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Items: 9

1.

A null model of the mouse whole-neocortex micro-connectome.

Reimann MW, Gevaert M, Shi Y, Lu H, Markram H, Muller E.

Nat Commun. 2019 Aug 29;10(1):3903. doi: 10.1038/s41467-019-11630-x.

2.

Cortical reliability amid noise and chaos.

Nolte M, Reimann MW, King JG, Markram H, Muller EB.

Nat Commun. 2019 Aug 22;10(1):3792. doi: 10.1038/s41467-019-11633-8.

3.

Cliques of Neurons Bound into Cavities Provide a Missing Link between Structure and Function.

Reimann MW, Nolte M, Scolamiero M, Turner K, Perin R, Chindemi G, Dłotko P, Levi R, Hess K, Markram H.

Front Comput Neurosci. 2017 Jun 12;11:48. doi: 10.3389/fncom.2017.00048. eCollection 2017.

4.

Morphological Diversity Strongly Constrains Synaptic Connectivity and Plasticity.

Reimann MW, Horlemann AL, Ramaswamy S, Muller EB, Markram H.

Cereb Cortex. 2017 Sep 1;27(9):4570-4585. doi: 10.1093/cercor/bhx150.

PMID:
28637203
5.

Rich cell-type-specific network topology in neocortical microcircuitry.

Gal E, London M, Globerson A, Ramaswamy S, Reimann MW, Muller E, Markram H, Segev I.

Nat Neurosci. 2017 Jul;20(7):1004-1013. doi: 10.1038/nn.4576. Epub 2017 Jun 5.

PMID:
28581480
6.

An algorithm to predict the connectome of neural microcircuits.

Reimann MW, King JG, Muller EB, Ramaswamy S, Markram H.

Front Comput Neurosci. 2015 Oct 8;9:120. doi: 10.3389/fncom.2015.00120. eCollection 2015.

7.

The neocortical microcircuit collaboration portal: a resource for rat somatosensory cortex.

Ramaswamy S, Courcol JD, Abdellah M, Adaszewski SR, Antille N, Arsever S, Atenekeng G, Bilgili A, Brukau Y, Chalimourda A, Chindemi G, Delalondre F, Dumusc R, Eilemann S, Gevaert ME, Gleeson P, Graham JW, Hernando JB, Kanari L, Katkov Y, Keller D, King JG, Ranjan R, Reimann MW, Rössert C, Shi Y, Shillcock JC, Telefont M, Van Geit W, Diaz JV, Walker R, Wang Y, Zaninetta SM, DeFelipe J, Hill SL, Muller J, Segev I, Schürmann F, Muller EB, Markram H.

Front Neural Circuits. 2015 Oct 8;9:44. doi: 10.3389/fncir.2015.00044. eCollection 2015. No abstract available.

8.

Reconstruction and Simulation of Neocortical Microcircuitry.

Markram H, Muller E, Ramaswamy S, Reimann MW, Abdellah M, Sanchez CA, Ailamaki A, Alonso-Nanclares L, Antille N, Arsever S, Kahou GA, Berger TK, Bilgili A, Buncic N, Chalimourda A, Chindemi G, Courcol JD, Delalondre F, Delattre V, Druckmann S, Dumusc R, Dynes J, Eilemann S, Gal E, Gevaert ME, Ghobril JP, Gidon A, Graham JW, Gupta A, Haenel V, Hay E, Heinis T, Hernando JB, Hines M, Kanari L, Keller D, Kenyon J, Khazen G, Kim Y, King JG, Kisvarday Z, Kumbhar P, Lasserre S, Le Bé JV, Magalhães BR, Merchán-Pérez A, Meystre J, Morrice BR, Muller J, Muñoz-Céspedes A, Muralidhar S, Muthurasa K, Nachbaur D, Newton TH, Nolte M, Ovcharenko A, Palacios J, Pastor L, Perin R, Ranjan R, Riachi I, Rodríguez JR, Riquelme JL, Rössert C, Sfyrakis K, Shi Y, Shillcock JC, Silberberg G, Silva R, Tauheed F, Telefont M, Toledo-Rodriguez M, Tränkler T, Van Geit W, Díaz JV, Walker R, Wang Y, Zaninetta SM, DeFelipe J, Hill SL, Segev I, Schürmann F.

Cell. 2015 Oct 8;163(2):456-92. doi: 10.1016/j.cell.2015.09.029.

9.

A biophysically detailed model of neocortical local field potentials predicts the critical role of active membrane currents.

Reimann MW, Anastassiou CA, Perin R, Hill SL, Markram H, Koch C.

Neuron. 2013 Jul 24;79(2):375-90. doi: 10.1016/j.neuron.2013.05.023.

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