One of the challenging tasks in systems biology is to understand how molecular networks give rise to emergent functionality and whether universal design principles apply to molecular networks. To achieve this, the biophysical, evolutionary and physiological constraints that act on those networks need to be identified in addition to the characterisation of the molecular components and interactions. Then, the cellular “task” of the network—its function—should be identified. A network contributes to organismal fitness through its function. The premise is that the same functions are often implemented in different organisms by the same type of network; hence, the concept of design principles. In biology, due to the strong forces of selective pre...
Background Transcriptional regulation of the genes in metabolic pathways is a highly successful stra...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
One of the challenging tasks in systems biology is to understand how molecular networks give rise to...
One of the challenging tasks in systems biology is to understand how molecular networks give rise to...
What is the optimal operation of metabolic networks? This question is interesting to answer, as it w...
Gene circuits that control metabolism should restore metabolic functions upon environmental changes....
Regulation of metabolic enzymes plays a crucial role in the maintenance of metabolic homeostasis, an...
Cells need to make an efficient use of metabolites, proteins, energy, membrane space, and time, and ...
Systems Biology brings the potential to discover fundamental principles of Life that cannot be disco...
Most aspects of molecular biology can be understood in terms of biological design principles. These ...
There has been considerable recent interest in deciphering the adaptive properties underlying the st...
Abstract: Biochemical networks are the backbones of physiological systems of organisms. Therefore, a...
There has been considerable recent interest in deciphering the adaptive properties underlying the st...
Biochemical networks are the backbones of physiological systems of organisms. Therefore, a biochemic...
Background Transcriptional regulation of the genes in metabolic pathways is a highly successful stra...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
One of the challenging tasks in systems biology is to understand how molecular networks give rise to...
One of the challenging tasks in systems biology is to understand how molecular networks give rise to...
What is the optimal operation of metabolic networks? This question is interesting to answer, as it w...
Gene circuits that control metabolism should restore metabolic functions upon environmental changes....
Regulation of metabolic enzymes plays a crucial role in the maintenance of metabolic homeostasis, an...
Cells need to make an efficient use of metabolites, proteins, energy, membrane space, and time, and ...
Systems Biology brings the potential to discover fundamental principles of Life that cannot be disco...
Most aspects of molecular biology can be understood in terms of biological design principles. These ...
There has been considerable recent interest in deciphering the adaptive properties underlying the st...
Abstract: Biochemical networks are the backbones of physiological systems of organisms. Therefore, a...
There has been considerable recent interest in deciphering the adaptive properties underlying the st...
Biochemical networks are the backbones of physiological systems of organisms. Therefore, a biochemic...
Background Transcriptional regulation of the genes in metabolic pathways is a highly successful stra...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...