Session III: Structure and mechanisms of Redox machineries
09:00 - 11.00
Chair: Arne Holmgren, Karolinska Institutet, Sweden
09.00 - 09.40 Rudi Glockshuber, ETH Zurich, Switzerland
Dithiol/disulfide switches in the assembly of supramolecular protein complexes
09.40 - 10.20 Péter Nagy, National Institute of Oncology, Hungary
Mechanistic chemical perspective of thiol redox biology
10.20 - 10.40 Friederike Ewald, University of Gothenburg, Sweden
Light-sensing via hydrogen peroxide and a peroxiredoxin
10.40 - 11.00 Kostas Tokatlidis, University of Glasgow, United Kingdom
Diverse protein targeting pathways to the IMS as a means of protection against oxidative damage
11:00 - 11.30 Coffee break & Group Photo
(continued) Session III
11.30 - 12.50
11.30 - 12.10 Leslie Poole, Wake Forest School of Medicine, US
The emerging links between structure and function in peroxiredoxins, ubiquitous thiol-based regulators of peroxides in living systems
12.10 - 12.30 Madia Trujillo, Universidad de la Republica, Uruguay
Peroxynitrite reduction by human peroxiredoxin 3, the mitochondrial peroxiredoxin
12.30 - 12.50 Neil Bullied, University of Glasgow, United Kingdom
Regulation of the Redox Conditions in the Mammalian Secretory Pathway
13.00 Lunch and Free Time
Session IV: Catalysis of Redox reactions
15.00 - 16.00
Chair: Lars Leichert, Ruhr-Universität Bochum, Germany
15.00 - 15.40 Rafael Radi, Universidad de la Republica, Uruguay
Peroxynitrite reaction with thiols: mechanistic aspects and biological relevance
15.40 - 16.20 Tobias Dick, DKFZ, Germany
Mechanisms of regulatory protein oxidation
16.20 - 16.50 Coffee break
(continued) session IV
16.50 - 17.50
16.50 - 17.10 Elena Hidalgo, Universitat Pompeu Fabra, Spain Activation and role of a H2O2-dependent MAP kinase cascade
17.10 - 17.30 Désirée Gütle, University of Lorraine, France
Redox Regulation in the Calvin-Benson-Cycle: Two phosphatases of Physcomitrella patens
17.30 - 17.50 Katarina Johansson, Karolinska Institutet, Sweden
Simultaneous Determination of Redox Perturbation Dependences of NF-kB, Nrf2 and HIF Activation Patterns at Single-Cell Resolution