New dimensions in G protein signalling: Gβ5 and the RGS proteins

Pharmaceutica acta Helvetiae Pub Date : 2000-03-01 DOI:10.1016/S0031-6865(99)00043-6

William F Simonds, Jian-Hua Zhang

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引用次数: 9

Abstract

The βγ complex of G-proteins regulates effectors independently of the Gα subunits, such that upon activation G proteins give may signal downstream along one or both pathways. The Gβ₅ isoform exhibits much less homology with other Gβ isoforms (∼50%) and is preferentially expressed in brain. The Gβ₅ isoform exhibits novel properties in its activation of effector pathways such as MAPK, phospholipase C-β, and adenylyl cyclase type II when compared to Gβ₁. Recently specific native complexes between Gβ5 and the regulator of G protein signaling (RGS) protein-7 (RGS7) and between Gβ₅L (a splice variant with a 42 amino acid N-terminal extension) and RGS9 have been isolated from different retinal fractions. Such findings are not accounted for by current models as only the Gα subunits and not Gβ had been previously implicated in RGS protein function. These recent novel observations further reinforce the view of Gβ₅ as a unique and highly specialized G protein subunit.

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G蛋白信号传导的新维度:Gβ5和RGS蛋白

G蛋白的βγ复合物独立于Gα亚基调节效应物，因此在激活后G蛋白可能沿着一条或两条途径向下游发出信号。Gβ5亚型与其他Gβ亚型的同源性要低得多(约50%)，并且优先在大脑中表达。与Gβ1相比，Gβ5异构体在激活MAPK、磷脂酶C-β和腺苷酸环化酶II型等效应途径方面表现出新的特性。最近从不同的视网膜组织中分离出了Gβ5与G蛋白信号调节因子(RGS)蛋白-7 (RGS7)之间以及Gβ 5l(一种具有42个氨基酸n端延伸的剪接变体)与RGS9之间的特异性天然复合物。目前的模型没有解释这些发现，因为以前只有Gα亚基而不是Gβ与RGS蛋白功能有关。这些最新的观察结果进一步强化了Gβ5是一种独特的高度特化的G蛋白亚基的观点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pharmaceutica acta Helvetiae

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