基于自组装分体式纳米荧光素酶的检测方法,用于研究假单胞菌的效应物分泌。

Pei Miao, Jian-Min Zhou, Wei Wang
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引用次数: 0

摘要

许多革兰氏阴性病原体利用 III 型分泌系统(T3SS)将效应蛋白输送到宿主细胞中,从而调节宿主细胞过程并抑制宿主免疫,以促进致病和定殖。在这项研究中,我们开发了一种直接、快速和定量的方法,利用基于自组装分裂纳米荧光素酶(Nluc)的报告系统来检测 T3SS 介导的丁香假单胞菌效应蛋白的转运。研究表明,该系统能以极高的信噪比和灵敏度在体外检测效应物的分泌,这归功于 Nluc 的分裂结构域之间的强亲和力和功能性 Nluc 产生的强发光。在自然感染过程中,与 Nluc C 端小片段融合的效应物成功转运到植物细胞中,并保留了其毒力功能。此外,当表达 Nluc N 端片段的植物感染这些 P. syringae 菌株时,功能性 Nluc 蛋白会自发组装并产生明亮的荧光,这表明该系统能够直接、快速地评估 P. syringae T3SS 在自然感染过程中介导的效应物转运。总之,本研究开发的基于 Nluc 的自组装分裂报告系统适用于在体外和植物体内高效检测通过 T3SS 分泌的效应物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A self-assembling split Nano luciferase-based assay for investigating Pseudomonas syringae effector secretion.

Many Gram-negative pathogens employ the type III secretion system (T3SS) to deliver effector proteins into host cells, thereby modulating host cellular processes and suppressing host immunity to facilitate pathogenesis and colonization. In this study, we developed a straightforward, rapid, and quantitative method for detecting T3SS-mediated translocation of Pseudomonas syringae effectors using a self-assembling split Nano luciferase (Nluc)-based reporter system. It was demonstrated that this system can detect effector secretion in vitro with an exceptionally high signal-to-noise ratio and sensitivity, attributed to the strong affinity between the split domains of Nluc and the intense luminescence generated by functional Nluc. During natural infections, effectors fused to a small C-terminal fragment of Nluc were successfully translocated into plant cells and retained their virulence functions. Furthermore, upon infection of plants expressing the N-terminal fragment of Nluc with these P. syringae strains, functional Nluc proteins were spontaneously assembled and produced bright luminescence, demonstrating that this system enables the straightforward and rapid assessment of P. syringae T3SS-mediated effector translocation during natural infections. In conclusion, the self-assembling split Nluc-based reporting system developed in this study is suitable for efficient in vitro and in planta detection of effectors secreted via T3SS.

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