FMDV replicons encoding green fluorescent protein are replication competent

Fiona Ashley Tulloch; Uday Singh Pathania; Garry Alec Luke; John Nicholson; Nicola J Stonehouse; David J Rowlands; Terry  Jackson; Toby Tuthill; Juergen  Hass; Angus I Lamond; Martin Denis Ryan

doi:10.1016/j.jviromet.2014.08.020

FMDV replicons encoding green fluorescent protein are replication competent

Fiona Ashley Tulloch, Uday Singh Pathania, Garry Alec Luke, John Nicholson, Nicola J Stonehouse, David J Rowlands, Terry Jackson, Toby Tuthill, Juergen Hass, Angus I Lamond, Martin Denis Ryan

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

Abstract

The study of replication of viruses that require high bio-secure facilities can be accomplished with less stringent containment using non-infectious ‘replicon’ systems. The FMDV replicon system (pT7rep) reported by Mclnerney et al. (2000) was modified by the replacement of sequences encoding chloramphenicol acetyl-transferase (CAT) with those encoding a functional L proteinase (Lpro) linked to a bi-functional fluorescent/antibiotic resistance fusion protein (green fluorescent protein/puromycin resistance, [GFP-PAC]). Cells were transfected with replicon-derived transcript RNA and GFP fluorescence quantified. Replication of transcript RNAs was readily detected by fluorescence, whilst the signal from replication-incompetent forms of the genome was >2-fold lower. Surprisingly, a form of the replicon lacking the Lpro showed a significantly stronger fluorescence signal, but appeared with slightly delayed kinetics. Replication can, therefore, be quantified simply by live-cell imaging and image analyses, providing a rapid and facile alternative to RT-qPCR or CAT assays.

Original language	English
Pages (from-to)	35-40
Number of pages	6
Journal	Journal of Virological Methods
Volume	209
Early online date	4 Sept 2014
DOIs	https://doi.org/10.1016/j.jviromet.2014.08.020
Publication status	Published - 1 Dec 2014

Keywords

FMDV
Replicon
Fluorescence
Replication

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10.1016/j.jviromet.2014.08.020

Luke_2014_JVM_FMDV
© 2014 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/3.0/).
Final published version, 0.99 MB

Molecular Biology of FMDV Replication: The Molecular Biology of FMDV Replication - Towards New Methods of FMDV Disease Control
Ryan, M. D. (PI)
BBSRC
1/12/12 → 30/11/17
Project: Standard
New Disease Control Strategies for Foot: New Disease control strategies for foot and mouth disease
Ryan, M. D. (PI)
The Wellcome Trust
21/04/10 → 20/04/13
Project: Standard

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@article{82ebd01ce8a24313a883408e9ca475bd,

title = "FMDV replicons encoding green fluorescent protein are replication competent",

abstract = "The study of replication of viruses that require high bio-secure facilities can be accomplished with less stringent containment using non-infectious {\textquoteleft}replicon{\textquoteright} systems. The FMDV replicon system (pT7rep) reported by Mclnerney et al. (2000) was modified by the replacement of sequences encoding chloramphenicol acetyl-transferase (CAT) with those encoding a functional L proteinase (Lpro) linked to a bi-functional fluorescent/antibiotic resistance fusion protein (green fluorescent protein/puromycin resistance, [GFP-PAC]). Cells were transfected with replicon-derived transcript RNA and GFP fluorescence quantified. Replication of transcript RNAs was readily detected by fluorescence, whilst the signal from replication-incompetent forms of the genome was >2-fold lower. Surprisingly, a form of the replicon lacking the Lpro showed a significantly stronger fluorescence signal, but appeared with slightly delayed kinetics. Replication can, therefore, be quantified simply by live-cell imaging and image analyses, providing a rapid and facile alternative to RT-qPCR or CAT assays.",

keywords = "FMDV, Replicon, Fluorescence, Replication",

author = "Tulloch, {Fiona Ashley} and Pathania, {Uday Singh} and Luke, {Garry Alec} and John Nicholson and Stonehouse, {Nicola J} and Rowlands, {David J} and Terry Jackson and Toby Tuthill and Juergen Hass and Lamond, {Angus I} and Ryan, {Martin Denis}",

