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Screen Quest 细胞趋化因子(c-x-c motif)受体4表达细胞株
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货号 | 38003 | 存储条件 | 在零下80度以下保存 |
| 规格 | Each | 价格 | 0 | |
| Ex (nm) | Em (nm) | |||
| 分子量 | 溶剂 | |||
| 产品详细介绍 | ||||
简要概述
产品基本信息
货号:38003
产品名称:Screen Quest 细胞趋化因子(c-x-c motif)受体4表达细胞株
规格:Each
产品介绍
超过60%的已知G蛋白偶联受体(GPCR)通过Gq以外的途径发出信号,导致细胞内钙的增加。随着基因组学揭示出更多的G蛋白偶联受体靶标,这种趋势持续增加。 Screen Quest 细胞趋化因子(c-c)受体2B表达细胞株能够研究通常不通过细胞内钙偶联的GPCR。 Screen Quest 细胞趋化因子(c-c)受体2B表达细胞株基于一系列G蛋白嵌合体,包括混杂的G蛋白Gα16。嵌合体由Gq蛋白复合物的α亚基组成,该复合物的5个羧基末端氨基酸已被其他G蛋白之一(Gαs,Gαi,Gαo或Gαz)取代。这些氨基酸负责受体与其G蛋白的偶联。这些嵌合体与特定的非Gq偶联受体共表达可能会在受体刺激后导致细胞内钙信号的产生。 Screen Quest 细胞趋化因子(c-c)受体2B表达细胞株是被混杂G蛋白,Gα16和趋化因子(C-C)受体2B受体(CCR2B)稳定转染的CHO-K1细胞。细胞中组成型表达的Gα16蛋白使通常通过cAMP途径发挥作用的该受体与Gq信号转导和动员的细胞内钙偶联。可以使用钙敏感性染料(例如Calbryte 520 AM,Cal-520 AM,Fluo-8 AM或Fluo-4 AM)和相应的免洗钙试剂盒检测特定配体对CCR2B的激活。该细胞系已成功用于药物发现和筛选环境中,以研究通常不通过细胞内钙偶联的GPCR。它已被FLIPR和FDSS系统有效使用。金畔生物是AAT Bioquest的中国代理商,为您提供最优质的Screen Quest 细胞趋化因子(c-c)受体2B表达细胞株。
参考文献
A cardiac mitochondrial cAMP signaling pathway regulates calcium accumulation, permeability transition and cell death
Authors: Wang Z, Liu D, Varin A, Nicolas V, Courilleau D, Mateo P, Caubere C, Rouet P, Gomez AM, V and ecasteele G, Fischmeister R, Brenner C.
Journal: Cell Death Dis (2016): e2198
Activation of P2X7 and P2Y11 purinergic receptors inhibits migration and normalizes tumor-derived endothelial cells via cAMP signaling
Authors: Avanzato, D and Genova, T and Pla, A Fiorio and Bernardini, M and Bianco, S and Bussolati, B and Mancardi, D and Giraudo, E and Maione, F and Cassoni, P and others
Journal: Scientific Reports (2016)
Changes in the Arabidopsis thaliana Proteome Implicate cAMP in Biotic and Abiotic Stress Responses and Changes in Energy Metabolism
Authors: Alqurashi M, Gehring C, Marondedze C.
Journal: Int J Mol Sci (2016): 852
Odor-induced cAMP production in Drosophila melanogaster olfactory sensory neurons
Authors: Miazzi F, Hansson BS, Wicher D.
Journal: J Exp Biol (2016): 1798
Role of the cAMP Pathway in Glucose and Lipid Metabolism
Authors: Ravnskjaer K, Madiraju A, Montminy M.
Journal: Handb Exp Pharmacol (2016): 29
The pleiotropic role of exchange protein directly activated by cAMP 1 (EPAC1) in cancer: implications for therapeutic intervention
Authors: Almahariq M, Mei FC, Cheng X.
Journal: Acta Biochim Biophys Sin (Shanghai) (2016): 75
cAMP-Induced Histones H3 Dephosphorylation Is Independent of PKA and MAP Kinase Activations and Correlates With mTOR Inactivation
Authors: Rodriguez P, Rojas J.
Journal: J Cell Biochem (2016): 741
A cAMP Biosensor-Based High-Throughput Screening Assay for Identification of Gs-Coupled GPCR Ligands and Phosphodiesterase Inhibitors
Authors: Vedel L, Brauner-Osborne H, Mathiesen JM.
Journal: J Biomol Screen (2015): 849
Cardiac Hypertrophy Is Inhibited by a Local Pool of cAMP Regulated by Phosphodiesterase 2
Authors: Zoccarato A, Surdo NC, Aronsen JM, Fields LA, Mancuso L, Dodoni G, Stangherlin A, Livie C, Jiang H, Sin YY, Gesellchen F, Terrin A, Baillie GS, Nicklin SA, Graham D, Szabo-Fresnais N, Krall J, V and eput F, Movsesian M, Furlan L, Corsetti V, Hamilton G, Lefkimmiatis K, Sjaastad I, Zaccolo M.
Journal: Circ Res (2015): 707
Cardiac cAMP: production, hydrolysis, modulation and detection
Authors: Boularan C, Gales C.
Journal: Front Pharmacol (2015): 203