| 杨晓欣, 许景升, 徐 进, 韩文超, 李志明, 冯 洁*.青枯菌GMI 1000菌株c-di-GMP代谢酶调控基因vsrD功能研究[J].植物保护,2025,51(3):102-112. |
| 青枯菌GMI 1000菌株c-di-GMP代谢酶调控基因vsrD功能研究 |
| Research on the regulatory gene vsrD of c-di-GMP metabolic enzyme gene in Ralstonia solanacearum GMI 1000 |
| 投稿时间:2024-05-31 修订日期:2024-07-17 |
| DOI:10.16688/j.zwbh.2024298 |
| 中文关键词: 青枯菌 c-di-GMP 致病力 运动性 调控 |
| 英文关键词:Ralstonia solanacearum c-di-GMP pathogenicity motility regulation |
| 基金项目:国家重点研发计划(2021YFD1400200) |
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| 中文摘要: |
| 青枯菌Ralstonia solanacearum是全球作物生产中的一种重要病原细菌。由青枯菌引起的植物细菌性枯萎病(简称青枯病)危害数百种经济作物并造成严重经济损失。环二鸟苷酸(cyclic diguanylate, c-di-GMP)是一种广泛存在于细菌中的第二信使分子,通过调控生物膜形成、运动性等影响病原菌致病力。但在青枯菌中, c-di-GMP的调控网络并不清楚。本试验以青枯菌GMI 1000中的c-di-GMP降解酶基因gedrG缺失突变体菌株(ΔgedrG-GMI)为研究对象, 将pMiniHimarI RB1质粒通过双亲共结合法导入ΔgedrG-GMI突变体, 筛选运动性表型恢复的转座子插入突变体(transposon mutagenesis), 共鉴定了13 272株转座子插入突变体。其中, 转座子插入vsrD基因时, ΔgedrG-GMI运动性恢复为野生型水平。分析表明vsrD基因缺失后, 突变株运动性极显著增强, 胞内c-di-GMP水平降低, 致病力丧失, vsrD基因互补菌株运动性恢复至缺失前水平。以上结果表明, vsrD参与了青枯菌GMI 1000中c-di-GMP调控通路, 影响GMI 1000运动性, 且与致病性密切相关。 |
| 英文摘要: |
| Ralstonia solanacearum is an important pathogen in crop production worldwide. The bacterial wilt caused by R.solanacearum affects hundreds of crops and causes serious economic losses. Cyclic diguanylate (c-di-GMP) is a widely distributed second messenger molecule in bacteria, which can regulate biofilm formation, motility, and other factors that affect pathogenicity. However, the regulatory network of c-di-GMP in R.solanacearum remains unclear. In this study, the c-di-GMP degrading enzyme gene gedrG deletion mutant strain ΔgedrG-GMI was used as test object. The pMiniHimar1 RB1 plasmid was introduced into the ΔgedrG-GMI mutant by biparental conjugation. Transposon mutagenesis was used to screen for mutants with recovered motility phenotypes. A total of 13 272 transposon mutants were identified. When the transposon inserted into the vsrD gene, motility in ΔgedrG-GMI was restored. Analysis showed that the deletion of vsrD resulted in significantly enhanced motility, reduced intracellular c-di-GMP levels, and loss of virulence. However, the motility of the vsrD complementation strain was restored to the pre-deletion level, but virulence was not restored. These results indicate that vsrD is involved in the regulation of the c-di-GMP pathway in R.solanacearum GMI 1000 and is closely related to its pathogenic mechanism. |
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