Your search keyword '"Stemmler Martin"' showing total 193 results

1. Enthorinal phase precession revisited – single-run analysis of in-vivo grid cell data

Author

Herz Andreas VM, Stemmler Martin B, Reifenstein Eric T, and Schreiber Susanne

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Published

2011

2. A physiologically inspired model for global remapping in the hippocampus

Author

Stemmler Martin, Mathis Alexander, Kammerer Axel, Herz Andreas, and Leibold Christian

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Published

2011

3. How good is grid coding versus place coding for navigation using noisy, spiking neurons?

Author

Stemmler Martin, Mathis Alexander, and Herz Andreas

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Published

2010

4. A Uniform and Isotropic Cytoskeletal Tiling Fills Dendritic Spines.

Author

Eberhardt, Florian, Bushong, Eric, Phan, Sébastien, Peltier, Steven, Monteagudo-Mesas, Pablo, Weinkauf, Tino, Herz, Andreas, Stemmler, Martin, and Ellisman, Mark

Subjects

EM tomography, actin cytoskeleton, cerebellar Purkinje cell, dendritic spines in situ, hippocampal pyramidal cell, image segmentation, Animals, Male, Mice, Dendritic Spines, Actins, Cytoskeleton, Hippocampus, Neurons

Abstract

Dendritic spines are submicron, subcellular compartments whose shape is defined by actin filaments and associated proteins. Accurately mapping the cytoskeleton is a challenge, given the small size of its components. It remains unclear whether the actin-associated structures analyzed in dendritic spines of neurons in vitro apply to dendritic spines of intact, mature neurons in situ. Here, we combined advanced preparative methods with multitilt serial section electron microscopy (EM) tomography and computational analysis to reveal the full three-dimensional (3D) internal architecture of spines in the intact brains of male mice at nanometer resolution. We compared hippocampal (CA1) pyramidal cells and cerebellar Purkinje cells in terms of the length distribution and connectivity of filaments, their branching-angles and absolute orientations, and the elementary loops formed by the network. Despite differences in shape and size across spines and between spine heads and necks, the internal organization was remarkably similar in both neuron types and largely homogeneous throughout the spine volume. In the tortuous mesh of highly branched and interconnected filaments, branches exhibited no preferred orientation except in the immediate vicinity of the cell membrane. We found that new filaments preferentially split off from the convex side of a bending filament, consistent with the behavior of Arp2/3-mediated branching of actin under mechanical deformation. Based on the quantitative analysis, the spine cytoskeleton is likely subject to considerable mechanical force in situ.

Published

2022

5. Probable nature of higher-dimensional symmetries underlying mammalian grid-cell activity patterns

Author

Mathis, Alexander, Stemmler, Martin B., and Herz, Andreas V. M.

Subjects

Quantitative Biology - Neurons and Cognition

Abstract

Lattices abound in nature - from the crystal structure of minerals to the honey-comb organization of ommatidia in the compound eye of insects. Such regular arrangements provide solutions for optimally dense packings, efficient resource distribution and cryptographic schemes, highlighting the importance of lattice theory in mathematics and physics, biology and economics, and computer science and coding theory. Do lattices also play a role in how the brain represents information? To answer this question, we focus on higher-dimensional stimulus domains, with particular emphasis on neural representations of the physical space explored by an animal. Using information theory, we ask how to optimize the spatial resolution of neuronal lattice codes. We show that the hexagonal activity patterns of grid cells found in the hippocampal formation of mammals navigating on a flat surface lead to the highest spatial resolution in a two-dimensional world. For species that move freely in a three-dimensional environment, the firing fields should be arranged along a face-centered cubic (FCC) lattice or a equally dense non-lattice variant thereof known as a hexagonal close packing (HCP). This quantitative prediction could be tested experimentally in flying bats, arboreal monkeys, or cetaceans. More generally, our theoretical results suggest that the brain encodes higher-dimensional sensory or cognitive variables with populations of grid-cell-like neurons whose activity patterns exhibit lattice structures at multiple, nested scales., Comment: 12 pages, 6 figures

Published

2014

6. Multi-Scale Codes in the Nervous System: The Problem of Noise Correlations and the Ambiguity of Periodic Scales

Author

Mathis, Alexander, Herz, Andreas V. M., and Stemmler, Martin B.

Subjects

Quantitative Biology - Neurons and Cognition

Abstract

Encoding information about continuous variables using noisy computational units is a challenge; nonetheless, asymptotic theory shows that combining multiple periodic scales for coding can be highly precise despite the corrupting influence of noise (Mathis et al., Phys. Rev. Lett. 2012). Indeed, cortex seems to use such stochastic multi-scale periodic `grid codes' to represent position accurately. We show here how these codes can be read out without taking the asymptotic limit; even on short time scales, the precision of neuronal grid codes scales exponentially in the number N of neurons. Does this finding also hold for neurons that are not statistically independent? To assess the extent to which biological grid codes are subject to statistical dependencies, we analyze the noise correlations between pairs of grid code neurons in behaving rodents. We find that if the grids of the two neurons align and have the same length scale, the noise correlations between the neurons can reach 0.8. For increasing mismatches between the grids of the two neurons, the noise correlations fall rapidly. Incorporating such correlations into a population coding model reveals that the correlations lessen the resolution, but the exponential scaling of resolution with N is unaffected., Comment: 11 pages, 9 figures

Published

2013

7. Grid codes vs. multi-scale, multi-field place codes for space.

Author

Dietrich, Robin, Waniek, Nicolai, Stemmler, Martin, and Knoll, Alois

Subjects

RECURRENT neural networks, ARTIFICIAL neural networks, ENTORHINAL cortex, MULTISCALE modeling, GRID cells

Abstract

Introduction: Recent work on bats flying over long distances has revealed that single hippocampal cells have multiple place fields of different sizes. At the network level, a multi-scale, multi-field place cell code outperforms classical single-scale, single-field place codes, yet the performance boundaries of such a code remain an open question. In particular, it is unknown how general multi- field codes compare to a highly regular grid code, in which cells form distinct modules with different scales. Methods: In this work, we address the coding properties of theoretical spatial coding models with rigorous analyses of comprehensive simulations. Starting fromamulti-scale,multi-field network, we performed evolutionary optimization. The resulting multi-field networks sometimes retained the multi-scale property at the single-cell level but most often converged to a single scale, with all place fields in a given cell having the same size. We compared the results against a single-scale single-field code and a one-dimensional grid code, focusing on two main characteristics: the performance of the code itself and the dynamics of the network generating it. Results: Our simulation experiments revealed that, under normal conditions, a regular grid code outperforms all other codes with respect to decoding accuracy, achieving a given precision with fewer neurons and fields. In contrast, multi- field codes are more robust against noise and lesions, such as random drop- out of neurons, given that the significantly higher number of fields provides redundancy. Contrary to our expectations, the network dynamics of all models, from the original multi-scale models before optimization to the multi-field models that resulted from optimization, did not maintain activity bumps at their original locations when a position-specific external input was removed. Discussion: Optimizedmulti-field codes appear to strike a compromise between a place code and a grid code that reflects a trade-off between accurate positional encoding and robustness. Surprisingly, the recurrent neural network models we implemented and optimized for either multi- or single-scale, multi-field codes did not intrinsically produce a persistent "memory" of attractor states. These models, therefore, were not continuous attractor networks. [ABSTRACT FROM AUTHOR]

Published

2024

8. Periodic population codes: From a single circular variable to higher dimensions, multiple nested scales, and conceptual spaces

Author

Herz, Andreas VM, Mathis, Alexander, and Stemmler, Martin

Published

2017

9. Spatial Cognition: Grid Cells Harbour Three Complementary Positional Codes

Author

Stemmler, Martin and Herz, Andreas V.M.

Published

2017

10. Local Postsynaptic Voltage-Gated Sodium Channel Activation in Dendritic Spines of Olfactory Bulb Granule Cells

Author

Bywalez, Wolfgang G., Patirniche, Dinu, Rupprecht, Vanessa, Stemmler, Martin, Herz, Andreas V.M., Pálfi, Dénes, Rózsa, Balázs, and Egger, Veronica

Published

2015

11. Automated optimization of a reduced layer 5 pyramidal cell model based on experimental data

Author

Bahl, Armin, Stemmler, Martin B., Herz, Andreas V.M., and Roth, Arnd

Published

2012

12. Grid cells in rat entorhinal cortex encode physical space with independent firing fields and phase precession at the single-trial level

Author

Reifenstein, Eric T., Kempter, Richard, Schreiber, Susanne, Stemmler, Martin B., and Herz, Andreas V. M.

