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The impact of metagenomic analysis on the discovery of novel endolysins

Nikolaos Georgakis, Georgios E. Premetis, Panagiota D. Pantiora, Christina Varotsou, Charoutioun S. Bodourian, Nikolaos E. Labrou

2025Applied Microbiology and Biotechnology10 citationsDOIOpen Access PDF

Abstract

Metagenomics has revolutionized enzyme discovery by enabling the study of genetic material directly from environmental samples, bypassing the need for microbial cultivation. This approach is particularly effective for identifying novel endolysins, phage-derived enzymes with antibacterial properties suited for therapeutic and industrial applications. Diverse ecosystems, such as biofilms, human microbiome, hot springs, and geothermal areas, serve as rich reservoirs for endolysins with traits like thermostability, broad-spectrum activity, specificity and resistance to harsh conditions. Functional metagenomics, complemented by bioinformatics, enables the discovery and annotation of previously uncharacterized endolysins. Examples of endolysins discovered from metagenomics analysis are discussed. Despite the challenges of analyzing complex microbial ecosystems and isolating target genes, metagenomics holds immense potential for uncovering innovative endolysins, paving the way for developing new biotechnological applications. KEY POINTS: • Endolysins offer antibacterial potential for therapeutic and industrial use. • Metagenomics enables discovery of novel endolysins from diverse ecosystems. • Advances in tools and methods have accelerated novel endolysins discovery.

Topics & Concepts

MetagenomicsLysinComputational biologyBiologyMicrobiomeGeneticsBacteriophageGeneEscherichia coliBacteriophages and microbial interactionsGenomics and Phylogenetic StudiesMicrobial Community Ecology and Physiology
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