Entity

Time filter

Source Type


Keurentjes J.J.B.,Wageningen University | Keurentjes J.J.B.,Center for Biosystems Genomics | Keurentjes J.J.B.,The authors represent the Wageningen Center for Systems Biology | Angenent G.C.,Center for Biosystems Genomics | And 18 more authors.
Trends in Plant Science | Year: 2011

Molecular biologists typically restrict systems biology to cellular levels. By contrast, ecologists define biological systems as communities of interacting individuals at different trophic levels that process energy, nutrient and information flows. Modern plant breeding needs to increase agricultural productivity while decreasing the ecological footprint. This requires a holistic systems biology approach that couples different aggregation levels while considering the variables that affect these biological systems from cell to community. The challenge is to generate accurate experimental data that can be used together with modelling concepts and techniques that allow experimentally verifying in silico predictions. The coupling of aggregation levels in plant sciences, termed Integral Quantification of Biological Organization (IQ BiO), might enhance our abilities to generate new desired plant phenotypes. © 2010 Elsevier Ltd. Source

Discover hidden collaborations