Wissenschaftliche Publikationen Suche Suche Forschungsgruppe Veröffentlichungsdatum Suchen Sortieren nach RelevanceFrom A-ZAuthored onDate/Time RangeRelease date Reihenfolge AufsteigendAbsteigend (-) Synaptische Transmission und Plastitzität (4) 1995 (6) 1996 (1) 1997 (7) 1998 (10) (-) 1999 (4) 2000 (7) 2001 (7) 2002 (3) 2003 (3) 2004 (3) 2006 (2) 2007 (5) 2008 (7) 2009 (9) 2010 (7) 2011 (9) 2012 (10) 2013 (8) 2014 (1) 2015 (9) 2016 (9) 2017 (5) 2018 (10) 2019 (11) 2020 (12) 2021 (10) 2022 (15) 2023 (10) 4 Ergebnisse: Active Filter: Synaptische Transmission und Plastitzität1999 Sortieren: Treffgenauigkeit Neueste nach älteste Älteste nach neueste 15. Dezember 1999 / Eur J Pharmacol Retigabine strongly reduces repetitive firing in rat entorhinal cortex R. Hetka C. Rundfeldt U. Heinemann D. Schmitz 01. Oktober 1999 / Eur J Neurosci Carbachol-induced changes in excitability and [Ca2+]i signalling in projection cells of medial entorhinal cortex layers II and III T. Gloveli A.V. Egorov D. Schmitz U. Heinemann W. Mueller 01. September 1999 / Br J Pharmacol Potent depression of stimulus evoked field potential responses in the medial entorhinal cortex by serotonin D. Schmitz T. Gloveli R.M. Empson U. Heinemann 01. Mai 1999 / Neuroscience High-frequency population oscillations are predicted to occur in hippocampal pyramidal neuronal networks interconnected by axoaxonal gap junctions R.D. Traub D. Schmitz J.G.R. Jefferys A. Draguhn
15. Dezember 1999 / Eur J Pharmacol Retigabine strongly reduces repetitive firing in rat entorhinal cortex R. Hetka C. Rundfeldt U. Heinemann D. Schmitz
01. Oktober 1999 / Eur J Neurosci Carbachol-induced changes in excitability and [Ca2+]i signalling in projection cells of medial entorhinal cortex layers II and III T. Gloveli A.V. Egorov D. Schmitz U. Heinemann W. Mueller
01. September 1999 / Br J Pharmacol Potent depression of stimulus evoked field potential responses in the medial entorhinal cortex by serotonin D. Schmitz T. Gloveli R.M. Empson U. Heinemann
01. Mai 1999 / Neuroscience High-frequency population oscillations are predicted to occur in hippocampal pyramidal neuronal networks interconnected by axoaxonal gap junctions R.D. Traub D. Schmitz J.G.R. Jefferys A. Draguhn