Add to ORKGCellular functions of living organisms are carried out through complex systems of interacting components. Including such interactions in the analysis, and considering sub-systems defined by biological pathways instead of individual components (e.g. genes), can lead to new findings about complex biological mechanisms. Networks are often used to capture such interactions and can be incorporated in models to improve the efficiency in estimation and inference. In this paper, we propose a model for incorporating external information about interactions among genes (proteins/metabolites) in differential analysis of gene sets. We exploit the framework of mixed linear models and propose a flexible inference procedure for analysis of changes in biolo...
A primary challenge in the analysis of high-throughput biological data is the abundance of correlate...
Motivation: Time series expression experiments are an increasingly popular method for studying a wid...
Physiological functions are driven by the emergent behaviors of many individual components, whether ...
Networks are often used to represent the interactions among genes and proteins. These interactions a...
We present a method for gene network inference and revision based on time-series data. Gene networks...
In computational systems biology, the general aim is to derive regulatory models from multivariate r...
Complex systems of numerous interacting biomolecules dictate cellular behavior. To better understan...
Most biological systems consist of several subcomponents which interact with each other. These inter...
International audienceBACKGROUND: Reverse engineering in systems biology entails inference of gene r...
Kondofersky I, Fuchs C, Theis FJ. Identifying latent dynamic components in biological systems. IET S...
The continuing growth in high-throughput data acquisition has led to a proliferation of network mode...
Publicly available datasets provide detailed and large-scale information on multiple types of molecu...
The construction of genetic regulatory networks from time series gene expression data is an importan...
This chapter presents a survey of recent methods for reconstruction of time-varying biological netwo...
BackgroundReverse engineering gene networks and identifying regulatory interactions are integral to ...
A primary challenge in the analysis of high-throughput biological data is the abundance of correlate...
Motivation: Time series expression experiments are an increasingly popular method for studying a wid...
Physiological functions are driven by the emergent behaviors of many individual components, whether ...
Networks are often used to represent the interactions among genes and proteins. These interactions a...
We present a method for gene network inference and revision based on time-series data. Gene networks...
In computational systems biology, the general aim is to derive regulatory models from multivariate r...
Complex systems of numerous interacting biomolecules dictate cellular behavior. To better understan...
Most biological systems consist of several subcomponents which interact with each other. These inter...
International audienceBACKGROUND: Reverse engineering in systems biology entails inference of gene r...
Kondofersky I, Fuchs C, Theis FJ. Identifying latent dynamic components in biological systems. IET S...
The continuing growth in high-throughput data acquisition has led to a proliferation of network mode...
Publicly available datasets provide detailed and large-scale information on multiple types of molecu...
The construction of genetic regulatory networks from time series gene expression data is an importan...
This chapter presents a survey of recent methods for reconstruction of time-varying biological netwo...
BackgroundReverse engineering gene networks and identifying regulatory interactions are integral to ...
A primary challenge in the analysis of high-throughput biological data is the abundance of correlate...
Motivation: Time series expression experiments are an increasingly popular method for studying a wid...
Physiological functions are driven by the emergent behaviors of many individual components, whether ...