Add to ORKGMany 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
Many plants are adapted to flower at particular times of year, to ensure optimal pollination and see...
Photoperiod controls many developmental responses in animals, plants and even fungi. The response to...
Circadian oscillators provide rhythmic temporal cues for a range of biological processes in plants a...
Many plants use the seasonal change in daylength as a signal for flowering. Daylength sensing in Ara...
AbstractMany plants use the seasonal change in daylength as a signal for flowering. Daylength sensin...
The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent genetic stud...
Abstract The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent gen...
Daylength, or photoperiod, is perceived as a seasonal signal for the control of flowering of many pl...
Seasonal changes in day length are used by plants and animals to synchronize annual rhythms in repro...
Photoperiodism is important in controlling many aspects of plant development and in coordinating cer...
Johansson M, Staiger D. Time to flower: interplay between photoperiod and the circadian clock. Journ...
Plants and animals use day or night length for seasonal control of reproduction and other biological...
Many plant species exhibit seasonal variation of flowering time in response to daylength. Arabidopsi...
SummaryPhotoperiod sensors allow physiological adaptation to the changing seasons. The prevalent hyp...
Measuring day length confers a strong fitness improvement to photosynthetic organisms as it allows ...
Many plants are adapted to flower at particular times of year, to ensure optimal pollination and see...
Photoperiod controls many developmental responses in animals, plants and even fungi. The response to...
Circadian oscillators provide rhythmic temporal cues for a range of biological processes in plants a...
Many plants use the seasonal change in daylength as a signal for flowering. Daylength sensing in Ara...
AbstractMany plants use the seasonal change in daylength as a signal for flowering. Daylength sensin...
The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent genetic stud...
Abstract The flowering of Arabidopsis plants is accelerated by long-day photoperiods, and recent gen...
Daylength, or photoperiod, is perceived as a seasonal signal for the control of flowering of many pl...
Seasonal changes in day length are used by plants and animals to synchronize annual rhythms in repro...
Photoperiodism is important in controlling many aspects of plant development and in coordinating cer...
Johansson M, Staiger D. Time to flower: interplay between photoperiod and the circadian clock. Journ...
Plants and animals use day or night length for seasonal control of reproduction and other biological...
Many plant species exhibit seasonal variation of flowering time in response to daylength. Arabidopsi...
SummaryPhotoperiod sensors allow physiological adaptation to the changing seasons. The prevalent hyp...
Measuring day length confers a strong fitness improvement to photosynthetic organisms as it allows ...
Many plants are adapted to flower at particular times of year, to ensure optimal pollination and see...
Photoperiod controls many developmental responses in animals, plants and even fungi. The response to...
Circadian oscillators provide rhythmic temporal cues for a range of biological processes in plants a...