The plant immune system: From discovery to deployment

Jonathan D. G. Jones; Brian J. Staskawicz; Jeffery L. Dangl

doi:10.1016/j.cell.2024.03.045

The plant immune system: From discovery to deployment

Jonathan D. G. Jones
, Brian J. Staskawicz
, Jeffery L. Dangl

Research output: Contribution to journal › Review article › peer-review

343 Citations (Scopus)

7 Downloads (Pure)

Abstract

Plant diseases cause famines, drive human migration, and present challenges to agricultural sustainability as pathogen ranges shift under climate change. Plant breeders discovered Mendelian genetic loci conferring disease resistance to specific pathogen isolates over 100 years ago. Subsequent breeding for disease resistance underpins modern agriculture and, along with the emergence and focus on model plants for genetics and genomics research, has provided rich resources for molecular biological exploration over the last 50 years. These studies led to the identification of extracellular and intracellular receptors that convert recognition of extracellular microbe-encoded molecular patterns or intracellular pathogen-delivered virulence effectors into defense activation. These receptor systems, and downstream responses, define plant immune systems that have evolved since the migration of plants to land ∼500 million years ago. Our current understanding of plant immune systems provides the platform for development of rational resistance enhancement to control the many diseases that continue to plague crop production.

Original language	English
Pages (from-to)	2095-2116
Number of pages	22
Journal	Cell
Volume	187
Issue number	9
DOIs	https://doi.org/10.1016/j.cell.2024.03.045
Publication status	Published - 25 Apr 2024

UN SDGs

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

SDG 3 Good Health and Well-being
SDG 13 Climate Action

Keywords

effector proteins
ETI
immune system evolution
pathogen recognition
plant immunology
plant inflammasome
PTI
receptor systems
resistosomes
virulence factors

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10.1016/j.cell.2024.03.045Licence: CC BY

Jones_etal_2024_CellFinal published version, 5.64 MBLicence: CC BY

Cite this

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title = "The plant immune system: From discovery to deployment",

abstract = "Plant diseases cause famines, drive human migration, and present challenges to agricultural sustainability as pathogen ranges shift under climate change. Plant breeders discovered Mendelian genetic loci conferring disease resistance to specific pathogen isolates over 100 years ago. Subsequent breeding for disease resistance underpins modern agriculture and, along with the emergence and focus on model plants for genetics and genomics research, has provided rich resources for molecular biological exploration over the last 50 years. These studies led to the identification of extracellular and intracellular receptors that convert recognition of extracellular microbe-encoded molecular patterns or intracellular pathogen-delivered virulence effectors into defense activation. These receptor systems, and downstream responses, define plant immune systems that have evolved since the migration of plants to land ∼500 million years ago. Our current understanding of plant immune systems provides the platform for development of rational resistance enhancement to control the many diseases that continue to plague crop production.",

keywords = "effector proteins, ETI, immune system evolution, pathogen recognition, plant immunology, plant inflammasome, PTI, receptor systems, resistosomes, virulence factors",

author = "Jones, \{Jonathan D. G.\} and Staskawicz, \{Brian J.\} and Dangl, \{Jeffery L.\}",

note = "Funding Information: J.D.G.J. gratefully acknowledges funding from the Gatsby Charitable Foundation, BBSRC, The Royal Society and European Research Council. B.J.S. acknowledges funding from the Foundation for Food and Agriculture, 2 Blades Foundation, and the Founders Fund from the Innovative Genomics Institute. J.L.D. acknowledges funding from the National Science Foundation and the Howard Hughes Medical Institute. The authors declare no competing interests.",

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doi = "10.1016/j.cell.2024.03.045",

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AU - Staskawicz, Brian J.

AU - Dangl, Jeffery L.

N1 - Funding Information: J.D.G.J. gratefully acknowledges funding from the Gatsby Charitable Foundation, BBSRC, The Royal Society and European Research Council. B.J.S. acknowledges funding from the Foundation for Food and Agriculture, 2 Blades Foundation, and the Founders Fund from the Innovative Genomics Institute. J.L.D. acknowledges funding from the National Science Foundation and the Howard Hughes Medical Institute. The authors declare no competing interests.

PY - 2024/4/25

Y1 - 2024/4/25

N2 - Plant diseases cause famines, drive human migration, and present challenges to agricultural sustainability as pathogen ranges shift under climate change. Plant breeders discovered Mendelian genetic loci conferring disease resistance to specific pathogen isolates over 100 years ago. Subsequent breeding for disease resistance underpins modern agriculture and, along with the emergence and focus on model plants for genetics and genomics research, has provided rich resources for molecular biological exploration over the last 50 years. These studies led to the identification of extracellular and intracellular receptors that convert recognition of extracellular microbe-encoded molecular patterns or intracellular pathogen-delivered virulence effectors into defense activation. These receptor systems, and downstream responses, define plant immune systems that have evolved since the migration of plants to land ∼500 million years ago. Our current understanding of plant immune systems provides the platform for development of rational resistance enhancement to control the many diseases that continue to plague crop production.

AB - Plant diseases cause famines, drive human migration, and present challenges to agricultural sustainability as pathogen ranges shift under climate change. Plant breeders discovered Mendelian genetic loci conferring disease resistance to specific pathogen isolates over 100 years ago. Subsequent breeding for disease resistance underpins modern agriculture and, along with the emergence and focus on model plants for genetics and genomics research, has provided rich resources for molecular biological exploration over the last 50 years. These studies led to the identification of extracellular and intracellular receptors that convert recognition of extracellular microbe-encoded molecular patterns or intracellular pathogen-delivered virulence effectors into defense activation. These receptor systems, and downstream responses, define plant immune systems that have evolved since the migration of plants to land ∼500 million years ago. Our current understanding of plant immune systems provides the platform for development of rational resistance enhancement to control the many diseases that continue to plague crop production.

KW - effector proteins

KW - ETI

KW - immune system evolution

KW - pathogen recognition

KW - plant immunology

KW - plant inflammasome

KW - PTI

KW - receptor systems

KW - resistosomes

KW - virulence factors

UR - https://www.scopus.com/pages/publications/85190715965

U2 - 10.1016/j.cell.2024.03.045

DO - 10.1016/j.cell.2024.03.045

M3 - Review article

C2 - 38670067

AN - SCOPUS:85190715965

SN - 0092-8674

VL - 187

SP - 2095

EP - 2116

JO - Cell

JF - Cell

IS - 9

ER -

The plant immune system: From discovery to deployment

Abstract

UN SDGs

Keywords

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