Title :
Stability and Bifurcation Analysis of Models for Zebrafish Somitogenesis
Author :
Tian, Li-Ping ; Wu, Fang-Xiang
Author_Institution :
Sch. of Inf., Beijing Wuzi Univ., Beijing, China
Abstract :
Notch-Delta signaling is indispensable for somitogenesis, which controls the vertebrate segmentation during embryonic development. Several theoretical models have been proposed to explain this interesting process. In zebrafish somitogenesis, genes her1, her7, delta, and their proteins plays the important roles. However, an auto-repression model with time delay involved only by her1/her7 is able to explain zebrafish somitogenesis. This paper will systematically study the dynamics of this model. Specifically we investigate its stability, bifurcation (oscillation), and stability of oscillation. First, the conditions for both stability and bifurcation are presented based on the linearized model. Then three indices for bifurcation of this nonlinear model are derived by using linear functional operator analysis. Finally, the numerical simulations are carried out to illustrate the theoretical results developed in this study.
Keywords :
bifurcation; delays; genetics; molecular biophysics; numerical analysis; oscillations; physiological models; proteins; stability; autorepression model; bifurcation analysis; delta gene; embryonic development; her1 gene; her7 gene; linear functional operator analysis; linearized model; notch delta signaling; numerical simulations; oscillation; proteins; stability; time delay; vertebrate segmentation; zebrafish somitogenesis; Bifurcation; Biological system modeling; Delay effects; Mathematical model; Oscillators; Stability analysis; Bifurcation; oscillation period; somitogenesis; stability; time delays; zebrafish; Animals; Body Patterning; Cell Cycle; Embryonic Development; Female; Gene Expression Regulation, Developmental; Models, Molecular; Nonlinear Dynamics; Time Factors; Zebrafish;
Journal_Title :
NanoBioscience, IEEE Transactions on
DOI :
10.1109/TNB.2011.2178429
