摘要
Feedback plays an important role in various biological signal transmission systems. In this paper, a signaling cascade system(including three layers: input(S), intermediate(V), output(X) components) is employed to study the fluctuations and net synergy in information transmission, in which the V component is regulated by itself or the X component, and each feedback on V is either positive or negative. The Fano factor, the net synergy, and the signalto-noise ratio(SNR) of signaling cascade with the four possible feedback types are theoretically derived by using linear noise approximation of the master equation, and the ability of information transmission through the signaling cascade is characterized by using the partial information decomposition of information theory. It is found that the signaling cascade exhibits different responses to the four feedback mechanisms, which depend on the relationships between degradation rates of components. Our results not only clarify the dependence of the Fano factor, net synergy, and SNR on the feedback regulations with the varying of degradation rates of components, but also imply that living cells could utilize different feedback mechanisms to adapt to the external fluctuating environments.
作者
Li-Fang Wang
Ying Xu
Jun Ma
Ya Jia
王莉芳;徐莹;马军;贾亚(Department of Physics and Institute of Biophysics,Central China Normal University,Wuhan 430079,China;Department of Physics,Lanzhou University of Technology,Lanzhou 730050,China;NAAM-Research Group,Department of Mathematics,Faculty of Science,King Abdulaziz University,P.O.Box 80203 Jeddah 21589,Saudi Arabia)
基金
Supported by the National Natural Science Foundation of China under Grant Nos.11775091 and 11474117