Published

2012

13. Oscillatory Field Potentials in the Presence of Irregular Single Cell Discharge Patterns

Author

Usher, Marius, Stemmler, Martin, Koch, Christof, and Bower, James M., editor

Published

1995

14. Lateral Interactions in Primary Visual Cortex: A Model Bridging Physiology and Psychophysics

Author

Stemmler, Martin, Usher, Marius, and Niebur, Ernst

Published

1995

15. Neuronal precision and the limits for acoustic signal recognition in a small neuronal network

Author

Neuhofer, Daniela, Stemmler, Martin, and Ronacher, Bernhard

Published

2011

16. Grid cells anticipate the animal’s future movement

Author

Csordas, Dora E., Nagele, Johannes, Stemmler, Martin, and Herz, Andreas

Subjects

Computational Neuroscience, Motor control, movement, navigation

Published

2020

17. Actin Uniformly Tiles the Interior of Dendritic Spines

Author

Eberhardt, Florian, Patirniche, Dinu, Bushong, Eric A., Phan, Sébastien, Peltier, Steven, Monteagudo, Pablo, Weinkauf, Tino, Stemmler, Martin, Ellisman, Mark, and Herz, Andreas V.

Subjects

Computational Neuroscience, Learning, plasticity and memory

Published

2020

18. Spike Afterpotentials Shape the In Vivo Burst Activity of Principal Cells in Medial Entorhinal Cortex

Author

Csordás, Dóra É., primary, Fischer, Caroline, additional, Nagele, Johannes, additional, Stemmler, Martin, additional, and Herz, Andreas V.M., additional

Published

2020

19. Untethered firing fields and intermittent silences: Why grid‐cell discharge is so variable

Author

Nagele, Johannes, primary, Herz, Andreas V.M., additional, and Stemmler, Martin B., additional

Published

2020

20. Auditory Processing of Acoustic Communication Signals

Author

Herz, Andreas, primary, Benda, Jan, additional, Gollisch, Tim, additional, Machens, Christian, additional, Schaette, Roland, additional, Schütze, Hartmut, additional, and Stemmler, Martin, additional

Published

2004

21. The optimal number of release sites in synapses with neurotransmitter spillover

Author

Salmasi, Mehrdad, Glasauer, Stefan, and Stemmler, Martin

Subjects

Computational Neuroscience, Neurons, networks, dynamical systems

Published

2019

22. Depolarizing Afterpotentials in Principal Cells of the Medial Entorhinal Cortex: Biophysics and Function

Author

Fischer, Caroline, Kümpfbeck, Franziska, Nagele, Johannes, Häusler, Stefan, Stemmler, Martin, Felmy, Felix, and Herz, Andreas

Subjects

Computational Neuroscience, Motor control, movement, navigation

Published

2018

23. Spike afterpotentials shape the in-vivo burst activity of principal cells in medial entorhinal cortex

Author

Csordás, Dóra É., primary, Fischer, Caroline, additional, Nagele, Johannes, additional, Stemmler, Martin, additional, and Herz, Andreas V.M., additional

Published

2019

24. Synaptic Information Transmission in a Two-State Model of Short-Term Facilitation

Author

Salmasi, Mehrdad, primary, Stemmler, Martin, additional, Glasauer, Stefan, additional, and Loebel, Alex, additional

Published

2019

25. Energy-efficient information transmission in depressing synapses

Author

Salmasi, Mehrdad, Glasauer, Stefan, and Stemmler, Martin

Subjects

Computational Neuroscience, Learning, plasticity and memory

Published

2017

26. Biophysical Foundation and Function of the Depolarizing Afterpotential in Principal Cells of the Medial Entorhinal Cortex

Author

Fischer, Caroline, Kümpfbeck, Franziska, Nagele, Johannes, Häusler, Stefan, Stemmler, Martin, Felmy, Felix, and Herz, Andreas

Subjects

Computational Neuroscience, Motor control, movement, navigation

Published

2017

27. Inbound and Outbound Spikes of Grid Fields

Author

Csordas, Dora E., Nagele, Johannes, Stemmler, Martin, and Herz, Andreas

Subjects

Computational Neuroscience, Motor control, movement, navigation

Published

2017

28. Anticipatory Neural Activity Improves the Decoding Accuracy for Dynamic Head-Direction Signals

Author

Zirkelbach, Johannes, primary, Stemmler, Martin, additional, and Herz, Andreas V.M., additional

Published

2019

29. Short-term synaptic depression can increase the rate of information transfer at a release site

Author

Salmasi, Mehrdad, primary, Loebel, Alex, additional, Glasauer, Stefan, additional, and Stemmler, Martin, additional

Published

2019

30. Anticipatory neural activity improves the decoding accuracy for dynamic head-direction signals

Author

Zirkelbach, Johannes, primary, Stemmler, Martin, additional, and Herz, Andreas V.M., additional

Published

2018

31. From fluctuations in ion channel gating to spike time precision

Author

Schleimer, Jan-Hendrik, Stemmler, Martin, and Schreiber, Susanne

Subjects

Computational Neuroscience, Bernstein Conference

Published

2016

32. Structure of the noise in the entorhinal cortex

Author

Nagele, Johannes, Stemmler, Martin, and Herz, Andreas

Subjects

Computational Neuroscience, Bernstein Conference

Published

2016

33. Information rate of a release site under short-term synaptic depression

Author

Salmasi, Mehrdad, Loebel, Alex, Glasauer, Stefan, and Stemmler, Martin

Subjects

Computational Neuroscience, Bernstein Conference

Published

2016

34. GABA regulates resonance and spike rate encoding via a universal mechanism that underlies the modulation of action potential generation

Author

Kirst, Christoph, primary, Ammer, Julian, additional, Felmy, Felix, additional, Herz, Andreas, additional, and Stemmler, Martin, additional

