Systems Chemistry
May 26th - 30th, Bozen, Italy
Program
Tom Blundell (University of Cambridge, UK)
Exploring Biological and Chemical Space with High-Throughput Crystallographic, Biophysical and Computational Methods: The New Dimensions of Drug Discovery
Tim Clark (University of Erlangen, Germany)
The Chemistry of Signal Transduction in the TetR System
Athel Cornish-Bowden (CNRS Marseille, France)
Catalysis at the Origin of Life
Antione Danchin (Institut Pasteur, Paris, France)
Patches in the Genetic Program as Prerequisites for the Construction of a Synthetic Cell
Alexander Heckel (University of Frankfurt, Germany)
Shedding Light on Nucleic Acids and DNA under Construction
Douglas Kell (University of Manchester, UK)
Drug and Xenobiotic Transport via Membrane Carriers - an Exception or the Rule? Biophysical versus Mechanistic Analyses
Joseph Lehár (CombinatoRx, Cambridge, MA, USA)
Systems Biology from Synergistic Chemical Combinations
Steve Ley (University of Cambridge, UK)
New Tools for the Molecule Makers: Emerging Technologies
Sara Linse (University of Lund, Sweden)
Protein Interaction, Association and Fibrillation
Ben List (MPI Mühlheim, Germany)
New Concepts for Catalysis
Eric Meggers (University of Marburg, Germany)
Chemical Biology with Organometallics
Justin Roberts (UC Riverside, CA, USA)
High-Throughput Analysis of Nucleoside- and Nucleotide-binding by Proteins
Gisbert Schneider (University of Frankfurt, Germany)
The Chances and Limitations of Molecular Design
Peter Seeberger (ETH Zürich, Switzerland)
Microreactors as Tools for Organic Synthesis
Michele Vendrusculo (University of Cambridge, UK)
Life on the Edge: Proteins are Close to their Solubility Limits
Günter von Kiedrowski (University of Bochum, Germany)
Systems Chemistry and the Origin of Life
Holger Wallmeier (Frankfurt, Germany)
A Dynamical Supramolecular System for Chemical Biology - a Step Towards
Contiguous Structural Spaces
Hans Westerhoff (Vrije Universiteit Amsterdam, The Netherlands)
Chemistry in Three Dimensions: How a System’s Biology May Regulate its
System’s Chemistry.
Dave Winkler (CSIRO Melbourne, Australia)
Modeling for Regenerative Medicine
