期刊
MOLECULAR CELL
卷 81, 期 15, 页码 3160-+出版社
CELL PRESS
DOI: 10.1016/j.molcel.2021.06.005
关键词
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资金
- European Regional Development Fund through the Centre of Excellence for Molecular Cell Technology [20142020.4.01.150013]
- Molecular Infection Medicine Sweden (MIMS)
- Estonian Research Council [PRG335]
- Molecular Infection Biology Estonia - Research Capacity Building Project [H2020WIDESPREAD20182020/GA: 857518]
- Swedish Research Council (Vetenskapsra det) [2017-03783, 2019-01085]
- Ragnar Sod derberg Foundation
- MIMS Excellence by Choice Postdoctoral Fellowship Programme (postdoctoral grant 2018)
- Kempe Foundation [SMK1858.3]
- Carl Tryggers Stiftelse fod r Veten-skaplig Forskning [19-24]
- Czech Ministry of Education and Sport [8F19006]
- Umea Centre for Microbial Research (UCMR)
- Japan Society for the Promotion of Sci-ence (JSPS) [18H05272]
- Exploratory Research for Advanced Technol-ogy (ERATO) from the Japan Science and Technology Agency (JST) [JPMJER2002]
- Fonds National de Recherche Scientifique [FRFS-WELBIO CR2017S03, FNRS CDR J.0068.19, FNRS-PDR T.0066.18]
- JPIAMR [JPIECAMRR.8004.18]
- Fonds d'Encouragement a` la Recherche (FER) of Universite li-bre de Bruxelles (ULB)
- Fonds Jean Brachet
- Fondation Van Buuren
- European Research Council (ERC) [864311]
- European Union's Horizon 2020 research and innovation program under Marie Sk1odowskaCurie grant [801505]
- Swedish Research Council within the RIBOTARGET consortium [2018-00956]
- Program Actions de Recherche Concerte 2016-2021
- European Research Council (ERC) [864311] Funding Source: European Research Council (ERC)
- Swedish Research Council [2017-03783, 2018-00956] Funding Source: Swedish Research Council
Multiple families of SAS RSH enzymes have been discovered to inhibit bacterial growth by specifically inhibiting protein synthesis, establishing RSHs as RNA-modifying enzymes.
RelA-SpoT Homolog (RSH) enzymes control bacterial physiology through synthesis and degradation of the nucleotide alarmone (p)ppGpp. We recently discovered multiple families of small alarmone synthetase (SAS) RSH acting as toxins of toxin-antitoxin (TA) modules, with the FaRel subfamily of toxSAS abrogating bacterial growth by producing an analog of (p)ppGpp, (pp)pApp. Here we probe the mechanism of growth arrest used by four experimentally unexplored subfamilies of toxSAS: FaRel2, PhRel, PhRel2, and CapRel. Surprisingly, all these toxins specifically inhibit protein synthesis. To do so, they transfer a pyrophosphate moiety from ATP to the tRNA 3' CCA. The modification inhibits both tRNA aminoacylation and the sensing of cellular amino acid starvation by the ribosome-associated RSH RelA. Conversely, we show that some small alarmone hydrolase (SAH) RSH enzymes can reverse the pyrophosphorylation of tRNA to counter the growth inhibition by toxSAS. Collectively, we establish RSHs as RNA-modifying enzymes.
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