Mfd deficiency decreases the abundance of complete transcripts of sporulation genes and alters sporogenesis and the structure of dormant Bacillus subtilis spores
Holly Anne Martin, Robert Heron, Hilda Leyva-Sanchez, Ryan King Perez, Amber Callaway, Tatiana Ermi, Aude Picard, Jessica Grifaldo, Jesse L. Barnes, Mario Pedraza-Reyes, Eduardo A. Robleto

TL;DR
This study shows that Mfd deficiency in B. subtilis affects sporulation efficiency and spore structure, beyond its role in DNA repair.
Contribution
The study reveals a new role of Mfd in regulating sporulation gene expression and spore morphology in B. subtilis.
Findings
Mfd deficiency causes spore morphological defects and reduces sporulation efficiency.
Mfd influences sporulation gene expression patterns in the absence of DNA damage.
Mfd's role extends beyond DNA repair to affect bacterial physiology during sporulation.
Abstract
Sporulation is a survival mechanism employed by Firmicutes, including Bacillus subtilis, when facing stressful conditions of growth (e.g., starvation). In this bacterium, the transcription repair coupling factor, Mfd, has been shown to play pivotal roles in sporulation transcription-coupled DNA repair and stress-associated mutagenesis. Recent studies have also revealed an unexpected role of Mfd in regulating gene expression during B. subtilis sporulation. This study examines the effects of B. subtilis Mfd deficiency on the expression of sporulation genes, sporulation efficiency, and spore morphology. In the absence of exogenous DNA damage, we found that Mfd deficiency does not compromise spore germination outgrowth; however, the loss of this factor promoted spore morphological defects and decreased sporulation efficiency. Also, our results confirmed an anomalous pattern of expression of…
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Taxonomy
TopicsBacterial Genetics and Biotechnology · RNA and protein synthesis mechanisms · Bacteriophages and microbial interactions
