1. Modulation of defence and iron homeostasis genes in rice roots by the diazotrophic endophyte Herbaspirillum seropedicae.
- Author
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Brusamarello-Santos LCC, Alberton D, Valdameri G, Camilios-Neto D, Covre R, Lopes KP, Zibetti Tadra-Sfeir M, Faoro H, Adele Monteiro R, Barbosa-Silva A, John Broughton W, Oliveira Pedrosa F, Wassem R, and Souza EM
- Subjects
- Disease Resistance genetics, Gene Expression Profiling, Gene Expression Regulation, Plant genetics, Homeostasis, Oryza genetics, Oryza metabolism, Plant Roots metabolism, Genes, Plant, Herbaspirillum metabolism, Iron metabolism, Oryza microbiology, Plant Roots microbiology
- Abstract
Rice is staple food of nearly half the world's population. Rice yields must therefore increase to feed ever larger populations. By colonising rice and other plants, Herbaspirillum spp. stimulate plant growth and productivity. However the molecular factors involved are largely unknown. To further explore this interaction, the transcription profiles of Nipponbare rice roots inoculated with Herbaspirillum seropedicae were determined by RNA-seq. Mapping the 104 million reads against the Oryza sativa cv. Nipponbare genome produced 65 million unique mapped reads that represented 13,840 transcripts each with at least two-times coverage. About 7.4% (1,014) genes were differentially regulated and of these 255 changed expression levels more than two times. Several of the repressed genes encoded proteins related to plant defence (e.g. a putative probenazole inducible protein), plant disease resistance as well as enzymes involved in flavonoid and isoprenoid synthesis. Genes related to the synthesis and efflux of phytosiderophores (PS) and transport of PS-iron complexes were induced by the bacteria. These data suggest that the bacterium represses the rice defence system while concomitantly activating iron uptake. Transcripts of H. seropedicae were also detected amongst which transcripts of genes involved in nitrogen fixation, cell motility and cell wall synthesis were the most expressed.
- Published
- 2019
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