发动蛋白效应器的机制分析
Mechanistic analysis of a dynamin effector.
作者信息
Lackner Laura L, Horner Jennifer S, Nunnari Jodi
机构信息
Department of Molecular and Cellular Biology, University of California, Davis, CA 95616, USA.
出版信息
Science. 2009 Aug 14;325(5942):874-7. doi: 10.1126/science.1176921.
Abstract
Dynamin-related proteins (DRPs) can generate forces to remodel membranes. In cells, DRPs require additional proteins [DRP-associated proteins (DAPs)] to conduct their functions. To dissect the mechanistic role of a DAP, we used the yeast mitochondrial division machine as a model, which requires the DRP Dnm1, and two other proteins, Mdv1 and Fis1. Mdv1 played a postmitochondrial targeting role in division by specifically interacting and coassembling with the guanosine triphosphate-bound form of Dnm1. This regulated interaction nucleated and promoted the self-assembly of Dnm1 into helical structures, which drive membrane scission. The nucleation of DRP assembly probably represents a general regulatory strategy for this family of filament-forming proteins, similar to F-actin regulation.
摘要
动力相关蛋白(DRPs)能够产生力量重塑细胞膜。在细胞中,DRPs需要其他蛋白[DRP相关蛋白(DAPs)]来执行其功能。为了剖析一种DAP的作用机制,我们以酵母线粒体分裂机制为模型,该机制需要DRP Dnm1以及另外两种蛋白Mdv1和Fis1。Mdv1通过与鸟苷三磷酸结合形式的Dnm1特异性相互作用并共同组装,在分裂过程中发挥线粒体后靶向作用。这种调节性相互作用促使Dnm1成核并促进其自组装成螺旋结构,从而驱动膜分裂。DRP组装的成核作用可能代表了这一形成丝状蛋白家族的一种普遍调节策略,类似于F-肌动蛋白调节。
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