Published

2017

35. 26th Annual Computational Neuroscience Meeting (CNS*2017): Part 3

Author

Newton, Adam J. H., primary, Seidenstein, Alexandra H., additional, McDougal, Robert A., additional, Pérez-Cervera, Alberto, additional, Huguet, Gemma, additional, M-Seara, Tere, additional, Haimerl, Caroline, additional, Angulo-Garcia, David, additional, Torcini, Alessandro, additional, Cossart, Rosa, additional, Malvache, Arnaud, additional, Skiker, Kaoutar, additional, Maouene, Mounir, additional, Ragognetti, Gianmarco, additional, Lorusso, Letizia, additional, Viggiano, Andrea, additional, Marcelli, Angelo, additional, Senatore, Rosa, additional, Parziale, Antonio, additional, Stramaglia, S., additional, Pellicoro, M., additional, Angelini, L., additional, Amico, E., additional, Aerts, H., additional, Cortés, J., additional, Laureys, S., additional, Marinazzo, D., additional, Bassez, I., additional, Faes, L., additional, Almgren, Hannes, additional, Razi, Adeel, additional, Van de Steen, Frederik, additional, Krebs, Ruth, additional, Aerts, Hannelore, additional, Kanari, Lida, additional, Dlotko, Pawel, additional, Scolamiero, Martina, additional, Levi, Ran, additional, Shillcock, Julian, additional, de Kock, Christiaan P.J., additional, Hess, Kathryn, additional, Markram, Henry, additional, Ly, Cheng, additional, Marsat, Gary, additional, Gillespie, Tom, additional, Sandström, Malin, additional, Abrams, Mathew, additional, Grethe, Jeffrey S., additional, Martone, Maryann, additional, De Gernier, Robin, additional, Solinas, Sergio, additional, Rössert, Christian, additional, Haelterman, Marc, additional, Massar, Serge, additional, Pasquale, Valentina, additional, Pastore, Vito Paolo, additional, Martinoia, Sergio, additional, Massobrio, Paolo, additional, Capone, Cristiano, additional, Tort-Colet, Núria, additional, Sanchez-Vives, Maria V., additional, Mattia, Maurizio, additional, Almasi, Ali, additional, Cloherty, Shaun L., additional, Grayden, David B., additional, Wong, Yan T., additional, Ibbotson, Michael R., additional, Meffin, Hamish, additional, Prince, Luke Y., additional, Tsaneva-Atanasova, Krasimira, additional, Mellor, Jack R., additional, Mazzoni, Alberto, additional, Rosa, Manuela, additional, Carpaneto, Jacopo, additional, Romito, Luigi M., additional, Priori, Alberto, additional, Micera, Silvestro, additional, Migliore, Rosanna, additional, Lupascu, Carmen Alina, additional, Franchina, Francesco, additional, Bologna, Luca Leonardo, additional, Romani, Armando, additional, Saray, Sára, additional, Van Geit, Werner, additional, Káli, Szabolcs, additional, Thomson, Alex, additional, Mercer, Audrey, additional, Lange, Sigrun, additional, Falck, Joanne, additional, Muller, Eilif, additional, Schürmann, Felix, additional, Todorov, Dmitrii, additional, Capps, Robert, additional, Barnett, William, additional, Molkov, Yaroslav, additional, Devalle, Federico, additional, Pazó, Diego, additional, Montbrió, Ernest, additional, Mochol, Gabriela, additional, Azab, Habiba, additional, Hayden, Benjamin Y., additional, Moreno-Bote, Rubén, additional, Balasubramani, Pragathi Priyadharsini, additional, Chakravarthy, Srinivasa V., additional, Muddapu, Vignayanandam R., additional, Gheorghiu, Medorian D., additional, Mimica, Bartul, additional, Withlock, Jonathan, additional, Mureșan, Raul C., additional, Zick, Jennifer L., additional, Schultz, Kelsey, additional, Blackman, Rachael K., additional, Chafee, Matthew V., additional, Netoff, Theoden I., additional, Roberts, Nicholas, additional, Nagaraj, Vivek, additional, Lamperski, Andrew, additional, Grado, Logan L., additional, Johnson, Matthew D., additional, Darrow, David P., additional, Lonardoni, Davide, additional, Amin, Hayder, additional, Di Marco, Stefano, additional, Maccione, Alessandro, additional, Berdondini, Luca, additional, Nieus, Thierry, additional, Stimberg, Marcel, additional, Goodman, Dan F. M., additional, Nowotny, Thomas, additional, Koren, Veronika, additional, Dragoi, Valentin, additional, Obermayer, Klaus, additional, Castro, Samy, additional, Fernandez, Mariano, additional, El-Deredy, Wael, additional, Xu, Kesheng, additional, Maidana, Jean Paul, additional, Orio, Patricio, additional, Chen, Weiliang, additional, Hepburn, Iain, additional, Casalegno, Francesco, additional, Devresse, Adrien, additional, Ovcharenko, Aleksandr, additional, Pereira, Fernando, additional, Delalondre, Fabien, additional, De Schutter, Erik, additional, Bratby, Peter, additional, Gallimore, Andrew R., additional, Klingbeil, Guido, additional, Zamora, Criseida, additional, Zang, Yunliang, additional, Crotty, Patrick, additional, Palmerduca, Eric, additional, Antonietti, Alberto, additional, Casellato, Claudia, additional, Erö, Csaba, additional, D’Angelo, Egidio, additional, Gewaltig, Marc-Oliver, additional, Pedrocchi, Alessandra, additional, Bytschok, Ilja, additional, Dold, Dominik, additional, Schemmel, Johannes, additional, Meier, Karlheinz, additional, Petrovici, Mihai A., additional, Shen, Hui-An, additional, Surace, Simone Carlo, additional, Pfister, Jean-Pascal, additional, Lefebvre, Baptiste, additional, Marre, Olivier, additional, Yger, Pierre, additional, Papoutsi, Athanasia, additional, Park, Jiyoung, additional, Ash, Ryan, additional, Smirnakis, Stelios, additional, Poirazi, Panayiota, additional, Felix, Richard A., additional, Dimitrov, Alexander G., additional, Portfors, Christine, additional, Daun, Silvia, additional, Toth, Tibor I., additional, Jędrzejewska-Szmek, Joanna, additional, Kabbani, Nadine, additional, Blackwel, Kim T., additional, Moezzi, Bahar, additional, Schaworonkow, Natalie, additional, Plogmacher, Lukas, additional, Goldsworthy, Mitchell R., additional, Hordacre, Brenton, additional, McDonnell, Mark D., additional, Iannella, Nicolangelo, additional, Ridding, Michael C., additional, Triesch, Jochen, additional, Maex, Reinoud, additional, Safaryan, Karen, additional, Steuber, Volker, additional, Tang, Rongxiang, additional, Tang, Yi-Yuan, additional, Verveyko, Darya V., additional, Brazhe, Alexey R., additional, Verisokin, Andrey Yu, additional, Postnov, Dmitry E., additional, Günay, Cengiz, additional, Panuccio, Gabriella, additional, Giugliano, Michele, additional, Prinz, Astrid A., additional, Varona, Pablo, additional, Rabinovich, Mikhail I., additional, Denham, Jack, additional, Ranner, Thomas, additional, Cohen, Netta, additional, Reva, Maria, additional, Rebola, Nelson, additional, Kirizs, Tekla, additional, Nusser, Zoltan, additional, DiGregorio, David, additional, Mavritsaki, Eirini, additional, Rentzelas, Panos, additional, Ukani, Nikul H., additional, Tomkins, Adam, additional, Yeh, Chung-Heng, additional, Bruning, Wesley, additional, Fenichel, Allison L., additional, Zhou, Yiyin, additional, Huang, Yu-Chi, additional, Florescu, Dorian, additional, Ortiz, Carlos Luna, additional, Richmond, Paul, additional, Lo, Chung-Chuan, additional, Coca, Daniel, additional, Chiang, Ann-Shyn, additional, Lazar, Aurel A., additional, Creaser, Jennifer L., additional, Lin, Congping, additional, Ashwin, Peter, additional, Brown, Jonathan T., additional, Ridler, Thomas, additional, Levenstein, Daniel, additional, Watson, Brendon O., additional, Buzsáki, György, additional, Rinzel, John, additional, Curtu, Rodica, additional, Nguyen, Anh, additional, Assadzadeh, Sahand, additional, Robinson, Peter A., additional, Sanz-Leon, Paula, additional, Forlim, Caroline G., additional, de Almeida, Lírio O. B., additional, Pinto, Reynaldo D., additional, Rodríguez, Francisco B., additional, Lareo, Ángel, additional, Forlim, Caroline Garcia, additional, Montero, Aaron, additional, Mosqueiro, Thiago, additional, Huerta, Ramon, additional, Rodriguez, Francisco B., additional, Changoluisa, Vinicio, additional, Cordeiro, Vinícius L., additional, Ceballos, César C., additional, Kamiji, Nilton L., additional, Roque, Antonio C., additional, Lytton, William W., additional, Knox, Andrew, additional, Rosenthal, Joshua J. C., additional, Popovych, Svitlana, additional, Liu, Liqing, additional, Wang, Bin A., additional, Tóth, Tibor I., additional, Grefkes, Christian, additional, Fink, Gereon R., additional, Rosjat, Nils, additional, Perez-Trujillo, Abraham, additional, Espinal, Andres, additional, Sotelo-Figueroa, Marco A., additional, Cruz-Aceves, Ivan, additional, Rostro-Gonzalez, Horacio, additional, Zapotocky, Martin, additional, Hoskovcová, Martina, additional, Kopecká, Jana, additional, Ulmanová, Olga, additional, Růžička, Evžen, additional, Gärtner, Matthias, additional, Duvarci, Sevil, additional, Roeper, Jochen, additional, Schneider, Gaby, additional, Albert, Stefan, additional, Schmack, Katharina, additional, Remme, Michiel, additional, Schreiber, Susanne, additional, Migliore, Michele, additional, Lupascu, Carmen A., additional, Bologna, Luca L., additional, Antonel, Stefano M., additional, Courcol, Jean-Denis, additional, Çelikok, Sami Utku, additional, Navarro-López, Eva M., additional, Şengör, Neslihan Serap, additional, Elibol, Rahmi, additional, Sengor, Neslihan Serap, additional, Özdemir, Mustafa Yasir, additional, Li, Tianyi, additional, Arleo, Angelo, additional, Sheynikhovich, Denis, additional, Nakamura, Akihiro, additional, Shimono, Masanori, additional, Song, Youngjo, additional, Park, Sol, additional, Choi, Ilhwan, additional, Jeong, Jaeseung, additional, Shin, Hee-sup, additional, Sadeh, Sadra, additional, Gleeson, Padraig, additional, Angus Silver, R., additional, Chatzikalymniou, Alexandra Pierri, additional, Skinner, Frances K., additional, Sanchez-Rodriguez, Lazaro M., additional, Sotero, Roberto C., additional, Hertäg, Loreen, additional, Mackwood, Owen, additional, Sprekeler, Henning, additional, Puhlmann, Steffen, additional, Weber, Simon N., additional, Higgins, David, additional, Naumann, Laura B., additional, Iyer, Ramakrisnan, additional, Mihalas, Stefan, additional, Ticcinelli, Valentina, additional, Stankovski, Tomislav, additional, McClintock, Peter V. E., additional, Stefanovska, Aneta, additional, Janjić, Predrag, additional, Solev, Dimitar, additional, Seifert, Gerald, additional, Kocarev, Ljupčo, additional, Steinhäuser, Christian, additional, Salmasi, Mehrdad, additional, Glasauer, Stefan, additional, Stemmler, Martin, additional, Zhang, Danke, additional, Zhang, Chi, additional, Stepanyants, Armen, additional, Goncharenko, Julia, additional, Kros, Lieke, additional, Davey, Neil, additional, de Zeeuw, Chris, additional, Hoebeek, Freek, additional, Sinha, Ankur, additional, Adams, Roderick, additional, Schmuker, Michael, additional, Psarrou, Maria, additional, Schilstra, Maria, additional, Torben-Nielsen, Benjamin, additional, Metzner, Christoph, additional, Schweikard, Achim, additional, Mäki-Marttunen, Tuomo, additional, Zurowski, Bartosz, additional, Marinazzo, Daniele, additional, Faes, Luca, additional, Stramaglia, Sebastiano, additional, Jordan, Henry O. C., additional, Stringer, Simon M., additional, Gajewska-Dendek, Elżbieta, additional, Suffczyński, Piotr, additional, Tam, Nicoladie, additional, Zouridakis, George, additional, Pollonini, Luca, additional, Asl, Mojtaba Madadi, additional, Valizadeh, Alireza, additional, Tass, Peter A., additional, Nold, Andreas, additional, Fan, Wei, additional, Konrad, Sara, additional, Endle, Heiko, additional, Vogt, Johannes, additional, Tchumatchenko, Tatjana, additional, Herpich, Juliane, additional, Tetzlaff, Christian, additional, Luboeinski, Jannik, additional, Nachstedt, Timo, additional, Ciba, Manuel, additional, Bahmer, Andreas, additional, Thielemann, Christiane, additional, Kuebler, Eric S., additional, Tauskela, Joseph S., additional, Thivierge, Jean-Philippe, additional, Bakker, Rembrandt, additional, García-Amado, María, additional, Evangelio, Marian, additional, Clascá, Francisco, additional, Tiesinga, Paul, additional, Buckley, Christopher L., additional, Toyoizumi, Taro, additional, Dubreuil, Alexis M., additional, Monasson, Rémi, additional, Treves, Alessandro, additional, Spalla, Davide, additional, Rosay, Sophie, additional, Kleberg, Florence I., additional, Wong, Willy, additional, de Oliveira Floriano, Bruno, additional, Matsuo, Toshihiko, additional, Uchida, Tetsuya, additional, Dibenedetto, Domenica, additional, Uludağ, Kâmil, additional, Goodarzinick, Abdorreza, additional, Schmidt, Maximilian, additional, Hilgetag, Claus C., additional, Diesmann, Markus, additional, van Albada, Sacha J., additional, Fauth, Michael, additional, van Rossum, Mark, additional, Reyes-Sánchez, Manuel, additional, Amaducci, Rodrigo, additional, Muñiz, Carlos, additional, Elices, Irene, additional, Arroyo, David, additional, Levi, Rafael, additional, Cohen, Ben, additional, Chow, Carson, additional, Vattikuti, Shashaank, additional, Bertolotti, Elena, additional, Burioni, Raffaella, additional, di Volo, Matteo, additional, Vezzani, Alessandro, additional, Menzat, Bayar, additional, Vogels, Tim P., additional, Wagatsuma, Nobuhiko, additional, Saha, Susmita, additional, Kapoor, Reena, additional, Kerr, Robert, additional, Wagner, John, additional, del Molino, Luis C. Garcia, additional, Yang, Guangyu Robert, additional, Mejias, Jorge F., additional, Wang, Xiao-Jing, additional, Song, Hanbing, additional, Goodliffe, Joseph, additional, Luebke, Jennifer, additional, Weaver, Christina M., additional, Thomas, John, additional, Sinha, Nishant, additional, Shaju, Nikhita, additional, Maszczyk, Tomasz, additional, Jin, Jing, additional, Cash, Sydney S., additional, Dauwels, Justin, additional, Brandon Westover, M., additional, Karimian, Maryam, additional, Moerel, Michelle, additional, De Weerd, Peter, additional, Burwick, Thomas, additional, Westra, Ronald L., additional, Abeysuriya, Romesh, additional, Hadida, Jonathan, additional, Sotiropoulos, Stamatios, additional, Jbabdi, Saad, additional, Woolrich, Mark, additional, Bensmail, Chama, additional, Wrobel, Borys, additional, Zhou, Xiaolong, additional, Ji, Zilong, additional, Liu, Xiao, additional, Xia, Yan, additional, Wu, Si, additional, Wang, Xiao, additional, Zhang, Mingsha, additional, Ofer, Netanel, additional, Shefi, Orit, additional, Yaari, Gur, additional, Carnevale, Ted, additional, Majumdar, Amit, additional, Sivagnanam, Subhashini, additional, Yoshimoto, Kenneth, additional, Smirnova, Elena Y., additional, Amakhin, Dmitry V., additional, Malkin, Sergey L., additional, Zaitsev, Aleksey V., additional, Chizhov, Anton V., additional, Zaleshina, Margarita, additional, Zaleshin, Alexander, additional, Barranca, Victor J., additional, Zhu, George, additional, Skilling, Quinton M., additional, Maruyama, Daniel, additional, Ognjanovski, Nicolette, additional, Aton, Sara J., additional, Zochowski, Michal, additional, Wu, Jiaxing, additional, Aton, Sara, additional, Rich, Scott, additional, Booth, Victoria, additional, Budak, Maral, additional, Dura-Bernal, Salvador, additional, Neymotin, Samuel A., additional, Suter, Benjamin A., additional, Shepherd, Gordon M. G., additional, Felton, Melvin A., additional, Yu, Alfred B., additional, Boothe, David L., additional, Oie, Kelvin S., additional, Franaszczuk, Piotr J., additional, Shuvaev, Sergey A., additional, Başerdem, Batuhan, additional, Zador, Anthony, additional, Koulakov, Alexei A., additional, López-Madrona, Víctor J., additional, Pereda, Ernesto, additional, Mirasso, Claudio R., additional, Canals, Santiago, additional, Masoli, Stefano, additional, Rongala, Udaya B., additional, Spanne, Anton, additional, Jorntell, Henrik, additional, Oddo, Calogero M., additional, Vartanov, Alexander V., additional, Neklyudova, Anastasia K., additional, Kozlovskiy, Stanislav A., additional, Kiselnikov, Andrey A., additional, Marakshina, Julia A., additional, Teleńczuk, Maria, additional, Teleńczuk, Bartosz, additional, Destexhe, Alain, additional, Kuokkanen, Paula T., additional, Kraemer, Anna, additional, McColgan, Thomas, additional, Carr, Catherine E., additional, and Kempter, Richard, additional

