Wissenschaftliche Publikationen Suche Suche Autor/in Veröffentlichungsdatum Wirkungsfaktor Suchen Sortieren nach RelevanceFrom A-ZAuthored onDate/Time RangeRelease date Reihenfolge AufsteigendAbsteigend Bader, Michael Prof. Dr. (11) Bähring, Sylvia Dr. (1) Birchmeier, Walter Prof. Dr. (12) Birchmeier-Kohler, Carmen Prof. Dr. (3) Blankenstein, Thomas Prof. Dr. (5) Dechend, Ralf Priv. Doz. (3) Falcke, Martin Prof. Dr. (3) Gotthardt, Michael Prof. Dr. (1) Hübner, Norbert Prof. Dr. (2) Kettenmann, Helmut Prof. Dr. (11) Kettritz, Ralph Prof. Dr. (2) Klußmann, Enno PD Dr. (1) Kühn, Ralf Dr. (5) Leutz, Achim Prof. Dr. (4) Lewin, Gary Prof. Dr. (4) Luft, Friedrich Prof. Dr. (25) Morano, Ingo Prof. Dr. (5) Niendorf, Thoralf Prof. Dr. (3) Rajewsky, Klaus Prof. Dr. (4) Sander, Maike Prof. Dr. (1) Scheidereit, Claus Prof. Dr. (2) Schulz-Menger, Jeanette Prof. Dr. (1) Spuler, Simone Prof. (2) Stein, Ulrike Prof. Dr. (8) Walther, Wolfgang Prof. Dr. (6) Willnow, Thomas Prof. Dr. (6) (-) Jentsch, Thomas Prof. Dr. (11) 1980 - 1989 (22) 1990 (2) 1991 (3) 1992 (3) 1993 (3) (-) 1994 (11) 1995 (9) 1996 (8) 1997 (12) 1998 (13) 1999 (6) 2000 (15) 2002 (6) 2003 (7) 2004 (7) 2005 (10) 2006 (12) 2007 (6) 2008 (9) 2009 (9) 2010 (15) 2011 (8) 2012 (9) 2013 (12) 2015 (12) 2016 (13) 2017 (16) 2018 (17) 2020 (13) 2021 (18) 2022 (15) 2023 (16) 2024 (7) 11 Ergebnisse: Active Filter: Jentsch, Thomas Prof. Dr.1994 Sortieren: Treffgenauigkeit Neueste nach älteste Älteste nach neueste 04. November 1994 / J Biol Chem Role of innervation, excitability, and myogenic factors in the expression of the muscular chloride channel ClC-1. A study on normal and myotonic muscle R. Klocke K. Steinmeyer T.J. Jentsch H. Jockusch Oktober 1994 / Physiol Rev Molecular physiology of voltage-gated chloride channels M. Pusch T.J. Jentsch August 1994 / Curr Opin Cell Biol Molecular physiology of anion channels T.J. Jentsch 19. Juli 1994 / Proc Natl Acad Sci U S A Two highly homologous members of the ClC chloride channel family in both rat and human kidney S. Kieferle P. Fong M. Bens A. Vandewalle T.J. Jentsch Juni 1994 / Hum Mol Genet Genomic organization of the human muscle chloride channel CIC-1 and analysis of novel mutations leading to Becker-type myotonia C. Lorenz C. Meyer-Kleine K. Steinmeyer M.C. Koch T.J. Jentsch 25. Februar 1994 / J Biol Chem Nonsense and missense mutations in the muscular chloride channel gene Clc-1 of myotonic mice M. Gronemeier A. Condie J. Prosser K. Steinmeyer T.J. Jentsch H. Jockusch 15. Februar 1994 / EMBO J Multimeric structure of ClC-1 chloride channel revealed by mutations in dominant myotonia congenita (Thomsen) K. Steinmeyer C. Lorenz M. Pusch M.C. Koch T.J. Jentsch 03. Februar 1994 / Nature Trinity of cation channels T.J. Jentsch Januar 1994 / Biophys J Low single channel conductance of the major skeletal muscle chloride channel, ClC-1 M. Pusch K. Steinmeyer T.J. Jentsch 1994 / Jpn J Physiol Structure and function of ClC chloride channels T.J. Jentsch Seitennummerierung Aktuelle Seite 1 Seite 2 Nächste Seite Next › Letzte Seite Last »
04. November 1994 / J Biol Chem Role of innervation, excitability, and myogenic factors in the expression of the muscular chloride channel ClC-1. A study on normal and myotonic muscle R. Klocke K. Steinmeyer T.J. Jentsch H. Jockusch
Oktober 1994 / Physiol Rev Molecular physiology of voltage-gated chloride channels M. Pusch T.J. Jentsch
19. Juli 1994 / Proc Natl Acad Sci U S A Two highly homologous members of the ClC chloride channel family in both rat and human kidney S. Kieferle P. Fong M. Bens A. Vandewalle T.J. Jentsch
Juni 1994 / Hum Mol Genet Genomic organization of the human muscle chloride channel CIC-1 and analysis of novel mutations leading to Becker-type myotonia C. Lorenz C. Meyer-Kleine K. Steinmeyer M.C. Koch T.J. Jentsch
25. Februar 1994 / J Biol Chem Nonsense and missense mutations in the muscular chloride channel gene Clc-1 of myotonic mice M. Gronemeier A. Condie J. Prosser K. Steinmeyer T.J. Jentsch H. Jockusch
15. Februar 1994 / EMBO J Multimeric structure of ClC-1 chloride channel revealed by mutations in dominant myotonia congenita (Thomsen) K. Steinmeyer C. Lorenz M. Pusch M.C. Koch T.J. Jentsch
Januar 1994 / Biophys J Low single channel conductance of the major skeletal muscle chloride channel, ClC-1 M. Pusch K. Steinmeyer T.J. Jentsch