C. D. Thron scite author profile

Many organisms display rhythms of physiology and behavior that are entrained to the 24-h cycle of light and darkness prevailing on Earth. Under constant conditions of illumination and temperature, these internal biological rhythms persist with a period close to 1 day ("circadian"), but it is usually not exactly 24h. Recent discoveries have uncovered stunning similarities among the molecular circuitries of circadian clocks in mice, fruit flies, and bread molds. A consensus picture is coming into focus around two proteins (called PER and TIM in fruit flies), which dimerize and then inhibit transcription of their own genes. Although this picture seems to confirm a venerable model of circadian rhythms based on time-delayed negative feedback, we suggest that just as crucial to the circadian oscillator is a positive feedback loop based on stabilization of PER upon dimerization. These ideas can be expressed in simple mathematical form (phase plane portraits), and the model accounts naturally for several hallmarks of circadian rhythms, including temperature compensation and the per(L) mutant phenotype. In addition, the model suggests how an endogenous circadian oscillator could have evolved from a more primitive, light-activated switch.

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The secant condition for instability in biochemical feedback control—I. The role of cooperativity and saturability

Thron

1991

Bltn Mathcal Biology

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Bistable biochemical switching and the control of the events of the cell cycle*

Thron

1997

Oncogene

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A model for a bistable biochemical trigger of mitosis

Thron

1996

Biophysical Chemistry

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Chemical kinetic theory: understanding cell-cycle regulation

Tyson¹,

Novák²,

Odell³

et al. 1996

Trends in Biochemical Sciences

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C. D. Thron

A Simple Model of Circadian Rhythms Based on Dimerization and Proteolysis of PER and TIM

The secant condition for instability in biochemical feedback control—I. The role of cooperativity and saturability

Bistable biochemical switching and the control of the events of the cell cycle*

A model for a bistable biochemical trigger of mitosis

Chemical kinetic theory: understanding cell-cycle regulation

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