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FpDep1, a component of Rpd3L histone deacetylase complex, is important for vegetative development, ROS accumulation, and pathogenesis in Fusarium pseudograminearum.
Fungal Genetics and Biology ( IF 3 ) Pub Date : 2019-11-06 , DOI: 10.1016/j.fgb.2019.103299 Yinshan Zhang 1 , Limin Wang 1 , Shen Liang 2 , Panpan Zhang 1 , Ruijiao Kang 1 , Mengjuan Zhang 1 , Min Wang 1 , Linlin Chen 1 , Hongxia Yuan 1 , Shengli Ding 1 , Honglian Li 1
Fungal Genetics and Biology ( IF 3 ) Pub Date : 2019-11-06 , DOI: 10.1016/j.fgb.2019.103299 Yinshan Zhang 1 , Limin Wang 1 , Shen Liang 2 , Panpan Zhang 1 , Ruijiao Kang 1 , Mengjuan Zhang 1 , Min Wang 1 , Linlin Chen 1 , Hongxia Yuan 1 , Shengli Ding 1 , Honglian Li 1
Affiliation
Histone deacetylases (HDACs) play essential roles in modulating chromatin structure to provide accessibility to gene regulators. Increasing evidence has linked HADCs to pathogenesis control in the filamentous plant fungi. However, its function remains unclear in Fusarium pseudograminearum, which has led to the emergence of the disease Fusarium crown rot in China. Here we identified the FpDEP1 gene, an orthologue of Saccharomyces cerevisiae DEP1 encoding a component of the Rpd3 histone deacetylase complex in F. pseudograminearum. The gene deletion mutant, ΔFpdep1, showed significantly retarded growth on PDA plates with reduced aerial hyphae formation. Pathogenicity tests displayed no typical leaf lesions and limited expansion capability of coleoptiles. Histopathological analysis indicated the ΔFpdep1 deletion mutant differentiated infectious hyphae and triggered massive reactive oxygen species (ROS) accumulation during the early infection stage, resulting in limited expansion to neighbor cells which was concurring with sensitivity to H2O2 and SDS tests in vitro. FM4-64 staining revealed that the ΔFpdep1 deletion mutant was delayed in endocytosis. The FpDEP1-GFP transgene complemented the mutant phenotypes and the fusion protein co-localized with DAPI staining, indicating that the FpDEP1 gene product is localized to the nucleus in spores and mycelia. Immunoprecipitation coupled with LC-MS/MS and yeast two-hybrid screening identified the Rpd3L-like HDAC complex containing at least FpDep1, FpSds3, FpSin3, FpRpd3, FpRxt3, FpCti6, FpRho23, and FpUme6. These results suggest that FpDep1 is involved in a HDAC complex functioning on fungal development and pathogenesis in F. pseudograminearum.
更新日期:2019-11-06
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