Zobrazeno 1 - 10
of 267
pro vyhledávání: '"Jean Rossier"'
Autor:
Anastassios Karagiannis, Thierry Gallopin, Alexandre Lacroix, Fabrice Plaisier, Juliette Piquet, Hélène Geoffroy, Régine Hepp, Jérémie Naudé, Benjamin Le Gac, Richard Egger, Bertrand Lambolez, Dongdong Li, Jean Rossier, Jochen F Staiger, Hiromi Imamura, Susumu Seino, Jochen Roeper, Bruno Cauli
Publikováno v:
eLife, Vol 10 (2021)
Glucose is the mandatory fuel for the brain, yet the relative contribution of glucose and lactate for neuronal energy metabolism is unclear. We found that increased lactate, but not glucose concentration, enhances the spiking activity of neurons of t
Externí odkaz:
https://doaj.org/article/57bb3a9ac2944ab2882e68666a6d4e9e
Autor:
Stephen J Smith, Uygar Sümbül, Lucas T Graybuck, Forrest Collman, Sharmishtaa Seshamani, Rohan Gala, Olga Gliko, Leila Elabbady, Jeremy A Miller, Trygve E Bakken, Jean Rossier, Zizhen Yao, Ed Lein, Hongkui Zeng, Bosiljka Tasic, Michael Hawrylycz
Publikováno v:
eLife, Vol 8 (2019)
Seeking new insights into the homeostasis, modulation and plasticity of cortical synaptic networks, we have analyzed results from a single-cell RNA-seq study of 22,439 mouse neocortical neurons. Our analysis exposes transcriptomic evidence for dozens
Externí odkaz:
https://doaj.org/article/b76b07912cca4369abe0d31abac761a8
Autor:
Heleen M. Van’t Spijker, Dáire Rowlands, Jean Rossier, Barbara Haenzi, James W. Fawcett, Jessica C. F. Kwok
Publikováno v:
Neural Plasticity, Vol 2019 (2019)
The perineuronal net (PNN) is a mesh-like proteoglycan structure on the neuronal surface which is involved in regulating plasticity. The PNN regulates plasticity via multiple pathways, one of which is direct regulation of synapses through the control
Externí odkaz:
https://doaj.org/article/b6863ec9885c4fce8c835836a3d92d17
Autor:
Elena Khomyakova, Mikheil A. Livshits, Marie-Caroline Steinhauser, Luce Dauphinot, Sylvia Cohen-Kaminsky, Jean Rossier, Françoise Soussaline, Marie-Claude Potier
Publikováno v:
BioTechniques, Vol 44, Iss 1, Pp 109-117 (2008)
DNA microarray technology is a powerful tool for getting an overview of gene expression in biological samples. Although the successful use of microarray-based expression analysis was demonstrated in a number of applications, the main problem with thi
Externí odkaz:
https://doaj.org/article/976cce2fc594432fa1fe40e6dd66c42c
Autor:
Jean Rossier
Publikováno v:
Frontiers in Human Neuroscience, Vol 3 (2009)
Externí odkaz:
https://doaj.org/article/3df577bbf8ab46b9a203fb661557615f
Autor:
Jérémie Naudé, Juliette Piquet, Bertrand Lambolez, Alexandre Lacroix, Jean Rossier, Bruno Cauli, Anastassios Karagiannis, Dongdong Li, Benjamin Le Gac, Régine Hepp, Thierry Gallopin, Hiromi Imamura, Richard Egger, Hélène Geoffroy, Fabrice Plaisier, Susumu Seino, Jochen F. Staiger, Jochen Roeper
Publikováno v:
eLife, Vol 10 (2021)
eLife
eLife, 2021, 10, ⟨10.7554/eLife.71424⟩
