Viral Manipulation of Plant Stress Responses and Host Interactions With Insects

John P. Carr; Ruairí Donnelly; Trisna Tungadi; Alex M. Murphy; Sanjie Jiang; Ana Bravo-Cazar; Ju Yeon Yoon; Nik J. Cunniffe; Beverley J. Glover; Christopher A. Gilligan

doi:10.1016/bs.aivir.2018.06.004

Viral Manipulation of Plant Stress Responses and Host Interactions With Insects

John P. Carr^*
, Ruairí Donnelly
, Trisna Tungadi
, Alex M. Murphy
, Sanjie Jiang
, Ana Bravo-Cazar
, Ju Yeon Yoon
, Nik J. Cunniffe
, Beverley J. Glover
, Christopher A. Gilligan

^*Corresponding author for this work

Department of Biology

Research output: Chapter in book/report/conference proceeding › Chapter › peer-review

47 Citations (Scopus)

Abstract

Do the alterations in plant defensive signaling and metabolism that occur in susceptible hosts following virus infection serve any purpose beyond directly aiding viruses to replicate and spread? Or indeed, are these modifications to host phenotype purely incidental consequences of virus infection? A growing body of data, in particular from studies of viruses vectored by whiteflies and aphids, indicates that viruses influence the efficiency of their own transmission by insect vectors and facilitate mutualistic relationships between viruses and their insect vectors. Furthermore, it appears that viruses may be able to increase the opportunity for transmission in the long term by providing reward to the host plants that they infect. This may be conditional, for example, by aiding host survival under conditions of drought or cold or, more surprisingly, by helping plants attract beneficial insects such as pollinators. In this chapter, we cover three main areas. First, we describe the molecular-level interactions governing viral manipulation of host plant biology. Second, we review evidence that virus-induced changes in plant phenotype enhance virus transmission. Finally, we discuss how direct and indirect manipulation of insects and plants might impact on the evolution of viruses and their hosts.

Original language	English
Title of host publication	Advances in Virus Research
Editors	Marilyn J. Roossinck, Peter Palukaitis
Publisher	Academic Press Inc.
Chapter	7
Pages	177-197
Number of pages	21
Volume	102
Edition	1st
ISBN (Electronic)	9780128155332
ISBN (Print)	9780128151945
DOIs	https://doi.org/10.1016/bs.aivir.2018.06.004
Publication status	Published - 26 Sept 2018

Publication series

Name	Advances in Virus Research
ISSN (Print)	0065-3527
ISSN (Electronic)	1557-8399

UN SDGs

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

SDG 2 Zero Hunger
SDG 3 Good Health and Well-being

User-Defined Keywords

2b protein
Aphid
Begomovirus
Drought
Epidemiology
HC-Pro
Jasmonate
Pollinator
RNA silencing
Salicylate
Transmission
Whitefly

Access to Document

10.1016/bs.aivir.2018.06.004

Cite this

Carr, J. P., Donnelly, R., Tungadi, T., Murphy, A. M., Jiang, S., Bravo-Cazar, A., Yoon, J. Y., Cunniffe, N. J., Glover, B. J., & Gilligan, C. A. (2018). Viral Manipulation of Plant Stress Responses and Host Interactions With Insects. In M. J. Roossinck, & P. Palukaitis (Eds.), Advances in Virus Research (1st ed., Vol. 102, pp. 177-197). (Advances in Virus Research). Academic Press Inc.. https://doi.org/10.1016/bs.aivir.2018.06.004

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abstract = "Do the alterations in plant defensive signaling and metabolism that occur in susceptible hosts following virus infection serve any purpose beyond directly aiding viruses to replicate and spread? Or indeed, are these modifications to host phenotype purely incidental consequences of virus infection? A growing body of data, in particular from studies of viruses vectored by whiteflies and aphids, indicates that viruses influence the efficiency of their own transmission by insect vectors and facilitate mutualistic relationships between viruses and their insect vectors. Furthermore, it appears that viruses may be able to increase the opportunity for transmission in the long term by providing reward to the host plants that they infect. This may be conditional, for example, by aiding host survival under conditions of drought or cold or, more surprisingly, by helping plants attract beneficial insects such as pollinators. In this chapter, we cover three main areas. First, we describe the molecular-level interactions governing viral manipulation of host plant biology. Second, we review evidence that virus-induced changes in plant phenotype enhance virus transmission. Finally, we discuss how direct and indirect manipulation of insects and plants might impact on the evolution of viruses and their hosts.",

keywords = "2b protein, Aphid, Begomovirus, Drought, Epidemiology, HC-Pro, Jasmonate, Pollinator, RNA silencing, Salicylate, Transmission, Whitefly",

