Confirmed speakers:
- Elena Seiradake, University of Oxford, Dept. Biochemistry, UK, elena.seiradake@bioch.ox.ac.uk
Field: control of cell migration and axonal growth in neurons and cancer using X-ray, EM, confocal and super resolution microscopy
Tentative title: “Multidisciplinary methods in studies of cell adhesion proteins in brain” - Jay T. Groves, UC Berkeley, College of Chemistry, USA; jtgroves@lbl.gov
Field: Biophysical models of protein networks and signaling on cell membranes based primarily on time-resolved light microscopy
Tentative title: “Phase transitions of protein networks at cell surfaces” - Arwen Pearson, University of Hamburg, Dept. Physics, CFEL, Germany, ; arwen.pearson@cfel.de
Field: protein structure and dynamics studied by X-ray and neutron scattering and spectroscopy
Tentative title: “Time-resolved crystallography and X-ray scattering using synchrotron and X-FEL radiation” - Antoine Triller, École Normale Supérieure, Paris, France; antoine.triller@ens.fr
Field : cell biology of neuronal synapses studied by single-molecule tracking
Tentative title: “Single-molecule and ensemble dynamics associated with synaptic function” - Martin Weik, Institut de Biologie Structurale, Grenoble, France; martin.weik@ibs.fr
Field : protein dynamics and intrinsically disordered proteins studied by X-ray scattering/diffraction, neutron scattering, TIRF microscopy
Tentative title: Hydration dynamics and structure of folded and unfolded proteins - James Fraser, UC San Francisco, Department of Bioengineering and Therapeutic Sciences, USA; jfraser@fraserlab.com
Field: Ensemble structure modeling of biomolecular structure and dynamics, conformational barriers and transitions in biomolecular dynamics, NMR spectroscopy
Tentative title: Ensemble structure modeling of biomolecular structure and dynamics - Tanja Mittag, St Jude's Childrens Research Hospital, Memphis, USA; tanja.mittag@stjude.org
Field: liquid-liquid phase separation and compartmentalization in membrane-less organelles, intrinsically disordered proteins. Bioinformatics, biophysical techniques, light microscopy
Tentative title: Liquid-liquid phase separation in cells - Alexandre Bonvin, University of Utrecht, Netherlands; A.M.J.J.Bonvin@uu.nl
Field: multiscale, integral modeling of biomolecular structure and dynamics using interdisciplinary methods
Tentative title: Combining different sources of experimental data in modeling - Susan Lea, Sir William Dunn School of Pathology, Oxford University; susan.lea@path.ox.ac.uk
Field: host-pathogen interactions, infection and immune system, type three secretion system, cryo-EM and crystallography
Tentative title: cryo-EM studies of host-pathogen interactions
Also the organizers will contribute as speakers/tutors
- Poul Nissen (chairman), Aarhus University, Denmark
Field: membrane proteins, X-ray crystallography and cryo-EM - Gregers Rom Andersen, Aarhus University, Denmark
Field: large protein complexes, X-ray crystallography, SAXS, cryo-EM and ns-EM, low resolution models and validation - Lise Arleth, University of Copenhagen, Denmark
Field: small-angle X-ray and neutron scattering, membrane mimetics - James Fraser, California Institute of Quantitative Biosciences, UCSF, SF, CA, USA
- Field: Ensemble structure modeling of biomolecular structure and dynamics, conformational barriers and transitions in biomolecular dynamics, NMR spectroscopy
- Birthe Brandt Kragelund, University of Copenhagen, Denmark
Field: NMR studies of dynamic complexes - Annette E. Langkilde, University of Copenhagen, Denmark
Field: X-ray scattering, X-ray and neutron crystallography, intrinsically disordered proteins - Kresten Lindorff-Larsen, University of Copenhagen, Denmark
Field: biophysical modeling of structures and transitions - Elena Seiradake, University of Oxford, UK
- Field: control of cell migration and axonal growth in neurons and cancer using X-ray, EM, confocal and super resolution microscopy
- Martin Weik, Institut de Biologie Structurale, Grenoble, France
Field : protein dynamics and intrinsically disordered proteins studied by X-ray scattering/diffraction, neutron scattering, TIRF microscopy
Nomination of one IUBMB Speaker
IUBMB-Adhering or Associated-Adhering Body of Speaker (i.e. ASBMB, FAOBMB etc.) ASBMB
- Topic & Title of Lecture: Phase transitions of protein networks at cell surfaces
