THE STRINGENT RESPONSE AND ITS INVOLVEMENT IN THE REACTIONS OF BACTERIAL CELLS TO STRESS

Abstract

The stringent response is a form of bacterial response to adverse environmental conditions. Its effectors are guanosine tetraphosphate and guanosine pentaphosphate [(p)ppGpp], which are synthetized by RelA, SpoT and their homologs (RSH). RelA, a (p)ppGpp synthase, is activated when there is a shortage of amino acids, whereas SpoT, which has the ability to synthetize and hydrolyze (p)ppGpp, responds to fatty acids, iron and carbon limits. Accumulation of (p)ppGpp causes an inhibition of translation, replication, a decrease in the transcription of many genes, e.g. rRNA, tRNA, encoding ribosomal proteins, and an increase in the transcription of genes whose proteins are important in bacterial stress response. The stringent response alarmones are crucial for bacterial resistance to oxidative stress and antibiotics. They also regulate the production of specific molecules, the so-called quorum sensing autoinducers, which help bacteria communicate the density of their own population, which enables them to adjust their metabolism to the prevailing conditions, to form a biofilm – a community of microorganisms attached to a certain surface, ensuring them appropriate conditions to survive in an unfavou rable environment, and to colonize new niches. (p)ppGpp has a positive impact on biofilm formation not only via the regulation of quorum sensing, but also by stimulating the synthesis of potential elements of the biofilm. It also appears that the stringent response alarmones decrease the ability of Agrobacterium tumefaciens bacteria to transform plants and thus their potential to cause disease. (p)ppGpp enables the bacteria to perform swarming motility, a movement that increases their resistance to adverse environmental factors.