Current Synthetic and Systems Biology

Current Synthetic and Systems Biology
Open Access

ISSN: 2332-0737

+44-77-2385-9429

Dynamic modeling of RAS-MAPK signaling pathway: Sensitivity, bistability, and oscillations


3rd International Conference on Systems and Synthetic Biology

July 20-21, 2017 Munich, Germany

Yaman Arkun and Mohammadreza Yasemi

KOC University, Turkey

Scientific Tracks Abstracts: Curr Synthetic Sys Biol

Abstract :

Cell signaling is the process by which extracellular information is transmitted into the cell to perform biological functions. RASMAPK signaling pathway controls several cellular processes such as cell growth, proliferation, and gene expression. Activation of EGFR (Epidermal growth factor receptor) by binding of its specific ligands starts ERK signaling pathway. Phosphorylated EGFR exhibits great increase in the enzymatic activity of its cytoplasmic tyrosine kinase domain. Adaptor protein Grb2 binds to the phosphorylated RTK followed by recruitment of SOS, forming Grb2-SOS complex. Ras, which is a small GTP binding protein, interacts and transforms to its active conformation by exchanging GDP for GTP. Active Ras acts as an important switch which starts phosphorylation of MAPK pathway that consists of the Raf/MEK/ERK signaling cascade. However, in this paper we present a dynamic model that describes the molecular mechanisms involved in RAS-MAPK signaling. The model is derived from mass-action kinetics and conservation laws. Models exist in the literature for RAS and MAPK pathways separately. Our model combines the two systems and studies their interactions under feedback. Well-known mechanism of deactivation of the Grb2-SOS complex by ERK is included as an inhibitory feedback action in the model. Bistability (i.e., ability to switch between two stable steady-states separated by an unstable steady-state) is a desired trait that most biological processes exhibit. We established conditions under which bistability and oscillations exist for this important pathway. In particular, we show how the negative and positive feedback loops affect the dynamic characteristics that determine the cellular outcome.

Biography :

Yaman Arkun has his research interests in process dynamics, modeling and control of chemical and biological systems. His research topics include dynamic modeling, model predictive control, large scale complex and hierarchical systems, and optimization. His current application areas are copolymerization reactors, refinery operations, protein folding and systems biology. He completed his BS from Bogazici University, Turkey in 1974 and has done his MS in 1976 from the University of Minnesota. He has completed his PhD in 1979 from the University of Minnesota. He has held visiting positions at Tennessee Eastman, DuPont and Weyerhauser companies. He has served as the Editor of Journal of Process Control and Associate Editor of Automatica. He has been a trustee and Secretary of Computer Aids in Chemical Engineering (CACHE) Corporation, and is the Director of Computers and Systems Technology (CAST), Division of AIChE. He is the recipient of the Donald P Eckman Award given by the American Automatic Control Council. He received TÜBÃ?°TAK Science Award in 2004.

Email: yarkun@ku.edu.tr

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