Protein interaction mapping reveals widespread targeting of development-related host transcription factors by phytoplasma effectors

Miguel Correa Marrero; Sylvain Capdevielle; Weijie Huang; Ali M. Al-Subhi; Marco Busscher; Jacqueline Busscher-Lange; Froukje van der Wal; Dick de Ridder; Aalt D.J. van Dijk; Saskia A. Hogenhout; Richard G.H. Immink

doi:10.1111/tpj.16546

Protein interaction mapping reveals widespread targeting of development-related host transcription factors by phytoplasma effectors

Miguel Correa Marrero, Sylvain Capdevielle, Weijie Huang, Ali M. Al-Subhi, Marco Busscher, Jacqueline Busscher-Lange, Froukje van der Wal, Dick de Ridder, Aalt D.J. van Dijk, Saskia A. Hogenhout^*, Richard G.H. Immink^*

^*Corresponding author for this work

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

2 Citations (Scopus)

Abstract

Phytoplasmas are pathogenic bacteria that reprogram plant host development for their own benefit. Previous studies have characterized a few different phytoplasma effector proteins that destabilize specific plant transcription factors. However, these are only a small fraction of the potential effectors used by phytoplasmas; therefore, the molecular mechanisms through which phytoplasmas modulate their hosts require further investigation. To obtain further insights into the phytoplasma infection mechanisms, we generated a protein–protein interaction network between a broad set of phytoplasma effectors and a large, unbiased collection of Arabidopsis thaliana transcription factors and transcriptional regulators. We found widespread, but specific, interactions between phytoplasma effectors and host transcription factors, especially those related to host developmental processes. In particular, many unrelated effectors target specific sets of TCP transcription factors, which regulate plant development and immunity. Comparison with other host-pathogen protein interaction networks shows that phytoplasma effectors have unusual targets, indicating that phytoplasmas have evolved a unique and unusual infection strategy. This study contributes a rich and solid data source that guides further investigations of the functions of individual effectors, as demonstrated for some herein. Moreover, the dataset provides insights into the underlying molecular mechanisms of phytoplasma infection.

Original language	English
Journal	Plant Journal
DOIs	https://doi.org/10.1111/tpj.16546
Publication status	Accepted/In press - 2023

Keywords

Arabidopsis
developmental reprogramming
effectors
phytoplasmas
protein-protein interaction
transcription factors

ASJC Scopus subject areas

Genetics
Plant Science
Cell Biology

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10.1111/tpj.16546

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Correa Marrero, M., Capdevielle, S., Huang, W., Al-Subhi, A. M., Busscher, M., Busscher-Lange, J., van der Wal, F., de Ridder, D., van Dijk, A. D. J., Hogenhout, S. A., & Immink, R. G. H. (Accepted/In press). Protein interaction mapping reveals widespread targeting of development-related host transcription factors by phytoplasma effectors. Plant Journal. https://doi.org/10.1111/tpj.16546

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title = "Protein interaction mapping reveals widespread targeting of development-related host transcription factors by phytoplasma effectors",

abstract = "Phytoplasmas are pathogenic bacteria that reprogram plant host development for their own benefit. Previous studies have characterized a few different phytoplasma effector proteins that destabilize specific plant transcription factors. However, these are only a small fraction of the potential effectors used by phytoplasmas; therefore, the molecular mechanisms through which phytoplasmas modulate their hosts require further investigation. To obtain further insights into the phytoplasma infection mechanisms, we generated a protein–protein interaction network between a broad set of phytoplasma effectors and a large, unbiased collection of Arabidopsis thaliana transcription factors and transcriptional regulators. We found widespread, but specific, interactions between phytoplasma effectors and host transcription factors, especially those related to host developmental processes. In particular, many unrelated effectors target specific sets of TCP transcription factors, which regulate plant development and immunity. Comparison with other host-pathogen protein interaction networks shows that phytoplasma effectors have unusual targets, indicating that phytoplasmas have evolved a unique and unusual infection strategy. This study contributes a rich and solid data source that guides further investigations of the functions of individual effectors, as demonstrated for some herein. Moreover, the dataset provides insights into the underlying molecular mechanisms of phytoplasma infection.",

