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A Bacterial Dynamin-Like Protein Confers a Novel Phage Resistance Strategy on the Population Level in Bacillus subtilis

Lijun Guo, Laura Sattler, Samia Shafqat, Peter L. Graumann, Marc Bramkamp

2022mBio41 citationsDOIOpen Access PDF

Abstract

Bacteria have to cope with myriads of phages in their natural environments. Consequently, they have evolved sophisticated systems to prevent phage infection or epidemic spreading of the infection in the population. We show here that a bacterial dynamin-like protein is involved in phage resistance. The Bacillus subtilis DynA protein delays lysis of infected bacteria and reduces spreading of the phage particles. Thus, the dynamin mediated protection is not at the level of the individual cell, but on the population level. The bacterial DynA is the last line of defense to reduce the deleterious effect of a phage infection in a bacterial community. Interestingly, dynamin-like proteins such as Mx proteins are also involved in antiviral activities in Eukaryotes. Thus, the interaction of dynamin-like proteins and viruses seem to be an evolutionary ancient process.

Topics & Concepts

Bacillus subtilisBiologyPopulationDynaminLysisMicrobiologyBacteriaBacterial cell structureBacteriophageCell biologyCellGeneGeneticsBiochemistryEscherichia coliEndocytosisSociologyDemographyBacteriophages and microbial interactionsRNA and protein synthesis mechanismsBacterial Genetics and Biotechnology
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