Abstract
Natural competence for genetic transformation refers to the natural ability of various bacteria to take up exogenous DNA from their surroundings and to incorporate internalized genetic information into their genomes. By promoting bacterial diversification and adaptability, this process represents a major driving force in bacterial evolution. Micrococcus luteus was one of the first organisms used to study natural transformation in bacteria. Since then, however, only very little information about this phenomenon has been reported in M. luteus or in any member of the Actinobacteria phylum (low-GC Gram-positive bacteria). Previous work in our group indicated major differences between the transformation apparatus of M. luteus and the transformation machinery described for various Gram-negative and Gram-positive model bacteria belonging to the phyla Proteobacteria and Firmicutes (high-GC Gram-positive bacteria). This prompted us to initiate a study concerning the regulation mechanism of competence development in M. luteus. In this report, we identify amino acids as a nutritional factor that influences competence in a concentration-dependent manner. By using a transcriptional reporter strain for one of the late competence genes, we demonstrate how increasing concentrations of both amino acids mixtures and single amino acids supplemented to the growth medium affect transformability on transcriptional and post-transcriptional level. Furthermore, we revisit previously generated auxotrophic mutants to show that the transformation machinery is turned down during a state of extreme hunger for amino acids presumably as a part of a general response to auxotrophy. Finally, by generating and analysing knockout mutants for two predicted stringent response enzymes, we provide evidence for the involvement of the alarmone (p)ppGpp as a putative mediator of the effects on transformation development caused by amino acids. As a member of the Actinobacteria phylum, M. luteus could serve as a model for other representatives of the phylum, including a number of important human pathogens.
Highlights
Natural competence for genetic transformation is widely spread throughout the main phylogenetic taxa and is not a rare phenomenon[1]
We have demonstrated that competence development in Micrococcus luteus trpE16 is dependent on the nutritional state of the bacteria[38]
A recent study by Moreno-Gámez et al.[10] demonstrated that natural transformation in S. pneumoniae is dependent on cell density, external pH, antibiotic-induced stress and cell history and that these cues are integrated via a quorum sensing mechanism
Summary
Natural competence for genetic transformation is widely spread throughout the main phylogenetic taxa and is not a rare phenomenon[1]. While some organisms reach the peak of transformability in the stationary growth phase, others develop competence during the early exponential phase Some bacteria such as B. subtilis and H. influenzae respond to nutritional signals[11,16], others, like S. pneumoniae and Legionella pneumophila sense varying stress conditions to trigger entry in the transformable state[17,18]. The stringent response refers to a very widely distributed physiological response of bacteria to nutrient deprivation, heat shock or other stress factors[20] It is accompanied by a massive switch in the transcription profile aimed to steer the cellular metabolism away from ribosome synthesis, DNA replication and production of membrane components and towards the upkeep of general metabolism, glycolysis, amino acid synthesis[21], and other basic survival functions. Since the action of the alarmone is concentration-dependent, several enzyme classes are involved in the fine-tuning of its intracellular pool[20], including the RelA-SpoT homologue (RSH) family of bifunctional proteins that can both synthesize and degrade (p)ppGpp[22,23], Nudix hydrolases[24,25], certain GTPases[26] and the only recently discovered small alarmone synthetases (SASs) and hydrolases (SAHs)[27,28,29]
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