keywords = "Arabidopsis, developmental reprogramming, effectors, phytoplasmas, protein-protein interaction, transcription factors",

author = "{Correa Marrero}, Miguel and Sylvain Capdevielle and Weijie Huang and Al-Subhi, {Ali M.} and Marco Busscher and Jacqueline Busscher-Lange and {van der Wal}, Froukje and {de Ridder}, Dick and {van Dijk}, {Aalt D.J.} and Hogenhout, {Saskia A.} and Immink, {Richard G.H.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.",

year = "2023",

doi = "10.1111/tpj.16546",

language = "English",

journal = "Plant Journal",

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T1 - Protein interaction mapping reveals widespread targeting of development-related host transcription factors by phytoplasma effectors

AU - Correa Marrero, Miguel

AU - Capdevielle, Sylvain

AU - Huang, Weijie

AU - Al-Subhi, Ali M.

AU - Busscher, Marco

AU - Busscher-Lange, Jacqueline

AU - van der Wal, Froukje

AU - de Ridder, Dick

AU - van Dijk, Aalt D.J.

AU - Hogenhout, Saskia A.

AU - Immink, Richard G.H.

PY - 2023

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N2 - Phytoplasmas are pathogenic bacteria that reprogram plant host development for their own benefit. Previous studies have characterized a few different phytoplasma effector proteins that destabilize specific plant transcription factors. However, these are only a small fraction of the potential effectors used by phytoplasmas; therefore, the molecular mechanisms through which phytoplasmas modulate their hosts require further investigation. To obtain further insights into the phytoplasma infection mechanisms, we generated a protein–protein interaction network between a broad set of phytoplasma effectors and a large, unbiased collection of Arabidopsis thaliana transcription factors and transcriptional regulators. We found widespread, but specific, interactions between phytoplasma effectors and host transcription factors, especially those related to host developmental processes. In particular, many unrelated effectors target specific sets of TCP transcription factors, which regulate plant development and immunity. Comparison with other host-pathogen protein interaction networks shows that phytoplasma effectors have unusual targets, indicating that phytoplasmas have evolved a unique and unusual infection strategy. This study contributes a rich and solid data source that guides further investigations of the functions of individual effectors, as demonstrated for some herein. Moreover, the dataset provides insights into the underlying molecular mechanisms of phytoplasma infection.

AB - Phytoplasmas are pathogenic bacteria that reprogram plant host development for their own benefit. Previous studies have characterized a few different phytoplasma effector proteins that destabilize specific plant transcription factors. However, these are only a small fraction of the potential effectors used by phytoplasmas; therefore, the molecular mechanisms through which phytoplasmas modulate their hosts require further investigation. To obtain further insights into the phytoplasma infection mechanisms, we generated a protein–protein interaction network between a broad set of phytoplasma effectors and a large, unbiased collection of Arabidopsis thaliana transcription factors and transcriptional regulators. We found widespread, but specific, interactions between phytoplasma effectors and host transcription factors, especially those related to host developmental processes. In particular, many unrelated effectors target specific sets of TCP transcription factors, which regulate plant development and immunity. Comparison with other host-pathogen protein interaction networks shows that phytoplasma effectors have unusual targets, indicating that phytoplasmas have evolved a unique and unusual infection strategy. This study contributes a rich and solid data source that guides further investigations of the functions of individual effectors, as demonstrated for some herein. Moreover, the dataset provides insights into the underlying molecular mechanisms of phytoplasma infection.

KW - Arabidopsis

KW - developmental reprogramming

KW - effectors

KW - phytoplasmas

KW - protein-protein interaction

KW - transcription factors

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JO - Plant Journal

JF - Plant Journal

ER -

Protein interaction mapping reveals widespread targeting of development-related host transcription factors by phytoplasma effectors

Abstract

Keywords

ASJC Scopus subject areas

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