Litcius/Paper detail

Sequence-Function Relationships in Phage-Encoded Bacterial Cell Wall Lytic Enzymes and Their Implications for Phage-Derived Product Design

Roberto Vázquez, Ernesto García, Pedro García

2021Journal of Virology48 citationsDOIOpen Access PDF

Abstract

Phage-encoded lytic enzymes, also called lysins, are one of the most promising alternatives to common antibiotics. The potential of lysins as novel antimicrobials to tackle antibiotic-resistant bacteria not only arises from features such as a lower chance to provoke resistance but also from their versatility as synthetic biology parts. Functional modules derived from lysins are currently being used for the design of novel antimicrobials with desired properties. This study provides a view of the lysin diversity landscape by examining a set of phage lysin genes. We have uncovered the fundamental differences between the lysins from phages that infect bacteria with different superficial architectures and, thus, the reach of their specialization regarding cell wall structures. These results provide clarity and evidence to sustain some of the common hypotheses in current literature, as well as making available an updated and characterized database of lysins sequences for further developments.

Topics & Concepts

LysinLytic cycleBiologyBacteriaMicrobiologyAntimicrobialBacterial cell structureComputational biologyAntimicrobial peptidesCell wallPeptidoglycanEnzymeAntibioticsBiochemistryBacteriophageGeneticsPeptidePhage displayBacteriocinAntibiotic resistanceEscherichia coliGram-negative bacteriaEmulationCell biologyBacterial geneticsBacteriophages and microbial interactionsBiopolymer Synthesis and ApplicationsEnzyme Catalysis and Immobilization