Dr. Wolfgang Kelsch
DFG-Emmy-Noether-Group Developmental Biology
ZI Mannheim, Universitšt Heidelberg
J5, 68158 Mannheim
+49(0)621 1703 6213
General research interests and goals:
Experiences are imprinted into synaptic connections during postnatal development. This experience-dependent synaptic wiring appears to develop on the background of genetically-determined connectivity patterns.
We aim to understand the gene x environment interactions that control the synaptic wiring of new neurons in the developing brain. As a model system, we study the olfactory system. Among our senses, olfactory inputs have the most direct access to the limbic system and evoke innate and learned behaviors with lasting aversive and appetitive memories. The olfactory system maintains stem cell niches providing a source for continuous addition of new neurons to adult brain circuits. The synaptic wiring of adult-born neurons is shaped both by genetic determination at stem cell stage and an experience-dependent period.
In parallel, we study the postnatal developmental trajectory of the dopaminergic system with similar aims to dissect genetic and environmental influences on mature circuit properties. These limbic circuits modulate the integration and processing of olfactory information and give rise to sensory-guided behaviors. We hope to contribute to a better understanding of gene x environment interactions in synaptic wiring that provides the neuronal basis for the formation of imprints that may give rise to variations in our individual behaviors.
Current group members:
Lennart Oettl / Sebastian Wieland
Kelsch W, Li Z, Eliava M, Goengrich C, Monyer H (2012) GluN2B-containing NMDA receptors promote wiring of adult-born neurons into olfactory bulb circuits.
Kelsch W, Sim S, Lois C (2010) Watching Synaptogenesis in the Adult Brain.
Ann. Rev. Neurosci.
Lin CW, Sim S, Ainsworth A, Okada M, Kelsch W, Lois C (2010) Genetically Increased Cell-Intrinsic Excitability Enhances Neuronal Integration into Adult Brain Circuits.
Kelsch W, Lin CW, Lois C (2008) Sequential development of synapses in dendritic domains during adult neurogenesis.
Proc. Natl. Acad. Sci. USA
Kelsch W, Mosley CP, Lin CW, Lois C (2007) Distinct mammalian precursors are committed to generate neurons with defined dendritic projection patterns.
Board of Directors
Scientific Advisory Board
Teaching & Training
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Bernstein Center Heidelberg / Mannheim