https://orcid.org/0000-0001-5791-7993
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Abstract
Cox protein plays a critical role in deciding the lytic-lysogenic switch of P2 enteric phages. This phenomenon makes Cox protein one of the most important candidates in developing novel phage-based therapeutics against antibacterial resistant pathogens. The principle focus concerning protein and its decision making is a DNA binding event, which helps to regulate differential promoter expression. In the current study, we have attempted to understand the sequence, structural and dynamic features associated with Cox protein and its DNA binding. Unavailability of information was a big burden in further proceedings. We have done an extensive literature search to develop a database of Cox with relevant information. That information coupled with the methods of Sequence-based phylogenetic and conservation studies, Homology Modelling, Atomic-level Docking and Molecular Dynamics (MD) Simulation (50 ns each for 10 systems, i.e. total of 500 ns) were performed in the current study. Analysis of those extensive studies has provided us the required sequence to structure to dynamics to functional understanding. Our present study would indeed be very helpful in understanding the biochemical mechanism of Cox activation as well as designing potential phage therapeutics.
Graphical Abstract
Acknowledgements
The authors are thankful to the Head, Department of Botany and Microbiology, Gurukula Kangri (Deemed to be University) for providing computer facility. We wish to thank to the other institutions for helping for conducting a part of the work, namely ICC (IIT-Roorkee), Bioinformatics Facility, Department of Biosciences and Bioengineering (IIT-Roorkee), and Bioinformatics Resources and Applications Facility (BRAF), C-DAC (Pune) for the provision of computational facilities and support.
Disclosure statement
No potential conflict of interest was reported by the authors.
Funding
The author(s) reported there is no funding associated with the work featured in this article.
