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What is Regulation function ri

Chapter 6

Handbook of Research on Computational Methodologies in Gene Regulatory Networks

Coupling term in the differential equations for GRNs. Function that describes the influence of regulators on the expression rate of gene i. For simplicity, it is often assumed that different regulators act independently, and their influences can be decoupled. An influence of a single regulator j on i is then often described with simple linear functions, or Michaelis-Menten and Hill equations are used, which can be derived from chemical reaction kinetics

Published in Chapter:

A Bayes Regularized Ordinary Differential Equation Model for the Inference of Gene Regulatory Networks

Nicole Radde (University of Leipzig, Germany) and Lars Kaderali (University of Heidelberg, Germany)

Source Title: Handbook of Research on Computational Methodologies in Gene Regulatory Networks

DOI: 10.4018/978-1-60566-685-3.ch006

Abstract

Differential equation models provide a detailed, quantitative description of transcription regulatory networks. However, due to the large number of model parameters, they are usually applicable to small networks only, with at most a few dozen genes. Moreover, they are not well suited to deal with noisy data. In this chapter, we show how to circumvent these limitations by integrating an ordinary differential equation model into a stochastic framework. The resulting model is then embedded into a Bayesian learning approach. We integrate the-biologically motivated-expectation of sparse connectivity in the network into the inference process using a specifically defined prior distribution on model parameters. The approach is evaluated on simulated data and a dataset of the transcriptional network governing the yeast cell cycle.

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What is Regulation function ri

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