Published

2017

36. Information Rate Analysis of a Synaptic Release Site Using a Two-State Model of Short-Term Depression

Author

Salmasi, Mehrdad, primary, Stemmler, Martin, additional, Glasauer, Stefan, additional, and Loebel, Alex, additional

Published

2017

37. Are cascade models suitable descriptions of dendritic function?

Author

Häusler, Stefan, Bartels, Andreas, Kirst, Christoph, Stemmler, Martin B., and Herz, Andreas V.

Subjects

Computational Neuroscience, Bernstein Conference

Published

2015

38. Signal propagation through the ultrastructure of dendritic spines

Author

Patirniche, Dinu, Breit, Markus, Weinkauf, Tino, Stemmler, Martin, Phan, Sebastien, Bushong, Eric, Queisser, Gillian, Ellisman, Mark, and Herz, Andreas

Subjects

Computational Neuroscience, Bernstein Conference

Published

2015

39. A closer look at grid cells: Discharge statistics and firing-field shapes

Author

Nagele, Johannes, Özmen, Barış, Csordas, Dora, Stemmler, Martin, and Herz, Andreas V.

Subjects

Computational Neuroscience, Bernstein Conference

Published

2015

40. The impact of depression on the information rate of the two-channel model of release site

Author

Salmasi, Mehrdad, Stemmler, Martin, Glasauer, Stefan, and Loebel, Alex

Subjects

Computational Neuroscience, Bernstein Conference

Published

2015

41. Infrared spectroscopy of methanol clusters adsorbed on large Arx host clusters.

Author

Huisken, Friedrich and Stemmler, Martin

Subjects

*METHANOL, *PROTON transfer reactions, *MONOMERS

Abstract

The pick-up technique has been employed to deposite single methanol molecules as chromophores on the surface of large Arx host clusters. At higher densities of the guest molecules in the interaction region, more than one methanol molecule are adsorbed on the host cluster and, hence, dimers or even larger complexes can be formed. The methanol complexes are carried by the Arx substrate clusters to the detector and are analyzed with a mass spectrometer. It turns out that the commonly encountered protonation reaction leading to the fragmentation of the ionized methanol complexes is appreciably quenched. The technique is then combined with molecular beam depletion experiments employing the infrared radiation of a pulsed CO2 laser. In the region between 1000 and 1100 cm-1, which covers the ν8 CO stretch and the ν7 CH3 rock monomer vibrations, absorption spectra have been measured for the methanol monomer as well as the methanol dimer, trimer, and tetramer adsorbed on large Arx substrate clusters. For the monomer, both vibrations are observed. The dimer spectrum features three peaks and resembles very much the spectrum obtained in a previous study of the free gas-phase dimer, except that all lines are shifted to the red by ∼2 cm-1. From this observation it is concluded that the methanol dimer on the Arx host cluster adopts the same structure as in the gas phase. Whereas this observation has also been made for the trimer, the tetramer spectrum is distinctly different. [ABSTRACT FROM AUTHOR]

Published

1993

42. UV photodissociation dynamics of allyl radical by photofragment translational spectroscopy.

Author

Stranges, Domenico and Stemmler, Martin

Subjects

*PHOTODISSOCIATION, *SPECTRUM analysis, *PHYSICAL & theoretical chemistry

Abstract

Examines the photodissociation of the allyl radical using photofragment translational spectroscopy. Dissociation processes from the ground-state C3H5 potential energy surface; Contribution to H-atom loss channel from predissociation by an electronically excited state; Importance of cyclopropene formation in Rice-Ramsperger-Kassel-Marcus calculations.

Published

1998

43. 26th Annual Computational Neuroscience Meeting (CNS*2017): Part 3 - Meeting Abstracts - Antwerp, Belgium. 15–20 July 2017

