Publications of Peter H. Seeburg

Monyer, H.; Seeburg, P. H.: Constituents involved in glutamate receptor signaling. Hippocampus 3 (S1), pp. 125 - 129 (1993)

Wisden, W.; Seeburg, P. H.: Mammalian ionotropic glutamate receptors. Current Opinion in Neurobiology 3 (3), pp. 291 - 298 (1993)

Stein, E.; Cox, J. A.; Seeburg, P. H.; Verdoorn, T. A.: Complex pharmacological properties of recombinant alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate receptor subtypes. Molecular Pharmacology 42 (5), pp. 864 - 871 (1992)

Burnashev, N.; Schöpfer, R.; Monyer, H.; Ruppersberg, J. P.; Guenther, W.; Seeburg, P. H.; Sakmann, B.: Control by asparagine residues of calcium permeability and magnesium blockade in the NMDA receptor. Science 257 (5075), pp. 1415 - 1419 (1992)

Burnashev, N.; Schöpfer, R.; Monyer, H.; Ruppersberg, J. P.; Günther, W.; Seeburg, P. H.; Sakmann, B.: Control by asparagine residues of calcium permeability and magnesium blockade in the NMDA receptor. Science 257 (5075), pp. 1415 - 1419 (1992)

Lomeli, H.; Wisden, W.; Köhler, M.; Keinänen, K.; Sommer, B.; Seeburg, P. H.: High-affinity kainate and domoate receptors in rat brain. FEBS Letters 307 (2), pp. 139 - 143 (1992)

Sommer, B.; Seeburg, P. H.: Glutamate receptor channels: novel properties and new clones. Trends in Pharmacological Sciences 13 (7), pp. 291 - 296 (1992)

Burnashev, N.; Khodorova, A.; Jonas, P.; Helm, P. J.; Wisden, W.; Monyer, H.; Seeburg, P. H.; Sakmann, B.: Calcium-permeable AMPA-kainate receptors in fusiform cerebellar glial cells. Science 256, pp. 1566 - 1570 (1992)

Carter, D. B.; Thomsen, D. R.; Im, W. B.; Lennon, D. J.; Ngo, D. M.; Gale, W.; Im, H. K.; Seeburg, P. H.; Smith, M. W.: Functional expression of GABAA chloride channels and benzodiazepine binding sites in baculovirus infected insect cells. Nature Biotechnology 10 (6), pp. 679 - 681 (1992)

Wisden, W.; Seeburg, P. H.: GABAA receptor channels: from subunits to functional entities. Current Opinion in Neurobiology 2 (3), pp. 263 - 269 (1992)

Monyer, H.; Sprengel, R.; Schöpfer, R.; Herb, A.; Higuchi, M.; Lomeli, H.; Burnashev, N.; Sakmann, B.; Seeburg, P. H.: Heteromeric NMDA receptors: molecular and functional distinction of subtypes. Science 256 (5060), pp. 1217 - 1221 (1992)

Krause, J.; Eva, C.; Seeburg, P. H.; Sprengel, R.: Neuropeptide Y1 subtype pharmacology of a recombinantly expressed neuropeptide receptor. Molecular Pharmacology 41 (5), pp. 817 - 821 (1992)

Müller, F.; Greferath, U.; Wässle, H.; Wisden, W.; Seeburg, P. H.: Glutamate receptor expression in the rat retina. Neuroscience Letters 138 (1), pp. 179 - 182 (1992)

Herb, A.; Burnashev, N.; Werner, P.; Sakmann, B.; Wisden, W.; Seeburg, P. H.: The KA-2 subunit of excitatory amino acid receptors shows widespread expression in brain and forms ion channels with distantly related subunits. Neuron 8, pp. 775 - 785 (1992)

Sommer, B.; Burnashev, N.; Verdoorn, T. A.; Keinänen, K.; Sakmann, B.; Seeburg, P. H.: A glutamate receptor channel with high affinity for domoate and kainate. The EMBO Journal 11 (4), pp. 1651 - 1656 (1992)

Laurie, D. J.; Wisden, W.; Seeburg, P. H.: The distribution of 13 GABAA receptor subunit mRNAs in the rat brain. II. Olfactory bulb and cerebellum. The Journal of Neuroscience 12 (3), pp. 1063 - 1076 (1992)

Wisden, W.; Laurie, D. J.; Monyer, H.; Seeburg, P. H.: The distribution of 13 GABAA receptor subunit mRNAs in the rat brain. I. Telencephalon, diencephalon, mesencephalon. The Journal of Neuroscience 12 (3), pp. 1040 - 1062 (1992)

Korpi, E. R.; Lüddens, H.; Seeburg, P. H.: GABAA antagonists reveal binding sites for [35S]TBPS in cerebellar granular cell layer. European Journal of Pharmacology 211 (3), pp. 427 - 428 (1992)

Herb, A.; Wisden, W.; Lüddens, H.; Puia, G.; Vicini, S.; Seeburg, P. H.: The third gamma subunit of the gamma-aminobutyric acid type A receptor family. Proceedings of the National Academy of Sciences of the United States of America 89 (4), pp. 1433 - 1437 (1992)

Sommer, B.; Monyer, H.; Wisden, W.; Verdoorn, T. A.; Burnashev, N.; Sprengel, R.; Sakmann, B.; Seeburg, P. H.: Glutamate-gated ion channels in the brain. Genetic mechanism for generating molecular and functional diversity. Arzneimittel−Forschung 42 (2A), pp. 209 - 210 (1992)