A universal model for spike-frequency adaptation J Benda, AVM Herz Neural computation 15 (11), 2523-2564, 2003 | 546 | 2003 |
Spike-frequency adaptation separates transient communication signals from background oscillations J Benda, A Longtin, L Maler Journal of Neuroscience 25 (9), 2312-2321, 2005 | 230 | 2005 |
Linear versus nonlinear signal transmission in neuron models with adaptation currents or dynamic thresholds J Benda, L Maler, A Longtin Journal of Neurophysiology 104 (5), 2806-2820, 2010 | 132 | 2010 |
A synchronization-desynchronization code for natural communication signals J Benda, A Longtin, L Maler Neuron 52 (2), 347-358, 2006 | 120 | 2006 |
Neuronal mechanisms of mutations in SCN8A causing epilepsy or intellectual disability Y Liu, J Schubert, L Sonnenberg, KL Helbig, CE Hoei-Hansen, M Koko, ... Brain 142 (2), 376-390, 2019 | 109 | 2019 |
The cellular basis for parallel neural transmission of a high-frequency stimulus and its low-frequency envelope JW Middleton, A Longtin, J Benda, L Maler Proceedings of the National Academy of Sciences 103 (39), 14596-14601, 2006 | 109 | 2006 |
A bottom-up approach to data annotation in neurophysiology J Grewe, T Wachtler, J Benda Frontiers in neuroinformatics 5, 16, 2011 | 96 | 2011 |
How noisy adaptation of neurons shapes interspike interval histograms and correlations T Schwalger, K Fisch, J Benda, B Lindner PLoS computational biology 6 (12), e1001026, 2010 | 93 | 2010 |
Genotype-phenotype correlations in SCN8A-related disorders reveal prognostic and therapeutic implications KM Johannesen, Y Liu, M Koko, CE Gjerulfsen, L Sonnenberg, J Schubert, ... Brain 145 (9), 2991-3009, 2022 | 92 | 2022 |
From response to stimulus: adaptive sampling in sensory physiology J Benda, T Gollisch, CK Machens, AVM Herz Current opinion in neurobiology 17 (4), 430-436, 2007 | 80 | 2007 |
Spike-frequency adaptation generates intensity invariance in a primary auditory interneuron J Benda, RM Hennig Journal of computational neuroscience 24, 113-136, 2008 | 79 | 2008 |
Neural adaptation J Benda Current Biology 31 (3), R110-R116, 2021 | 71 | 2021 |
Statistics of natural communication signals observed in the wild identify important yet neglected stimulus regimes in weakly electric fish J Henninger, R Krahe, F Kirschbaum, J Grewe, J Benda Journal of Neuroscience 38 (24), 5456-5465, 2018 | 66 | 2018 |
Channel noise from both slow adaptation currents and fast currents is required to explain spike-response variability in a sensory neuron K Fisch, T Schwalger, B Lindner, AVM Herz, J Benda Journal of Neuroscience 32 (48), 17332-17344, 2012 | 65 | 2012 |
Energy integration describes sound-intensity coding in an insect auditory system T Gollisch, H Schütze, J Benda, AVM Herz Journal of Neuroscience 22 (23), 10434-10448, 2002 | 65 | 2002 |
Limits of linear rate coding of dynamic stimuli by electroreceptor afferents D Gussin, J Benda, L Maler Journal of neurophysiology 97 (4), 2917-2929, 2007 | 63 | 2007 |
The effect of difference frequency on electrocommunication: chirp production and encoding in a species of weakly electric fish, Apteronotus leptorhynchus GJ Hupé, JE Lewis, J Benda Journal of Physiology-Paris 102 (4-6), 164-172, 2008 | 54 | 2008 |
Postsynaptic receptive field size and spike threshold determine encoding of high-frequency information via sensitivity to synchronous presynaptic activity JW Middleton, A Longtin, J Benda, L Maler Journal of Neurophysiology 101 (3), 1160-1170, 2009 | 43 | 2009 |
File format and library for neuroscience data and metadata A Stoewer, CJ Kellner, J Benda, T Wachtler, J Grewe Front. Neuroinform 8 (27), 10.3389, 2014 | 37 | 2014 |
The origin of adaptation in the auditory pathway of locusts is specific to cell type and function KJ Hildebrandt, J Benda, RM Hennig Journal of Neuroscience 29 (8), 2626-2636, 2009 | 36 | 2009 |