posted on 2017-08-29, 08:20authored byTasnuva Sarowar, Stefanie Grabrucker, Karl Föhr, Katharina Mangus, Matti Eckert, Juergen Bockmann, Tobias M. Boeckers, Andreas M. Grabrucker
The majority of neurons within the central nervous system receive their excitatory inputs via small, actin-rich protrusions called dendritic spines. Spines can undergo rapid morphological alterations according to synaptic activity. This mechanism is implicated in learning and memory formation as it is ultimately altering the number and distribution of receptors and proteins at the post-synaptic membrane, thereby regulating synaptic input. The Rho-family GTPases play an important role in regulating this spine plasticity by the interaction with cytoskeletal components and several signaling pathways within the spine compartment. Rho-GAP interacting CIP4 homologue2/RICH2 is a Rho-GAP protein regulating small GTPases and was identified as an interaction partner of the scaffolding protein SHANK3 at post-synaptic densities.
Funding
Study on Aerodynamic Characteristics Control of Slender Body Using Active Flow Control Technique