View slides on Zenodo


The prediction of the quaternary structure of biomolecular macromolecules is of paramount importance for fundamental understanding of cellular processes and drug design. In the era of integrative structural biology, one way of increasing the accuracy of modelling methods used to predict the structure of biomolecular complexes is to include as much experimental or predictive information as possible in the process. We have developed for this purpose a versatile information-driven docking approach: HADDOCK, available as a web service at HADDOCK can integrate information derived from biochemical, biophysical or bioinformatics methods to guide the modelling. In the context of the BioExcel Center of Excellence for Computational Biomolecular Research, we have developed HADDOCK3, the new modular version of HADDOCK. It represents a redesign of the HADDOCK2.X series, implementing new ways to interact with the HADDOCK sub-routines and offering more customization. Users can create custom workflows by combining different modules, thus making the workflows tailored to their specific needs. HADDOCK3 has therefore developed to truthfully work like a puzzle of many pieces (simulation modules) that users can combine to more accurately model their systems. The HADDOCK3 workflows are defined in straightforward configuration files, similar to the TOML format (also supported). In order to facilitate the use of HADDOCK3, in collaboration with the Netherlands eScience Center we are developing a customizable, interactive, HTC/Cloud (and HPC)-optimized and reusable Virtual Research Environment (VRE) for Integrative Modelling of Biomolecular Complexes ( By integrating all steps involved in studying biomolecular interactions, this VRE will lower the steep learning curve for researchers and students from different fields and contribute to reproducible research and FAIR sharing of data. In this webinar, I will introduce HADDOCK3 and discuss the status of the Virtual Research Environment for Integrative Modelling of Biomolecular Complexes.


Alexandre Bonvin (1964) studied Chemistry at Lausanne University, Switzerland and obtained his PhD at Utrecht University in the Netherlands (1993). After two post-doc periods at Yale University (USA) and the ETHZ (CH) he joined Utrecht University in 1998 where he was appointed full professor of computational structural biology in 2009. In 2006, he received a prestigious VICI grant from the Dutch Research Council. Since September 2019 he is Scientific Director of the Bijvoet Centre for Biomolecular Research. He is participating to several EU projects including the BioExcel Center of Excellence in Biomolecular Simulations and the European Open Science Cloud EGI-ACE project. His work has resulted in over 250 peer-reviewed publications.