REVOLUTA and WRKY53 connect early and late leaf development in Arabidopsis.

Yakun Xie,Daniel Straub,Thomas Drechsler,Stephan Wenkel,Jasmin Doll,Kerstin Huhn,Maren Potschin,Stefan Bieker,Ronny Brandt,Ulrike Zentgraf

doi:10.1242/dev.117689

Yakun Xie, Daniel Straub + Show 8 more

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https://doi.org/10.1242/dev.117689

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Abstract

As sessile organisms, plants have to continuously adjust growth and development to ever-changing environmental conditions. At the end of the growing season, annual plants induce leaf senescence to reallocate nutrients and energy-rich substances from the leaves to the maturing seeds. Thus, leaf senescence is a means with which to increase reproductive success and is therefore tightly coupled to the developmental age of the plant. However, senescence can also be induced in response to sub-optimal growth conditions as an exit strategy, which is accompanied by severely reduced yield. Here, we show that class III homeodomain leucine zipper (HD-ZIPIII) transcription factors, which are known to be involved in basic pattern formation, have an additional role in controlling the onset of leaf senescence in Arabidopsis. Several potential direct downstream genes of the HD-ZIPIII protein REVOLUTA (REV) have known roles in environment-controlled physiological processes. We report that REV acts as a redox-sensitive transcription factor, and directly and positively regulates the expression of WRKY53, a master regulator of age-induced leaf senescence. HD-ZIPIII proteins are required for the full induction of WRKY53 in response to oxidative stress, and mutations in HD-ZIPIII genes strongly delay the onset of senescence. Thus, a crosstalk between early and late stages of leaf development appears to contribute to reproductive success.

Highlights

Senescence is the final stage of leaf development and involves the concerted reallocation of nutrients from the leaves to developing parts of the plant, especially fruits and seeds
REVOLUTA is a positive regulator of WRKY53 expression, a major factor controlling age-induced leaf senescence REVOLUTA is a member of the class III homeodomain leucine zipper (HD-ZIPIII) transcription factor family that regulates various polarityassociated growth processes during development (Carlsbecker et al, 2010; McConnell et al, 2001; Smith and Long, 2010), but plays an additional role in shade-induced growth promotion (Bou-Torrent et al, 2012; Brandt et al, 2012)
We show that HD-ZIPIII factors, which are known to be involved in basic patterning processes, have an additional role in the latest step of leaf development, the regulation of senescence

Summary

Introduction

Senescence is the final stage of leaf development and involves the concerted reallocation of nutrients from the leaves to developing parts of the plant, especially fruits and seeds. In order to minimize loss of nutrients, plants induce leaf senescence in response to endogenous cues such as plant age and altered hormone homeostasis. External factors, such as the availability of water or light quality can induce senescence, referred to as premature senescence (Ballaré, 1999). Received 10 September 2014; Accepted 14 October 2014 maximize seed production, premature senescence describes an exit strategy that is induced in response to sub-optimal growth conditions and is often correlated with severely decreased yields

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