Development and evaluation of DEAE silica gel columns for simultaneous concentration of coliphages and rotavirus from natural water samples.

Lakshmi Pisharody, Sumathi Suresh, Suparna Mukherji

Water research 2021 Sep 15

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Enteric viruses are commonly present in water bodies in regions with poor sanitation. Although the occurrence of these viruses poses a health risk they are difficult to quantify due to their low concentration and they may remain undetected in the absence of adequate preconcentration. The present study reports the synthesis and utilization of DEAE silica gel (DSiG) as an adsorbent for virus concentration. Two coliphages, MS2 and SUSP2, and an enteric virus, rotavirus A (RVA) were chosen for examining the preconcentration efficiency of DSiG columns. Studies conducted at a low flow rate of 5 mL/min yielded good removal of viruses through adsorption. Studies at a higher flow rate of 50 mL/min followed by elution with optimized eluents yielded a high recovery of MS2 and RVA even when they were present at low concentration (0.01 copy/mL). The eluent Na(1.5 M)-Tw(2%)-G3X (glycine 3X broth, 1.5 M NaCl, 2% Tween, pH 10.2) showed maximum elution of RVA and MS2. Optimal SUSP2 recovery was observed on employing an eluent composed of 1.5 M NaCl, 3% Tween, 0.05 M KH2PO4 at pH 9.2. Subsequently, both the eluents were successively applied for elution of the adsorbed viruses. This method was applied for virus preconcentration from lake water in the monsoon and winter seasons. The DSiG column could achieve adequate preconcentration for all the three viruses, i.e., SUSP2, MS2, and RVA, even when they were present at very low concentration and the recovery achieved was comparable to that achieved with ultracentrifugation while the processing time required for handling large volumes of water was considerably lower. Copyright © 2021. Published by Elsevier Ltd.

Citation

Lakshmi Pisharody, Sumathi Suresh, Suparna Mukherji. Development and evaluation of DEAE silica gel columns for simultaneous concentration of coliphages and rotavirus from natural water samples. Water research. 2021 Sep 15;203:117508