Further studies on the biosynthesis of gramicidin S and proteins in a cell-free system from Bacillus brevis

Abstract

An improved 11000 g cell-free system for the incorporation of [C14]-valine into gramicidin S has been obtained. The cell-free extract used was the supernatant obtained by treating Bacillus brevis with ultrasonics for 1 min. followed by centrifugation at 11000 g. The optimum pH for the incorporation was 8.2-8.4 and the optimum Mg2+ concentration 0.05 [image]. The presence of ammonium sulphate (0.1 [image]) and K+ (0.01 [image]) increased the incorporation. Cell-free extracts prepared from cells harvested in the early phase of growth (extinction value 0.1) incorporated negligible amounts of [C14]valine into gramicidin S compared with that incorporated by cell-free extracts prepared from cells harvested in the late phase of growth (extinction value 0.5). This was not due to the presence of inhibitors in the cell-free extracts prepared from cells harvested early, since there was no marked decrease in gramicidin S synthesis in a mixture of extracts prepared from cells harvested early and late in the growth phase. The small incorporation of [Cl4]valine into protein, which took place in cell-free extracts from cells harvested in the late growth phase, was not inhibited by puromycin, chloramphenicol and ribonuclease. However, the substantial incorporation that took place in cell-free extracts prepared from cells harvested in the early phase of growth was completely inhibited by puromycin, chloramphenicol and ribonuclease. On mixing cell-free extracts prepared from cells harvested early and late in the growth phase, it appeared that the small incorporation that occurs in extracts from cells harvested in the late phase of growth was not due to cellular inhibitors.