This is a website for an H2020 project which concluded in 2019 and established the core elements of EOSC. The project's results now live further in www.eosc-portal.eu and www.egi.eu
This is a website for an H2020 project which concluded in 2019 and established the core elements of EOSC. The project's results now live further in www.eosc-portal.eu and www.egi.eu
Computational methods and biophysical experiments have advanced rapidly in parallel over recent decades, and are now applied widely to gain molecular-level insights on biological systems. The vast majority of biophysical methods report on the behavior of populations of molecules or on the properties of states of a system. Yet a quantitative understanding of biological systems requires a molecular-level description of phenomena that is generally unobtainable from measurements carried out in bulk. Computations carried out on single macromolecules do not necessarily reflect the statistical nature of molecular behaviors or systems that is captured by experiment. Yet computational approaches can be highly valuable for predicting and interpreting experimental results, and for designing critical experiments to test hypotheses.
Experimental and computational biophysicists could advance their fundamental knowledge of biological systems more rapidly and thoroughly by applying the two approaches in concert.
Academy and University Center
Institute of Microbiology of the Czech Academy of Sciences
EOSC-hub receives funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 777536.