Effect of phosphate deficiency on growth and protein profile in three strains ofPholiota nameko

Changes in mycelial dry weight and soluble protein amounts and acid phosphatase activities on a mycelial dry weight basis in the mycelia and culture supernatants during the Pi-supplied (P⁺) and Pi-depleted (P⁻) cultures of three strains ofPholiota nameko were examined. Mycelial dry weights of the three strains were lower in the P⁻ culture than in the P⁺ culture. However, soluble protein amounts in the culture supernatants and acid phosphatase activities in the mycelia and culture supernatants of the three strains were higher on a mycelial dry weight basis in the P⁻ culture than in the P⁺ culture. Total proteins of strains N2 and N4 were analyzed by two-dimensional-PAGE. Comparison of electrophoretograms of the P⁺ and P⁻ cultures showed that many polypeptides in the two strains were induced and secreted by Pi deficiency, but more than half of them were specific to each strain. Activity staining of acid phosphatase also revealed that two isozymes with the same molecular weights in the three strains were induced and secreted by Pi deficiency. Adaptive mechanisms for Pi deficiency in the three strains were discussed.     

Electrophoretic analysis of soluble proteins specifically synthesized under phosphate deficiency in the mycelia ofPholiota nameko

Mycelial soluble proteins ofPholiota nameko labeled in vivo during the Pi-supplied (P⁺) and the Pi-depleted (P⁻) cultures were separated by SDS-polyacrylamide gel electrophoresis and two-dimensional polyacrylamide gel electrophoresis, and visualized by fluorography. A comparison of protein profiles from the P⁺ and P⁻ cultures showed that Pi deficiency induces the synthesis of 15 polypeptides and an increase in the relative amount of 29 polypeptides. These result suggests that many proteins may be specifically synthesized de novo under Pi deficiency as part of the adaptive mechanism for this condition.