note = "The authors gratefully acknowledge the support of the Wellcome Trust (089209/Z/09/Z) and particularly the support providedby Biological and Biotechnological Sciences Research Council (BBSRC) (BB/K003801/1). ",

year = "2014",

month = dec,

day = "1",

doi = "10.1016/j.jviromet.2014.08.020",

language = "English",

volume = "209",

pages = "35--40",

journal = "Journal of Virological Methods",

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TY - JOUR

T1 - FMDV replicons encoding green fluorescent protein are replication competent

AU - Tulloch, Fiona Ashley

AU - Pathania, Uday Singh

AU - Luke, Garry Alec

AU - Nicholson, John

AU - Stonehouse, Nicola J

AU - Rowlands, David J

AU - Jackson, Terry

AU - Tuthill, Toby

AU - Hass, Juergen

AU - Lamond, Angus I

AU - Ryan, Martin Denis

N1 - The authors gratefully acknowledge the support of the Wellcome Trust (089209/Z/09/Z) and particularly the support providedby Biological and Biotechnological Sciences Research Council (BBSRC) (BB/K003801/1).

PY - 2014/12/1

Y1 - 2014/12/1

N2 - The study of replication of viruses that require high bio-secure facilities can be accomplished with less stringent containment using non-infectious ‘replicon’ systems. The FMDV replicon system (pT7rep) reported by Mclnerney et al. (2000) was modified by the replacement of sequences encoding chloramphenicol acetyl-transferase (CAT) with those encoding a functional L proteinase (Lpro) linked to a bi-functional fluorescent/antibiotic resistance fusion protein (green fluorescent protein/puromycin resistance, [GFP-PAC]). Cells were transfected with replicon-derived transcript RNA and GFP fluorescence quantified. Replication of transcript RNAs was readily detected by fluorescence, whilst the signal from replication-incompetent forms of the genome was >2-fold lower. Surprisingly, a form of the replicon lacking the Lpro showed a significantly stronger fluorescence signal, but appeared with slightly delayed kinetics. Replication can, therefore, be quantified simply by live-cell imaging and image analyses, providing a rapid and facile alternative to RT-qPCR or CAT assays.

AB - The study of replication of viruses that require high bio-secure facilities can be accomplished with less stringent containment using non-infectious ‘replicon’ systems. The FMDV replicon system (pT7rep) reported by Mclnerney et al. (2000) was modified by the replacement of sequences encoding chloramphenicol acetyl-transferase (CAT) with those encoding a functional L proteinase (Lpro) linked to a bi-functional fluorescent/antibiotic resistance fusion protein (green fluorescent protein/puromycin resistance, [GFP-PAC]). Cells were transfected with replicon-derived transcript RNA and GFP fluorescence quantified. Replication of transcript RNAs was readily detected by fluorescence, whilst the signal from replication-incompetent forms of the genome was >2-fold lower. Surprisingly, a form of the replicon lacking the Lpro showed a significantly stronger fluorescence signal, but appeared with slightly delayed kinetics. Replication can, therefore, be quantified simply by live-cell imaging and image analyses, providing a rapid and facile alternative to RT-qPCR or CAT assays.

KW - FMDV

KW - Replicon

KW - Fluorescence

KW - Replication

U2 - 10.1016/j.jviromet.2014.08.020

DO - 10.1016/j.jviromet.2014.08.020

M3 - Article

SN - 0166-0934

VL - 209

SP - 35

EP - 40

JO - Journal of Virological Methods

JF - Journal of Virological Methods

ER -

FMDV replicons encoding green fluorescent protein are replication competent

Abstract

Keywords

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Projects

Molecular Biology of FMDV Replication: The Molecular Biology of FMDV Replication - Towards New Methods of FMDV Disease Control

New Disease Control Strategies for Foot: New Disease control strategies for foot and mouth disease

Cite this