The molecular dialog between oomycete effectors and their plant and animal hosts

Marcia Saraiva; Magdalena E. Ściślak; Yerisf Torres Ascurra; Tatiana Martí Ferrando; Nikola Zic; Cyril Henard; Pieter van West; Franziska Trusch; Vivianne G.A.A. Vleeshouwers

doi:10.1016/j.fbr.2022.10.002

The molecular dialog between oomycete effectors and their plant and animal hosts

Marcia Saraiva, Magdalena E. Ściślak, Yerisf Torres Ascurra, Tatiana Martí Ferrando, Nikola Zic, Cyril Henard, Pieter van West, Franziska Trusch, Vivianne G.A.A. Vleeshouwers^*

^*Corresponding author for this work

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

Abstract

Oomycetes form a phylogenetically distinct group of eukaryotic microorganisms that include some of the most notorious pathogens of plants and animals. Through the deployment of a remarkably diverse array of effector proteins, oomycete pathogens succeed to overcome host defences and cause infection. Effectors can operate extracellularly or enter living cells where they target diverse subcellular compartments. Genome sequence information indicates that oomycetes express several hundred host-translocating effectors potentially targeting a myriad of host processes. To counteract, plants rely on a wide variety of extra- and intracellular immune receptors facilitating pattern-triggered and effector-triggered immunity, respectively. Similarly, effectors from animal pathogenic oomycetes also target host immune response pathways, which in turn causes the activation of the humoral and adaptive immune system. In this review, we compare plant and animal pathogenic oomycete effectors regarding their type, function, genetic diversity, as well as host responses.

Original language	English
Journal	Fungal Biology Reviews
Early online date	29 Oct 2022
DOIs	https://doi.org/10.1016/j.fbr.2022.10.002
Publication status	E-pub ahead of print - 29 Oct 2022

Keywords

Animal pathogen
Apoplastic effector
Cytoplasmic effector
Effector
Host defence
Host-microbe interaction
Oomycete
Plant pathogen
RXLR

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10.1016/j.fbr.2022.10.002Licence: CC BY

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title = "The molecular dialog between oomycete effectors and their plant and animal hosts",

abstract = "Oomycetes form a phylogenetically distinct group of eukaryotic microorganisms that include some of the most notorious pathogens of plants and animals. Through the deployment of a remarkably diverse array of effector proteins, oomycete pathogens succeed to overcome host defences and cause infection. Effectors can operate extracellularly or enter living cells where they target diverse subcellular compartments. Genome sequence information indicates that oomycetes express several hundred host-translocating effectors potentially targeting a myriad of host processes. To counteract, plants rely on a wide variety of extra- and intracellular immune receptors facilitating pattern-triggered and effector-triggered immunity, respectively. Similarly, effectors from animal pathogenic oomycetes also target host immune response pathways, which in turn causes the activation of the humoral and adaptive immune system. In this review, we compare plant and animal pathogenic oomycete effectors regarding their type, function, genetic diversity, as well as host responses.",

keywords = "Animal pathogen, Apoplastic effector, Cytoplasmic effector, Effector, Host defence, Host-microbe interaction, Oomycete, Plant pathogen, RXLR",

author = "Marcia Saraiva and {\'S}ci{\'s}lak, {Magdalena E.} and Ascurra, {Yerisf Torres} and Ferrando, {Tatiana Mart{\'i}} and Nikola Zic and Cyril Henard and {van West}, Pieter and Franziska Trusch and Vleeshouwers, {Vivianne G.A.A.}",

note = "Funding Information: This work was supported by European Union's HORIZON 2020 Research programme under the Grant Agreement no. 766048 “PROTECTA”, University of Aberdeen (PvW), Wageningen University and Research (VGAAV) , the BBSRC [ BB/P020224/1 , BB/M026566/1 (MS, PvW)], Newton Fund GRP Aquaculture [ BB/N005058/1 (PvW)], and the Peruvian Council for science, technology and technological innovation (CONCYTEC) FONDECYT contract 129–2017 . ",

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doi = "10.1016/j.fbr.2022.10.002",

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AU - Saraiva, Marcia

AU - Ściślak, Magdalena E.

AU - Ascurra, Yerisf Torres

AU - Ferrando, Tatiana Martí

AU - Zic, Nikola

AU - Henard, Cyril

AU - van West, Pieter

AU - Trusch, Franziska

AU - Vleeshouwers, Vivianne G.A.A.

N1 - Funding Information: This work was supported by European Union's HORIZON 2020 Research programme under the Grant Agreement no. 766048 “PROTECTA”, University of Aberdeen (PvW), Wageningen University and Research (VGAAV) , the BBSRC [ BB/P020224/1 , BB/M026566/1 (MS, PvW)], Newton Fund GRP Aquaculture [ BB/N005058/1 (PvW)], and the Peruvian Council for science, technology and technological innovation (CONCYTEC) FONDECYT contract 129–2017 .

PY - 2022/10/29

Y1 - 2022/10/29

N2 - Oomycetes form a phylogenetically distinct group of eukaryotic microorganisms that include some of the most notorious pathogens of plants and animals. Through the deployment of a remarkably diverse array of effector proteins, oomycete pathogens succeed to overcome host defences and cause infection. Effectors can operate extracellularly or enter living cells where they target diverse subcellular compartments. Genome sequence information indicates that oomycetes express several hundred host-translocating effectors potentially targeting a myriad of host processes. To counteract, plants rely on a wide variety of extra- and intracellular immune receptors facilitating pattern-triggered and effector-triggered immunity, respectively. Similarly, effectors from animal pathogenic oomycetes also target host immune response pathways, which in turn causes the activation of the humoral and adaptive immune system. In this review, we compare plant and animal pathogenic oomycete effectors regarding their type, function, genetic diversity, as well as host responses.

AB - Oomycetes form a phylogenetically distinct group of eukaryotic microorganisms that include some of the most notorious pathogens of plants and animals. Through the deployment of a remarkably diverse array of effector proteins, oomycete pathogens succeed to overcome host defences and cause infection. Effectors can operate extracellularly or enter living cells where they target diverse subcellular compartments. Genome sequence information indicates that oomycetes express several hundred host-translocating effectors potentially targeting a myriad of host processes. To counteract, plants rely on a wide variety of extra- and intracellular immune receptors facilitating pattern-triggered and effector-triggered immunity, respectively. Similarly, effectors from animal pathogenic oomycetes also target host immune response pathways, which in turn causes the activation of the humoral and adaptive immune system. In this review, we compare plant and animal pathogenic oomycete effectors regarding their type, function, genetic diversity, as well as host responses.

KW - Animal pathogen

KW - Apoplastic effector

KW - Cytoplasmic effector

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KW - Host defence

KW - Host-microbe interaction

KW - Oomycete

KW - Plant pathogen

KW - RXLR

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DO - 10.1016/j.fbr.2022.10.002

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JO - Fungal Biology Reviews

JF - Fungal Biology Reviews

SN - 1749-4613

ER -

The molecular dialog between oomycete effectors and their plant and animal hosts

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Keywords

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