Twenty years ago, the term ‘Systems Biology’ has been coined, after which Institutes of Systems Biology were established in Tokyo, Seattle and Amsterdam by the pioneers Hiroaki Kitano, Leroy Hood, and Hans Westerhoff, respectively. For their achievements, in 2014 they did receive the recognition of ‘Fellows of The International Society for Systems Biology’. Through their work, and that of their collaborators, the field has progressively matured as an important lever to make biology predictive, testable and quantitative. Systems Biology in combination with Bioinformatics and high-throughput experiments turns data analysis into a forecasting tool. Systems Biology in combination with imaging allows us to understand processes in cells in two or...
In this review, we address the justification for creating a new scientific discipline, and suggest p...
Systems biology recognizes the complex multi-scale organization of biological systems, from molecule...
Faculty column in Summer 2008 issue of Research Horizons: Systems Biology: Solving grand challenges
Systems approaches to biology are steadily widening their reach, but the road to integration and acc...
In the last decades, genomic and postgenomic technologies obtained a great amount of information on ...
Computational and Systems Biology (CSB) has continued to be a leader in the field. Our name change i...
Systems biology is the inevitable outcome of long years of knowledge acquisition and data accumulati...
Systems biology is a rapidly expanding field fuelled by the 'omics' era coupled to several new techn...
In just over a decade, Systems Biology has moved from being an idea, or rather a disparate set of id...
Systems biology takes an interdisciplinary approach to the systematic study of complex interactions ...
“In times when we are flooded with information, in biology and elsewhere, it might be more important...
Systems biology is a rapidly expanding field of research and is applied in a number of biological di...
International audienceThe widespread use of the term Systems Biology (SB) signals a welcome recognit...
Systems biology seeks to study biological systems as a whole, contrary to the reductionist approach ...
Systems biology is a highly topical discipline at the intersection of biochemistry, cell biology, co...
In this review, we address the justification for creating a new scientific discipline, and suggest p...
Systems biology recognizes the complex multi-scale organization of biological systems, from molecule...
Faculty column in Summer 2008 issue of Research Horizons: Systems Biology: Solving grand challenges
Systems approaches to biology are steadily widening their reach, but the road to integration and acc...
In the last decades, genomic and postgenomic technologies obtained a great amount of information on ...
Computational and Systems Biology (CSB) has continued to be a leader in the field. Our name change i...
Systems biology is the inevitable outcome of long years of knowledge acquisition and data accumulati...
Systems biology is a rapidly expanding field fuelled by the 'omics' era coupled to several new techn...
In just over a decade, Systems Biology has moved from being an idea, or rather a disparate set of id...
Systems biology takes an interdisciplinary approach to the systematic study of complex interactions ...
“In times when we are flooded with information, in biology and elsewhere, it might be more important...
Systems biology is a rapidly expanding field of research and is applied in a number of biological di...
International audienceThe widespread use of the term Systems Biology (SB) signals a welcome recognit...
Systems biology seeks to study biological systems as a whole, contrary to the reductionist approach ...
Systems biology is a highly topical discipline at the intersection of biochemistry, cell biology, co...
In this review, we address the justification for creating a new scientific discipline, and suggest p...
Systems biology recognizes the complex multi-scale organization of biological systems, from molecule...
Faculty column in Summer 2008 issue of Research Horizons: Systems Biology: Solving grand challenges