Current microbiology. 2025 May 6;82(6):281. doi: 10.1007/s00284-025-04252-8 Q32.62025
A Methyl-Accepting Chemotaxis Protein MCP-5685 Associated with Indole Synthesis in Pantoea ananatis YJ76 Influences its Plant Growth-Promoting Potential and Adaptability to Stress Conditions
潘冠亚热带型耶尔森菌YJ76中的MCP-5685蛋白与色氨酸合成有关并影响其促植物生长潜力和耐逆境能力 翻译改进
Haotian Zhang 1, Xinyi Zhou 1, Xueying Wang 1, Jing Zheng 1, Yongjun Feng 2
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DOI: 10.1007/s00284-025-04252-8 PMID: 40327119
摘要 中英对照阅读
水稻内生固氮细菌Pantoea ananatis YJ76 能够产生吲哚,作为改善宿主植物抗逆性、定殖能力和促生长作用的信号。甲基接受趋化蛋白(MCPs)是细菌的主要化学受体,参与调节各种细胞活动。通过构建YJ76的mTn5转座子突变体文库,筛选出一个吲哚产量降低的突变株。该突变菌在抵抗逆境和饥饿、定殖以及对宿主水稻植物促生长作用的能力均受到抑制。利用hiTAIL-PCR技术和全基因组重测序技术,确定突变位点为长度为1545 bp的mcp-5685基因。生物信息学分析和趋化实验表明,由mcp-5685编码的MCP具有L-丝氨酸趋化功能,揭示了该基因所编码蛋白驱动L-丝氨酸摄取机制,而L-丝氨酸是色氨酸合成的关键成分,从而促进吲哚合成在吲哚信号合成调控路径中的作用。从上游调控方向研究吲哚合成,本研究突破了以往仅关注吲哚下游生理功能调节的研究限制,为吲哚信号的研究提供了新的思路。
© 2025. 作者保留独家许可给 Springer Science+Business Media, LLC 使用的权利,Springer Nature 集团的一部分。
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A Methyl-Accepting Chemotaxis Protein MCP-5685 Associated with Indole Synthesis in Pantoea ananatis YJ76 Influences its Plant Growth-Promoting Potential and Adaptability to Stress Conditions