Oxidative post-translational modification of EXECUTER1 is required for singlet oxygen sensing in plastids

Singlet oxygen generated by photosynthesis under photo-oxidative stress conditions triggers retrograde signaling from plastids to nuclei. Here, the authors show that singlet oxygen perception and subsequent signaling events require oxidative post-translational modification of the EXECUTER1 protein.

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Bibliographic Details
Main Authors:	Vivek Dogra, Mingyue Li, Somesh Singh, Mengping Li, Chanhong Kim
Format:	article
Language:	EN
Published:	Nature Portfolio 2019
Subjects:	Science Q
Online Access:	https://doaj.org/article/c689f63e71c84d8fbffc60cdad5a9907
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Description
Summary:	Singlet oxygen generated by photosynthesis under photo-oxidative stress conditions triggers retrograde signaling from plastids to nuclei. Here, the authors show that singlet oxygen perception and subsequent signaling events require oxidative post-translational modification of the EXECUTER1 protein.

Oxidative post-translational modification of EXECUTER1 is required for singlet oxygen sensing in plastids

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