2019
DOI: 10.1101/807917
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(p)ppGpp directly regulates translation initiation during entry into quiescence

Abstract: 12Many bacteria exist in a state of metabolic quiescence where they must minimize energy 13 consumption so as to maximize available resources over a potentially extended period of time. 14 As protein synthesis is the most energy intensive metabolic process in a bacterial cell, it would be 15 an appropriate target for downregulation during the transition from growth to quiescence. We find 16 that when Bacillus subtilis exits growth, a subpopulation of cells emerges with very low levels of 17 protein synth… Show more

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Cited by 2 publications
(3 citation statements)
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References 88 publications
(112 reference statements)
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“…Nevertheless, the (p)ppGpp˚strain still displayed significantly higher translation rates compared to wild type and the Δrel B. subtilis strains (Fig 6A and 6B). The observed influence of (p)ppGpp on translation suggests that the most important impact of (p)ppGpp under heat stress appears not to be its effect on transcription (Fig 4 and S5 Fig), but the direct modulation of translation (Fig 6), possibly by directly interfering with the activity of different translational GTPases [39,40,68,69].…”
Section: (P)ppgpp Regulates Translation During Heat Stressmentioning
confidence: 97%
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“…Nevertheless, the (p)ppGpp˚strain still displayed significantly higher translation rates compared to wild type and the Δrel B. subtilis strains (Fig 6A and 6B). The observed influence of (p)ppGpp on translation suggests that the most important impact of (p)ppGpp under heat stress appears not to be its effect on transcription (Fig 4 and S5 Fig), but the direct modulation of translation (Fig 6), possibly by directly interfering with the activity of different translational GTPases [39,40,68,69].…”
Section: (P)ppgpp Regulates Translation During Heat Stressmentioning
confidence: 97%
“…In addition to this protective function, (p)ppGpp, which is synthesized only as a pulse by Rel during relatively uninhibited growth at 50˚C, could modulate or inhibit translation, presumably by directly interfering with translation factors [38,39,41,69]. A set of interesting in vitro experiments suggested a modulating effect of ppGpp and (p)ppGpp on IF2 and translation initiation, which also depended on specific structured elements of translated mRNA, allowing translation of specific mRNA's in the presence of alarmones [41].…”
Section: Changes In Protein Levels Mediated By Heat Shock and (P)ppgppmentioning
confidence: 99%
“…Microbiologists have long investigated the mechanisms that facilitate survival under conditions where growth is nonoptimal. These mechanisms typically involve the synthesis of signaling molecules such as the nucleotide ppGpp that attenuate ATP-consuming processes of the cell such as protein synthesis [16]. Most of this work has focused on strategies relevant to nutrient limitation such as carbon or amino acid limitation.…”
mentioning
confidence: 99%