László Héja

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Indice H	20	15
i10-index	33	20

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Julianna Kardosprofessor emeritus, Hungarian Academy of SciencesEmail verificata su ttk.mta.hu
Arpad DobolyiEötvös Loránd UniversityEmail verificata su caesar.elte.hu
Orsolya Sara Kékesi, PhDSchool of Biomedical Engineering, University of SydneyEmail verificata su sydney.edu.au
Balint LasztocziMedical University of ViennaEmail verificata su meduniwien.ac.at
Istvan JablonkaiEmail verificata su ttk.mta.hu
Katalin JemnitzTudományos főmunkatárs, MTA TTK Szerveskémiai IntézetEmail verificata su ttk.mta.hu
Barabás PéterQueen's University Belfast, Belfast, UKEmail verificata su qub.ac.uk
Szabó PálResearch Centre for Natural Sciences, Budapest, HungaryEmail verificata su ttk.hu
Istvan UlbertResearch Centre for Natural SciencesEmail verificata su ttk.hu
Zsolt KovácsDepartment of Biology, Savaria University Centre, ELTE Eötvös Loránd University, SzombathelyEmail verificata su sek.elte.hu
Adrienna KekesiELTE Eötvös Loránd UniversityEmail verificata su ttk.elte.hu
Tamas I. OrbanInstitute of Enzymology, RCNS, HungaryEmail verificata su biomembrane.hu
András FürediMicrosystem Laboratory, HUN-REN Centre for Energy Research; Institute of Enzymology, HUN-REN RCNSEmail verificata su ttk.hu
Richárd FiáthReserach Centre for Natural SciencesEmail verificata su ttk.hu
Balázs SarkadiHungarian Academy of Sciences, Semmelweis University, Institute of EnzymologyEmail verificata su biomembrane.hu
Kornélia SzebényiUniversity of CambridgeEmail verificata su cam.ac.uk
László BiczókResearch Centre for Natural Sciences, Budapest, HungaryEmail verificata su ttk.mta.hu
Zsombor MiskolczyEmail verificata su ttk.mta.hu
Tamás Tompafőiskolai tanár, Miskolci EgyetemEmail verificata su uni-miskolc.hu
Ágota ApátiMTA-TTK, Enzimológiai IntézetEmail verificata su biomembrane.hu

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László Héja

Research Centre for Natural Sciences, Hungarian Academy of Sciences

Email verificata su ttk.mta.hu

Neuroscience


Titolo Ordina per citazioni Ordina per anno Ordina per titolo	Citata da Citata da	Anno
Copper signalling: causes and consequences J Kardos, L Héja, Á Simon, I Jablonkai, R Kovács, K Jemnitz Cell Communication and Signaling 16, 1-22, 2018	198	2018
Astrocytes convert network excitation to tonic inhibition of neurons L Héja, G Nyitrai, O Kékesi, Á Dobolyi, P Szabó, R Fiáth, I Ulbert, ... BMC biology 10 (1), 26, 2012	161	2012
Glutamate uptake triggers transporter-mediated GABA release from astrocytes L Héja, P Barabás, G Nyitrai, KA Kékesi, B Lasztóczi, O Tőke, G Tárkányi, ... PloS one 4 (9), e7153, 2009	140	2009
Extensive astrocyte synchronization advances neuronal coupling in slow wave activity in vivo Z Szabó, L Héja, G Szalay, O Kékesi, A Füredi, K Szebényi, Á Dobolyi, ... Scientific reports 7 (1), 6018, 2017	87	2017
Astrocyte sodium signaling and the regulation of neurotransmission S Kirischuk, L Héja, J Kardos, B Billups Glia 64 (10), 1655-1666, 2016	81	2016
Synchronization of GABAergic inputs to CA3 pyramidal cells precedes seizure-like event onset in juvenile rat hippocampal slices B Lasztóczi, G Nyitrai, L Héja, J Kardos Journal of neurophysiology 102 (4), 2538-2553, 2009	64	2009
Recurrent seizure-like events are associated with coupled astroglial synchronization O Kékesi, E Ioja, Z Szabó, J Kardos, L Héja Frontiers in cellular neuroscience 9, 215, 2015	40	2015
The hippocampal CA3 region can generate two distinct types of sharp wave‐ripple complexes, in vitro KT Hofer, Á Kandrács, I Ulbert, I Pál, C Szabó, L Héja, L Wittner Hippocampus 25 (2), 169-186, 2015	34	2015
Neuronal and Astroglial Correlates Underlying Spatiotemporal Intrinsic Optical Signal in the Rat Hippocampal Slice I Pál, G Nyitrai, J Kardos, L Héja PLOS ONE 8 (3), e57694, 2013	32	2013
Astrocytic Target Mechanisms in Epilepsy L Héja Current medicinal chemistry 21 (6), 755-763, 2014	31	2014
Polyamidoamine dendrimer impairs mitochondrial oxidation in brain tissue G Nyitrai, L Héja, I Jablonkai, I Pál, J Visy, J Kardos Journal of nanobiotechnology 11 (1), 9, 2013	31	2013
Non-adenosine nucleoside inosine, guanosine and uridine as promising antiepileptic drugs: a summary of current literature Z Kovács, K A Kekesi, G Juhász, J Barna, L Héja, R Lakatos, Á Dobolyi Mini reviews in medicinal chemistry 14 (13), 1033-1042, 2014	30	2014
Major human gamma-aminobutyrate transporter: in silico prediction of substrate efficacy. A Palló, A Bencsura, L Héja, T Beke, A Perczel, J Kardos, A Simon Biochem. Biophys. Res. Commun 364 (4), 952-958, 2007	29	2007
Connexin 43 Differentially Regulates Epileptiform Activity in Models of Convulsive and Non-Convulsive Epilepsies R Vincze, M Péter, Z Szabó, J Kardos, L Héja, Z Kovács Frontiers in Cellular Neuroscience 13, 173, 2019	26	2019
Sodium selective ion channel formation in living cell membranes by polyamidoamine dendrimer G Nyitrai, T Keszthelyi, A Bóta, Á Simon, O Tőke, G Horváth, I Pál, ... Biochimica et Biophysica Acta (BBA)-Biomembranes 1828 (8), 1873-1880, 2013	26	2013
Role for GABA and Glu plasma membrane transporters in the interplay of inhibitory and excitatory neurotransmission L Héja, K Karacs, J Kardos Current topics in medicinal chemistry 6 (10), 989-995, 2006	26	2006
Calcium signals in the nucleus accumbens: activation of astrocytes by ATP and succinate T Molnár, Á Dobolyi, G Nyitrai, P Barabás, L Héja, Z Emri, M Palkovits, ... BMC neuroscience 12 (1), 96, 2011	25	2011
The nature of early astroglial protection—Fast activation and signaling J Kardos, L Héja, K Jemnitz, R Kovács, M Palkovits Progress in neurobiology 153, 86-99, 2017	22	2017
Framing Neuro-Glia Coupling in Antiepileptic Drug Design J Kardos, Z Szabó, L Héja Journal of Medicinal Chemistry, 2015	20	2015
γ‐Hydroxybutyrate binds to the synaptic site recognizing succinate monocarboxylate: A new hypothesis on astrocyte–neuron interaction via the protonation of succinate T Molnár, P Barabás, L Héja, EK Fekete, B Lasztóczi, P Szabó, G Nyitrai, ... Journal of neuroscience research 86 (7), 1566-1576, 2008	20	2008

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