秀丽隐杆线虫中的G蛋白β亚基GPB-2通过与G蛋白信号调节蛋白EGL-10和EAT-16相互作用来调节G(o)α-G(q)α信号网络。
The G-protein beta-subunit GPB-2 in Caenorhabditis elegans regulates the G(o)alpha-G(q)alpha signaling network through interactions with the regulator of G-protein signaling proteins EGL-10 and EAT-16.
作者信息
van der Linden A M, Simmer F, Cuppen E, Plasterk R H
机构信息
Hubrecht Laboratory, Centre for Biomedical Genetics, Uppsalalaan 8, 3584 CT, Utrecht, The Netherlands.
出版信息
Genetics. 2001 May;158(1):221-35. doi: 10.1093/genetics/158.1.221.
Abstract
The genome of Caenorhabditis elegans harbors two genes for G-protein beta-subunits. Here, we describe the characterization of the second G-protein beta-subunit gene gpb-2. In contrast to gpb-1, gpb-2 is not an essential gene even though, like gpb-1, gpb-2 is expressed during development, in the nervous system, and in muscle cells. A loss-of-function mutation in gpb-2 produces a variety of behavioral defects, including delayed egg laying and reduced pharyngeal pumping. Genetic analysis shows that GPB-2 interacts with the GOA-1 (homologue of mammalian G(o)alpha) and EGL-30 (homologue of mammalian G(q)alpha) signaling pathways. GPB-2 is most similar to the divergent mammalian Gbeta5 subunit, which has been shown to mediate a specific interaction with a Ggamma-subunit-like (GGL) domain of RGS proteins. We show here that GPB-2 physically and genetically interacts with the GGL-containing RGS proteins EGL-10 and EAT-16. Taken together, our results suggest that GPB-2 works in concert with the RGS proteins EGL-10 and EAT-16 to regulate GOA-1 (G(o)alpha) and EGL-30 (G(q)alpha) signaling.
摘要
秀丽隐杆线虫的基因组含有两个G蛋白β亚基基因。在此,我们描述了第二个G蛋白β亚基基因gpb - 2的特征。与gpb - 1不同,gpb - 2不是必需基因,尽管它与gpb - 1一样,在发育过程中、神经系统和肌肉细胞中表达。gpb - 2的功能丧失突变会产生多种行为缺陷,包括产卵延迟和咽部抽吸减少。遗传分析表明,GPB - 2与GOA - 1(哺乳动物G(o)α的同源物)和EGL - 30(哺乳动物G(q)α的同源物)信号通路相互作用。GPB - 2与不同的哺乳动物Gβ5亚基最为相似,已证明该亚基可介导与RGS蛋白的Gγ亚基样(GGL)结构域的特异性相互作用。我们在此表明,GPB - 2与含GGL的RGS蛋白EGL - 10和EAT - 16在物理和遗传上相互作用。综上所述,我们的结果表明,GPB - 2与RGS蛋白EGL - 10和EAT - 16协同作用,以调节GOA - 1(G(o)α)和EGL - 30(G(q)α)信号传导。
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