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Polymer-Mediated Cryopreservation of Bacteriophages

Huba L. Marton, Kathryn M. Styles, Peter Kilbride, Antonia P. Sagona, Matthew I. Gibson

2021Biomacromolecules18 citationsDOIOpen Access PDF

Abstract

(∼1 wt %) and outperforms glycerol in many cases, which is a currently used cryoprotectant. Protection is afforded at both -20 and -80 °C, the two most common temperatures for frozen storage in laboratory settings. Crucially, the concentration of the polymer required leads to frozen solutions at -20 °C, unlike 50% glycerol (which results in liquid solutions). Post-thaw recoveries close to 100% plaque-forming units were achieved even after 2 weeks of storage with this method and kill assays against their bacterial host confirmed the lytic function of the phages. Initial experiments with other hydrophilic polymers also showed cryoprotection, but at this stage, the exact mechanism of this protection cannot be concluded but does show that water-soluble polymers offer an alternative tool for phage storage. Ice recrystallization inhibiting polymers (poly(vinyl alcohol)) were found to provide no additional protection, in contrast to their ability to protect proteins and microorganisms which are damaged by recrystallization. PEG's low cost, solubility, well-established low toxicity/immunogenicity, and that it is fit for human consumption at the concentrations used make it ideal to help translate new approaches for phage therapy.

Topics & Concepts

CryopreservationPolymerChemistryBacteriophagePolymer sciencePolymer chemistryChemical engineeringBiophysicsBiochemistryCell biologyBiologyOrganic chemistryEscherichia coliGeneEmbryoEngineeringBacteriophages and microbial interactionsMicrofluidic and Bio-sensing TechnologiesPlant tissue culture and regeneration
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