Interspecies Expression of an EF-HAND CALCIUM-BINDING PROTEIN in Xanthomonas perforans Leads to Reduced Virulence and Decreased Immune Evasion in Tomato Plants.
IF 3.2
3区 生物学
Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Shaheen Bibi, Gerald V Minsavage, J Figueiredo, Sujan Timilsina, Kayla Margin, Juliana Quay, Hannah Bendure, Elizabeth Ryerson, Cliff Calloway, Jacob Andring, Aastha Subedi, Robert McKenna, Paul Gulig, Erica M Goss, Jason C Hurlbert, Jeffrey B Jones
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Abstract
Many phytopathogenic bacteria require a type III secretion system (TTSS) to activate effector-triggered immunity (ETI). We identified a calcium-binding protein, EfhXXfa , in the citrus pathogen Xanthomonas citri subsp. aurantifolii that does not require a TTSS to activate reactive oxygen species (ROS) and elicit a hypersensitive reaction (HR) in tomato leaves following infection. Purified, recombinant EfhXXfa was shown to bind two moles of calcium per mole of protein, whereas mutation of the first of two EF-hands did not bind calcium. EfhXXfa expression was determined to be inducible in hrp-inducing medium. Additionally, growth of X. perforans transconjugants with and without the efhX Xfa gene in hrp-inducing medium differed in intracellular calcium concentration; the transconjugant without efhX Xfa yielded higher cell pellet masses and higher increased intracellular calcium concentrations relative to cells expressing EfhXXfa . An EfhXXfa homolog, EfhXXe , present in the pepper pathogen X. euvesicatoria , triggered ROS production and an HR in tomato leaves when expressed in the tomato pathogen X. perforans and is a host-limiting factor. Interestingly, all tested X. perforans and X. euvesicatoria strains pathogenic on tomato contain a stop codon immediately upstream of the first EF-hand domain in the efhX Xe gene, whereas most X. euvesicatoria strains pathogenic on pepper do not. [Formula: see text] Copyright © 2024 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.
穿孔黄单胞菌中一种 EF-HAND 钙结合蛋白的种间表达导致番茄植株毒力降低和免疫逃避能力下降。
许多植物病原菌需要三型分泌系统(TTSS)来激活效应触发免疫(ETI)。我们在柑橘病原体 X. citri subsp. aurantifolii 中发现了一种钙结合蛋白 EfhXXfa,它不需要 TTSS 就能激活活性氧(ROS),并在番茄叶片感染后引起超敏反应(HR)。纯化的重组 EfhXXfa 被证明能与每摩尔蛋白质中的两摩尔钙结合,而两个 EF 手中的第一个发生突变则不能与钙结合。EfhXXfa 的表达可在 hrp 诱导培养基中诱导。此外,带有和不带有efhXXfa基因的X. perforans转育体在hrp诱导培养基中的生长在细胞内钙浓度方面存在差异;与表达EfhXXfa的细胞相比,不带有efhXXfa基因的转育体产生的细胞团质量更高,细胞内钙浓度也更高。存在于辣椒病原体 X. euvesicatoria 中的 EfhXXfa 同源物 EfhXXe 在番茄病原体 X. perforans 中表达时,会引发 ROS 生成和番茄叶片的 HR,是一种宿主限制因子。有趣的是,所有测试过的对番茄致病的 X. perforans 和 X. euvesicatoria 株系都含有一个紧靠 efhXXe 基因中第一个 EF 手结构域上游的终止密码子,而大多数对辣椒致病的 X. euvesicatoria 株系则没有。
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Molecular Plant-Microbe Interactions® (MPMI) publishes fundamental and advanced applied research on the genetics, genomics, molecular biology, biochemistry, and biophysics of pathological, symbiotic, and associative interactions of microbes, insects, nematodes, or parasitic plants with plants.
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