José Domingo Salazar scite author profile

Photoperiod sensors allow physiological adaptation to the changing seasons. The prevalent hypothesis is that day length perception is mediated through coupling of an endogenous rhythm with an external light signal. Sufficient molecular data are available to test this quantitatively in plants, though not yet in mammals. In Arabidopsis, the clock-regulated genes CONSTANS (CO) and FLAVIN, KELCH, F-BOX (FKF1) and their light-sensitive proteins are thought to form an external coincidence sensor. Here, we model the integration of light and timing information by CO, its target gene FLOWERING LOCUS T (FT), and the circadian clock. Among other predictions, our models show that FKF1 activates FT. We demonstrate experimentally that this effect is independent of the known activation of CO by FKF1, thus we locate a major, novel controller of photoperiodism. External coincidence is part of a complex photoperiod sensor: modeling makes this complexity explicit and may thus contribute to crop improvement.

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Uncovering the design principles of circadian clocks: Mathematical analysis of flexibility and evolutionary goals

Rand

Шульгин

Salazar

et al. 2006

Journal of Theoretical Biology

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The temporal pattern of captan residues on apple leaves and fruit under field conditions in relation to weather and canopy structure

Murray

Salazar

et al. 2008

Pest Management Science

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The effects of temperature, humidity and rainfall on captan decline on apple leaves and fruit in controlled environment conditions

Xu¹,

Murray²,

Salazar³

et al. 2008

Pest Management Science

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