Abstract
In many animals the circadian rhythm of locomotor activity is controlled by an endogenous circadian clock. Using custom made housing and video tracking software in order to obtain high spatial and temporal resolution, we studied the statistical properties of the locomotor activity of wild type and two clock mutants of Drosophila melanogaster. We show here that the distributions of activity and quiescence bouts for the clock mutants in light-dark conditions (LD) are very different from the distributions obtained when there are no external cues from the environment (DD). In the wild type these distributions are very similar, showing that the clock controls this aspect of behavior in both regimes (LD and DD). Furthermore, the distributions are very similar to those reported for Wistar rats. For the timing of events we also observe important differences, quantified by how the event rate distributions scale for increasing time windows. We find that for the wild type these distributions can be rescaled by the same function in DD as in LD. Interestingly, the same function has been shown to rescale the rate distributions in Wistar rats. On the other hand, for the clock mutants it is not possible to rescale the rate distributions, which might indicate that the extent of circadian control depends on the statistical properties of activity and quiescence.
Highlights
Circadian rhythms are daily oscillations of physiological and behavioral processes, which are present in all animals, including humans
Using custom made housing and video tracking software in order to obtain high spatial and temporal resolution, we studied the statistical properties of the locomotor activity of wild type and two clock mutants of Drosophila melanogaster
In order to visualize the activity of wild type, per01 and pdf 01 mutant flies we show in Fig 1 three double plotted activity plots for individual flies, where consecutive days are aligned horizontally in each plot (S2 Fig shows the average activity plots for all wild type, per01 and pdf 01 mutants)
Summary
Circadian rhythms are daily oscillations of physiological and behavioral processes, which are present in all animals, including humans. The presence of a circadian clock has been shown to provide an increase of fitness in cyanobacteria [6, 7], fruit flies [8], plants [9], and even mammals [10]. This is probably the case for most species, since there is a close relationship between circadian rhythms and many metabolic processes, and many behaviors. Disruption of the biological clock can accelerate, or even cause many diseases [11, 12], and taking the circadian
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