Rice receptor kinase FLR7 regulates rhizosphere oxygen levels and enriches the dominant Anaeromyxobacter that improves submergence tolerance in rice

Hong-Bin Liu, Hong-Xia Sun, Li-Qiong Du, Ling-Li Jiang, Lin-An Zhang, Yin-Yao Qi, Jun Cai, Feng Yu
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Abstract

Oxygen is one of the determinants of root microbiome formation. However, whether plants regulate rhizosphere oxygen levels to affect microbiota composition and the underlying molecular mechanisms remain elusive. The receptor-like kinase (RLK) family member FERONIA modulates the growth–defense tradeoff in Arabidopsis. Here, we established that rice FERONIA-like RLK 7 (FLR7) controls rhizosphere oxygen levels by methylene blue staining, oxygen flux and potential measurements. The formation of oxygen-transporting aerenchyma in roots is negatively regulated by FLR7. We further characterized the root microbiota of 11 FLR mutants including flr7 and wild-type Nipponbare (Nip) grown in the field by 16S ribosomal RNA gene profiling and demonstrated that the 11 FLRs are involved in regulating rice root microbiome formation. The most abundant anaerobic-dependent genus Anaeromyxobacter in the Nip root microbiota was less abundant in the root microbiota of all these mutants, and this contributed the most to the community differences between most mutants and Nip. Metagenomic sequencing revealed that flr7 increases aerobic respiration and decreases anaerobic respiration in the root microbiome. Finally, we showed that a representative Anaeromyxobacter strain improved submergence tolerance in rice via FLR7. Collectively, our findings indicate that FLR7 mediates changes in rhizosphere oxygen levels and enriches the beneficial dominant genus Anaeromyxobacter and may provide insights for developing plant flood prevention strategies via the use of environment-specific functional soil microorganisms.
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水稻受体激酶 FLR7 可调节根瘤层的氧气水平,富集优势厌氧菌,从而提高水稻的耐淹性
氧气是根微生物群形成的决定因素之一。然而,植物是否会通过调节根瘤层的氧气水平来影响微生物群的组成及其潜在的分子机制仍是未知数。受体样激酶(RLK)家族成员 FERONIA 调节拟南芥的生长-防御权衡。在这里,我们通过亚甲基蓝染色、氧通量和电位测量确定了水稻 FERONIA 样 RLK 7(FLR7)控制根瘤氧水平。根中氧气运输气孔的形成受 FLR7 的负调控。我们通过 16S 核糖体 RNA 基因谱分析,进一步鉴定了在田间生长的 11 个 FLR 突变体(包括 flr7 和野生型 Nipponbare(Nip))的根微生物群,结果表明这 11 个 FLR 参与了水稻根微生物群形成的调控。在所有这些突变体的根微生物群中,Nip 根微生物群中最丰富的厌氧依赖性菌属 Anaeromyxobacter 的数量较少,这也是造成大多数突变体与 Nip 之间群落差异的主要原因。元基因组测序显示,在根微生物群中,flr7 增加了需氧呼吸,减少了厌氧呼吸。最后,我们发现一株具有代表性的拟杆菌通过 FLR7 提高了水稻的耐淹性。总之,我们的研究结果表明,FLR7 可介导根圈氧含量的变化,并丰富有益的优势菌属 Anaeromyxobacter,从而为通过使用环境特异性功能性土壤微生物来制定植物防涝策略提供启示。
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