Temporal epigenome modulation enables efficient bacteriophage engineering and functional analysis of phage DNA modifications

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Abstract

Lytic bacteriophages hold substantial promise in medical and biotechnological applications. Therefore a comprehensive understanding of phage infection mechanisms is crucial. CRISPR-Cas systems offer a way to explore these mechanisms via site-specific phage mutagenesis. However, phages can resist Cas-mediated cleavage through extensive DNA modifications like cytosine glycosylation, hindering mutagenesis efficiency. Our study utilizes the eukaryotic enzyme NgTET to temporarily reduce phage DNA modifications, facilitating Cas nuclease cleavage and enhancing mutagenesis efficiency. This approach enables precise DNA targeting and seamless point mutation integration, exemplified by deactivating specific ADP-ribosyltransferases crucial for phage infection. Furthermore, by temporally removing DNA modifications, we elucidated the effects of these modifications on T4 phage infections without necessitating gene deletions. Our results present a strategy enabling the investigation of phage epigenome functions and streamlining the engineering of phages with cytosine DNA modifications. The described temporal modulation of the phage epigenome is valuable for synthetic biology and fundamental research to comprehend phage infection mechanisms through the generation of mutants.

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Pozhydaieva, N., Billau, F. A., Wolfram-Schauerte, M., Rojas, A. A. R., Paczia, N., Schindler, D., & Höfer, K. (2024). Temporal epigenome modulation enables efficient bacteriophage engineering and functional analysis of phage DNA modifications. PLoS Genetics, 20(9). https://doi.org/10.1371/journal.pgen.1011384

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