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Title: Global analysis of the carbon starvation response of a marine Vibrio species with disruptions in genes homologous to relA and spoT. Author: Ostling J, Holmquist L, Kjelleberg S. Journal: J Bacteriol; 1996 Aug; 178(16):4901-8. PubMed ID: 8759854. Abstract: The stringent control response, which involves a rapid accumulation of ppGpp, is triggered if the marine Vibrio sp. strain S14 is subjected to carbon and energy starvation. By means of high-resolution two-dimensional gel electrophoresis analysis, we addressed the role of the major ppGpp-synthesizing enzyme (RelA) in the regulation of the carbon starvation response of Vibrio sp. strain S14. The finding that a large number of the carbon starvation-induced proteins were underexpressed in the Vibrio sp. S14 relA mutant strain after the onset of glucose starvation suggests that a rapid accumulation of ppGpp is required for induction of many of the carbon starvation-induced proteins. However, it was also found that a majority of the carbon starvation-induced proteins were significantly less induced if the stringent control response was provoked by amino acid starvation. We therefore also addressed the notion that a carbon starvation-specific signal transduction pathway, complementary to the stringent control, may exist in Vibrio sp. strain S14. It was found that a majority of the proteins that were underexpressed in the relA mutant strain were also underexpressed in the Vibrio sp. S14 spoT mutant strain (csrS1). Interestingly, a large proportion of these underexpressed proteins were found to belong to a group of proteins that are not, or significantly less, induced by starvation conditions that do not promote starvation survival. On the basis of these observations and the finding that the csrS1 strain survives poorly but accumulates ppGpp in a fashion similar to the wild type during carbon and energy source starvation, the gene product of the csrS gene is suggested to be responsible for the mediation of a signal which is complementary to ppGpp and essential for the successful development of the starvation- and stress-resistant cell. This conclusion was also supported by experiments in which changes in phenotypic characteristics known to be induced during carbon starvation were studied. The starvation induction of the high-affinity glucose uptake system was found to be dependent on the csrS gene but not relA, and the synthesis of carbon starvation-specific periplasmic space proteins was dependent, at different times of starvation, on both the relA and the csrS gene products.[Abstract] [Full Text] [Related] [New Search]