Redox sensor QSOX1 regulates plant immunity by targeting GSNOR to modulate ROS generation

Ho Byoung Chae; Min Gab Kim; Chang Ho Kang; Joung Hun Park; Eun Seon Lee; Sang Uk Lee; Yong Hun Chi; Seol Ki Paeng; Su Bin Bae; Seong Dong Wi; Byung Wook Yun; Woe Yeon Kim; Dae Jin Yun; David Mackey; Sang Yeol Lee

doi:10.1016/j.molp.2021.05.004

Redox sensor QSOX1 regulates plant immunity by targeting GSNOR to modulate ROS generation

Ho Byoung Chae, Min Gab Kim, Chang Ho Kang, Joung Hun Park, Eun Seon Lee, Sang Uk Lee, Yong Hun Chi, Seol Ki Paeng, Su Bin Bae, Seong Dong Wi, Byung Wook Yun, Woe Yeon Kim, Dae Jin Yun, David Mackey, Sang Yeol Lee

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42 Scopus citations

Abstract

Reactive oxygen signaling regulates numerous biological processes, including stress responses in plants. Redox sensors transduce reactive oxygen signals into cellular responses. Here, we present biochemical evidence that a plant quiescin sulfhydryl oxidase homolog (QSOX1) is a redox sensor that negatively regulates plant immunity against a bacterial pathogen. The expression level of QSOX1 is inversely correlated with pathogen-induced reactive oxygen species (ROS) accumulation. Interestingly, QSOX1 both senses and regulates ROS levels by interactingn with and mediating redox regulation of S-nitrosoglutathione reductase, which, consistent with previous findings, influences reactive nitrogen-mediated regulation of ROS generation. Collectively, our data indicate that QSOX1 is a redox sensor that negatively regulates plant immunity by linking reactive oxygen and reactive nitrogen signaling to limit ROS production.

Original language	English
Pages (from-to)	1312-1327
Number of pages	16
Journal	Molecular Plant
Volume	14
Issue number	8
DOIs	https://doi.org/10.1016/j.molp.2021.05.004
State	Published - 2 Aug 2021

Keywords

GSNOR
QSOX1
plant immunity
reactive nitrogen species (RNS)
reactive oxygen species (ROS)
redox sensor

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10.1016/j.molp.2021.05.004

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title = "Redox sensor QSOX1 regulates plant immunity by targeting GSNOR to modulate ROS generation",

abstract = "Reactive oxygen signaling regulates numerous biological processes, including stress responses in plants. Redox sensors transduce reactive oxygen signals into cellular responses. Here, we present biochemical evidence that a plant quiescin sulfhydryl oxidase homolog (QSOX1) is a redox sensor that negatively regulates plant immunity against a bacterial pathogen. The expression level of QSOX1 is inversely correlated with pathogen-induced reactive oxygen species (ROS) accumulation. Interestingly, QSOX1 both senses and regulates ROS levels by interactingn with and mediating redox regulation of S-nitrosoglutathione reductase, which, consistent with previous findings, influences reactive nitrogen-mediated regulation of ROS generation. Collectively, our data indicate that QSOX1 is a redox sensor that negatively regulates plant immunity by linking reactive oxygen and reactive nitrogen signaling to limit ROS production.",

keywords = "GSNOR, QSOX1, plant immunity, reactive nitrogen species (RNS), reactive oxygen species (ROS), redox sensor",

author = "Chae, {Ho Byoung} and Kim, {Min Gab} and Kang, {Chang Ho} and Park, {Joung Hun} and Lee, {Eun Seon} and Lee, {Sang Uk} and Chi, {Yong Hun} and Paeng, {Seol Ki} and Bae, {Su Bin} and Wi, {Seong Dong} and Yun, {Byung Wook} and Kim, {Woe Yeon} and Yun, {Dae Jin} and David Mackey and Lee, {Sang Yeol}",

note = "Publisher Copyright: {\textcopyright} 2021 The Author",

year = "2021",

month = aug,

day = "2",

doi = "10.1016/j.molp.2021.05.004",

language = "English",

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AU - Chae, Ho Byoung

AU - Kim, Min Gab

AU - Kang, Chang Ho

AU - Park, Joung Hun

AU - Lee, Eun Seon

AU - Lee, Sang Uk

AU - Chi, Yong Hun

AU - Paeng, Seol Ki

AU - Bae, Su Bin

AU - Wi, Seong Dong

AU - Yun, Byung Wook

AU - Kim, Woe Yeon

AU - Yun, Dae Jin

AU - Mackey, David

AU - Lee, Sang Yeol

PY - 2021/8/2

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N2 - Reactive oxygen signaling regulates numerous biological processes, including stress responses in plants. Redox sensors transduce reactive oxygen signals into cellular responses. Here, we present biochemical evidence that a plant quiescin sulfhydryl oxidase homolog (QSOX1) is a redox sensor that negatively regulates plant immunity against a bacterial pathogen. The expression level of QSOX1 is inversely correlated with pathogen-induced reactive oxygen species (ROS) accumulation. Interestingly, QSOX1 both senses and regulates ROS levels by interactingn with and mediating redox regulation of S-nitrosoglutathione reductase, which, consistent with previous findings, influences reactive nitrogen-mediated regulation of ROS generation. Collectively, our data indicate that QSOX1 is a redox sensor that negatively regulates plant immunity by linking reactive oxygen and reactive nitrogen signaling to limit ROS production.

AB - Reactive oxygen signaling regulates numerous biological processes, including stress responses in plants. Redox sensors transduce reactive oxygen signals into cellular responses. Here, we present biochemical evidence that a plant quiescin sulfhydryl oxidase homolog (QSOX1) is a redox sensor that negatively regulates plant immunity against a bacterial pathogen. The expression level of QSOX1 is inversely correlated with pathogen-induced reactive oxygen species (ROS) accumulation. Interestingly, QSOX1 both senses and regulates ROS levels by interactingn with and mediating redox regulation of S-nitrosoglutathione reductase, which, consistent with previous findings, influences reactive nitrogen-mediated regulation of ROS generation. Collectively, our data indicate that QSOX1 is a redox sensor that negatively regulates plant immunity by linking reactive oxygen and reactive nitrogen signaling to limit ROS production.

KW - GSNOR

KW - QSOX1

KW - plant immunity

KW - reactive nitrogen species (RNS)

KW - reactive oxygen species (ROS)

KW - redox sensor

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SN - 1674-2052

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SP - 1312

EP - 1327

JO - Molecular Plant

JF - Molecular Plant

IS - 8

ER -

Redox sensor QSOX1 regulates plant immunity by targeting GSNOR to modulate ROS generation

Abstract

Keywords

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