AI Article Synopsis
- Endolysins from bacteriophages can break down bacterial cell walls and are used in various industries to combat biofilms and infections.
- The study focused on understanding how single-domain endolysins bind to peptidoglycan, using computational methods like molecular docking and bioinformatics, which are easier compared to experimental methods.
- The research found that Autodock Vina and the 3D-RISM module supported prior findings on the binding mechanism of a specific endolysin, showing that both computational tools effectively predicted the binding and interaction of endolysins with peptidoglycan.
Article Abstract
Endolysins of bacteriophages, which degrade the bacterial cell wall peptidoglycan, are applicable in many industries to deal with biofilms and bacterial infections. While multi-domain endolysins have both enzymatically active and cell wall-binding domains, single-domain endolysins consist only of an enzymatically active domain, and their mechanism of peptidoglycan binding remains unexplored, for this is a challenging task experimentally. This research aimed to explore the binding mechanism of endolysins using computational approaches, namely molecular docking and bioinformatical tools, and analyze the performance of these approaches. The docking engine Autodock Vina 1.1.2 and the 3D-RISM module of AmberTools 24 were studied in the current work and used for receptor-ligand affinity and binding energy calculations, respectively. Two possible mechanisms of single-domain endolysin-ligand binding were predicted by Autodock Vina and verified by the 3D-RISM. As a result, the previously obtained experimental results on peptidoglycan binding of the isolated gamma phage endolysin PlyG enzymatically active domain were supported by molecular docking. Both methods predicted that single-domain endolysins are able to bind peptidoglycan, with Autodock Vina being able to give accurate numerical estimates of protein-ligand affinities and 3D-RISM providing comparative values.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11597070 | PMC |
| http://dx.doi.org/10.3390/molecules29225386 | DOI Listing |
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