根际
资源(消歧)
生物
斯氏假单胞菌
生化工程
细菌
生态学
生物技术
计算机科学
计算机网络
遗传学
工程类
作者
Wei Wang,Yanwei Xia,Panpan Zhang,Mengqing Zhu,Shiyi Huang,Xinli Sun,Zhihui Xu,Nan Zhang,Weibing Xun,Qirong Shen,Youzhi Miao,Ruifu Zhang
标识
DOI:10.1038/s41467-025-61432-7
摘要
The importance of synthetic microbial communities in agriculture is increasingly recognized, yet methods for constructing targeted communities using existing microbial resources remain limited. Here, six plant-beneficial bacterial strains with distinct functions and rhizosphere resource utilization profiles are selected to construct stable, multifunctional communities for plant growth promotion. Metabolic modeling reveals that narrower resource utilization correlates with increased metabolic interaction potential and reduced metabolic resource overlap, contributing to greater community stability. Integrated analyses further consistently confirm the central roles of narrow-spectrum resource-utilizing strains, Cellulosimicrobium cellulans E and Pseudomonas stutzeri G, which form metabolic interaction networks via secretion of asparagine, vitamin B12, isoleucine, and their precursors or derivatives. Two synthetic communities, SynCom4 and SynCom5, have high stability in the tomato rhizosphere and increase plant dry weight by over 80%. Our study elucidates the relationship between resource utilization width and community stability, providing a rational strategy for designing stable, multifunctional microbial communities for specific habitats.
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