Please use this identifier to cite or link to this item:
Title: Influence of parameter values on the oscillation sensitivities of two p53–Mdm2 models
Authors: Cuba, Christian E.
Valle, Alexander R.
Ayala-Charca, Giancarlo
Villota, Elizabeth R.
Coronado, Alberto M.
Keywords: P53 network;Oscillatory systems;Global sensitivity
Issue Date: Jun-2015
Publisher: Springer Journals
Related URI:
Abstract: Biomolecular networks that present oscillatory behavior are ubiquitous in nature. While some design principles for robust oscillations have been identified, it is not well understood how these oscillations are affected when the kinetic parameters are constantly changing or are not precisely known, as often occurs in cellular environments. Many models of diverse complexity level, for systems such as circadian rhythms, cell cycle or the p53 network, have been proposed. Here we assess the influence of hundreds of different parameter sets on the sensitivities of two configurations of a well-known oscillatory system, the p53 core network. We show that, for both models and all parameter sets, the parameter related to the p53 positive feedback, i.e. self-promotion, is the only one that presents sizeable sensitivities on extrema, periods and delay. Moreover, varying the parameter set values to change the dynamical characteristics of the response is more restricted in the simple model, whereas the complex model shows greater tunability. These results highlight the importance of the presence of specific network patterns, in addition to the role of parameter values, when we want to characterize oscillatory biochemical systems.
ISSN: 1872-5325
Rights: info:eu-repo/semantics/restrictedAccess
Appears in Collections:Instituto General de Investigación (IGI)

Files in This Item:
File Description SizeFormat 
Influence of parameter values on the oscillation sensitivities of two p53–Mdm2 models.pdf214,97 kBAdobe PDFView/Open

This item is licensed under a Creative Commons License Creative Commons

Indexado por:
Indexado por Scholar Google LaReferencia Concytec BASE renati ROAR ALICIA RepoLatin UNI