eLife, eLife Sciences Publication, 2021, 10, ⟨10.7554/eLife.71424⟩
eLife
eLife, 2021, 10, ⟨10.7554/eLife.71424⟩
eLife, eLife Sciences Publication, 2021, 10, ⟨10.7554/eLife.71424⟩
Glucose is the mandatory fuel for the brain, yet the relative contribution of glucose and lactate for neuronal energy metabolism is unclear. We found that increased lactate, but not glucose concentration, enhances the spiking activity of neurons of t
Autor:
Dongdong Li, Anastassios Karagiannis, Benjamin Le Gac, Jean Rossier, Bruno Cauli, Richard Egger, Alexandre Lacroix, Susumu Seino, Jochen F. Staiger, Juliette Piquet, Hélène Geoffroy, Jochen Roeper, Hiromi Imamura, Jérémie Naudé, Fabrice Plaisier, Régine Hepp, Thierry Gallopin, Bertrand Lambolez
SummaryGlucose is the mandatory fuel for the brain, yet the relative contribution of glucose and lactate for neuronal energy metabolism is unclear. We found that increased lactate, but not glucose concentration, enhances the spiking activity of neuro
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::49ebacd35ae99560c210f35a56f7af13
https://hal.archives-ouvertes.fr/hal-03375850
https://hal.archives-ouvertes.fr/hal-03375850
Autor:
Anastassios Karagiannis, Thierry Gallopin, Alexandre Lacroix, Fabrice Plaisier, Juliette Piquet, Hélène Geoffroy, Régine Hepp, Jérémie Naudé, Benjamin Le Gac, Richard Egger, Bertrand Lambolez, Dongdong Li, Jean Rossier, Jochen F Staiger, Hiromi Imamura, Susumu Seino, Jochen Roeper, Bruno Cauli
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::8fe67f7700510e394cb78fac001b8e0b
https://doi.org/10.7554/elife.71424.sa2
https://doi.org/10.7554/elife.71424.sa2
Autor:
Gabrielle Devienne, Bertrand Lambolez, Bruno Cauli, Ariel A. Di Nardo, Jean Rossier, Ivan Cohen, Ludovic Tricoire, Juliette Piquet, Damien Testa, Sandrine Picaud
Publikováno v:
Journal of Neuroscience
Journal of Neuroscience, In press, ⟨10.1523/JNEUROSCI.0434-21.2021⟩
Journal of Neuroscience, Society for Neuroscience, In press, ⟨10.1523/JNEUROSCI.0434-21.2021⟩
J Neurosci
Journal of Neuroscience, In press, ⟨10.1523/JNEUROSCI.0434-21.2021⟩
Journal of Neuroscience, Society for Neuroscience, In press, ⟨10.1523/JNEUROSCI.0434-21.2021⟩
J Neurosci
Perineuronal net (PNN) accumulation around parvalbumin-expressing (PV) inhibitory interneurons marks the closure of critical periods of high plasticity, whereas PNN removal reinstates juvenile plasticity in the adult cortex. Using targeted chemogenet
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e39a27ece59383063caf57a7bb86eb58
https://hal.science/hal-03249499/document
https://hal.science/hal-03249499/document
Autor:
