Differential Proteomic Analysis of Temperature-Induced Autolysis in Mycelium of Pleurotus tuber-regium

Autolysis is an important physiological process found in fungal cultivation. However, there is hitherto no report on the autolysis of Pleurotus tuber-regium. We have investigated the enzymes secreted by temperature-induced (40°C as treatment versus 10°C as control) autolysis of the mycelium of P. tuber-regium grown in submerged cultivation. A comparison between the intracellular proteins (inside the mycelium) and the extracellular proteins (in the culture medium) of the treatment and control by proteomic analysis involving 2D PAGE and MALDI–TOF–MS was made. Twenty-two up-regulated protein spots were detected and eight proteins were identified. They included proteasome which participates in the ubiquitin–proteasome pathway; β-1,3-glucanosyltransferase and tubulin which are involved in the renewal and repair of cell wall; protease and endoglucanase which promote the natural degradation of cell wall and cytoplasm; 14-3-3 protein which takes part in cell signal transduction; and two putative proteins presumably relate to the autolysis process. These identified proteins suggest partially the metabolic processes of the autolysis in the P. tuber-regium mycelium.