RNA on Leaf Surfaces Plays Role in Shaping Plant Microbiomes
The finding suggests that the RNA present on the leaf surface may play a role in shaping the microbial communities that inhabit them, potentially influencing plant health and interactions within their environment, according to a new study.
The study, diverse plant RNAs coat Arabidopsis leaves and are distinct from apoplastic RNAs, was published in the Proceedings of the National Academy of Sciences. The first authors are Lucía Borniego and Meenu Singla-Rastogi, postdoctoral fellows at the Indiana University Department of Biology in the College of Arts and Sciences. The senior author is Roger Innes, Distinguished Professor of Biology.
RNA is extremely fragile, and thus rapidly broken down if it is not protected. The study produces some of the first evidence that plants can secrete viable RNA onto the surfaces of their leaves.
The paper found there are abundant RNAs on leaf surfaces that are surprisingly stable. Data presented in the paper suggests that this stability might be associated with the ability of the RNA to form condensates with polysaccharides, such as pectin. By discovering that plant leaves are coated with RNA, this work shows that the microbes that colonize the surfaces of leaves are exposed to plant RNA and likely interact with this RNA. In turn, this likely impacts gene expression in these microbes, which could impact which microbes thrive on the leaves' surfaces.
"The manipulation of microbial communities by environmental RNA is likely taking place in our own guts as well, with RNA being secreted by our intestinal epithelial cells," said Innes. "It is also quite possible that RNA on leaf surfaces, like salad, could influence our own gut microbiomes."
Additional contributors to the paper were Megha Hastantram Sampangi-Ramaiah and Hana Zand Karimi of the Indiana University Department of Biology, Patricia Baldrich and Blake C. Meyers of University of California – Davis, and Madison McGregor of the Donald Danforth Plant Science Center.
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