References

Voltage Gated Calcium Channel Activation by Backpropagating Action Potentials Downregulates NMDAR Function. Anne-Kathrin Theis, Balázs Rózsa, Gergely Katona, Dietmar Schmitz and Friedrich W. Johenning, Front. Cell. Neurosci. (2018)

Electrical behaviour of dendritic spines as revealed by voltage imaging. Marko A. Popovic, Nicholas Carnevale, Balazs Rozsa; Dejan Zecevic, Nature Communications (2015)

Dendritic spikes induce ripples in parvalbumin interneurons during hippocampal sharp waves. B Chiovini, G F Turi, G Katona, A Kaszas, D Palfi, P Maak, G Szalay, M F Szabo, Z Szadai, Sz Kali and B Rozsa, Neuron (2014)

Combined two-photon imaging, electrophysiological, and anatomical investigation of the human neocortex in vitro. Balint Peter Kerekes, Kinga Toth, Attila Kaszas, Balazs Chiovini, Zoltan Szadai, Gergely Szalay, Denes Palfi, Attila Bago, Klaudia Spitzer, Balazs Rozsa, Istvan Ulbert, Lucia Wittner, Neurophotonics (2014)

Dendritic spikes induce ripples in parvalbumin interneurons during hippocampal sharp waves. B Chiovini, G F Turi, G Katona, A Kaszas, D Palfi, P Maak, G Szalay, M F Szabo, Z Szadai, Sz Kali and B Rozsa, Neuron (2014)

Fast two-photon in vivo imaging with three-dimensional random-access scanning in large tissue volumes. Gergely Katona, Gergely Szalay, Pál Maak, Attila Kaszas, Mate Veress, Daniel Hillier, Balazs Chiovini, E Sylvester Vizi, Botond Roska & Balazs Rozsa, Nature Methods (2012)

Enhanced Dendritic Action Potential Backpropagation in Parvalbumin-positive Basket Cells During Sharp Wave Activity. B. Chiovini, GF. Turi, G. Katona, A. Kaszas, F. Erdelyi, G. Szabo, H. Monyer, A. Csakanyi, ES. Vizi, B. Rozsa, Neurochemical Research (2010)