Items where Division is "Biology, Preclinical Medicine > Institut für Physiologie > Prof. Dr. Frank Schweda" and Year is 2015
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Camacho Londono, J. E. and Tian, Q. and Hammer, K. and Londono, Camacho J. and Reil, J. and Oberhofer, M. and Mannebach, S. and Mathar, I and Philipp, S. and Tabellion, W. and Schweda, F. and Dietrich, A. and Kaestner, L. and Laufs, U. and Birnbaumer, L. and Flockerzi, V and Lipp, P. and Freichel, M. (2015) The development of cardiac hypertrophy is critically regulated by a Background Ca2+ Entry (BGCE) pathway mediated by TRPC1/TRPC4. SPRINGER, NEW YORK.
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Federlein, A. and Valletta, D. and Staffel, J. and Schweda, F. (2015) Prorenin derived from renal tubules contributes to high circulating prorenin levels in diabetes mellitus. WILEY-BLACKWELL, HOBOKEN.
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Londono, Juan E. Camacho and Tian, Qinghai and Hammer, Karin and Schroeder, Laura and Londono, Julia Camacho and Reil, Jan C. and He, Tao and Oberhofer, Martin and Mannebach, Stefanie and Mathar, Ilka and Philipp, Stephan E. and Tabellion, Wiebke and Schweda, Frank and Dietrich, Alexander and Kaestner, Lars and Laufs, Ulrich and Birnbaumer, Lutz and Flockerzi, Veit and Freichel, Marc and Lipp, Peter (2015) A background Ca2+ entry pathway mediated by TRPC1/TRPC4 is critical for development of pathological cardiac remodelling. EUROPEAN HEART JOURNAL, 36 (33). pp. 2257-2266. ISSN 0195-668X, 1522-9645
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Schweda, Frank (2015) Salt feedback on the renin-angiotensin-aldosterone system. SPRINGER HEIDELBERG, HEIDELBERG.
Staffel, J. and Valletta, D. and Kuhn, M. and Schweda, F. (2015) Natriuretic peptides exert marked renoprotective effects via activation of the natriuretic peptide receptor GC-A in podocytes. WILEY-BLACKWELL, HOBOKEN.
Staffel, Janina and Valletta, Daniela and Federlein, Anna and Kuhn, Michaela and Schweda, Frank (2015) Natriuretic Peptides Exert Marked Renoprotective Effects Via Activation of the Natriuretic Peptide Receptor GC-A in Podocytes. FEDERATION AMER SOC EXP BIOL, BETHESDA.
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Valletta, Daniela and Schreiber, Andrea and Schiessl, Ina Maria and Schweda, Frank (2015) Increase in tubular flow directly induces hypertrophy of proximal tubular cells. FEDERATION AMER SOC EXP BIOL, BETHESDA.
