Adi Oron-Gottesman scite author profile

Escherichia coli mazEF is an extensively studied stress-induced toxin-antitoxin (TA) system. The toxin MazF is an endoribonuclease that cleaves RNAs at ACA sites. By that means, under stress, the induced MazF generates a stress-induced translation machinery (STM) composed of MazF-processed mRNAs and selective ribosomes that specifically translate the processed mRNAs. Here, we performed a proteomic analysis of all the E. coli stress-induced proteins that are mediated through the chromosomally borne mazF gene. We show that the mRNAs of almost all of them are characterized by the presence of an ACA site up to 100 nucleotides upstream of the AUG initiator. Therefore, under stressful conditions, induced MazF processes mRNAs that are translated by STM. Furthermore, the presence of the ACA sites far upstream (up to 100 nucleotides) of the AUG initiator may still permit translation by the canonical translation machinery. Thus, such dual-translation mechanisms enable the bacterium under stress also to prepare proteins for immediate functions while coming back to normal growth conditions. IMPORTANCE The stress response, the strategy that bacteria have developed in order to cope up with all kinds of adverse conditions, is so far understood at the level of transcription. Our previous findings of a uniquely modified stress-induced translation machinery (STM) generated in E. coli under stress by the endoribonucleolytic activity of the toxin MazF opens a new chapter in understanding microbial physiology under stress at the translational level. Here, we performed a proteomic analysis of all the E. coli stress-induced proteins that are mediated by chromosomally borne MazF through STM.

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A Stress-Induced Bias in the Reading of the Genetic Code in Escherichia coli

Oron-Gottesman

Sauert

Moll

et al. 2016

mBio

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Escherichia coli mazEF is an extensively studied stress-induced toxin-antitoxin (TA) system. The toxin MazF is an endoribonuclease that cleaves RNAs at ACA sites. Thereby, under stress, the induced MazF generates a stress-induced translation machinery (STM), composed of MazF-processed mRNAs and selective ribosomes that specifically translate the processed mRNAs. Here, we further characterized the STM system, finding that MazF cleaves only ACA sites located in the open reading frames of processed mRNAs, while out-of-frame ACAs are resistant. This in-frame ACA cleavage of MazF seems to depend on MazF binding to an extracellular-death-factor (EDF)-like element in ribosomal protein bS1 (bacterial S1), apparently causing MazF to be part of STM ribosomes. Furthermore, due to the in-frame MazF cleavage of ACAs under stress, a bias occurs in the reading of the genetic code causing the amino acid threonine to be encoded only by its synonym codon ACC, ACU, or ACG, instead of by ACA.

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Sex-specific regulation of metabolic health and vertebrate lifespan by AMP biosynthesis

Astre

Atlan

Goshtchevsky

et al. 2022

Preprint

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The loss of energy homeostasis seen during aging, is causally linked to multiple age-related pathologies. The AMP-activated protein kinase (AMPK) directly senses cellular energy levels, which are reflected in the ratio between AMP:ATP. However, the genetic regulation of vertebrate aging by the AMPK pathway remains poorly understood. Here, we manipulate ATP production by mutating APRT, a key enzyme in AMP biosynthesis, and extend vertebrate lifespan in a male-specific manner. Using a multi-omics approach, we demonstrate that the APRT mutation restores metabolic plasticity, and identify a distinct transcriptional signature linking mitochondria with the sex-related differences in longevity. Accordingly, APRT mutant cells display a reduction in mitochondrial functions and ATP levels, and an increase in AMPK activity, resembling a persistent state of energy starvation. In-vivo, a fasting-like response was observed exclusively in male mutants, including resistance to a high-fat diet. Finally, intermittent fasting eliminated the longevity benefits mediated by the APRT mutation in males. Together, these data identify AMP biosynthesis as a sex-specific mediator of vertebrate longevity and metabolic health.

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Genetic perturbation of AMP biosynthesis extends lifespan and restores metabolic health in a naturally short-lived vertebrate

et al. 2023

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A genetic toolbox for the turquoise killifish identifies sporadic age-related cancer

Rozenberg

Atlan

Franěk

et al. 2023

Preprint

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Using lineage tracing and fate mapping strategies to study vertebrate aging has lagged behind developmental studies, primarily due to of the relatively long lifespans of classical models. Here, we introduce theKillibow, an inducible transgenic model forin-vivomulticolor lineage tracing in the naturally short-lived turquoise killifish (N. furzeri). We demonstrate that Cre-mediated recombination in transgenic fish can generate robust and stochastic labeling that remains stable during aging and regeneration. In addition, to achieve inducible control of recombination, we either utilizein-vivoCre electroporation or use the tamoxifen system inKillibow-derived cells. To further enable transplantation assays, we establish the first immunocompromised killifish model by mutatingrag2. RNA sequencing reveals thatrag2mutants exhibit severely compromised expression of V(D)J recombination products, including immunoglobulins. Accordingly, we demonstrate that clearance of transplantedKillibow-derived cells is delayed inrag2recipients, and present a proof-of-principle for a KRASG12Dcancer model that is compatible with lineage tracing. Our platform provides the opportunity to examine tissue homeostasis, stem cell function, cancer dynamics, and tissue regeneration at unprecedented temporal resolution during vertebrate aging and disease.

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