Author

Newton, Adam J H, Seidenstein, Alexandra H, McDougal, Robert A, Cervera, Alberto, Huguet, Gemma, Seara, Tere, Haimerl, Caroline, Garcia, David, Torcini, Alessandro, Cossart, Rosa, Malvache, Arnaud, Skiker, Kaoutar, Maouene, Mounir, Ragognetti, Gianmarco, Lorusso, Letizia, Viggiano, Andrea, Marcelli, Angelo, Senatore, Rosa, Parziale, Antonio, Stramaglia, S., Pellicoro, M., Angelini, L., Amico, E., Aerts, H., Cortés, J., Laureys, S., Marinazzo, D., Bassez, I., Faes, L., Almgren, Hannes, Razi, Adeel, Steen, Frederik, Krebs, Ruth, Aerts, Hannelore, Kanari, Lida, Dlotko, Pawel, Scolamiero, Martina, Levi, Ran, Shillcock, Julian, Kock, Christiaan P, Hess, Kathryn, Markram, Henry, Ly, Cheng, Marsat, Gary, Gillespie, Tom, Sandström, Malin, Abrams, Mathew, Grethe, Jeffrey S, Martone, Maryann, Gernier, Robin, Solinas, Sergio, Rössert, Christian, Haelterman, Marc, Massar, Serge, Pasquale, Valentina, Pastore, Vito P, Martinoia, Sergio, Massobrio, Paolo, Capone, Cristiano, Colet, Núria, Vives, Maria V, Mattia, Maurizio, Almasi, Ali, Cloherty, Shaun L, Grayden, David B, Wong, Yan T, Ibbotson, Michael R, Meffin, Hamish, Prince, Luke Y, Atanasova, Krasimira, Mellor, Jack R, Mazzoni, Alberto, Rosa, Manuela, Carpaneto, Jacopo, Romito, Luigi M, Priori, Alberto, Micera, Silvestro, Migliore, Rosanna, Lupascu, Carmen A, Franchina, Francesco, Bologna, Luca L, Romani, Armando, Saray, Sára, Geit, Werner, Káli, Szabolcs, Thomson, Alex, Mercer, Audrey, Lange, Sigrun, Falck, Joanne, Muller, Eilif, Schürmann, Felix, Todorov, Dmitrii, Capps, Robert, Barnett, William, Molkov, Yaroslav, Devalle, Federico, Pazó, Diego, Montbrió, Ernest, Mochol, Gabriela, Azab, Habiba, Hayden, Benjamin Y, Bote, Rubén, Balasubramani, Pragathi P, Chakravarthy, Srinivasa V, Muddapu, Vignayanandam R, Gheorghiu, Medorian D, Mimica, Bartul, Withlock, Jonathan, Mureșan, Raul C, Zick, Jennifer L, Schultz, Kelsey, Blackman, Rachael K, Chafee, Matthew V, Netoff, Theoden I, Roberts, Nicholas, Nagaraj, Vivek, Lamperski, Andrew, Grado, Logan L, Johnson, Matthew D, Darrow, David P, Lonardoni, Davide, Amin, Hayder, Marco, Stefano, Maccione, Alessandro, Berdondini, Luca, Nieus, Thierry, Stimberg, Marcel, Goodman, Dan F M, Nowotny, Thomas, Koren, Veronika, Dragoi, Valentin, Obermayer, Klaus, Castro, Samy, Fernandez, Mariano, Deredy, Wael, Xu, Kesheng, Maidana, Jean P, Orio, Patricio, Chen, Weiliang, Hepburn, Iain, Casalegno, Francesco, Devresse, Adrien, Ovcharenko, Aleksandr, Pereira, Fernando, Delalondre, Fabien, Schutter, Erik, Bratby, Peter, Gallimore, Andrew R, Klingbeil, Guido, Zamora, Criseida, Zang, Yunliang, Crotty, Patrick, Palmerduca, Eric, Antonietti, Alberto, Casellato, Claudia, Erö, Csaba, Angelo, Egidio, Gewaltig, Marc-Oliver, Pedrocchi, Alessandra, Bytschok, Ilja, Dold, Dominik, Schemmel, Johannes, Meier, Karlheinz, Petrovici, Mihai A, Shen, Hui-An, Surace, Simone C, Pfister, Jean-Pascal, Lefebvre, Baptiste, Marre, Olivier, Yger, Pierre, Papoutsi, Athanasia, Park, Jiyoung, Ash, Ryan, Smirnakis, Stelios, Poirazi, Panayiota, Felix, Richard A, Dimitrov, Alexander G, Portfors, Christine, Daun, Silvia, Toth, Tibor I, Szmek, Joanna, Kabbani, Nadine, Blackwel, Kim T, Moezzi, Bahar, Schaworonkow, Natalie, Plogmacher, Lukas, Goldsworthy, Mitchell R, Hordacre, Brenton, McDonnell, Mark D, Iannella, Nicolangelo, Ridding, Michael C, Triesch, Jochen, Maex, Reinoud, Safaryan, Karen, Steuber, Volker, Tang, Rongxiang, Tang, Yi-Yuan, Verveyko, Darya V, Brazhe, Alexey R, Verisokin, Andrey Y, Postnov, Dmitry E, Günay, Cengiz, Panuccio, Gabriella, Giugliano, Michele, Prinz, Astrid A, Varona, Pablo, Rabinovich, Mikhail I, Denham, Jack, Ranner, Thomas, Cohen, Netta, Reva, Maria, Rebola, Nelson, Kirizs, Tekla, Nusser, Zoltan, DiGregorio, David, Mavritsaki, Eirini, Rentzelas, Panos, Ukani, Nikul H, Tomkins, Adam, Yeh, Chung-Heng, Bruning, Wesley, Fenichel, Allison L, Zhou, Yiyin, Huang, Yu-Chi, Florescu, Dorian, Ortiz, Carlos L, Richmond, Paul, Lo, Chung-Chuan, Coca, Daniel, Chiang, Ann-Shyn, Lazar, Aurel A, Creaser, Jennifer L, Lin, Congping, Ashwin, Peter, Brown, Jonathan T, Ridler, Thomas, Levenstein, Daniel, Watson, Brendon O, Buzsáki, György, Rinzel, John, Curtu, Rodica, Nguyen, Anh, Assadzadeh, Sahand, Robinson, Peter A, Leon, Paula, Forlim, Caroline G, Almeida, Lírio O B, Pinto, Reynaldo D, Rodríguez, Francisco B, Lareo, Ángel, Montero, Aaron, Mosqueiro, Thiago, Huerta, Ramon, Rodriguez, Francisco B, Changoluisa, Vinicio, Cordeiro, Vinícius L, Ceballos, César C, Kamiji, Nilton L, Roque, Antonio C, Lytton, William W, Knox, Andrew, Rosenthal, Joshua J C, Popovych, Svitlana, Liu, Liqing, Wang, Bin A, Tóth, Tibor I, Grefkes, Christian, Fink, Gereon R, Rosjat, Nils, Trujillo, Abraham, Espinal, Andres, Figueroa, Marco A, Aceves, Ivan, Gonzalez, Horacio, Zapotocky, Martin, Hoskovcová, Martina, Kopecká, Jana, Ulmanová, Olga, Růžička, Evžen, Gärtner, Matthias, Duvarci, Sevil, Roeper, Jochen, Schneider, Gaby, Albert, Stefan, Schmack, Katharina, Remme, Michiel, Schreiber, Susanne, Migliore, Michele, Antonel, Stefano M, Courcol, Jean-Denis, Çelikok, Sami U, López, Eva M, Şengör, Neslihan S, Elibol, Rahmi, Sengor, Neslihan S, Özdemir, Mustafa Y, Li, Tianyi, Arleo, Angelo, Sheynikhovich, Denis, Nakamura, Akihiro, Shimono, Masanori, Song, Youngjo, Park, Sol, Choi, Ilhwan, Jeong, Jaeseung, Shin, Hee-sup, Sadeh, Sadra, Gleeson, Padraig, Silver, R., Chatzikalymniou, Alexandra P, Skinner, Frances K, Rodriguez, Lazaro M, Sotero, Roberto C, Hertäg, Loreen, Mackwood, Owen, Sprekeler, Henning, Puhlmann, Steffen, Weber, Simon N, Higgins, David, Naumann, Laura B, Iyer, Ramakrisnan, Mihalas, Stefan, Ticcinelli, Valentina, Stankovski, Tomislav, McClintock, Peter V E, Stefanovska, Aneta, Janjić, Predrag, Solev, Dimitar, Seifert, Gerald, Kocarev, Ljupčo, Steinhäuser, Christian, Salmasi, Mehrdad, Glasauer, Stefan, Stemmler, Martin, Zhang, Danke, Zhang, Chi, Stepanyants, Armen, Goncharenko, Julia, Kros, Lieke, Davey, Neil, Zeeuw, Chris, Hoebeek, Freek, Sinha, Ankur, Adams, Roderick, Schmuker, Michael, Psarrou, Maria, Schilstra, Maria, Nielsen, Benjamin, Metzner, Christoph, Schweikard, Achim, Marttunen, Tuomo, Zurowski, Bartosz, Marinazzo, Daniele, Faes, Luca, Stramaglia, Sebastiano, Jordan, Henry