参与功能性信号识别颗粒受体组装的两步机制的证据。
Evidence for a two-step mechanism involved in assembly of functional signal recognition particle receptor.
作者信息
Andrews D W, Lauffer L, Walter P, Lingappa V R
机构信息
Department of Physiology, University of California, San Francisco 94143.
出版信息
J Cell Biol. 1989 Mar;108(3):797-810. doi: 10.1083/jcb.108.3.797.
Abstract
The signal recognition particle (SRP) and SRP receptor act sequentially to target nascent secretory proteins to the membrane of the ER. The SRP receptor consists of two subunits, SR alpha and SR beta, both tightly associated with the ER membrane. To examine the biogenesis of the SRP receptor we have developed a cell-free assay system that reconstitutes SR alpha membrane assembly and permits both anchoring and functional properties to be assayed independently. Our experiments reveal a mechanism involving at least two distinct steps, targeting to the ER and anchoring of the targeted molecule on the cytoplasmic face of the membrane. Both steps can be reconstituted in vitro to restore translocation activity to ER microsomes inactivated by alkylation with N-ethyl-maleimide. The characteristics elucidated for this pathway distinguish it from SRP-dependent targeting of secretory proteins, SRP-independent ER translocation of proteins such as prepromellitin, and direct insertion mechanisms of the type exemplified by cytochrome b5.
摘要
信号识别颗粒(SRP)和SRP受体依次作用,将新生的分泌蛋白靶向内质网(ER)膜。SRP受体由两个亚基组成,即SRα和SRβ,二者均与ER膜紧密相连。为了研究SRP受体的生物发生过程,我们开发了一种无细胞检测系统,该系统可重构SRα膜组装,并允许独立检测锚定和功能特性。我们的实验揭示了一种机制,该机制至少涉及两个不同的步骤,即靶向ER以及将靶向分子锚定在膜的细胞质面上。这两个步骤均可在体外重构,以恢复被N-乙基马来酰亚胺烷基化而失活的ER微粒体的转运活性。该途径所阐明的特征将其与分泌蛋白的SRP依赖性靶向、诸如前原黑素蛋白等蛋白的SRP非依赖性ER转运以及细胞色素b5所代表的直接插入机制区分开来。
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