Publications

  1. Jász A, Biró L, Buday Z, Király B, Szalárdy O, Horváth K, Komlósi G, Bódizs R, Kovács KJ , Diana MA, Hangya B , Acsády L; Persistently increased post-stress activity of paraventricular thalamic neurons is essential for the emergence of stress-induced alterations in behavior. PLOS Biology 2025; 23(1): e3002962, PubMed
  2. Ozsvár A, Komlósi G, Oláh G, Baka J, Molnár G, Tamás G; Predominantly linear summation of metabotropic postsynaptic potentials follows coactivation of neurogliaform interneurons. eLife 2021; 10:e65634; PubMed
  3. Mátyás F1, Komlósi G1, Babiczky Á, Kocsis K, Barthó P, Barsy B, Dávid C, Kanti V, Porrero C, Magyar A, Szűcs I, Clasca F, Acsády L; A highly collateralized thalamic cell type with arousal-predicting activity serves as a key hub for graded state transitions in the forebrain, Nature Neuroscience, 2018; 21: 1551–1562; PubMed
  4. Komlósi G, Molnár G, Rózsa M, Oláh S, Barzó P, Tamás G; Fluoxetine (Prozac) and serotonin act on excitatory synaptic transmission to suppress single layer 2/3 pyramidal neuron-triggered cell assemblies in the human prefrontal cortex. Journal of Neuroscience 2012; 32(46):16369-78; PubMed
  5. Oláh S, Füle M, Komlósi G, Varga C, Báldi R, Barzó P, Tamás G: Regulation of cortical microcircuits by unitary GABA-mediated volume transmission. Nature, 2009; 461(7268):1278-81; PubMed
  6. Molnár G, Oláh S, Komlósi G, Füle M, Szabadics J, Varga C, Barzó P, Tamás G; Complex Events Initiated by Individual Spikes in the Human Cerebral Cortex. PLOS Biology 2008; 6(9):e222; PubMed
  7. Oláh S, Komlósi G, Szabadics J, Tóth É, Barzó P, Tamás G; Output of neurogliaform cells to various neuron types in the human and rat cerebral cortex. Frontiers in Neural Circuits 2007; 1:4; PubMed