Author:
Gao Mingjun,Geng Feng,Klose Cornelia,Staudt Anne-Marie,Huang He,Nguyen Duy,Lan Hui,Mockler Todd C.,Nusinow Dmitri A.,Hiltbrunner Andreas,Schäfer Eberhard,Wigge Philip A.,Jaeger Katja E.
Abstract
SummaryDaylength is a key seasonal cue for animals and plants. In cereals, photoperiodic responses are a major adaptive trait, and alleles of clock genes such as PHOTOPERIOD DEPENDENT1 (PPD1) and EARLY FLOWERING3 (ELF3) have been selected for in breeding barley and wheat for more northern latitudes (Faure et al., 2012; Turner, Beales, Faure, Dunford, & Laurie, 2005). How monocot plants sense photoperiod and integrate this information into growth and development is not well understood. We show that in Brachypodium distachyon, phytochrome C (phyC) acts as a molecular timer, directly communicating information to the circadian clock protein ELF3. In this way, ELF3 levels integrate night length information. ELF3 is a central regulator of photoperiodism in Brachypodium, and elf3 mutants display a constitutive long day transcriptome. Conversely, conditions that result in higher levels of ELF3 suppress long day responses. We are able to show that these effects are direct, as ELF3 and phyC occur in a common complex, and they associate with the promoters of a number of conserved regulators of photoperiodism, including PPD1. Consistent with observations in barley, we are able to show that PPD1 overexpression accelerates flowering in SD and is necessary for rapid flowering in response to LD. These findings provide a conceptual framework for understanding observations in the photoperiodic responses of key crops, including wheat, barley and rice.
Publisher
Cold Spring Harbor Laboratory
Cited by
17 articles.
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