Mor Meyerovich scite author profile

In response to DNA damage, cells activate checkpoint signaling cascades to control cell-cycle progression and elicit DNA repair in order to maintain genomic integrity. The sensing and repair of lesions is critical for Bacillus subtilis cells entering the developmental process of sporulation as damaged DNA may prevent the cells from completing spore morphogenesis. We report the identification of the protein DisA (DNA integrity scanning protein, annotated YacK), which is required to delay the initiation of sporulation in response to chromosomal damage. DisA is a nonspecific DNA binding protein that forms a single focus, which moves rapidly within the bacterial cell, pausing at sites of DNA damage. We propose that the DisA focus scans along the chromosomes searching for lesions. Upon encountering a lesion, DisA delays entry into sporulation until the damage is repaired.

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Visualizing high error levels during gene expression in living bacterial cells

Meyerovich

Mamou

Ben-Yehuda

2010

Proc. Natl. Acad. Sci. U.S.A.

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To monitor inaccuracy in gene expression in living cells, we designed an experimental system in the bacterium Bacillus subtilis whereby spontaneous errors can be visualized and quantified at a single-cell level. Our strategy was to introduce mutations into a chromosomally encoded gfp allele, such that errors in protein production are reported in real time by the formation of fluorescent GFP molecules. The data reveal that the amount of errors can greatly exceed previous estimates, and that the error rate increases dramatically at lower temperatures and during stationary phase. Furthermore, we demonstrate that when facing an antibiotic threat, an increase in error level is sufficient to allow survival of bacteria carrying a mutated antibiotic-resistance gene. We propose that bacterial gene expression is error prone, frequently yielding protein molecules that differ slightly from the sequence specified by their DNA, thus generating a cellular reservoir of nonidentical protein molecules. This variation may be a key factor in increasing bacterial fitness, expanding the capability of an isogenic population to face environmental challenges.Bacillus subtilis | translational errors | variations in living cells | translation fidelity D NA is duplicated with remarkable fidelity to ensure that accurate genetic information is transmitted from one generation to the next. This information is passed from DNA to RNA and from RNA to protein during gene expression; however, the accuracy of these downstream events is relatively less understood. Although RNA and proteins are generally considered short-lived noninherited molecules, several diseases are now known to arise from errors occurring during transcription and translation (1-3), implying that faithful transfer of genetic information from DNA to proteins is crucial for maintaining proper cellular functions.

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Mor Meyerovich

A Checkpoint Protein That Scans the Chromosome for Damage at the Start of Sporulation in Bacillus subtilis

Visualizing high error levels during gene expression in living bacterial cells

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