Add to ORKGNetwork theory is today a central topic in computational systems biology as a framework to understand and reconstruct relations among biological com-ponents. For example, constructing networks from a gene expression dataset provides a set of possible hypotheses explaining connections among genes, vi
The science of complex biological networks is transforming research in areas ranging from evolutiona...
Computational Systems Biology: Inference and Modelling provides an introduction to, and overview of,...
Complex interacting networks are observed in systems from such diverse areas as physics, biology, ec...
The increasing application of network models to interpret biological systems raises a number of impo...
Over the last decade networks has become a unifying language in biology. Yet we are only in the begi...
The increasing application of network models to interpret biological systems raises a number of impo...
Systems biology focuses on the integration of experimental, mathematical and computational technique...
This chapter contains sections titled: -Biology is a Science about Relationships -Network Biology: C...
Complex systems and networks is an emerging scientific field, with applications in every area of human...
Much of the research progress that is achieved nowadays in various scientific fields has its origin ...
This paper outlines an approach to the topo-logical analysis of large-scale biological net-works. Th...
Building mathematical models of cellular networks lies at the core of systems biology. It involves, ...
Many biological systems can be described as networks where diFFerent elements interact, in order to ...
Mathematical problems such as graph theory problems are of increasing importance for the analysis of...
The methodologies advocated in computational biology are in many cases proper system-level approache...
The science of complex biological networks is transforming research in areas ranging from evolutiona...
Computational Systems Biology: Inference and Modelling provides an introduction to, and overview of,...
Complex interacting networks are observed in systems from such diverse areas as physics, biology, ec...
The increasing application of network models to interpret biological systems raises a number of impo...
Over the last decade networks has become a unifying language in biology. Yet we are only in the begi...
The increasing application of network models to interpret biological systems raises a number of impo...
Systems biology focuses on the integration of experimental, mathematical and computational technique...
This chapter contains sections titled: -Biology is a Science about Relationships -Network Biology: C...
Complex systems and networks is an emerging scientific field, with applications in every area of human...
Much of the research progress that is achieved nowadays in various scientific fields has its origin ...
This paper outlines an approach to the topo-logical analysis of large-scale biological net-works. Th...
Building mathematical models of cellular networks lies at the core of systems biology. It involves, ...
Many biological systems can be described as networks where diFFerent elements interact, in order to ...
Mathematical problems such as graph theory problems are of increasing importance for the analysis of...
The methodologies advocated in computational biology are in many cases proper system-level approache...
The science of complex biological networks is transforming research in areas ranging from evolutiona...
Computational Systems Biology: Inference and Modelling provides an introduction to, and overview of,...
Complex interacting networks are observed in systems from such diverse areas as physics, biology, ec...