Proteomics

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Quantitative analysis of proteome reveals the roles of Rpd3 and Sir2 in asexual development, virulence and multiple stress responses in Beauveria bassiana.

ABSTRACT: Lysine acetylation is one of the most prevalent post-translational modifications and has since been found to regulate histone functions and affect chromatin structure and gene expression. Here, we charactered Rpd3, a histone deacetylase of Beauveria bassiana, played important roles in the deacetylation of histone H3 and H4. We unveil the role of Rpd3 in asexual development and show that a ΔRpd3 mutant strain has severe growth defects and is defective in conidiophores and blastospores development. Proteomic analyses indicated that Rpd3 functions in asexual development and virulence and multiple stress responses via broad genetic pathways in B. bassiana. Therefore, we conclude that BbRpd3 is vital for asexual development, virulence and multiple stress responses in Beauveria bassiana.

INSTRUMENT(S): Q Exactive

ORGANISM(S): Beauveria Bassiana (strain Arsef 2860) (white Muscardine Disease Fungus) (tritirachium Shiotae)

TISSUE(S): Fungal Cell, Fungal Cell Line

SUBMITTER: QING CAI  

LAB HEAD: Mingguang Feng

PROVIDER: PXD006713 | Pride | 2021-08-12

REPOSITORIES: Pride

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Publications

Essential role of Rpd3-dependent lysine modification in the growth, development and virulence of Beauveria bassiana.

Cai Qing Q   Wang Zhi-Kang ZK   Shao Wei W   Ying Sheng-Hua SH   Feng Ming-Guang MG  

Environmental microbiology 20180416 4

Rpd3 is a class I histone deacetylase that reverses lysine acetylation thus influencing cellular processes and functions. However, its role in fungal insect pathogens has not been explored yet. Here we show that Rpd3-dependent lysine modification and gene expression orchestrate growth, conidiation and virulence in Beauveria bassiana. Deletion of Rpd3 resulted in severe growth defects on various carbon/nitrogen sources, 97% reduction in conidiation capacity and drastic attenuation in virulence. T  ...[more]

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