Biological Networks are convenient summaries of our knowledge about interactions among components (like genes and proteins) in biological systems. When repre-sented as mathematical graphs with nodes (components
Determining protein interaction networks and generating models to simulate network changes in time a...
Understanding networks of biological interactions is essential to all life sciences. Nowadays, a lar...
Abstract The use of networks to analyze biological data, such as large gene or protein expression da...
Network modeling, from the ecological to the molecular scale has become an essential tool for studyi...
Abstract Background Complex biological systems are often modeled as networks of interacting units. N...
Systems biology focuses on the integration of experimental, mathematical and computational technique...
A goal of systems biology is to build a concrete biochemical network map, which provides an importan...
In this paper, we present a survey of the use of graph theoretical techniques in Biology. In particu...
This monograph addresses the decomposition of biochemical networks into functional modules that pres...
Complex biological systems are often modeled as networks of interacting units. Networks of biochemic...
This work focuses on the use of network graph theory in biological networks. I explore how network g...
Motivation: Modularity analysis is a powerful tool for studying the design of biological networks, o...
Biological networks have evolved to be highly functional within uncertain environments while remaini...
Over the last decade networks has become a unifying language in biology. Yet we are only in the begi...
Networks represent now an important part of post‐genomic data. This gives rise to a wide variety o...
Determining protein interaction networks and generating models to simulate network changes in time a...
Understanding networks of biological interactions is essential to all life sciences. Nowadays, a lar...
Abstract The use of networks to analyze biological data, such as large gene or protein expression da...
Network modeling, from the ecological to the molecular scale has become an essential tool for studyi...
Abstract Background Complex biological systems are often modeled as networks of interacting units. N...
Systems biology focuses on the integration of experimental, mathematical and computational technique...
A goal of systems biology is to build a concrete biochemical network map, which provides an importan...
In this paper, we present a survey of the use of graph theoretical techniques in Biology. In particu...
This monograph addresses the decomposition of biochemical networks into functional modules that pres...
Complex biological systems are often modeled as networks of interacting units. Networks of biochemic...
This work focuses on the use of network graph theory in biological networks. I explore how network g...
Motivation: Modularity analysis is a powerful tool for studying the design of biological networks, o...
Biological networks have evolved to be highly functional within uncertain environments while remaini...
Over the last decade networks has become a unifying language in biology. Yet we are only in the begi...
Networks represent now an important part of post‐genomic data. This gives rise to a wide variety o...
Determining protein interaction networks and generating models to simulate network changes in time a...
Understanding networks of biological interactions is essential to all life sciences. Nowadays, a lar...
Abstract The use of networks to analyze biological data, such as large gene or protein expression da...