O C, Stringer, Simon M, Dendek, Elżbieta, Suffczyński, Piotr, Tam, Nicoladie, Zouridakis, George, Pollonini, Luca, Asl, Mojtaba M, Valizadeh, Alireza, Tass, Peter A, Nold, Andreas, Fan, Wei, Konrad, Sara, Endle, Heiko, Vogt, Johannes, Tchumatchenko, Tatjana, Herpich, Juliane, Tetzlaff, Christian, Luboeinski, Jannik, Nachstedt, Timo, Ciba, Manuel, Bahmer, Andreas, Thielemann, Christiane, Kuebler, Eric S, Tauskela, Joseph S, Thivierge, Jean-Philippe, Bakker, Rembrandt, Amado, María, Evangelio, Marian, Clascá, Francisco, Tiesinga, Paul, Buckley, Christopher L, Toyoizumi, Taro, Dubreuil, Alexis M, Monasson, Rémi, Treves, Alessandro, Spalla, Davide, Rosay, Sophie, Kleberg, Florence I, Wong, Willy, Floriano, Bruno, Matsuo, Toshihiko, Uchida, Tetsuya, Dibenedetto, Domenica, Uludağ, Kâmil, Goodarzinick, Abdorreza, Schmidt, Maximilian, Hilgetag, Claus C, Diesmann, Markus, Albada, Sacha J, Fauth, Michael, Rossum, Mark, Sánchez, Manuel, Amaducci, Rodrigo, Muñiz, Carlos, Elices, Irene, Arroyo, David, Levi, Rafael, Cohen, Ben, Chow, Carson, Vattikuti, Shashaank, Bertolotti, Elena, Burioni, Raffaella, Volo, Matteo, Vezzani, Alessandro, Menzat, Bayar, Vogels, Tim P, Wagatsuma, Nobuhiko, Saha, Susmita, Kapoor, Reena, Kerr, Robert, Wagner, John, Molino, Luis C G, Yang, Guangyu R, Mejias, Jorge F, Wang, Xiao-Jing, Song, Hanbing, Goodliffe, Joseph, Luebke, Jennifer, Weaver, Christina M, Thomas, John, Sinha, Nishant, Shaju, Nikhita, Maszczyk, Tomasz, Jin, Jing, Cash, Sydney S, Dauwels, Justin, Westover, M., Karimian, Maryam, Moerel, Michelle, Weerd, Peter, Burwick, Thomas, Westra, Ronald L, Abeysuriya, Romesh, Hadida, Jonathan, Sotiropoulos, Stamatios, Jbabdi, Saad, Woolrich, Mark, Bensmail, Chama, Wrobel, Borys, Zhou, Xiaolong, Ji, Zilong, Liu, Xiao, Xia, Yan, Wu, Si, Wang, Xiao, Zhang, Mingsha, Ofer, Netanel, Shefi, Orit, Yaari, Gur, Carnevale, Ted, Majumdar, Amit, Sivagnanam, Subhashini, Yoshimoto, Kenneth, Smirnova, Elena Y, Amakhin, Dmitry V, Malkin, Sergey L, Zaitsev, Aleksey V, Chizhov, Anton V, Zaleshina, Margarita, Zaleshin, Alexander, Barranca, Victor J, Zhu, George, Skilling, Quinton M, Maruyama, Daniel, Ognjanovski, Nicolette, Aton, Sara J, Zochowski, Michal, Wu, Jiaxing, Aton, Sara, Rich, Scott, Booth, Victoria, Budak, Maral, Bernal, Salvador, Neymotin, Samuel A, Suter, Benjamin A, Shepherd, Gordon M G, Felton, Melvin A, Yu, Alfred B, Boothe, David L, Oie, Kelvin S, Franaszczuk, Piotr J, Shuvaev, Sergey A, Başerdem, Batuhan, Zador, Anthony, Koulakov, Alexei A, Madrona, Víctor J, Pereda, Ernesto, Mirasso, Claudio R, Canals, Santiago, Masoli, Stefano, Rongala, Udaya B, Spanne, Anton, Jorntell, Henrik, Oddo, Calogero M, Vartanov, Alexander V, Neklyudova, Anastasia K, Kozlovskiy, Stanislav A, Kiselnikov, Andrey A, Marakshina, Julia A, Teleńczuk, Maria, Teleńczuk, Bartosz, Destexhe, Alain, Kuokkanen, Paula T, Kraemer, Anna, McColgan, Thomas, Carr, Catherine E, Kempter, Richard, Newton, Adam J H, Seidenstein, Alexandra H, McDougal, Robert A, Cervera, Alberto, Huguet, Gemma, Seara, Tere, Haimerl, Caroline, Garcia, David, Torcini, Alessandro, Cossart, Rosa, Malvache, Arnaud, Skiker, Kaoutar, Maouene, Mounir, Ragognetti, Gianmarco, Lorusso, Letizia, Viggiano, Andrea, Marcelli, Angelo, Senatore, Rosa, Parziale, Antonio, Stramaglia, S., Pellicoro, M., Angelini, L., Amico, E., Aerts, H., Cortés, J., Laureys, S., Marinazzo, D., Bassez, I., Faes, L., Almgren, Hannes, Razi, Adeel, Steen, Frederik, Krebs, Ruth, Aerts, Hannelore, Kanari, Lida, Dlotko, Pawel, Scolamiero, Martina, Levi, Ran, Shillcock, Julian, Kock, Christiaan P, Hess, Kathryn, Markram, Henry, Ly, Cheng, Marsat, Gary, Gillespie, Tom, Sandström, Malin, Abrams, Mathew, Grethe, Jeffrey S, Martone, Maryann, Gernier, Robin, Solinas, Sergio, Rössert, Christian, Haelterman, Marc, Massar, Serge, Pasquale, Valentina, Pastore, Vito P, Martinoia, Sergio, Massobrio, Paolo, Capone, Cristiano, Colet, Núria, Vives, Maria V, Mattia, Maurizio, Almasi, Ali, Cloherty, Shaun L, Grayden, David B, Wong, Yan T, Ibbotson, Michael R, Meffin, Hamish, Prince, Luke Y, Atanasova, Krasimira, Mellor, Jack R, Mazzoni, Alberto, Rosa, Manuela, Carpaneto, Jacopo, Romito, Luigi M, Priori, Alberto, Micera, Silvestro, Migliore, Rosanna, Lupascu, Carmen A, Franchina, Francesco, Bologna, Luca L, Romani, Armando, Saray, Sára, Geit, Werner, Káli, Szabolcs, Thomson, Alex, Mercer, Audrey, Lange, Sigrun, Falck, Joanne, Muller, Eilif, Schürmann, Felix, Todorov, Dmitrii, Capps, Robert, Barnett, William, Molkov, Yaroslav, Devalle, Federico, Pazó, Diego, Montbrió, Ernest, Mochol, Gabriela, Azab, Habiba, Hayden, Benjamin Y, Bote, Rubén, Balasubramani, Pragathi P, Chakravarthy, Srinivasa V, Muddapu, Vignayanandam R, Gheorghiu, Medorian D, Mimica, Bartul, Withlock, Jonathan, Mureșan, Raul C, Zick, Jennifer L, Schultz, Kelsey, Blackman, Rachael K, Chafee, Matthew V, Netoff, Theoden I, Roberts, Nicholas, Nagaraj, Vivek, Lamperski, Andrew, Grado, Logan L, Johnson, Matthew D, Darrow, David P, Lonardoni, Davide, Amin, Hayder, Marco, Stefano, Maccione, Alessandro, Berdondini, Luca, Nieus, Thierry, Stimberg, Marcel, Goodman, Dan F M, Nowotny, Thomas, Koren, Veronika, Dragoi, Valentin, Obermayer, Klaus, Castro, Samy, Fernandez, Mariano, Deredy, Wael, Xu, Kesheng, Maidana, Jean P, Orio, Patricio, Chen, Weiliang, Hepburn, Iain, Casalegno, Francesco, Devresse, Adrien, Ovcharenko, Aleksandr, Pereira, Fernando, Delalondre, Fabien, Schutter, Erik, Bratby, Peter, Gallimore, Andrew R, Klingbeil, Guido, Zamora, Criseida, Zang, Yunliang, Crotty, Patrick, Palmerduca, Eric, Antonietti, Alberto, Casellato, Claudia, Erö, Csaba, Angelo, Egidio, Gewaltig, Marc-Oliver, Pedrocchi, Alessandra, Bytschok, Ilja, Dold, Dominik, Schemmel, Johannes, Meier, Karlheinz, Petrovici, Mihai A, Shen, Hui-An, Surace, Simone C, Pfister, Jean-Pascal, Lefebvre, Baptiste, Marre, Olivier, Yger, Pierre, Papoutsi, Athanasia, Park, Jiyoung, Ash, Ryan, Smirnakis, Stelios, Poirazi, Panayiota, Felix, Richard