Evaluating the effect of secreted ribonucleases from Ustilago maydis on the extracellular RNA profile/repertoire of Zea mays during corn smut disease [miRNA-seq]
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ABSTRACT: The apoplast of host plants serves as a dynamic interface during invasion and subsequent establishment of disease by a microbial pathogen. In the recent past, host plant apoplasts have been demonstrated to harbour small membrane bound vesicles called extracellular vesicles (EVs) that contain both RNA and protein. EVs are considered to play a significant role in cell-cell communication between the host and the pathogen during infection. In this study the RNAs associated with EVs from the host plant Zea mays under infected and uninfected conditions were sequenced. Besides EV bound RNA, plant apoplasts also contain free RNA that are equally important for host pathogen interaction. We have also detected a pool of extracellular RNA (exRNA) in Z. mays located on leaf surfaces. In this experiment, we sequenced both the free apoplastic RNA and leaf surface RNA from Z. mays during U. maydis infection and under control uninfected conditions. The U. maydis genome codes for a number of secreted ribonucleases that are essential for the pathogenesis of the fungus. For three of these ribonucleases, we have also investigated their role in the regulation of cell:cell communication between Z. mays and U. maydis. Accordingly, this study includes comparative transcript profiling of all the three different forms of exRNA between Z. mays plants infected with either wild type U. maydis or U. maydis strains lacking one or more secreted ribonucleases.
ORGANISM(S): Zea mays
PROVIDER: GSE282346 | GEO | 2024/11/25
REPOSITORIES: GEO
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