生物
微生物群
根毛
非生物胁迫
代谢组
非生物成分
转录组
耐旱性
共生
基因组
干旱胁迫
根瘤菌科
代谢组学
植物
基因
遗传学
生态学
生物信息学
细菌
基因表达
作者
Zhenghong Wang,Zewen Li,Yujie Zhang,Jingye Liao,Kaixiang Guan,Jingxuan Zhai,Pengfei Meng,Xianli Tang,Tao Dong,Yi Song
标识
DOI:10.1038/s41467-024-54417-5
摘要
Drought is one of the most serious abiotic stresses, and emerging evidence suggest plant microbiome affects plant drought tolerance. However, there is a lack of genetic evidence regarding whether and how plants orchestrate the dynamic assembly of the microbiome upon drought. By utilizing mutants with enhanced or decreased root hair densities, we find that root hair regulators also affect drought induced root microbiome changes. Rhizobiaceae is a key biomarker taxa affected by root hair related mutants. We isolated and sequenced 1479 root associated microbes, and confirmed that several Rhizobium strains presented stress-alleviating activities. Metagenome, root transcriptome and root metabolome studies further reveal the multi-omic changes upon drought stress. We knocked out an ornithine cyclodeaminase (ocd) gene in Rhizobium sp. 4F10, which significantly dampens its stress alleviating ability. Our genetic and integrated multi-omics studies confirm the involvement of host genetic effects in reshaping a stress-alleviating root microbiome during drought, and provide mechanistic insights into Rhizobiaceae mediated abiotic stress protection. Plant microbiome confers fitness benefits upon drought. By integrating plant genetic, microbial genetic and multi-omics approaches, this work reveals the critical role of root hair developmental regulators in shaping drought alleviating microbiome.
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