A, Dimitrov, Alexander G, Portfors, Christine, Daun, Silvia, Toth, Tibor I, Szmek, Joanna, Kabbani, Nadine, Blackwel, Kim T, Moezzi, Bahar, Schaworonkow, Natalie, Plogmacher, Lukas, Goldsworthy, Mitchell R, Hordacre, Brenton, McDonnell, Mark D, Iannella, Nicolangelo, Ridding, Michael C, Triesch, Jochen, Maex, Reinoud, Safaryan, Karen, Steuber, Volker, Tang, Rongxiang, Tang, Yi-Yuan, Verveyko, Darya V, Brazhe, Alexey R, Verisokin, Andrey Y, Postnov, Dmitry E, Günay, Cengiz, Panuccio, Gabriella, Giugliano, Michele, Prinz, Astrid A, Varona, Pablo, Rabinovich, Mikhail I, Denham, Jack, Ranner, Thomas, Cohen, Netta, Reva, Maria, Rebola, Nelson, Kirizs, Tekla, Nusser, Zoltan, DiGregorio, David, Mavritsaki, Eirini, Rentzelas, Panos, Ukani, Nikul H, Tomkins, Adam, Yeh, Chung-Heng, Bruning, Wesley, Fenichel, Allison L, Zhou, Yiyin, Huang, Yu-Chi, Florescu, Dorian, Ortiz, Carlos L, Richmond, Paul, Lo, Chung-Chuan, Coca, Daniel, Chiang, Ann-Shyn, Lazar, Aurel A, Creaser, Jennifer L, Lin, Congping, Ashwin, Peter, Brown, Jonathan T, Ridler, Thomas, Levenstein, Daniel, Watson, Brendon O, Buzsáki, György, Rinzel, John, Curtu, Rodica, Nguyen, Anh, Assadzadeh, Sahand, Robinson, Peter A, Leon, Paula, Forlim, Caroline G, Almeida, Lírio O B, Pinto, Reynaldo D, Rodríguez, Francisco B, Lareo, Ángel, Montero, Aaron, Mosqueiro, Thiago, Huerta, Ramon, Rodriguez, Francisco B, Changoluisa, Vinicio, Cordeiro, Vinícius L, Ceballos, César C, Kamiji, Nilton L, Roque, Antonio C, Lytton, William W, Knox, Andrew, Rosenthal, Joshua J C, Popovych, Svitlana, Liu, Liqing, Wang, Bin A, Tóth, Tibor I, Grefkes, Christian, Fink, Gereon R, Rosjat, Nils, Trujillo, Abraham, Espinal, Andres, Figueroa, Marco A, Aceves, Ivan, Gonzalez, Horacio, Zapotocky, Martin, Hoskovcová, Martina, Kopecká, Jana, Ulmanová, Olga, Růžička, Evžen, Gärtner, Matthias, Duvarci, Sevil, Roeper, Jochen, Schneider, Gaby, Albert, Stefan, Schmack, Katharina, Remme, Michiel, Schreiber, Susanne, Migliore, Michele, Antonel, Stefano M, Courcol, Jean-Denis, Çelikok, Sami U, López, Eva M, Şengör, Neslihan S, Elibol, Rahmi, Sengor, Neslihan S, Özdemir, Mustafa Y, Li, Tianyi, Arleo, Angelo, Sheynikhovich, Denis, Nakamura, Akihiro, Shimono, Masanori, Song, Youngjo, Park, Sol, Choi, Ilhwan, Jeong, Jaeseung, Shin, Hee-sup, Sadeh, Sadra, Gleeson, Padraig, Silver, R., Chatzikalymniou, Alexandra P, Skinner, Frances K, Rodriguez, Lazaro M, Sotero, Roberto C, Hertäg, Loreen, Mackwood, Owen, Sprekeler, Henning, Puhlmann, Steffen, Weber, Simon N, Higgins, David, Naumann, Laura B, Iyer, Ramakrisnan, Mihalas, Stefan, Ticcinelli, Valentina, Stankovski, Tomislav, McClintock, Peter V E, Stefanovska, Aneta, Janjić, Predrag, Solev, Dimitar, Seifert, Gerald, Kocarev, Ljupčo, Steinhäuser, Christian, Salmasi, Mehrdad, Glasauer, Stefan, Stemmler, Martin, Zhang, Danke, Zhang, Chi, Stepanyants, Armen, Goncharenko, Julia, Kros, Lieke, Davey, Neil, Zeeuw, Chris, Hoebeek, Freek, Sinha, Ankur, Adams, Roderick, Schmuker, Michael, Psarrou, Maria, Schilstra, Maria, Nielsen, Benjamin, Metzner, Christoph, Schweikard, Achim, Marttunen, Tuomo, Zurowski, Bartosz, Marinazzo, Daniele, Faes, Luca, Stramaglia, Sebastiano, Jordan, Henry O C, Stringer, Simon M, Dendek, Elżbieta, Suffczyński, Piotr, Tam, Nicoladie, Zouridakis, George, Pollonini, Luca, Asl, Mojtaba M, Valizadeh, Alireza, Tass, Peter A, Nold, Andreas, Fan, Wei, Konrad, Sara, Endle, Heiko, Vogt, Johannes, Tchumatchenko, Tatjana, Herpich, Juliane, Tetzlaff, Christian, Luboeinski, Jannik, Nachstedt, Timo, Ciba, Manuel, Bahmer, Andreas, Thielemann, Christiane, Kuebler, Eric S, Tauskela, Joseph S, Thivierge, Jean-Philippe, Bakker, Rembrandt, Amado, María, Evangelio, Marian, Clascá, Francisco, Tiesinga, Paul, Buckley, Christopher L, Toyoizumi, Taro, Dubreuil, Alexis M, Monasson, Rémi, Treves, Alessandro, Spalla, Davide, Rosay, Sophie, Kleberg, Florence I, Wong, Willy, Floriano, Bruno, Matsuo, Toshihiko, Uchida, Tetsuya, Dibenedetto, Domenica, Uludağ, Kâmil, Goodarzinick, Abdorreza, Schmidt, Maximilian, Hilgetag, Claus C, Diesmann, Markus, Albada, Sacha J, Fauth, Michael, Rossum, Mark, Sánchez, Manuel, Amaducci, Rodrigo, Muñiz, Carlos, Elices, Irene, Arroyo, David, Levi, Rafael, Cohen, Ben, Chow, Carson, Vattikuti, Shashaank, Bertolotti, Elena, Burioni, Raffaella, Volo, Matteo, Vezzani, Alessandro, Menzat, Bayar, Vogels, Tim P, Wagatsuma, Nobuhiko, Saha, Susmita, Kapoor, Reena, Kerr, Robert, Wagner, John, Molino, Luis C G, Yang, Guangyu R, Mejias, Jorge F, Wang, Xiao-Jing, Song, Hanbing, Goodliffe, Joseph, Luebke, Jennifer, Weaver, Christina M, Thomas, John, Sinha, Nishant, Shaju, Nikhita, Maszczyk, Tomasz, Jin, Jing, Cash, Sydney S, Dauwels, Justin, Westover, M., Karimian, Maryam, Moerel, Michelle, Weerd, Peter, Burwick, Thomas, Westra, Ronald L, Abeysuriya, Romesh, Hadida, Jonathan, Sotiropoulos, Stamatios, Jbabdi, Saad, Woolrich, Mark, Bensmail, Chama, Wrobel, Borys, Zhou, Xiaolong, Ji, Zilong, Liu, Xiao, Xia, Yan, Wu, Si, Wang, Xiao, Zhang, Mingsha, Ofer, Netanel, Shefi, Orit, Yaari, Gur, Carnevale, Ted, Majumdar, Amit, Sivagnanam, Subhashini, Yoshimoto, Kenneth, Smirnova, Elena Y, Amakhin, Dmitry V, Malkin, Sergey L, Zaitsev, Aleksey V, Chizhov, Anton V, Zaleshina, Margarita, Zaleshin, Alexander, Barranca, Victor J, Zhu, George, Skilling, Quinton M, Maruyama, Daniel, Ognjanovski, Nicolette, Aton, Sara J, Zochowski, Michal, Wu, Jiaxing, Aton, Sara, Rich, Scott, Booth, Victoria, Budak, Maral, Bernal, Salvador, Neymotin, Samuel A, Suter, Benjamin A, Shepherd, Gordon M G, Felton, Melvin A, Yu, Alfred B, Boothe, David L, Oie, Kelvin S, Franaszczuk, Piotr J, Shuvaev, Sergey A, Başerdem, Batuhan, Zador, Anthony, Koulakov, Alexei A, Madrona, Víctor J, Pereda, Ernesto, Mirasso, Claudio R, Canals, Santiago, Masoli, Stefano, Rongala, Udaya B, Spanne, Anton, Jorntell, Henrik, Oddo, Calogero M, Vartanov, Alexander V, Neklyudova, Anastasia K, Kozlovskiy, Stanislav A, Kiselnikov, Andrey A, Marakshina, Julia A, Teleńczuk, Maria, Teleńczuk, Bartosz, Destexhe, Alain, Kuokkanen, Paula T, Kraemer, Anna, McColgan, Thomas, Carr, Catherine E, and Kempter, Richard

