Affiliation:
1. Microbiology and Molecular Biology Laboratory, Department of Biological Sciences Indian Institute of Science Education and Research (IISER) Bhopal India
Abstract
AbstractEndolysins produced by bacteriophages hydrolyze host cell wall peptidoglycan to release newly assembled virions. D29 mycobacteriophage specifically infects mycobacteria including the pathogenic Mycobacterium tuberculosis. D29 encodes LysA endolysin, which hydrolyzes mycobacterial cell wall peptidoglycan. We previously showed that LysA harbors two catalytic domains (N‐terminal domain [NTD] and lysozyme‐like domain [LD]) and a C‐terminal cell wall binding domain (CTD). While the importance of LD and CTD in mycobacteriophage biology has been examined in great detail, NTD has largely remained unexplored. Here, to address NTD's significance in D29 physiology, we generated NTD‐deficient D29 (D29∆NTD) by deleting the NTD‐coding region from D29 genome using CRISPY‐BRED. We show that D29∆NTD is viable, but has a longer latent period, and a remarkably reduced burst size and plaque size. A large number of phages were found to be trapped in the host during the D29∆NTD‐mediated cell lysis event. Such poor release of progeny phages during host cell lysis strongly suggests that NTD‐deficient LysA produced by D29∆NTD, despite having catalytically‐active LD, is unable to efficiently lyse host bacteria. We thus conclude that LysA NTD is essential for optimal release of progeny virions, thereby playing an extremely vital role in phage physiology and phage propagation in the environment.
Funder
Science and Engineering Research Board