原核 M16B 肽酶的晶体和溶液结构:一个明了的案例。
Crystal and solution structures of a prokaryotic M16B peptidase: an open and shut case.
机构信息
Burnham Institute for Medical Research, La Jolla, CA 92037, USA.
出版信息
Structure. 2009 Nov 11;17(11):1465-75. doi: 10.1016/j.str.2009.09.009.
Abstract
The M16 family of zinc peptidases comprises a pair of homologous domains that form two halves of a "clam-shell" surrounding the active site. The M16A and M16C subfamilies form one class ("peptidasomes"): they degrade 30-70 residue peptides, and adopt both open and closed conformations. The eukaryotic M16B subfamily forms a second class ("processing proteases"): they adopt a single partly-open conformation that enables them to cleave signal sequences from larger proteins. Here, we report the solution and crystal structures of a prokaryotic M16B peptidase, and demonstrate that it has features of both classes: thus, it forms stable "open" homodimers in solution that resemble the processing proteases; but the clam-shell closes upon binding substrate, a feature of the M16A/C peptidasomes. Moreover, clam-shell closure is required for proteolytic activity. We predict that other prokaryotic M16B family members will form dimeric peptidasomes, and propose a model for the evolution of the M16 family.
摘要
M16 锌肽酶家族由一对同源结构域组成,这两个结构域形成一个“蛤壳”的两半,围绕着活性位点。M16A 和 M16C 亚家族形成一个类(“肽酶体”):它们降解 30-70 个残基的肽,并采用开放和闭合两种构象。真核 M16B 亚家族形成另一个类(“加工蛋白酶”):它们采用单一的部分开放构象,使它们能够从较大的蛋白质中切割信号序列。在这里,我们报告了一种原核 M16B 肽酶的溶液和晶体结构,并证明它具有这两个类的特征:因此,它在溶液中形成稳定的“开放”同源二聚体,类似于加工蛋白酶;但蛤壳在结合底物时关闭,这是 M16A/C 肽酶体的特征。此外,蛤壳关闭是蛋白酶活性所必需的。我们预测其他原核 M16B 家族成员将形成二聚体肽酶体,并提出了 M16 家族进化的模型。
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