Researcher Portfolio
Grudzinska, J.
Neurochemistry Department, Max Planck Institute for Brain Research, Max Planck Society
Researcher Profile
Position: Neurochemistry Department, Max Planck Institute for Brain Research, Max Planck Society
Researcher ID: https://pure.mpg.de/cone/persons/resource/persons207986
Publications
: Schumann, T., Grudzinska, J., Kuzmin, D., Betz, H., & Laube, B. (2009). Binding-site mutations in the alpha 1 subunit of the inhibitory glycine receptor convert the inhibitory metal ion Cu2+ into a positive modulator. Neuropharmacology, 56(1), 310-317. [PubMan] : Maksay, G., Laube, B., Schemm, R., Grudzinska, J., Drwal, M., & Betz, H. (2009). Different binding modes of tropeines mediating inhibition and potentiation of alpha 1 glycine receptors. Journal of Neurochemistry, 109(6), 1725-1732. [PubMan] : Schumann, T., Grudzinska, J., Betz, H., & Laube, B. (2008). Binding-site mutaions in the α1 subunit of the inhibitory glycine receptor convert the inhibitory metal ion Cu2+ into a positive modulator. Neuropharmacology, 56, 310-317. [PubMan] : Hirzel, K., Müller, U., Latal, A. T., Hülsmann, S., Grudzinska, J., Seeliger, M. W., Betz, H., & Laube, B. (2006). Hyperekplexia phenotype of glycine receptor alpha 1 subunit mutant mice identifies Zn2+ as an essential endogenous modulator of glycinergic neurotransmission. Neuron, 52(4), 679-690. [PubMan] : Grudzinska, J. (2005). Charakterisierung der Ligandenbindung an a1 homo- und a1b heterooligomeren Glyzinrezeptor. PhD Thesis, Johann Wolfgang Goethe-Universität, Frankfurt am Main. [PubMan] : Grudzinska, J., Schemm, R., Haeger, S., Nicke, A., Schmalzing, G., Betz, H., & Laube, B. (2005). The beta subunit determines the ligand binding properties of synaptic glycine receptors. Neuron, 45(5), 727-739. [PubMan] : Betz, H., Laube, B., Schemm, R., Grudzinska, J., Kneussel, M., Fuhrmann, J., & O'Sullivan, G. (2003). Neurotransmitter-gated chloride channels in postsynaptic membranes. Journal of General Physiology, 122(1), 7A-7A. [PubMan] : Grudzinska, J. (2002). Zielgerichtete Mutagenese und eletrophysiologische Charakterisierung der humanen α1-Untereinheit des Glycinrezeptors zur Identifizierung von Determinanten der Ligandenbindung. Thesis, Johann Wolfgang Goethe-Universität, Frankfurt am Main. [PubMan]