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一种显性负性针突变体可阻断耶尔森菌中 III 型分泌系统对早期而非晚期底物的分泌。

A dominant-negative needle mutant blocks type III secretion of early but not late substrates in Yersinia.

机构信息

Department of Molecular Biology and Microbiology, Tufts University School of Medicine, Boston, MA 02111, USA.

出版信息

Mol Microbiol. 2010 Apr;76(1):236-59. doi: 10.1111/j.1365-2958.2010.07096.x. Epub 2010 Feb 28.

DOI:10.1111/j.1365-2958.2010.07096.x
PMID:20199604
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2911021/
Abstract

Yersinia pseudotuberculosis uses a type III secretion system (T3SS) to deliver effectors into host cells. A key component of the T3SS is the needle, which is a hollow tube on the bacterial surface through which effectors are secreted, composed of the YscF protein. To study needle assembly, we performed a screen for dominant-negative yscF alleles that prevented effector secretion in the presence of wild-type (WT) YscF. One allele, yscF-L54V, prevents WT YscF secretion and needle assembly, although purified YscF-L54V polymerizes in vitro. YscF-L54V binds to its chaperones YscE and YscG, and the YscF-L54V-EG complex targets to the T3SS ATPase, YscN. We propose that YscF-L54V stalls at a binding site in the needle assembly pathway following its release from the chaperones, which blocks the secretion of WT YscF and other early substrates required for building a needle. Interestingly, YscF-L54V does not affect the activity of pre-assembled actively secreting machines, indicating that a factor and/or binding site required for YscF secretion is absent from T3SS machines already engaged in effector secretion. Thus, substrate switching may involve the removal of an early substrate-specific binding site as a mechanism to exclude early substrates from Yop-secreting machines.

摘要

假结核耶尔森氏菌使用 III 型分泌系统 (T3SS) 将效应物递送至宿主细胞。T3SS 的一个关键组件是针,它是细菌表面的一个空心管,效应物通过它被分泌出来,由 YscF 蛋白组成。为了研究针的组装,我们进行了筛选,以寻找能够在野生型 (WT) YscF 存在的情况下阻止效应物分泌的显性负性 yscF 等位基因。一个等位基因 yscF-L54V 阻止了 WT YscF 的分泌和针的组装,尽管纯化的 YscF-L54V 在体外聚合。YscF-L54V 与它的伴侣蛋白 YscE 和 YscG 结合,并且 YscF-L54V-EG 复合物靶向 T3SS ATP 酶 YscN。我们提出,YscF-L54V 在从伴侣蛋白释放后,在针组装途径中的一个结合位点上停滞不前,这阻止了 WT YscF 和其他构建针所需的早期底物的分泌。有趣的是,YscF-L54V 不影响预组装的活跃分泌机器的活性,这表明 T3SS 机器已经参与了效应物的分泌,因此缺少用于 YscF 分泌的一个因子和/或结合位点。因此,底物转换可能涉及去除一个早期底物特异性结合位点,作为将早期底物从 Yop 分泌机器中排除的一种机制。

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