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Merck
CN

MABN540

抗-mGluR5抗体,克隆N75/33

clone N75/33, from mouse

别名:

Metabotropic glutamate receptor 5, mGluR5

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关于此项目

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

主要文件

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产品名称

抗-mGluR5抗体,克隆N75/33, clone N75/33, from mouse

biological source

mouse

conjugate

unconjugated

antibody form

purified immunoglobulin

antibody product type

primary antibodies

clone

N75/33, monoclonal

species reactivity

human, mouse, rat

technique(s)

immunohistochemistry: suitable
western blot: suitable

isotype

IgG1κ

NCBI accession no.

NP_058708

UniProt accession no.

P31424

shipped in

wet ice

target post-translational modification

unmodified

Quality Level

100

Gene Information

human ... GRM5(2915)

相关类别

Analysis Note

对照
下丘脑组织裂解物
通过蛋白质印迹在小鼠下丘脑组织裂解物中进行评价。

蛋白质印迹分析:1 µg/mL的该抗体在10 µg小鼠下丘脑组织裂解物中检测到mGluR5。

Application

使用该小鼠单克隆抗体(抗-mGluR5抗体,克隆N75/33,经验证可用于蛋白质印迹&IHC)检测mGluR5。
研究子类别
突触&突触生物学
研究类别
神经科学
蛋白质印迹分析:1 µg/mL的代表性批次在10 µg大鼠脑膜组织中检测到mGluR5。

免疫组织化学分析:一个代表性批次以1:100稀释度在正常人中脑组织中检测到mGluR5。

Biochem/physiol Actions

该抗体可识别mGluR5的C末端。基于<35%的序列同源性,该抗体可与mGluR1发生交叉反应。

Disclaimer

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。

General description

代谢型谷氨酸受体5(mGluR5)是一种G蛋白介导的谷氨酸受体,可产生钙激活的氯离子电流。mGluR5广泛分布于中枢神经系统的神经元细胞中。
观测分子量约150-270 kDa。由于糖基化,可以在较高的分子量下观察到该蛋白(Bhave,G.,et al.(2003).J Biol Chem. 278(32):30294-30301)。在SDS-PAGE中,在约270 kDa处观察到该蛋白为二聚体,但在还原条件下在约140 kDa处观察到该蛋白为单体(Romano,C.,et al.(1996).J Biol Chem. 271(45):28612-28616.)。在某些细胞裂解物中可能会观察到未表征的条带。

Immunogen

对应于大鼠mGluR5 C末端的重组蛋白。
表位:C末端

Other Notes

2024年CiteAb奖——成功的帕金森研究供应商(2024 CiteAb Award Winner for Supplier Succeeding in Parkinson′s Research)

Physical form

形式:纯化
纯化的小鼠单克隆IgG1κ,溶于含0.1 M Tris-甘氨酸(pH 7.4)、150 mM NaCl和0.05%叠氮化钠的缓冲液中。
纯化蛋白G

Preparation Note

自接收之日起,在2-8°C下可稳定保存1年。

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存储类别

12 - Non Combustible Liquids

wgk

WGK 1

flash_point_f

Not applicable

flash_point_c

Not applicable

分析证书(COA)

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Cameron W Morris et al.
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Grooming dysfunction is a hallmark of the obsessive-compulsive spectrum disorder trichotillomania. Numerous preclinical studies have utilized SAPAP3-deficient mice for understanding the neurobiology of repetitive grooming, suggesting that excessive grooming is caused by increased metabotropic glutamate receptor 5 (mGluR5) activity in
Wilber Romero-Fernandez et al.
Molecular neurobiology, 59(10), 5955-5969 (2022-07-14)
The adenosine A2A receptor (A2AR), dopamine D2 receptor (D2R) and metabotropic glutamate receptor type 5 (mGluR5) form A2AR-D2R-mGluR5 heteroreceptor complexes in living cells and in rat striatal neurons. In the current study, we present experimental data supporting the view that
Qingwei Huo et al.
Cerebral cortex (New York, N.Y. : 1991), 27(8), 4060-4072 (2016-08-25)
Genetic and biochemical studies have focused on the role of amyloid β protein in the pathogenesis of Alzheimer's disease. In comparison, the physiological roles of its precursor protein, amyloid precursor protein (APP), in synaptic and network activity is less well studied.
Mirna Lechpammer et al.
Journal of child neurology, 31(4), 426-432 (2015-08-05)
In this study the authors investigated whether dysregulation of the fragile X mental retardation protein and mammalian target of rapamycin signaling cascade can have a role in the pathogenesis of encephalopathy of prematurity following perinatal hypoxia-ischemia. The authors examined the
Ming Chen et al.
Molecular neurodegeneration, 16(1), 14-14 (2021-03-06)
Before the deposition of amyloid-beta plaques and the onset of learning memory deficits, patients with Alzheimer's disease (AD) experience olfactory dysfunction, typified by a reduced ability to detect, discriminate, and identify odors. Rodent models of AD, such as the Tg2576
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相关内容

Pathways and Biomarkers of Glutamatergic Synapse Flyer

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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