Add to ORKGBiological systems have evolved branching networks that transport a variety of resources. We argue that common properties of those networks allow for a quantitative theory of the structure, organization, and dynamics of living systems
© 2014 Dumont and Prakash.Mechanical force organizes life at all scales, from molecules to cells and...
International audienceThe relationship between 2 attributes of a living system is usually described ...
peer reviewedIt has become commonly accepted that systems approaches to biology are of outstanding i...
Power Laws, Scale-free Networks and Genome Biology deals with crucial aspects of the theoretical fou...
In the last decade, physics has been expanding to new research areas. In particular, life-related sc...
For almost 10 years, topological analysis of different large-scale biological networks (metabolic re...
Many biological processes, from cellular metabolism to population dynamics, are characterized by all...
The human organism is an integrated network where complex physiological systems, each with its own r...
In fact, much of the attraction of network theory initially stemmed from the fact that many networks...
A universal framework is proposed, where all laws are regularities of relations between things or ag...
Biological networks are currently being studied with approaches derived from the mathematical and ph...
Bio-molecular systems consist of tens of thousands of molecular species of different chemical nature...
A network facilitates the description of selective interactions among the variables of a system. In ...
Systems Biology brings the potential to discover fundamental principles of Life that cannot be disco...
There is a remarkable relationship between an organism's metabolic rate (resting power consumption) ...
© 2014 Dumont and Prakash.Mechanical force organizes life at all scales, from molecules to cells and...
International audienceThe relationship between 2 attributes of a living system is usually described ...
peer reviewedIt has become commonly accepted that systems approaches to biology are of outstanding i...
Power Laws, Scale-free Networks and Genome Biology deals with crucial aspects of the theoretical fou...
In the last decade, physics has been expanding to new research areas. In particular, life-related sc...
For almost 10 years, topological analysis of different large-scale biological networks (metabolic re...
Many biological processes, from cellular metabolism to population dynamics, are characterized by all...
The human organism is an integrated network where complex physiological systems, each with its own r...
In fact, much of the attraction of network theory initially stemmed from the fact that many networks...
A universal framework is proposed, where all laws are regularities of relations between things or ag...
Biological networks are currently being studied with approaches derived from the mathematical and ph...
Bio-molecular systems consist of tens of thousands of molecular species of different chemical nature...
A network facilitates the description of selective interactions among the variables of a system. In ...
Systems Biology brings the potential to discover fundamental principles of Life that cannot be disco...
There is a remarkable relationship between an organism's metabolic rate (resting power consumption) ...
© 2014 Dumont and Prakash.Mechanical force organizes life at all scales, from molecules to cells and...
International audienceThe relationship between 2 attributes of a living system is usually described ...
peer reviewedIt has become commonly accepted that systems approaches to biology are of outstanding i...