Publications of Veit Witzemann
All genres
Book Chapter (15)
101.
Book Chapter
Differential expression of receptor subunits: a mechanism underlying developmental changes in synaptic transmission. In: Neuromuscular Junction, pp. 235 - 247 (Eds. Sellin, L.C.; Sibelius, R.; Thesleff, S.). Elsevier Science Publishers, Amsterdam (1989)
102.
Book Chapter
Developmental regulation of acetylcholine receptor-subunit mRNA at the rat neuromuscular junction. In: Molecular Biology of Neuroreceptors and Ion Channels, pp. 509 - 517 (Ed. Maelicke, A.). Springer, Heidelberg−Berlin (1989)
103.
Book Chapter
Mechanisms regulating the expression and function of acetylcholine receptor. In: Cellular and Molecular Basis of Synaptic Transmission, pp. 453 - 461 (Ed. Zimmermann, H.). Springer, Heidelberg / Berlin (1988)
104.
Book Chapter
Organization and function of the cholinergic synapse. In: Ion Channels and Receptors, pp. 63 - 69 (Eds. Ovchinnikov, Y.A.; Hucho, F.). de Gruyter, Berlin, New York (1987)
105.
Book Chapter
33, pp. 155 - 159 (Ed. Lüttgau, H.C.). Gustav Fischer Verlag, Stuttgart (1986)
Rat brain sodium channels recorded from Xenopus oocytes. In: Membrane Control of Cellular Activity, Vol. 106.
Book Chapter
Major proteins of the electric organ from torpedo marmorata − possible association with the postsynaptic membrane. In: Molecular Basis of Nerve Activity, pp. 293 - 302 (Eds. Changeux, J. P.; Hucho, F.; Maelicke, A.; Neumann, E.). de Gruyter, Berlin, New York (1985)
107.
Book Chapter
Embryological differentiation of the postsynaptic membrane of the Torpedo electromotor synapse. In: Molecular Aspects of Neurological Disordes, pp. 115 - 122 (Ed. Jeffrey, P. L.). Academ. Press, North Ryde, Australia (1983)
108.
Book Chapter
Embryological development of the electric organ of torpedo marmorata: in vitro translation of embryonic mRNA. In: Biochemistry of the Nervous Neuroreceptors, pp. 215 - 220 (Ed. Hucho, F.). de Gruyter, Berlin, New York (1982)
109.
Book Chapter
Embryological development of the electric organ of torpedo marmorata: acetylcholine receptor and acetylcholinesterase. In: Biochemistry of the Nervous Neuroreceptors, pp. 203 - 213 (Ed. Hucho, F.). de Gruyter, Berlin, New York (1982)
110.
Book Chapter
Volume 25, pp. 47 - 58 (Eds. Pepeu, G.; Ladinsky, H.). Plenum Press, New York (1981)
The chemical embryology of the electromotor system of torpedo marmorata. In: Cholinergic Mechanisms. Phylogenetic Aspects, Ventral and Peripheral Synapses, and Clinical Significance, Vol. 111.
Book Chapter
Volume 25, pp. 653 - 658 (Eds. Pepeu, G.; Ladinsky, H.). Plenum Press, New York (1981)
Studies on the structure of acetylcholine receptor. In: Cholinergic Mechanisms., Vol. 112.
Book Chapter
28, pp. 335 - 340 (1980)
Possible role of parotid adrenergic beta-receptors in sialadenosis. In: Advances in Physiological Sciences, Vol. 113.
Book Chapter
3, pp. 159 - 182 (Eds. Ceccarelli, B.; Clementi, F.). Raven Press, New York (1979)
Properties of Torpedo californica acetylcholine receptor. In: Neurotoxins, Vol. Conference Paper (1)
114.
Conference Paper
Imaging biological membrane structures with a scanning tunneling microscope. In: AIP Conference Proceedings 241, pp. 209 - 218. Scanned Probe Microscopy, 1992. Wickramsinghe, New York (1992)
Poster (7)
115.
Poster
Developmental effects of in utero chronic exposure to neuromuscular junction-affecting drugs. SFB 488 Symposium, Interdisciplinary Center for Neurosciences (2011)
116.
Poster
Distinct functional and structural roles of synaptic elements in synaptogenesis. SFB 488 Symposium, Interdisciplinary Center for Neurosciences (2011)
117.
Poster
AChR in synaptogenesis: availability vs. functionality. Interdisciplinary Center for Neurosciences, Annual Retreat (2010)
118.
Poster
Developmental effects of in utero chronic exposure to neuromuscular junction-affecting drugs. Society for Neuroscience, 40th Annual Meeting (2010)
119.
Poster
Distinct functional and structural roles of synaptic elements in synaptogenesis. Society for Neuroscience, 40th Annual Meeting (2010)
120.
Poster
Analysis of the neuromuscular junction, synaptic transmission, and muscle contraction in a knock-in mouse with a slow channel congenital myasthenic syndrome. International Congress (2009)