We review a recent trend in computational systems biology which aims at using pattern recognition algorithms to infer the structure of large-scale biological networks from heterogeneous genomic data. We present several strategies that have been proposed and that lead to different pattern recognition problems and algorithms. The strenght of these approaches is illustrated on the reconstruction of metabolic, protein-protein and regulatory networks of model organisms. In all cases, state-of-the-art performance is reported
The main theme of this thesis is modelling and analysis of biological networks. Measurement data fro...
peer reviewedHigh-throughput data from various omics and sequencing techniques have rendered the aut...
Biomolecular networks dynamically respond to stimuli and implement cellular function. Understanding ...
We review a recent trend in computational systems biology which aims at using pattern recognition al...
Systems biology focuses on the integration of experimental, mathematical and computational technique...
International audienceMOTIVATION: Inference and reconstruction of biological networks from heterogen...
peer reviewedSystems analysis of metabolic and growth functions in microbial organisms is rapidly de...
The rapid accumulation of biological network data is creating an urgent need for computational metho...
Biological entities are involved in intricate and complex interactions, in which uncovering the bio...
Background: One of the most important projects in the post-genome-era is the systemic identification...
Biological systems are complex in that they comprise large number of interacting entities, and their...
Institute for Adaptive and Neural ComputationAn important problem in systems biology is the inferenc...
During the past decade, bottom-up and top-down approaches of network reconstruction have greatly fac...
An important problem in systems biology is the inference of biochemical pathways and regulatory net...
International audienceMOTIVATION: An increasing number of observations support the hypothesis that m...
The main theme of this thesis is modelling and analysis of biological networks. Measurement data fro...
peer reviewedHigh-throughput data from various omics and sequencing techniques have rendered the aut...
Biomolecular networks dynamically respond to stimuli and implement cellular function. Understanding ...
We review a recent trend in computational systems biology which aims at using pattern recognition al...
Systems biology focuses on the integration of experimental, mathematical and computational technique...
International audienceMOTIVATION: Inference and reconstruction of biological networks from heterogen...
peer reviewedSystems analysis of metabolic and growth functions in microbial organisms is rapidly de...
The rapid accumulation of biological network data is creating an urgent need for computational metho...
Biological entities are involved in intricate and complex interactions, in which uncovering the bio...
Background: One of the most important projects in the post-genome-era is the systemic identification...
Biological systems are complex in that they comprise large number of interacting entities, and their...
Institute for Adaptive and Neural ComputationAn important problem in systems biology is the inferenc...
During the past decade, bottom-up and top-down approaches of network reconstruction have greatly fac...
An important problem in systems biology is the inference of biochemical pathways and regulatory net...
International audienceMOTIVATION: An increasing number of observations support the hypothesis that m...
The main theme of this thesis is modelling and analysis of biological networks. Measurement data fro...
peer reviewedHigh-throughput data from various omics and sequencing techniques have rendered the aut...
Biomolecular networks dynamically respond to stimuli and implement cellular function. Understanding ...