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水稻白叶枯病菌XopQ预测活性位点的突变对其致病性、宿主先天免疫抑制及非寄主植物中过敏反应诱导的影响存在差异。

Mutations in the Predicted Active Site of Xanthomonas oryzae pv. oryzae XopQ Differentially Affect Virulence, Suppression of Host Innate Immunity, and Induction of the HR in a Nonhost Plant.

作者信息

Gupta Mahesh Kumar, Nathawat Rajkanwar, Sinha Dipanwita, Haque Asfarul S, Sankaranarayanan Rajan, Sonti Ramesh V

出版信息

Mol Plant Microbe Interact. 2015 Feb;28(2):195-206. doi: 10.1094/MPMI-09-14-0288-R.

DOI:10.1094/MPMI-09-14-0288-R
PMID:25353365
Abstract

Xanthomonas oryzae pv. oryzae, the bacterial blight pathogen of rice, secretes a number of effectors through a type 3 secretion system. One of these effectors, called XopQ, is required for virulence and suppression of rice innate immune responses induced by the plant cell-wall-degrading enzyme lipase/esterase A (LipA). Bioinformatic analysis suggested that XopQ is homologous to inosine-uridine nucleoside hydrolases (NH). A structural model of XopQ with the protozoan Crithidia fasciculata purine NH suggested that D116 and Y279 are potential active site residues. X. oryzae pv. oryzae xopQ mutants (xopQ-/pHM1::xopQD116A and xopQ-/pHM1::xopQY279A) show reduced virulence on rice compared with xopQ-/pHM1::xopQ. The two predicted XopQ active site mutants (xopQ-/pHM1::xopQD116A and xopQ-/pHM1::xopQY279A) exhibit a reduced hypersensitive response (HR) on Nicotiana benthamiana, a nonhost. However, Arabidopsis lines expressing either xopQ or xopQY279A are equally proficient at suppression of LipA-induced callose deposition. Purified XopQ does not show NH activity on standard nucleoside substrates but exhibits ribose hydrolase activity on the nucleoside substrate analogue 4-nitrophenyl β-D-ribofuranoside. The D116A and Y279A mutations cause a reduction in biochemical activity. These results indicate that mutations in the predicted active site of XopQ affect virulence and induction of the HR but do not affect suppression of innate immunity.

摘要

水稻白叶枯病菌(Xanthomonas oryzae pv. oryzae)通过Ⅲ型分泌系统分泌多种效应蛋白。其中一种效应蛋白名为XopQ,是致病力以及抑制由植物细胞壁降解酶脂肪酶/酯酶A(LipA)诱导的水稻先天免疫反应所必需的。生物信息学分析表明,XopQ与肌苷-尿苷核苷水解酶(NH)同源。基于原生动物纤细锥虫嘌呤NH构建的XopQ结构模型表明,D116和Y279是潜在的活性位点残基。与xopQ-/pHM1::xopQ相比,水稻白叶枯病菌xopQ突变体(xopQ-/pHM1::xopQD116A和xopQ-/pHM1::xopQY279A)对水稻的致病力降低。两个预测的XopQ活性位点突变体(xopQ-/pHM1::xopQD116A和xopQ-/pHM1::xopQY279A)在非寄主植物本氏烟草上表现出过敏反应(HR)减弱。然而,表达xopQ或xopQY279A的拟南芥株系在抑制LipA诱导的胼胝质沉积方面同样有效。纯化的XopQ对标准核苷底物不显示NH活性,但对核苷底物类似物4-硝基苯基β-D-呋喃核糖苷表现出核糖水解酶活性。D116A和Y279A突变导致生化活性降低。这些结果表明,XopQ预测活性位点的突变影响致病力和HR诱导,但不影响先天免疫的抑制。

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