The advent of functional genomics has enabled the molecular biosciences to come a long way towards characterizing the molecular constituents of life. Yet, the challenge for biology overall is to understand how organisms function. By discovering how function arises in dynamic interactions, systems biology addresses the missing links between molecules and physiology. Top-down systems biology identifies molecular interaction networks on the basis of correlated molecular behavior observed in genome-wide 'omics' studies. Bottom-up systems biology examines the mechanisms through which functional properties arise in the interactions of known components. Here, we outline the challenges faced by systems biology and discuss limitations of the top-dow...
The comprehension of living organisms in all their complexity poses a major challenge to the biologi...
In the last decades, the advances in data gathering technologies, from high-throughput sequencing to...
Systems biology has two general aims: a narrow one, which is to discover how complex networks of pro...
The advent of functional genomics has enabled the molecular biosciences to come a long way towards c...
In the last decades, genomic and postgenomic technologies obtained a great amount of information on ...
Systems Biology is more than just a sum up of different sciences, given that Systems Biology deals w...
Genomics, structural biology, and bioinformatics deal with identification, cataloguing and character...
Systems biology is a new field in biology that aims at system-level understanding of biological syst...
The systems approach to biology has a long history. Its recent rapid resurgence at the turn of the c...
Systems biology is a newly emerged and multi-disciplinary study field that aims to understand the li...
Systems biology seeks to study biological systems as a whole, contrary to the reductionist approach ...
In just over a decade, Systems Biology has moved from being an idea, or rather a disparate set of id...
The developments in the molecular biosciences have made possible a shift to combined molecular and s...
Biophysics at the systems level, as distinct from molecular biophysics, acquired its most famous par...
Systems biology aims at achieving a system-level understanding of living organisms and applying this...
The comprehension of living organisms in all their complexity poses a major challenge to the biologi...
In the last decades, the advances in data gathering technologies, from high-throughput sequencing to...
Systems biology has two general aims: a narrow one, which is to discover how complex networks of pro...
The advent of functional genomics has enabled the molecular biosciences to come a long way towards c...
In the last decades, genomic and postgenomic technologies obtained a great amount of information on ...
Systems Biology is more than just a sum up of different sciences, given that Systems Biology deals w...
Genomics, structural biology, and bioinformatics deal with identification, cataloguing and character...
Systems biology is a new field in biology that aims at system-level understanding of biological syst...
The systems approach to biology has a long history. Its recent rapid resurgence at the turn of the c...
Systems biology is a newly emerged and multi-disciplinary study field that aims to understand the li...
Systems biology seeks to study biological systems as a whole, contrary to the reductionist approach ...
In just over a decade, Systems Biology has moved from being an idea, or rather a disparate set of id...
The developments in the molecular biosciences have made possible a shift to combined molecular and s...
Biophysics at the systems level, as distinct from molecular biophysics, acquired its most famous par...
Systems biology aims at achieving a system-level understanding of living organisms and applying this...
The comprehension of living organisms in all their complexity poses a major challenge to the biologi...
In the last decades, the advances in data gathering technologies, from high-throughput sequencing to...
Systems biology has two general aims: a narrow one, which is to discover how complex networks of pro...