-06-05)
GABA (gamma-aminobutyric-acid), the main inhibitory neurotransmitter in the adult brain, exerts depolarizing (excitatory) actions during development and this GABAergic depolarization cooperates with NMDARs (N-methyl-D-aspartate receptors) to drive spontaneous synchronous activity (SSA) that is fundamentally important for developing neuronal networks. Although
Agata Kolodziejczyk et al.
PloS one, 3(5), e2110-e2110 (2008-05-10)
Synaptic connections of neurons in the Drosophila lamina, the most peripheral synaptic region of the visual system, have been comprehensively described. Although the lamina has been used extensively as a model for the development and plasticity of synaptic connections, the
Taryn N Green et al.
Platelets, 28(8), 799-811 (2017-03-10)
GluN1 is a mandatory component of N-methyl-D-aspartate receptors (NMDARs) best known for their roles in the brain, but with increasing evidence for relevance in peripheral tissues, including platelets. Certain anti-GluN1 antibodies reduce brain infarcts in rodent models of ischaemic stroke.
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Glutamate is an excitatory neurotransmitter found in the synaptic vesicles of glutamatergic synapses. The post-synaptic neurons in these synapses contain ionotropic and metabotropic glutamate receptors. Glutamate binds to AMPA (α-amino-3-hydroxy-5- methylisoxazole-4-propionic acid) subtype glutamate receptors, leading to sodium influx into the post-synaptic cell and resulting in neuronal excitability and synaptic transmission. The NMDA (N-methyl-d-aspartate) subtype glutamate receptors, on the other hand, regulate synaptic plasticity, and can influence learning and memory. The metabotropic g-protein coupled mGluRs modulate downstream calcium signaling pathways and indirectly influence the synapse’s excitability. The synaptic architecture includes intracellular scaffolding proteins (PSD-95, GRIP), intercellular cell adhesion molecules (NCAMs, N-Cadherins), and a variety of signaling proteins (CaMKII/PKA, PP1/PP2B). Processes critical for synaptic transmission and plasticity are influenced by these molecules and their interactions. When the function of these molecules is disrupted, it leads to synaptic dysfunction and degeneration, and can contribute to dementia as seen in Alzheimer’s disease.

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