Changes in the pattern of protein synthesis during differentiation of the Ascomycete Sphaerostilbe repens

The vegetative mycelium of Sphaerostilbe repens Berkeley and Broome (strain CBS 275‐60) gives rise, within 48 h, to aggregated organs composed of coremia and rhi‐zomorphs. Developmental changes in polypeptide patterns were studied by one‐ and two‐dimensional polyacrylamide gel electrophoresis after cells had been induced to undergo synchronized differentiation. One‐dimensional gel electrophoresis revealed only minor changes during the morphogenesis. Of the 300 polypeptides resolved by two‐dimensional gel electrophoresis, nearly 12% either increased or decreased during coremium and rhizomorph differentiation. Some polypeptides appeared to be unique to one or the other of the cell preparations and represented apparent qualitative differences. During the first 24 h of differentiation, about 20 polypeptide spots appeared, 6 were enhanced, 4 were reduced and 32 disappeared. Over the next 24 h changes in the population of proteins were less marked: 14 new proteins were revealed and 9 increased in intensity while 15 declined and 9 were no longer detectable. Five proteins which were present at a significant level only during the first stages of differentiation, may therefore, putatively be designated as aggregation‐specific polypeptides.