2-Ketoglutarate as a possible regulatory metabolite involved in cyclic AMP-dependent catabolite repression in Escherichia coli K12.

2-Ketoglutarate--unlike any other derivative of the citric acid cycle--was found to strongly repress catabolite-sensitive genes, such as the lactose operon (lac) or the tryptophanase gene (tna), when added to cells grown in glycerol. 2-ketoglutarate affects the expression of these genes by decreasing cyclic AMP synthesis. Such inhibition of cyclic AMP synthesis requires the presence of enzyme III, a component of the phosphoenol pyruvate:sugar phosphotransferase transport system (PTS). Thus, it is proposed that 2-ketoglutarate is one of the catabolite repressors postulated by Magasanik in 1961. In addition, by studying the effect of 2-ketoglutarate in various mutants, we show the existence of a cyclic AMP-independent catabolite repression mechanism whose mediator is synthesized from 2-ketoglutarate.