Jump to Main Content
Bacterial quorum sensing, cooperativity, and anticipation of stationary-phase stress
- Goo, Eunhye, Majerczyk, Charlotte D., An, Jae Hyung, Chandler, Josephine R., Seo, Young-Su, Ham, Hyeonheui, Lim, Jae Yun, Kim, Hongsup, Lee, Bongsoo, Jang, Moon Sun, Greenberg, E. Peter, Hwang, Ingyu
- Proceedings of the National Academy of Sciences of the United States of America 2012 v.109 no.48 pp. 19775-19780
- Burkholderia, carrying capacity, enzymes, genes, lactones, metabolism, oxalates, population density, public services and goods, quorum sensing, toxicity, transcription factors
- Acyl-homoserine lactone–mediated quorum sensing (QS) regulates diverse activities in many species of Proteobacteria . QS-controlled genes commonly code for production of secreted or excreted public goods. The acyl-homoserine lactones are synthesized by members of the LuxI signal synthase family and are detected by cognate members of the LuxR family of transcriptional regulators. QS affords a means of population density-dependent gene regulation. Control of public goods via QS provides a fitness benefit. Another potential role for QS is to anticipate overcrowding. As population density increases and stationary phase approaches, QS might induce functions important for existence in stationary phase. Here we provide evidence that in three related species of the genus Burkholderia QS allows individuals to anticipate and survive stationary-phase stress. Survival requires QS-dependent activation of cellular enzymes required for production of excreted oxalate, which serves to counteract ammonia-mediated alkaline toxicity during stationary phase. Our findings provide an example of QS serving as a means to anticipate stationary phase or life at the carrying capacity of a population by activating the expression of cytoplasmic enzymes, altering cellular metabolism, and producing a shared resource or public good, oxalate.