Metabolic control of type 1 regulatory T cell differentiation by AHR and HIF1-α ID Mascanfroni, MC Takenaka, A Yeste, B Patel, Y Wu, JE Kenison, ... Nature medicine 21 (6), 638-646, 2015 | 444 | 2015 |
A biopolymer transistor: electrical amplification by microtubules A Priel, AJ Ramos, JA Tuszynski, HF Cantiello Biophysical journal 90 (12), 4639-4643, 2006 | 156 | 2006 |
Neural cytoskeleton capabilities for learning and memory A Priel, JA Tuszynski, NJ Woolf Journal of biological physics 36, 3-21, 2010 | 97 | 2010 |
Transitions in microtubule C-termini conformations as a possible dendritic signaling phenomenon A Priel, JA Tuszynski, NJ Woolf European Biophysics Journal 35, 40-52, 2005 | 69 | 2005 |
Nanoneuroscience: structural and functional roles of the neuronal cytoskeleton in health and disease NJ Woolf, A Priel Springer Science & Business Media, 2009 | 60 | 2009 |
Microtubule ionic conduction and its implications for higher cognitive functions TJA Craddock, JA Tuszynski, A Priel, H Freedman Journal of integrative neuroscience 9 (02), 103-122, 2010 | 54 | 2010 |
Model of ionic currents through microtubule nanopores and the lumen H Freedman, V Rezania, A Priel, E Carpenter, SY Noskov, JA Tuszynski Physical Review E 81 (5), 051912, 2010 | 50 | 2010 |
A nonlinear cable-like model of amplified ionic wave propagation along microtubules A Priel, JA Tuszyński Europhysics Letters 83 (6), 68004, 2008 | 46 | 2008 |
Keeping time: Could quantum beating in microtubules be the basis for the neural synchrony related to consciousness? TJA Craddock, A Priel, JA Tuszynski Journal of integrative neuroscience 13 (02), 293-311, 2014 | 38 | 2014 |
The dendritic cytoskeleton as a computational device: an hypothesis A Priel, JA Tuszynski, HF Cantiello The emerging physics of consciousness, 293-325, 2006 | 35 | 2006 |
Electrodynamic signaling by the dendritic cytoskeleton: toward an intracellular information processing model A Priel, JA Tuszynski, HF Cantiello Electromagnetic Biology and Medicine 24 (3), 221-231, 2005 | 32 | 2005 |
Effect of calcium on electrical energy transfer by microtubules A Priel, AJ Ramos, JA Tuszynski, HF Cantiello Journal of biological physics 34, 475-485, 2008 | 29 | 2008 |
Robust chaos generation by a perceptron A Priel, I Kanter Europhysics Letters 51 (2), 230, 2000 | 29 | 2000 |
Analytical study of time series generation by feed-forward networks I Kanter, DA Kessler, A Priel, E Eisenstein Physical review letters 75 (13), 2614, 1995 | 29 | 1995 |
Computational capabilities of restricted two-layered perceptrons A Priel, M Blatt, T Grossmann, E Domany, I Kanter Physical Review E 50 (1), 577, 1994 | 27 | 1994 |
Electronic and ionic conductivities of microtubules and actin filaments, their consequences for cell signaling and applications to bioelectronics JMD Jack A. Tuszynski, Avner Priel, J.A. Brown, Horacio F. Cantiello Nano and Molecular Electronics Handbook, 624-669, 2007 | 25* | 2007 |
Ionic waves propagation along the dendritic cytoskeleton as a signaling mechanism A Priel, JA Tuszynski, HF Cantiello Advances in Molecular and Cell Biology 37, 163-180, 2006 | 16 | 2006 |
Long-term properties of time series generated by a perceptron with various transfer functions A Priel, I Kanter Physical Review E 59 (3), 3368, 1999 | 16 | 1999 |
Network representation of T-cell repertoire—a novel tool to analyze immune response to cancer formation A Priel, M Gordin, H Philip, A Zilberberg, S Efroni Frontiers in immunology 9, 2913, 2018 | 15 | 2018 |
Time series generation by recurrent neural networks A Priel, I Kanter Annals of Mathematics and Artificial Intelligence 39, 315-332, 2003 | 14 | 2003 |