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辅助 Sec 系统转运前蛋白需要紧邻信号肽的特定结构域。

Transport of preproteins by the accessory Sec system requires a specific domain adjacent to the signal peptide.

机构信息

San Francisco Veterans Affairs Medical Center, San Francisco, CA 94121, USA.

出版信息

J Bacteriol. 2010 Aug;192(16):4223-32. doi: 10.1128/JB.00373-10. Epub 2010 Jun 18.

DOI:10.1128/JB.00373-10
PMID:20562303
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2916413/
Abstract

The accessory Sec (SecA2/Y2) systems of streptococci and staphylococci are dedicated to the transport of large serine-rich repeat (SRR) glycoproteins to the bacterial cell surface. The means by which the glycosylated preproteins are selectively recognized by the accessory Sec system have not been fully characterized. In Streptococcus gordonii, the SRR glycoprotein GspB has a 90-residue amino-terminal signal sequence that is essential for transport by SecA2/Y2 but is not sufficient to mediate the transport of heterologous proteins by this specialized transporter. We now report that a preprotein must remain at least partially unfolded prior to transport by the accessory Sec system. In addition, a region of approximately 20 residues from the amino-terminal end of mature GspB (the accessory Sec transport or AST domain) is essential for SecA2/Y2-dependent transport. The replacement of several AST domain residues with glycine strongly interferes with export, which suggests that a helical conformation may be important. Analysis of GspB variants with alterations in the AST domain, in combination with the results with a SecY2 variant, indicates that the AST domain is essential both for targeting to the SecA2/Y2 translocase and for initiating translocation through the SecY2 channel. The combined results suggest a unique mechanism that ensures the transport of a single substrate by the SecA2/Y2 system.

摘要

链球菌和葡萄球菌的辅助 Sec(SecA2/Y2)系统专门用于将富含丝氨酸的重复(SRR)糖蛋白运输到细菌表面。但是,尚未完全阐明糖基化前蛋白被辅助 Sec 系统选择性识别的方式。在戈登链球菌中,SRR 糖蛋白 GspB 具有 90 个残基的氨基末端信号序列,该序列对于 SecA2/Y2 的运输是必需的,但不足以介导该特殊转运蛋白运输异源蛋白。现在我们报告说,前蛋白在通过辅助 Sec 系统运输之前必须至少部分展开。此外,成熟 GspB 氨基末端约 20 个残基的区域(辅助 Sec 运输或 AST 域)对于 SecA2/Y2 依赖性运输是必需的。用甘氨酸替换 AST 域中的几个残基会强烈干扰输出,这表明螺旋构象可能很重要。对 AST 域发生改变的 GspB 变体进行分析,并结合 SecY2 变体的结果表明,AST 域对于靶向 SecA2/Y2 易位酶以及启动通过 SecY2 通道的易位都是必需的。综合结果表明了一种独特的机制,可确保 SecA2/Y2 系统运输单一底物。

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