author = "Carr, \{John P.\} and Ruair{\'i} Donnelly and Trisna Tungadi and Murphy, \{Alex M.\} and Sanjie Jiang and Ana Bravo-Cazar and Yoon, \{Ju Yeon\} and Cunniffe, \{Nik J.\} and Glover, \{Beverley J.\} and Gilligan, \{Christopher A.\}",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier Inc. All rights reserved. Funding Information: The chapter is dedicated to the memory of Milton Zaitlin, pioneering virologist and inspirational mentor. We thank Peter Palukaitis for helpful suggestions on the chapter. Support for our work was provided by the United Kingdom Biotechnological and Biological Sciences Research Council (SCPRID Grant BB/J011762/1, and GCRF Grant BB/P023223/1), the Leverhulme Trust (Grants F/09 741F and RPG-2012-667), the Bill and Melinda Gates Foundation (Grant: “Epidemiological modeling to inform strategies for:",

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Carr, JP, Donnelly, R, Tungadi, T, Murphy, AM, Jiang, S, Bravo-Cazar, A, Yoon, JY, Cunniffe, NJ, Glover, BJ & Gilligan, CA 2018, Viral Manipulation of Plant Stress Responses and Host Interactions With Insects. in MJ Roossinck & P Palukaitis (eds), Advances in Virus Research. 1st edn, vol. 102, Advances in Virus Research, Academic Press Inc., pp. 177-197. https://doi.org/10.1016/bs.aivir.2018.06.004

Viral Manipulation of Plant Stress Responses and Host Interactions With Insects. / Carr, John P.; Donnelly, Ruairí; Tungadi, Trisna et al.
Advances in Virus Research. ed. / Marilyn J. Roossinck; Peter Palukaitis. Vol. 102 1st. ed. Academic Press Inc., 2018. p. 177-197 (Advances in Virus Research).

Research output: Chapter in book/report/conference proceeding › Chapter › peer-review

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AU - Carr, John P.

AU - Donnelly, Ruairí

AU - Tungadi, Trisna

AU - Murphy, Alex M.

AU - Jiang, Sanjie

AU - Bravo-Cazar, Ana

AU - Yoon, Ju Yeon

AU - Cunniffe, Nik J.

AU - Glover, Beverley J.

AU - Gilligan, Christopher A.

N1 - Publisher Copyright: © 2018 Elsevier Inc. All rights reserved. Funding Information: The chapter is dedicated to the memory of Milton Zaitlin, pioneering virologist and inspirational mentor. We thank Peter Palukaitis for helpful suggestions on the chapter. Support for our work was provided by the United Kingdom Biotechnological and Biological Sciences Research Council (SCPRID Grant BB/J011762/1, and GCRF Grant BB/P023223/1), the Leverhulme Trust (Grants F/09 741F and RPG-2012-667), the Bill and Melinda Gates Foundation (Grant: “Epidemiological modeling to inform strategies for:

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N2 - Do the alterations in plant defensive signaling and metabolism that occur in susceptible hosts following virus infection serve any purpose beyond directly aiding viruses to replicate and spread? Or indeed, are these modifications to host phenotype purely incidental consequences of virus infection? A growing body of data, in particular from studies of viruses vectored by whiteflies and aphids, indicates that viruses influence the efficiency of their own transmission by insect vectors and facilitate mutualistic relationships between viruses and their insect vectors. Furthermore, it appears that viruses may be able to increase the opportunity for transmission in the long term by providing reward to the host plants that they infect. This may be conditional, for example, by aiding host survival under conditions of drought or cold or, more surprisingly, by helping plants attract beneficial insects such as pollinators. In this chapter, we cover three main areas. First, we describe the molecular-level interactions governing viral manipulation of host plant biology. Second, we review evidence that virus-induced changes in plant phenotype enhance virus transmission. Finally, we discuss how direct and indirect manipulation of insects and plants might impact on the evolution of viruses and their hosts.

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KW - 2b protein

KW - Aphid

KW - Begomovirus

KW - Drought

KW - Epidemiology

KW - HC-Pro

KW - Jasmonate

KW - Pollinator

KW - RNA silencing

KW - Salicylate

KW - Transmission

KW - Whitefly

UR - https://shop.elsevier.com/books/advances-in-virus-research/roossinck/978-0-12-815194-5

UR - https://www.scopus.com/pages/publications/85050341014

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BT - Advances in Virus Research

A2 - Roossinck, Marilyn J.

A2 - Palukaitis, Peter

PB - Academic Press Inc.

ER -

Viral Manipulation of Plant Stress Responses and Host Interactions With Insects

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