AbstractMany plants use the seasonal change in daylength as a signal for flowering. Daylength sensing in Arabidopsis has now been shown to occur by an external coincidence mechanism, which operates by the circadian and light regulation of CONSTANS
As plants are sessile organisms, processes controlling plant growth and development must react to f...
The rotation of the earth results in periodic changes in environmental factors such as daylength and...
Flowering is the result of the coordination between genetic information and environmental cues. Gene...
Many plants use the seasonal change in daylength as a signal for flowering. Daylength sensing in Ara...
Abstract The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent gen...
The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent genetic stud...
AbstractPhotoperiodic induction of flowering in the long-day plant Arabidopsis is mediated by the ci...
Photoperiod controls many developmental responses in animals, plants and even fungi. The response to...
Daylength, or photoperiod, is perceived as a seasonal signal for the control of flowering of many pl...
Johansson M, Staiger D. Time to flower: interplay between photoperiod and the circadian clock. Journ...
AbstractA recent study has demonstrated that an external coincidence mechanism, based on the endogen...
Photoperiod sensors allow physiological adaptation to the changing seasons. The external coincidence...
Circadian oscillators provide rhythmic temporal cues for a range of biological processes in plants a...
AbstractAn Arabidopsis blue-light receptor, Cry2, has been found to play a critical role in the phot...
Photoperiodism is important in controlling many aspects of plant development and in coordinating cer...
As plants are sessile organisms, processes controlling plant growth and development must react to f...
The rotation of the earth results in periodic changes in environmental factors such as daylength and...
Flowering is the result of the coordination between genetic information and environmental cues. Gene...
Many plants use the seasonal change in daylength as a signal for flowering. Daylength sensing in Ara...
Abstract The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent gen...
The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent genetic stud...
AbstractPhotoperiodic induction of flowering in the long-day plant Arabidopsis is mediated by the ci...
Photoperiod controls many developmental responses in animals, plants and even fungi. The response to...
Daylength, or photoperiod, is perceived as a seasonal signal for the control of flowering of many pl...
Johansson M, Staiger D. Time to flower: interplay between photoperiod and the circadian clock. Journ...
AbstractA recent study has demonstrated that an external coincidence mechanism, based on the endogen...
Photoperiod sensors allow physiological adaptation to the changing seasons. The external coincidence...
Circadian oscillators provide rhythmic temporal cues for a range of biological processes in plants a...
AbstractAn Arabidopsis blue-light receptor, Cry2, has been found to play a critical role in the phot...
Photoperiodism is important in controlling many aspects of plant development and in coordinating cer...
As plants are sessile organisms, processes controlling plant growth and development must react to f...
The rotation of the earth results in periodic changes in environmental factors such as daylength and...
Flowering is the result of the coordination between genetic information and environmental cues. Gene...
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