Aggregation and surface properties of F-specific RNA phages: Implication for membrane filtration processes

We report an experimental investigation of the electrokinetic properties and size variations of four F-specific bacteriophages of the types MS2, GA, Qβ and SP (21–30nm in diameter) over a broad range of pH values (1.5–7.5) and NaNO3 electrolyte concentrations (1–100mM). The results obtained by dynam...

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Bibliographic Details
Published in:Water research (Oxford) 2008-05, Vol.42 (10-11), p.2769-2777
Main Authors: Langlet, Jérémie, Gaboriaud, Fabien, Duval, Jérôme F.L., Gantzer, Christophe
Format: Article
Language:English
Subjects:
Aggregation
Applied sciences
Bacteriophages
Diffusion - drug effects
Ecology, environment
Electrolytes - pharmacology
Electrophoresis
Exact sciences and technology
Filtration - methods
Isoelectric Point
Life Sciences
Membrane
Membranes, Artificial
Microbiology and Parasitology
Other industrial wastes. Sewage sludge
Pollution
RNA Phages - chemistry
RNA Phages - drug effects
Surface properties
Surface Properties - drug effects
Virion - chemistry
Virology
Wastes
Water treatment and pollution
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Summary:We report an experimental investigation of the electrokinetic properties and size variations of four F-specific bacteriophages of the types MS2, GA, Qβ and SP (21–30nm in diameter) over a broad range of pH values (1.5–7.5) and NaNO3 electrolyte concentrations (1–100mM). The results obtained by dynamic light scattering show that the aggregation of SP and GA particles takes place over the whole range of pH and ionic strength conditions examined. For MS2 phages, the aggregation of MS2 particles is not observed for pH higher than the isoelectric point (pI) and large ionic strengths for which interparticular repulsive electrostatic interactions are however expected to be sufficiently screened. Aggregation of the MS2 phages, dispersed in 1 and 100mM electrolyte concentration, occurs at pH 4, which basically corresponds to the pI as determined by electrophoresis measurements. The Qβ particles suspended in solutions of low electrolyte concentrations aggregate at low pH values (pI∼3) and, unlike MS2, at large ionic strengths over the whole range of pH conditions considered in this study. These elements allow the determination of the hydrophobic sequence for the four phages SP∼GA>Qβ>MS2. Close inspection of the electrokinetic results reveals small to significant variations of the pI values—depending on the phage considered—with respect to the concentration of indifferent NaNO3 electrolyte. This indicates that features other than chemical and electrostatic in nature play a key role in determining the pI and more generally the electrophoretic mobility μ of viral particles. A qualitative interpretation is given and is based on the consideration of inner electro-osmotic flow within the isolated or aggregated particles. The impact of the flow properties within the particles is further in agreement with recent theoretical formalism developed for the electrokinetics of soft multiplayer particles, the phages analyzed here being some illustrative examples. The determination and qualitative interpretation of the surface properties of the viral particles as reported in the current study are commented within the context of water treatment especially concerning viral removal by membrane filtration processes.
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2008.02.007