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Article Abstract
The escalating antibiotic resistance in mycobacterial species poses a significant threat globally, necessitating an urgent need to find alternative solutions. Bacteriophage-derived endolysins, which facilitate phage progeny release by attacking bacterial cell walls, present promising antibacterial candidates due to their rapid lytic action, high specificity and low risk of resistance development. In mycobacteria, owing to the complex, hydrophobic cell wall, mycobacteriophages usually synthesize two endolysins: LysinA, which hydrolyzes peptidoglycan; LysinB, which delinks mycolic acid-containing outer membrane and arabinogalactan, releasing free mycolic acid. In this study, we conducted domain analysis and functional characterization of a novel LysinB from RitSun, an F2 sub-cluster mycobacteriophage from our phage collection. Several key properties of RitSun LysinB make it an important antimycobacterial agent: its ability to lyse Mycobacterium smegmatis from without, a higher than previously reported specific activity of 1.36 U/mg and its inhibitory effect on biofilm formation. Given the impermeable nature of the mycobacterial cell envelope, dissecting RitSun LysinB at the molecular level to identify its cell wall-destabilizing sequence could be utilized to engineer other native lysins as fusion proteins, broadening their activity spectrum.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11300654 | PMC |
| http://dx.doi.org/10.1038/s41598-024-68636-9 | DOI Listing |
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