Chloroplast retrograde signal regulates flowering | Zendy

Peiqiang Feng | Zendy; Hailong Guo | Zendy; Wei Chi | Zendy; Xin Chai | Zendy; Xuwu Sun | Zendy; Xiumei Xu | Zendy; Jinfang Ma | Zendy; JeanDavid Rochaix | Zendy; Dario Leister | Zendy; Haiyang Wang | Zendy; Congming Lu | Zendy; Lixin Zhang | Zendy

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Chloroplast retrograde signal regulates flowering

Author(s) -

Peiqiang Feng,

Hailong Guo,

Wei Chi,

Xin Chai,

Xuwu Sun,

Xiumei Xu,

Jinfang Ma,

JeanDavid Rochaix,

Dario Leister,

Haiyang Wang,

Congming Lu,

Lixin Zhang

Publication year - 2016

Publication title -

proceedings of the national academy of sciences

Language(s) - English

Resource type - Journals

eISSN - 1091-6490

pISSN - 0027-8424

DOI - 10.1073/pnas.1521599113

Subject(s) - chloroplast , biology , microbiology and biotechnology , repressor , transcription factor , chromatin , flowering locus c , gene silencing , genetics , gene

Significance Proper timing of flowering transition is vital for the reproductive success of plants and orchestrated by endogenous and external factors; however, the mechanisms of how plants regulate flowering under high light are not well understood. In this study, we show that promotion of flowering by high light involves the coupling of chloroplast retrograde signals and transcriptional silencing of the floral repressorFLOWERING LOCUS C (FLC ). In response to high light, a chloroplast envelope-localized transcription factor, PTM, releases its N-terminal fragment through processing to associate with the chromatin remodeler FVE and suppressesFLC transcription. This report describes the molecular basis for a unique intracellular signaling pathway derived from chloroplasts in which plants regulate the developmental timing of the flowering transition.

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