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运动缺陷与Pins一起,在果蝇神经母细胞不对称分裂过程中调节异源三聚体G蛋白信号传导。

Locomotion defects, together with Pins, regulates heterotrimeric G-protein signaling during Drosophila neuroblast asymmetric divisions.

作者信息

Yu Fengwei, Wang Hongyan, Qian Hongliang, Kaushik Rachna, Bownes Mary, Yang Xiaohang, Chia William

机构信息

Temasek Lifesciences Laboratory and Department of Biological Sciences, National University of Singapore.

出版信息

Genes Dev. 2005 Jun 1;19(11):1341-53. doi: 10.1101/gad.1295505.

DOI:10.1101/gad.1295505
PMID:15937221
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1142557/
Abstract

Heterotrimeric G proteins mediate asymmetric division of Drosophila neuroblasts. Free Gbetagamma appears to be crucial for the generation of an asymmetric mitotic spindle and consequently daughter cells of distinct size. However, how Gbetagamma is released from the inactive heterotrimer remains unclear. Here we show that Locomotion defects (Loco) interacts and colocalizes with Galphai and, through its GoLoco motif, acts as a guanine nucleotide dissociation inhibitor (GDI) for Galphai. Simultaneous removal of the two GoLoco motif proteins, Loco and Pins, results in defects that are essentially indistinguishable from those observed in Gbeta13F or Ggamma1 mutants, suggesting that Loco and Pins act synergistically to release free Gbetagamma in neuroblasts. Furthermore, the RGS domain of Loco can also accelerate the GTPase activity of Galphai to regulate the equilibrium between the GDP- and the GTP-bound forms of Galphai. Thus, Loco can potentially regulate heterotrimeric G-protein signaling via two distinct modes of action during Drosophila neuroblast asymmetric divisions.

摘要

异源三聚体G蛋白介导果蝇神经母细胞的不对称分裂。游离的Gβγ对于不对称有丝分裂纺锤体的形成以及由此产生的不同大小的子细胞似乎至关重要。然而,Gβγ如何从无活性的异源三聚体中释放仍不清楚。在这里,我们表明运动缺陷蛋白(Loco)与Gαi相互作用并共定位,并且通过其GoLoco基序,作为Gαi的鸟嘌呤核苷酸解离抑制剂(GDI)。同时去除两个GoLoco基序蛋白Loco和Pins,会导致与在Gβ13F或Gγ1突变体中观察到的缺陷基本无法区分的缺陷,这表明Loco和Pins协同作用以在神经母细胞中释放游离的Gβγ。此外,Loco的RGS结构域还可以加速Gαi的GTPase活性,以调节Gαi的GDP结合形式和GTP结合形式之间的平衡。因此,在果蝇神经母细胞不对称分裂过程中,Loco可能通过两种不同的作用模式来调节异源三聚体G蛋白信号传导。

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