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Number of items: 7.

Perrotta, S; Stiehl, D P; Punzo, F; Scianguetta, S; Borriello, A; Bencivenga, D; Casale, M; Nobili, B; Fasoli, S; Balduzzi, A; Cro, L; Nytko, K J; Wenger, R H; Della Ragione, F (2013). Congenital erythrocytosis associated with gain-of-function HIF2A gene mutations and erythropoietin levels in the normal range. Haematologica:1-34.

Nytko, K J; Stiehl, D P; Wenger, R H (2012). PHD oxygen sensor function and antioxidants. In: Pastorekova, Silvia; Kopacek, Juraj. Tumor Hypoxia: Molecular Mechanisms and Clinical Implications. Frankfurt am Main: PETER LANG; VEDA, 127-155.

Nytko, K J. Regulated Function of Oxygen Sensing HIF Prolyl-4-Hydroxylases. 2011, University of Zurich, Faculty of Science.

Chen, N; Rinner, O; Czernik, D; Nytko, K J; Zheng, D; Stiehl, D P; Zamboni, N; Gstaiger, M; Frei, C (2011). The oxygen sensor PHD3 limits glycolysis under hypoxia via direct binding to pyruvate kinase. Cell Research, 21(6):983-986.

Nytko, K J; Nobuyo, M; Schlaefli, P; Spielmann, P; Wenger, R H; Stiehl, D P (2011). Vitamin C is dispensable for oxygen sensing in vivo. Blood, 117(20):5485-5493.

Nytko, K J; Spielmann, P; Camenisch, G; Wenger, R H; Stiehl, D P (2007). Regulated Function of the Prolyl-4-Hydroxylase Domain (PHD) Oxygen Sensor Proteins. Antioxidants & Redox Signaling, 9(9):1329-1338.

Barth, S; Nesper, J; Hasgall, P A; Wirthner, R; Nytko, K J; Edlich, F; Katschinski, D M; Stiehl, D P; Wenger, R H; Camenisch, G (2007). The peptidyl prolyl cis/trans isomerase FKBP38 determines hypoxia-inducible transcription factor prolyl-4-hydroxylase PHD2 protein stability. Molecular and Cellular Biology, 27(10):3758-3768.

This list was generated on Mon Oct 23 08:24:54 2017 CEST.