Potential energy landscape and robustness of a gene regulatory network: Toggle switch
Data(s) |
2007
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Resumo |
Finding a multidimensional potential landscape is the key for addressing important global issues, such as the robustness of cellular networks. We have uncovered the underlying potential energy landscape of a simple gene regulatory network: a toggle switch. This was realized by explicitly constructing the steady state probability of the gene switch in the protein concentration space in the presence of the intrinsic statistical fluctuations due to the small number of proteins in the cell. We explored the global phase space for the system. We found that the protein synthesis rate and the unbinding rate of proteins to the gene were small relative to the protein degradation rate; the gene switch is monostable with only one stable basin of attraction. When both the protein synthesis rate and the unbinding rate of proteins to the gene are large compared with the protein degradation rate, two global basins of attraction emerge for a toggle switch. These basins correspond to the biologically stable functional states. The potential energy barrier between the two basins determines the time scale of conversion from one to the other. We found as the protein synthesis rate and protein unbinding rate to the gene relative to the protein degradation rate became larger, the potential energy barrier became larger. This also corresponded to systems with less noise or the fluctuations on the protein numbers. |
Identificador | |
Idioma(s) |
英语 |
Fonte |
Kim KY;Wang J.Potential energy landscape and robustness of a gene regulatory network: Toggle switch,PLOS COMPUTATIONAL BIOLOGY,2007 ,3(3):565-577 |
Palavras-Chave | #ESCHERICHIA-COLI #FIELD-THEORY #EXPRESSION #DYNAMICS #NOISE #STABILITY #ULTRASENSITIVITY #STOCHASTICITY #CONSTRUCTION |
Tipo |
期刊论文 |