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Rapid assessment of changes in phage bioactivity using dynamic light scattering

Tejas Dharmaraj, Michael J. Kratochvil, Julie D. Pourtois, Qingquan Chen, Maryam Hajfathalian, Aviv Hargil, Yung‐Hao Lin, Zoe Evans, Agnès Oromí-Bosch, Joel Berry, Robert McBride, Naomi L. Haddock, Derek Holman, Jonas D. Van Belleghem, Tony H. Chang, Jeremy J. Barr, Rob Lavigne, Sarah C. Heilshorn, Francis G. Blankenberg, Paul L. Bollyky

2023PNAS Nexus20 citationsDOIOpen Access PDF

Abstract

Extensive efforts are underway to develop bacteriophages as therapies against antibiotic-resistant bacteria. However, these efforts are confounded by the instability of phage preparations and a lack of suitable tools to assess active phage concentrations over time. In this study, we use dynamic light scattering (DLS) to measure changes in phage physical state in response to environmental factors and time, finding that phages tend to decay and form aggregates and that the degree of aggregation can be used to predict phage bioactivity. We then use DLS to optimize phage storage conditions for phages from human clinical trials, predict bioactivity in 50-y-old archival stocks, and evaluate phage samples for use in a phage therapy/wound infection model. We also provide a web application (Phage-Estimator of Lytic Function) to facilitate DLS studies of phages. We conclude that DLS provides a rapid, convenient, and nondestructive tool for quality control of phage preparations in academic and commercial settings.

Topics & Concepts

Dynamic light scatteringLight scatteringBiological systemMaterials scienceComputer scienceBiochemical engineeringChemistryNanotechnologyBiologyPhysicsOpticsScatteringEngineeringNanoparticleBacteriophages and microbial interactionsBiosensors and Analytical DetectionAquaculture disease management and microbiota
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