Effect of the MAPK cascade structure, nuclear translocation and regulation of transcription factors on gene expression

Mutalik, Vivek K. ; Venkatesh, K. V. (2006) Effect of the MAPK cascade structure, nuclear translocation and regulation of transcription factors on gene expression Biosystems, 85 (2). pp. 144-157. ISSN 0303-2647

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Official URL: http://www.sciencedirect.com/science/article/pii/S...

Related URL: http://dx.doi.org/10.1016/j.biosystems.2006.01.001

Abstract

The Mitogen Activated Protein kinase (MAP kinase) cascade system represents a highly conserved prototype of signal transduction by enzyme cascades. One of the best-studied properties of the MAPK system is its ability to convert graded input stimulus to switch-like all-or-none responses. Previous theoretical studies have centered on quantifying dual phosphorylated MAPK as a final output response and have not incorporated its influence on the regulation of gene expression. The main objective of the current work is to understand the regulatory effect of positive feedback loop embedded in the MAPK cascade, nuclear translocation of active MAPK, phosphorylation and activation of nuclear target proteins on the regulation of specific gene expression. To achieve this objective, we have simulated the MAPK cascade system, which resembles Hog1p activation pathway in yeast, at steady state. Thus, the input signal to the MAPK system is correlated with gene expression as a final system-level output response. The steady state simulation results suggest that other than regulating the signal propagation through cascades, the nuclear translocation of activated MAPK and subsequent regulation of gene expression represent one of the key modes to control the threshold level of response. This work proposes that, it is essential to consider the compartmental distributions of signaling species and the corresponding regulatory mechanisms of gene expression to study the system-level performance of signaling modules such as the MAPK cascade. Such an analysis will relate the extracellular cues to the final phenotypic response by capturing the mechanistic details of the signaling pathway.

Item Type:Article
Source:Copyright of this article belongs to Elsevier Science.
Keywords:MAPK Cascade; Switch-like Response; Ultrasensitivity; Systems Biology; Theoretical Modeling; Regulatory Design Principles
ID Code:107258
Deposited On:20 Jun 2017 11:59
Last Modified:20 Jun 2017 11:59

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