Distinctive structure of endophytic microbial communities in two species of wild and cultivated rice.

Endophytic microbial communities play an important role in plant development, nutrient acquisition, and oxidative stress tolerance. and are unique wild rice varieties in China with many high-quality resistance genes, rich endophyte diversity, and potential resources for sustainable agriculture. In the present study, the endophytic microbial community structures of , , and cultivated rice were compared using metagenomic sequencing. , , , and were the core microbial groups in wild and cultivated rice. The relative abundances of , , and in were higher than those in cultivated rice. The relative abundances of , , , and in were also higher. Compared to that of cultivated rice, the microbiota of wild rice had a more complex and stable community network. At the pathway level 2 based on the Kyoto Encyclopedia of Genes and Genomes classification system, the relative abundance of metabolic categories was dominant. Most pathways showed that the relative abundance was higher than those of the other two species. Our study revealed differences in the leaf endophyte community structure and function between wild and cultivated rice in the same habitat, demonstrating the potential of wild rice in recruiting specific microorganisms to improve crop performance and promote safe and sustainable food production.IMPORTANCEUnder the current climate change environment, plant-beneficial endophytes are of great significance for promoting food production. Modern cultivars may have lost many beneficial endophytes compared to their ancestors. However, relatively few studies have been conducted on the community structure and function of modern ancestral crop endophytes. In this study, the composition and function of the microbial communities of two wild rice species were analyzed; the differences between them and cultivated rice were determined; and the patterns of microbial interactions and their core microbiomes were determined. Our findings can aid in the exploration of the beneficial endophytes in wild rice and use them to improve crop stress resistance and sustainability. These results provide relevant insights into the role of endophytes in the mechanism of high-stress resistance in wild rice.