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一种改进的、通用的、高效的模块化质粒组装系统,用于分析稻黄单胞菌中基因的表达。

An improved, versatile and efficient modular plasmid assembly system for expression analyses of genes in Xanthomonas oryzae.

机构信息

School of Agriculture and Biology, Shanghai Jiao Tong University, Shanghai, China.

Key Laboratory of Urban Agriculture by Ministry of Agriculture of China, Shanghai Jiao Tong University, Shanghai, China.

出版信息

Mol Plant Pathol. 2021 Apr;22(4):480-492. doi: 10.1111/mpp.13033. Epub 2021 Jan 24.

DOI:10.1111/mpp.13033
PMID:33486879
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7938625/
Abstract

Xanthomonas oryzae pathovars oryzae (Xoo) and oryzicola (Xoc) infect rice, causing bacterial blight and bacterial leaf streak, respectively, which are two economically important bacterial diseases in paddy fields. The interactions of Xoo and Xoc with rice can be used as models for studying fundamental aspects of bacterial pathogenesis and host tissue specificity. However, an improved vector system for gene expression analysis is desired for Xoo and Xoc because some broad host range vectors that can replicate stably in X. oryzae pathovars are low-copy number plasmids. To overcome this limitation, we developed a modular plasmid assembly system to transfer the functional DNA modules from the entry vectors into the pHM1-derived backbone vectors on a high-copy number basis. We demonstrated the feasibility of our vector system for protein detection, and quantification of virulence gene expression under laboratory conditions and in association with host rice and nonhost tobacco cells. This system also allows execution of a mutant complementation equivalent to the single-copy chromosomal integration system and tracing of pathogens in rice leaf. Based on this assembly system, we constructed a series of protein expression and promoter-probe vectors suitable for classical double restriction enzyme cloning. These vector systems enable cloning of all genes or promoters of interest from Xoo and Xoc strains. Our modular assembly system represents a versatile and highly efficient toolkit for gene expression analysis that will accelerate studies on interactions of X. oryzae with rice.

摘要

稻黄单胞菌致病变种稻生(Xoo)和稻生(Xoc)分别感染水稻,引起细菌性条斑病和细菌性叶斑病,这是稻田中两种具有重要经济意义的细菌性病害。Xoo 和 Xoc 与水稻的相互作用可以作为研究细菌发病机制和宿主组织特异性基本方面的模型。然而,由于一些能够在 Xoo 致病变种中稳定复制的广谱宿主载体是低拷贝数质粒,因此需要一种改进的基因表达分析载体系统用于 Xoo 和 Xoc。为了克服这一限制,我们开发了一种模块化质粒组装系统,以便将功能性 DNA 模块从入口载体转移到基于高拷贝数的 pHM1 衍生的骨干载体上。我们证明了我们的载体系统在实验室条件下以及在与宿主水稻和非宿主烟草细胞的关联下检测蛋白质和定量毒力基因表达的可行性。该系统还允许执行相当于单拷贝染色体整合系统的突变互补,并在水稻叶片中追踪病原体。基于该组装系统,我们构建了一系列适合经典双酶切克隆的蛋白表达和启动子探针载体。这些载体系统能够从 Xoo 和 Xoc 菌株中克隆所有感兴趣的基因或启动子。我们的模块化组装系统代表了一种用于基因表达分析的多功能和高效工具包,将加速稻黄单胞菌与水稻相互作用的研究。

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