High-throughput assay for temporal kinetic analysis of lytic coliphage activity

Dan Davidi; Dorin Sade; Shlomit Schuchalter; Ehud Gazit

doi:10.1016/j.ab.2013.09.007

High-throughput assay for temporal kinetic analysis of lytic coliphage activity

Dan Davidi, Dorin Sade, Shlomit Schuchalter, Ehud Gazit^*

^*Corresponding author for this work

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Plaque analysis allows the determination of phage titer and multiplicity of infection. Yet, this overnight assay provides only endpoint results, ignoring kinetic aspects. We introduce an alternative high-throughput and rapid method for kinetic analysis of lytic coliphage activity. Escherichia coli was infected with serial dilutions of MS2 coliphage, and bacterial growth was monitored using a multi-well plate reader providing within hours the equivalent data as obtained overnight. Additional information is yielded, including phage replication rate, progeny size per cycle, and viral propagation during bacterial growth. This method offers further insights into physicochemical mechanisms of lytic coliphage infection and temporal control. It also provides a virus-host interaction acumen.

Original language	English
Pages (from-to)	22-24
Number of pages	3
Journal	Analytical Biochemistry
Volume	444
Issue number	1
DOIs	https://doi.org/10.1016/j.ab.2013.09.007
State	Published - 2014

Keywords

Burst size
Lytic coliphages
Phage infection
Plaque assay
Replication rate

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.ab.2013.09.007

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abstract = "Plaque analysis allows the determination of phage titer and multiplicity of infection. Yet, this overnight assay provides only endpoint results, ignoring kinetic aspects. We introduce an alternative high-throughput and rapid method for kinetic analysis of lytic coliphage activity. Escherichia coli was infected with serial dilutions of MS2 coliphage, and bacterial growth was monitored using a multi-well plate reader providing within hours the equivalent data as obtained overnight. Additional information is yielded, including phage replication rate, progeny size per cycle, and viral propagation during bacterial growth. This method offers further insights into physicochemical mechanisms of lytic coliphage infection and temporal control. It also provides a virus-host interaction acumen.",

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AU - Sade, Dorin

AU - Schuchalter, Shlomit

AU - Gazit, Ehud

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AB - Plaque analysis allows the determination of phage titer and multiplicity of infection. Yet, this overnight assay provides only endpoint results, ignoring kinetic aspects. We introduce an alternative high-throughput and rapid method for kinetic analysis of lytic coliphage activity. Escherichia coli was infected with serial dilutions of MS2 coliphage, and bacterial growth was monitored using a multi-well plate reader providing within hours the equivalent data as obtained overnight. Additional information is yielded, including phage replication rate, progeny size per cycle, and viral propagation during bacterial growth. This method offers further insights into physicochemical mechanisms of lytic coliphage infection and temporal control. It also provides a virus-host interaction acumen.

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KW - Lytic coliphages

KW - Phage infection

KW - Plaque assay

KW - Replication rate

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JO - Analytical Biochemistry

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High-throughput assay for temporal kinetic analysis of lytic coliphage activity

Abstract

Keywords

UN SDGs

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