Title :
Flatness-based control of PER protein oscillations in a drosophila model
Author :
Laroche, Béatrice ; Claude, Daniel
Author_Institution :
Lab. des Signaux et Syst.s, Univ. Paris XI, Gif-sur-Yvette, France
Abstract :
Rhythms, and specially circadian rhythms governed by an oscillating set of genes called the central clock, and their incidence on therapeutics, have become an important concern in biology and medicine. Restoration of altered rhythms for therapeutic purpose can be viewed as an open-loop control problem. We study in this paper a nonlinear oscillator modeling the central clock mechanism through the synthesis cycle of PER protein for fruit fly Drosophila. Its particularly robust bifurcation structure makes it representative for a wide number of oscillating biological systems. We show how classical flatness-based motion planning techniques allow for fast design of chronomodulated injection schemes achieving circadian rhythm restoration.
Keywords :
bifurcation; biocontrol; linearisation techniques; medical control systems; nonlinear control systems; open loop systems; oscillations; patient treatment; proteins; robust control; synchronisation; 24-hour periodicity; Drosophila model; PER protein; altered rhythm restoration; central clock mechanism; chronomodulated injection schemes; circadian rhythms; controlled endogenous cycles; entrainment robustness; feedback linearizability; flatness-based control; fruit fly; motion planning techniques; nonlinear oscillator modeling; open-loop control problem; oscillating biological systems; oscillating genes therapeutics; robust bifurcation structure; synthesis cycle; Bifurcation; Biological system modeling; Circadian rhythm; Clocks; Control system synthesis; Medical control systems; Open loop systems; Oscillators; Proteins; Robustness;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2003.822859
