Molecular cloning and sequencing of an operon, carRS of Azospirillum brasilense, that codes for a novel two-component regulatory system: demonstration of a positive regulatory role of carR for global control of carbohydrate catabolism

Chattopadhyay, S. ; Mukherjee, A. ; Ghosh, S. (1994) Molecular cloning and sequencing of an operon, carRS of Azospirillum brasilense, that codes for a novel two-component regulatory system: demonstration of a positive regulatory role of carR for global control of carbohydrate catabolism Journal of Bacteriology, 176 (24). pp. 7484-7490. ISSN 0021-9193

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Official URL: http://jb.asm.org/cgi/content/abstract/176/24/7484

Abstract

A pleiotropic carbohydrate mutant, CR17, of Azospirillum brasilense RG (wild type) that assimilates C4 dicarboxylates (succinate and malate) but not carbohydrate (fructose, arabinose, galactose, glycerol, and gluconate) as C sources for growth was used to identify the car (carbohydrate regulation) locus by complementation analysis. The 2.8-kb genomic fragment that complemented the Car- defect of CR17 and overlapped the fru operon (S. Chattopadhyay, A. Mukherjee, and S. Ghosh, J. Bacteriol. 175:3240-3243, 1993) has now been completely sequenced. The sequence contains an operon, carRS, coding for two proteins, CARR and CARS, having 236 and 352 amino acid residues, respectively. The 3'-flanking region of the carRS operon showed sequence homology with the 5' terminus of the fruB gene of a related bacterium, Rhodobacter capsulatus. A complementation study with carRS deletion clones showed that only the carR+ gene was required to complement the Car- defect of CR17, signifying that the carbohydrate pleiotropy was due to a lesion within this gene. Although the 2.8-kb DNA containing the carRS operon when introduced by conjugation into CR17 also complemented the Car-defect, the complemented transconjugant was unable to utilize succinate as a C source. The reason for this is not clear. A sequence analysis of the two protein products strongly suggests that the protein pair may constitute a novel two-component regulatory system for global expression of carbohydrate catabolic pathways in A. brasilense.

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