Phosphoenolpyruvate Carboxykinase (PCK) Gene Regulation in Sinorhizobium Meliloti

Abstract

Phosphoenolpyruvate carboxykinase (Pck) catalyzes the first step of gluconeogenesis, and the gene which encodes this enzyme (pckA) is transcriptionally regulated. High pckA expression is observed in succinate-grown cells, while little expression is observed in glucose-grown cells. pckA regulatory mutants have previously been isolated (Osteras et al. 1997) and pckR, a gene encoding a Lacl-GaIR DNA-binding transcriptional regulator, has been implicated in the regulation of pckA transcription. Here we shew that pckR insertion mutations result in a dramatic decrease in pckA expression even in succinate-grown cells. We demonstrate that the previously identified rpk-9 mutation is tightly linked to pckR. The rpk-9 mutation results in constitutive pckA expression, and we show that plasmids carrying the pckR gene complement the rpk-9 mutation in glucose-grown cells. A putative Lacl-GaIR operator binding site has been identified in the pckA promoter, however no evidence of an interaction between this site and the pckR gene product could be found.