Published

2017

44. Simulating neuronal ion dynamics as an electro-diffusive process

Author

Patirniche, Dinu, Vogel, Andreas, Breit, Markus, Stemmler, Martin, Herz, Andreas, and Queisser, Gillian

Subjects

Computational Neuroscience, Bernstein Conference

Published

2014

45. The hexagonal grid code as a multi-dimensional clock for space

Author

Stemmler, Martin, Mathis, Alexander, and Herz, Andreas V.M.

Subjects

Computational Neuroscience, Bernstein Conference

Published

2014

46. Slicing through the hexagonal lattice – grid-cell firing patterns on linear tracks provide insight into grid-field formation in 2D environments

Author

Kempf, Felix, Mathis, Alexander, Stemmler, Martin, and Herz, Andreas V.

Subjects

Computational Neuroscience, Bernstein Conference

Published

2014

47. Iso-response methods provide direct insight into dendritic computations

Author

Häusler Stefan, Kirst Christoph, Herz Andreas, and Stemmler Martin

Subjects

Cellular and Molecular Neuroscience, Developmental Neuroscience, Computer science, neural computation, Cognitive Neuroscience, neuron models, stimulus integration, dendritic processing, Neuroscience (miscellaneous), isoresponse, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Computational science, lcsh:RC321-571

Abstract

Dendrites of many neuron types exhibit complex morphologies and spatially modulated ionic channel compositions that generate non-trivial integrative properties (Major et al., 2013). These have been described as cascades of linear filters and static nonlinearities (Häusser and Mel, 2003; Larkum et al., 2009). Iso-response methods (see Gollisch and Herz, 2012) provide an alternative approach to understanding the intricate, nonlinear computations in dendrites, while making fewer prior assumptions. Within an iso-response approach, inputs to a dynamical system are varied such that a chosen output measure stays constant. These stimuli define lower-dimensional “iso-response manifolds” whose shape directly reflects the stimulus interaction, regardless of any further nonlinearity that acts on the combined signal. The output measure can range from the neuron’s firing rate (Gollisch et al., 2002) or the probability of a single spike (Gollisch and Herz, 2005) to first-spike latency or even a spike’s phase with respect to some ongoing brain rhythm. As an example (Fig. 1), take a 2D stimulus space parameterized by x1 and x2; the curved surfaces represent the response r(x1,x2) for two alternative models, which take the quadratic (a) and the linear sum (b) as the argument of a sigmoidal nonlinearity. The two scenarios are fundamentally different but generate identical one-dimensional responses. In addition, measurements along radial directions produce similar response curves, as shown by the black lines running along the surfaces. Iso-response curves (r=const), drawn as projections below the surface plots, however, reveal the different underlying processes. Using detailed multi-compartment models, we here show three examples of how the iso-response framework aids in understanding dendritic computations: First, in a pyramidal cell model (Poirazi et al., 2003), we find (Fig. 2) that, in terms of the membrane potential at the soma, activation of synapses on two selected dendritic compartments can give rise to linear (b) as well as curved iso-response lines (a,c). Notably, even inputs to spatially separated compartments (a) can be integrated more non-linearly than nearby inputs (b). Long-range nonlinear interactions are facilitated by local dendritic spikes, which are easily elicited in distal compartments. Second, we find that while the dendritic locations strongly influence the signature of nonlinear interactions, it is less sensitive to changes in the level of background synaptic activity. Finally, we stimulate a Purkinje cell model (de Shutter and Bower, 1994) with a constant input, resulting in regular spiking. We define the output as change in spike timing caused by activating two synapses at different dendritic locations and phases of the regular oscillation. For a large number of parameters we find that the dendrite performs a temporal max-operation on the inputs). These results demonstrate that iso-response methods are well suited to unravel complex dendritic computations in model neurons and that they can provide a powerful tool for experimental research with applications in multi-patch or optogenetic recordings.

Published

2014

48. Local Postsynaptic Voltage-Gated Sodium Channel Activation in Dendritic Spines of Olfactory Bulb Granule Cells

Author

Bywalez, Wolfgang G., primary, Patirniche, Dinu, additional, Rupprecht, Vanessa, additional, Stemmler, Martin, additional, Herz, Andreas V.M., additional, Pálfi, Dénes, additional, Rózsa, Balázs, additional, and Egger, Veronica, additional

Published

2016

49. Noise correlations of grid cells and the coding of space in medial entorhinal cortex

Author

Mathis, Alexander, Stemmler, Martin, and Herz, Andreas

Subjects

Computational Neuroscience, Bernstein Conference

Published

2013

50. Optimal Coding for 3D Space: Grid Cells of Bats Should Spike on a Face Centered Cubic Lattice

Author

Mathis, Alexander, Stemmler, Martin, and Herz, Andreas

Subjects

Computational Neuroscience, Bernstein Conference

Published

2013