Add to ORKGIn Arabidopsis, the seedling hypocotyl has emerged as an exemplar model system to study light and temperature control of cell expansion. Light sensitivity of this organ is epitomized in the fluence rate response where suppression of hypocotyl elongation increases incrementally with light intensity. This finely calibrated response is controlled by the photoreceptor, phytochrome B, through the deactivation and proteolytic destruction of phytochrome-interacting factors (PIFs). Here we show that this classical light response is strictly temperature dependent: a shift in temperature induces a dramatic reversal of response from inhibition to promotion of hypocotyl elongation by light. Applying an integrated experimental and mathematical modelling...
Small increases in ambient temperature can elicit striking effects on plant architecture, collective...
Understanding the molecular networks driving plant responses to high ambient temperatures is crucial...
Plant as a sessile organism interacts to environmental cues to respond to various conditions such as...
Light signalling mechanisms are crucial for plant adaptation to environmental changes: it has been ...
Light and temperature are two of the most important non-biological signals that plants must be able...
The ability to withstand environmental temperature variation is essential for plant survival. Forma...
Warm temperature is postulated to induce plant thermomorphogenesis through a signaling mechanism sim...
<p>We show that antiphase light-temperature cycles (negative day-night temperature difference [2DIF]...
The ability to withstand environmental temperature variation is essential for plant survival. Former...
The reversibly red (R)/far-red (FR)-light-responsive phytochrome (phy) photosensory system initiates...
Moderately warm constant ambient temperatures tend to oppose light signals in the control of plant a...
In the natural environment, days are generally warmer than the night, resulting in a positive day/ni...
Developmental plasticity enables plants to respond to elevated ambient temperatures by adapting thei...
Plants are responsive to temperature, and some species can distinguish differences of 1°C. In $\text...
In response to elevated ambient temperature Arabidopsis thaliana seedlings display a thermomorphogen...
Small increases in ambient temperature can elicit striking effects on plant architecture, collective...
Understanding the molecular networks driving plant responses to high ambient temperatures is crucial...
Plant as a sessile organism interacts to environmental cues to respond to various conditions such as...
Light signalling mechanisms are crucial for plant adaptation to environmental changes: it has been ...
Light and temperature are two of the most important non-biological signals that plants must be able...
The ability to withstand environmental temperature variation is essential for plant survival. Forma...
Warm temperature is postulated to induce plant thermomorphogenesis through a signaling mechanism sim...
<p>We show that antiphase light-temperature cycles (negative day-night temperature difference [2DIF]...
The ability to withstand environmental temperature variation is essential for plant survival. Former...
The reversibly red (R)/far-red (FR)-light-responsive phytochrome (phy) photosensory system initiates...
Moderately warm constant ambient temperatures tend to oppose light signals in the control of plant a...
In the natural environment, days are generally warmer than the night, resulting in a positive day/ni...
Developmental plasticity enables plants to respond to elevated ambient temperatures by adapting thei...
Plants are responsive to temperature, and some species can distinguish differences of 1°C. In $\text...
In response to elevated ambient temperature Arabidopsis thaliana seedlings display a thermomorphogen...
Small increases in ambient temperature can elicit striking effects on plant architecture, collective...
Understanding the molecular networks driving plant responses to high ambient temperatures is crucial...
Plant as a sessile organism interacts to environmental cues to respond to various conditions such as...