Andrea Barberis graduated in Biology at the University of Genoa in 1996, studying the permeation of heavy metal ions in L-type calcium channels in cerebellar granule cells in Cesare Usai's Lab (CNR). From 1998 to 2002 he accomplished his PhD studies at the Department of Biophisics–SISSA International School for Advanced Studies- under the supervision of Enrico Cherubini and Jerzy Mozrzymas studying the gating of recombinant and synaptic GABAA receptors. During his post-doc in the Stefano Vicini’s lab at Gergetown University (Washington DC, USA, 2003-2005) he studied the gating properties of different GABAA subtypes by analyzing their single channel behavior in equilibrium and non-equilibrium conditions. From 2005 to 2007 he had a CNRS post-doc in the Christophe Mulle’s lab (Bordeaux, France) studying the kinetics of kainate receptors. Currently, he is group leader at Italian Institute of Technology (IIT) where he focuses on the study of Glutamatergic and GABAergic synapse at high spatial and temporal resolution. His research line aims to understand how the interplay between excitatory and inhibitory synaptic plasticity impacts on the functioning of neuronal circuits.
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Synaptic Plasticity of Inhibitory Networks
Rossetta A., Slenders E., Donato M., Zappone S., Fersini F., Bruno M., Diotalevi F., Lanzanò L., Koho S., Tortarolo G., Barberis A., Crepaldi M., Perego E., Vicidomini G.
The BrightEyes-TTM: an Open-Source Time-Tagging Module for Democratising Single-Photon Microscopy
Article in Press Journal
Slenders E., Perego E., Buttafava M., Tortarolo G., Conca E., Zappone S., Pierzynska-Mach A., Villa F., Petrini E.M., Barberis A., Tosi A., Vicidomini G.
Cooled SPAD array detector for low light-dose fluorescence laser scanning microscopy
Biophysical Reports, vol. 1, (no. 2)
Kuhlemann A., Beliu G., Janzen D., Petrini E.M., Taban D., Helmerich D.A., Doose S., Bruno M., Barberis A., Villmann C., Sauer M., Werner C.
Genetic Code Expansion and Click-Chemistry Labeling to Visualize GABA-A Receptors by Super-Resolution Microscopy
Frontiers in Synaptic Neuroscience, vol. 13
Wiera G., Lebida K., Lech A.M., Brzdak P., Van Hove I., De Groef L., Moons L., Petrini E.M., Barberis A., Mozrzymas J.W.
Long-term plasticity of inhibitory synapses in the hippocampus and spatial learning depends on matrix metalloproteinase 3
Cellular and Molecular Life Sciences, vol. 78, (no. 5), pp. 2279-2298
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