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Renaissance for Phage-Based Bacterial Control

Cory Schwarz, Jacques Mathieu, Jenny A. Laverde Gomez, Pingfeng Yu, Pedro J. J. Alvarez

2021Environmental Science & Technology38 citationsDOI

Abstract

Bacteriophages (phages) are an underutilized biological resource with vast potential for pathogen control and microbiome editing. Phage research and commercialization have increased rapidly in biomedical and agricultural industries, but adoption has been limited elsewhere. Nevertheless, converging advances in DNA sequencing, bioinformatics, microbial ecology, and synthetic biology are now poised to broaden phage applications beyond pathogen control toward the manipulation of microbial communities for defined functional improvements. Enhancements in sequencing combined with network analysis make it now feasible to identify and disrupt microbial associations to elicit desirable shifts in community structure or function, indirectly modulate species abundance, and target hub or keystone species to achieve broad functional shifts. Sequencing and bioinformatic advancements are also facilitating the use of temperate phages for safe gene delivery applications. Finally, integration of synthetic biology stands to create novel phage chassis and modular genetic components. While some fundamental, regulatory, and commercialization barriers to widespread phage use remain, many major challenges that have impeded the field now have workable solutions. Thus, a new dawn for phage-based (chemical-free) precise biocontrol and microbiome editing is on the horizon to enhance, suppress, or modulate microbial activities important for public health, food security, and more sustainable energy production and water reuse.

Topics & Concepts

Synthetic biologyBiologyCommercializationComputational biologyMetagenomicsMicrobiomeBiotechnologyGenome editingPhage therapyBacteriophageBiological warfareDNA sequencingEcologyCRISPRGeneticsBusinessGeneToxicologyMarketingEscherichia coliBacteriophages and microbial interactionsGenomics and Phylogenetic StudiesMicrobial Community Ecology and Physiology
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