Conserving a Volatile Metabolite: a Role for Carboxysome-Like Organelles in Salmonella enterica
- 15 April 2006
- journal article
- Published by American Society for Microbiology in Journal of Bacteriology
- Vol. 188 (8) , 2865-74
- https://doi.org/10.1128/jb.188.8.2865-2874.2006
Abstract
Salmonellae can use ethanolamine (EA) as a sole source of carbon and nitrogen. This ability is encoded by an operon (eut) containing 17 genes, only 6 of which are required under standard conditions (37 degrees C; pH 7.0). Five of the extra genes (eutM, -N, -L, -K, and -G) become necessary under conditions that favor loss of the volatile intermediate, acetaldehyde, which escapes as a gas during growth on EA and is lost at a higher rate from these mutants. The eutM, -N, -L, and -K genes encode homologues of shell proteins of the carboxysome, an organelle shown (in other organisms) to concentrate CO(2). We propose that carboxysome-like organelles help bacteria conserve certain volatile metabolites-CO(2) or acetaldehyde-perhaps by providing a low-pH compartment. The EutG enzyme converts acetaldehyde to ethanol, which may improve carbon retention by forming acetals; alternatively, EutG may recycle NADH within the carboxysome.Keywords
This publication has 51 references indexed in Scilit:
- Biochemical evidence that the pduS gene encodes a bifunctional cobalamin reductaseMicrobiology, 2005
- Evidence that a B 12 -Adenosyl Transferase Is Encoded within the Ethanolamine Operon of Salmonella entericaJournal of Bacteriology, 2004
- A pH-Sensitive Function and Phenotype: Evidence that EutH Facilitates Diffusion of Uncharged Ethanolamine in Salmonella entericaJournal of Bacteriology, 2004
- The eutD Gene of Salmonella enterica Encodes a Protein with Phosphotransacetylase Enzyme ActivityJournal of Bacteriology, 2004
- Genetic Engineering Using Homologous RecombinationAnnual Review of Genetics, 2002
- The Alternative Electron Acceptor Tetrathionate Supports B 12 -Dependent Anaerobic Growth of Salmonella enterica Serovar Typhimurium on Ethanolamine or 1,2-PropanediolJournal of Bacteriology, 2001
- Characterization, Sequencing, and Expression of the Genes Encoding a Reactivating Factor for Glycerol-inactivated Adenosylcobalamin-dependent Diol DehydrataseJournal of Biological Chemistry, 1997
- The Effect of Food Preservatives on pH Homeostasis in Escherichia coliMicrobiology, 1984
- Microbial Metabolism of Amino Alcohols. Ethanolamine Catabolism Mediated by Coenzyme B12-dependent Ethanolamine Ammonia-Lyase in Escherichia coli and Klebsiella aerogenesJournal of General Microbiology, 1976
- Substrate specificity of coenzyme B12-dependent diol dehydrase: Glycerol as both a good substrate and a potent inactivatorBiochemical and Biophysical Research Communications, 1976