In this essay we illustrate some general principles of mathematical modeling in biology by our experiences in studying the molecular regulatory network underlying eukaryotic cell division. We discuss how and why the models moved from simple, parsimonious cartoons to more complex, detailed mechanisms with many kinetic parameters. We describe how the mature models made surprising and informative predictions about the control system that were later confirmed experimentally. Along the way, we comment on the ‘parameter estimation problem’ and conclude with an appeal for a greater role for mathematical models in molecular cell biology
The cell cycle is implicated in diseases that are the leading cause of mortality and morbidity in th...
Complex assemblies of interacting proteins carry out most of the interesting jobs in a cell, such as...
The main goal of this thesis was to investigate possible computational approaches useful to study th...
In this essay we illustrate some general principles of mathematical modeling in biology by our exper...
Cellular regulation comprises overwhelmingly complex interactions between genes and proteins that ul...
The eukaryotic cell cycle is robustly designed, with interacting molecules organized within a defini...
The eukaryotic cell cycle is robustly designed, with interacting molecules organized within a defini...
AbstractWe propose a protein interaction network for the regulation of DNA synthesis and mitosis tha...
A. The model: differential equations and parameter sets In Table SI we present the differential and ...
Theoretical molecular biologists attempt to describe cellular processes and regulatory networks with...
We work on constructing mathematical models of gene regulatory networks for pe-riodic processes, suc...
Systems Biology has brought together researchers from biology, mathe-matics, physics and computer sc...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
Modeling and simulation of biochemical reactions is of great interest in the context of system biolo...
To understand the molecular mechanisms that regulate cell cycle progression in eukaryotes, a variety...
The cell cycle is implicated in diseases that are the leading cause of mortality and morbidity in th...
Complex assemblies of interacting proteins carry out most of the interesting jobs in a cell, such as...
The main goal of this thesis was to investigate possible computational approaches useful to study th...
In this essay we illustrate some general principles of mathematical modeling in biology by our exper...
Cellular regulation comprises overwhelmingly complex interactions between genes and proteins that ul...
The eukaryotic cell cycle is robustly designed, with interacting molecules organized within a defini...
The eukaryotic cell cycle is robustly designed, with interacting molecules organized within a defini...
AbstractWe propose a protein interaction network for the regulation of DNA synthesis and mitosis tha...
A. The model: differential equations and parameter sets In Table SI we present the differential and ...
Theoretical molecular biologists attempt to describe cellular processes and regulatory networks with...
We work on constructing mathematical models of gene regulatory networks for pe-riodic processes, suc...
Systems Biology has brought together researchers from biology, mathe-matics, physics and computer sc...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
Modeling and simulation of biochemical reactions is of great interest in the context of system biolo...
To understand the molecular mechanisms that regulate cell cycle progression in eukaryotes, a variety...
The cell cycle is implicated in diseases that are the leading cause of mortality and morbidity in th...
Complex assemblies of interacting proteins carry out most of the interesting jobs in a cell, such as...
The main goal of this thesis was to investigate possible computational approaches useful to study th...