摘要
More and more experiments show that microRNAs can regulate gene expression by stimulating degradation of mRNA or repression of translation of mRNA. In this paper, we incorporate the microRNA into a previous mathematical model of gene expression through forming a microRNA-induced silencing complex(RISC). Our findings demonstrate the dynamical behavior of the constructed system. By Hopf theories, we derive the theoretical results of globally asymptotical stability and provide the sufficient conditions for the oscillation of the simple gene regulatory system, and by numerical simulation further demonstrate how the amplitudes against the change of delay in the gene regulatory network.
More and more experiments show that microRNAs can regulate gene expression by stimulating degradatibn of mRNA or repression of translation of mRNA. In this paper, we incorporate the microRNA into a previous mathematical model of gene expression through forming a microRNA-induced silencing complex(RISC). Our findings demonstrate the dy- namical behavior of the constructed system. By Hopf theories, we derive the theoretical results of globally asymptotical stability and provide the sufficient' conditions for the oscilla- tion of the simple gene regulatory system, and by numerical simulation further demonstrate how the amplitudes against the change of delav in the ~ene regulatnrv netwnrk
基金
Supported by the National .Natural Science Foundation of China(Ill05040)
Supported by the Natural Science Foundation of Henan University(2010YBZ010)
