Abstract
The cytoplasmic dynein 1, a minus end-directed motor protein, is an essential microtubule-based molecular motor that mediates the movement of molecules to intracellular destinations in eukaryotes. However, the role of dynein in the pathogenesis of Magnaporthe oryzae is unknown. Here, we identified cytoplasmic dynein 1 intermediate-chain 2 genes in M.oryzae and functionally characterized it using genetic manipulations, and biochemical approaches. We observed that targeted the deletion of MoDYNC1I2 caused significant vegetative growth defects, abolished conidiation, and rendered the ΔModync1I2 strains non-pathogenic. Microscopic examinations revealed significant defects in microtubule network organization, nuclear positioning, and endocytosis ΔModync1I2 strains. MoDync1I2 is localized exclusively to microtubules during fungal developmental stages but co-localizes with the histone OsHis1 in plant nuclei upon infection. The exogenous expression of a histone gene, MoHis1, restored the homeostatic phenotypes of ΔModync1I2 strains but not pathogenicity. These findings could facilitate the development of dynein-directed remedies for managing the rice blast disease.
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