Unraveling circadian rhythms' computational insights into molecular mechanisms

Almost all organisms on earth undergo rhythmic physiological and behavioral changes over the course of day. These rhythms are fundamental in most organisms and are referred to as circadian rhythms. The molecular mechanisms regulating these changes have evolved significantly in different kingdoms of life and they engage in crosstalk with most cellular functions. These molecular mechanisms have been studied for a long time using different model organisms and carefully designed experiments. In the past two decades or so, with advances in high throughput technologies and access to ever increasing computational power, the molecular mechanisms regulating circadian rhythms are being explored at multiple spatial and temporal scales. In this review, we introduce diverse regulatory mechanisms of circadian rhythms. We then focus on the proteins involved in circadian regulation, their structures, complexes and dynamics. This is followed by a review of computational methods such as structural modeling, integrative modeling and molecular simulations as applied to understanding the clock proteins in different organisms and insights obtained from the same. Finally, we highlight the limitations and future prospects of these methods in understanding the circadian regulation.