Roland Ph.D.,
Zurich, CH-8050, Switzerland
Protein hydroxylation-dependent oxygen sensing and downstream pathways .
Cormac Ph.D.,
Dublin, Ireland
Regulation of inflammatory gene expression by hypoxia.
Carsten
91054 Erlangen, Germany
Kidney and hypoxia: HIF as a new therapeutic option in acute kidney injury.
Dörthe
37073 Göttingen, Germany
Expression and function of the PHD/HIF oxygen sensor system in the heart .
Jose Ph.D.,
Seville 41013, Spain
Adult neural crest-derived stem cells sustain carotid body adaptive growth in chronic hypoxia.
Max
Zurich 8057, Switzerland
Epo-induced excessive erythrocytosis in mice.
Carine
Namur 5000, Belgium
Hypoxia protects cancer cells from cell death induced by chemotherapeutic drugs.
Peter
Oxford OX3 7BN, UK
keynote lecture: Oxygen sensing in animals: the HIF hydroxylase system.
Silvia D.Sc.,
Bratislava 84505, Slovak Republic
New insights into functional aspects of CA IX and their implications for cancer biology.
Stephan Ph.D.,
Bari, 70126, Italy
The scaffolding protein, NHERF1, functions as a link between tumor hypoxia and microenvironmental acidification.
Patrick
London WC1E 6JF, United Kingdom
Hypoxic response pathways in kidney cancer.
Olga D.Sc.,
Bratislava, 833 34, Slovakia
Hypoxia and calcium transport systems - from modulation to function.
Agnes
80636 Munich, Germany
NOX and the HIF pathway: the plot thickens.
Lorenz
Stockholm 17177, Sweden
Mechanims of gene regulation in hypoxia.
Till
35392 Giessen, Germany
Tumor stem cells and their niche(s).
jacques
Nice 06189, France
Tumor metabolic adaptation to hypoxic and acidic stress .
Selma Ph.D.,
10060 Candiolo (Torino), Italy
Targeting acquired resistance to anti-angiogenic therapy by inhibition of hypoxia-induced tumor cell escape .