The vast majority of agricultural land undergoes abiotic stress that can significantly reduce
agricultural yields. Understanding the mechanisms of plant defenses against stresses and …

The dramatic temperature fluctuations spurred by climate change inhibit plant growth and
threaten crop productivity. Unraveling how plants defend themselves against temperature …

Phytochrome B (phyB) is a plant photoreceptor that forms a membraneless organelle called
a photobody. However, its constituents are not fully known. Here, we isolated phyB …

Temperature is a major factor governing the distribution and seasonal behaviour of plants.
Being sessile, plants are highly responsive to small differences in temperature and adjust …

The circadian clock is required for adaptive responses to daily and seasonal changes in
environmental conditions,,. Light and the circadian clock interact to consolidate the phase of …

Plants initiate senescence to shed photosynthetically inefficient leaves. Light deprivation
induces leaf senescence, which involves massive transcriptional reprogramming to …

Circadian clocks are endogenous timekee** networks that allow organisms to align their
physiology with their changing environment and to perform biological processes at the most …

The circadian oscillator is a complex network of interconnected feedback loops that
regulates a wide range of physiological processes. Indeed, variation in clock genes has …

Phytochromes are red (R)/far-red (FR) light photoreceptors that play fundamental roles in
photoperception of the light environment and the subsequent adaptation of plant growth and …

Plants have evolved complex and sophisticated transcriptional networks that mediate
developmental changes in response to light. These light-regulated processes include …