Ornithine is the central intermediate in the arginine degradative pathway and its regulation inBacillus subtilis

Abstract

ABSTRACTThe Gram-positive model bacteriumBacillus subtilisis able to utilize a variety of proteinogenic and non proteinogenic amino acids as sources of carbon, energy and nitrogen. The utilization of the amino acids arginine, citrulline and ornithine is catalyzed by enzymes that are encoded in therocABCandrocDEFoperons and by therocGgene. Expression of these genes is under control of the alternative sigma factor SigL. RNA polymerase associated to this sigma factor depends on an ATP-hydrolyzing transcription activator to initiate transcription. The RocR protein acts as transcription activator for therocgenes. In this work, we have studied the contributions of all enzymes of the Roc pathway to the degradation of arginine, citrulline and ornithine. This identified the previously uncharacterized RocB protein as responsible for the conversion of citrulline to ornithine.In vitroassays with the purified enzyme suggest that it acts as a manganese-dependent N-carbamoyl-L-ornithine hydrolase that cleaves citrulline to ornithine and carbamate. So far, the molecular effector that triggers transcription activation by RocR has not been unequivocally identified. Using a combination of transcription reporter assays and biochemical experiments we demonstrate that ornithine is the molecular inducer for RocR activity. Our work suggests that binding of ATP to RocR triggers its hexamerization, and binding of ornithine then allows ATP hydrolysis and activation ofrocgene transcription. Thus, ornithine is the central molecule of therocdegradative pathway as it is the common intermediate of arginine and citrulline degradation and the molecular effector for the transcription regulator RocR.IMPORTANCEAmino acids serve as building blocks for protein biosynthesis in each living cell but can also be used as sources of carbon, energy and nitrogen. In this work we have identified ornithine as the central player in the utilization of arginine, citrulline and ornithine in the Gram-positive bacteriumB. subtilis. Ornithine is the common intermediate after the first steps of arginine and citrulline degradation. We have identified the so far uncharacterized protein RocB as the enzyme responsible for the cleavage of citrulline to ornithine and carbamate. Moreover, we demonstrate that ornithine is the molecular effector that triggers ATPase activity of the transcription factor RocR. Binding of ornithine to RocR and the subsequent hydrolysis of ATP allow a functional interaction with the alternative sigma factor SigL and subsequent transcription activation of all genes of the degradative pathway.