Rafael Yuste, Michael Hawrylycz, Nadia Aalling, Argel Aguilar-Valles, Detlev Arendt, Ruben Armañanzas, Giorgio A. Ascoli, Concha Bielza, Vahid Bokharaie, Tobias Borgtoft Bergmann, Irina Bystron, Marco Capogna, YoonJeung Chang, Ann Clemens, Christiaan P. J. de Kock, Javier DeFelipe, Sandra Esmeralda Dos Santos, Keagan Dunville, Dirk Feldmeyer, Richárd Fiáth, Gordon James Fishell, Angelica Foggetti, Xuefan Gao, Parviz Ghaderi, Natalia A. Goriounova, Onur Güntürkün, Kenta Hagihara, Vanessa Jane Hall, Moritz Helmstaedter, Suzana Herculano-Houzel, Markus M. Hilscher, Hajime Hirase, Jens Hjerling-Leffler, Rebecca Hodge, Josh Huang, Rafiq Huda, Konstantin Khodosevich, Ole Kiehn, Henner Koch, Eric S. Kuebler, Malte Kühnemund, Pedro Larrañaga, Boudewijn Lelieveldt, Emma Louise Louth, Jan H. Lui, Huibert D. Mansvelder, Oscar Marin, Julio Martinez-Trujillo, Homeira Moradi Chameh, Alok Nath Mohapatra, Hermany Munguba, Maiken Nedergaard, Pavel Němec, Netanel Ofer, Ulrich Gottfried Pfisterer, Samuel Pontes, William Redmond, Jean Rossier, Joshua R. Sanes, Richard H. Scheuermann, Esther Serrano-Saiz, Jochen F. Staiger, Peter Somogyi, Gábor Tamás, Andreas Savas Tolias, Maria Antonietta Tosches, Miguel Turrero García, Christian Wozny, Thomas V. Wuttke, Yong Liu, Juan Yuan, Hongkui Zeng, Ed Lein
Publikováno v:
Yuste, R, Hawrylycz, M, Aalling, N, Arendt, D, Armananzas, R, Ascoli, G, Bielza, C, Bokharaie, V, Bergmann, T, Bystron, I, Capogna, M, Chang, Y, Clemens, A, Kock, C D, DeFelipe, J, Santos, S D, Dunville, K, Feldmeyer, D, Fiath, R, Fishell, G, Foggetti, A, Gao, X, Ghaderi, P, Gunturkun, O, Hall, V J, Helmstaedter, M, Herculano-Houzel, S, Hilscher, M, Hirase, H, Hjerling-Leffler, J, Hodge, R, Huang, Z J, Huda, R, Juan, Y, Khodosevich, K, Kiehn, O, Koch, H, Kuebler, E, Kuhnemund, M, Larranaga, P, Lelieveldt, B, Louth, E L, Lui, J, Mansvelder, H, Marin, O, Martínez-Trujillo, J, Moradi, H, Goriounova, N, Mohapatra, A, Nedergaard, M, Němec, P, Ofer, N, Pfisterer, U, Pontes, S, Redmond, W, Rossier, J, Sanes, J, Scheuermann, R, Saiz, E S, Somogyi, P, Tamás, G, Tolias, A, Tosches, M, Garcia, M T, Aguilar-Valles, A, Munguba, H, Wozny, C, Wuttke, T, Yong, L, Zeng, H & Lein, E S 2020, ' A community-based transcriptomics classification and nomenclature of neocortical cell types ', Nature Neuroscience . https://doi.org/10.1038/s41593-020-0685-8
Digital.CSIC. Repositorio Institucional del CSIC
instname
Yuste, R, Hawrylycz, M, Aalling, N, Aguilar-Valles, A, Arendt, D, Arnedillo, R A, Ascoli, G A, Bielza, C, Bokharaie, V, Bergmann, T B, Bystron, I, Capogna, M, Chang, Y, Clemens, A, de Kock, C P J, DeFelipe, J, Dos Santos, S E, Dunville, K, Feldmeyer, D, Fiáth, R, Fishell, G J, Foggetti, A, Gao, X, Ghaderi, P, Goriounova, N A, Güntürkün, O, Hagihara, K, Hall, V J, Helmstaedter, M, Herculano, S, Hilscher, M M, Hirase, H, Hjerling-Leffler, J, Hodge, R, Huang, J, Huda, R, Khodosevich, K, Kiehn, O, Koch, H, Kuebler, E S, Kühnemund, M, Larrañaga, P, Lelieveldt, B, Louth, E L, Lui, J H, Mansvelder, H D, Marin, O, Martinez-Trujillo, J, Moradi Chameh, H, Nath, A, Nedergaard, M, Němec, P, Ofer, N, Pfisterer, U G, Pontes, S, Redmond, W, Rossier, J, Sanes, J R, Scheuermann, R, Serrano-Saiz, E, Steiger, J F, Somogyi, P, Tamás, G, Tolias, A S, Tosches, M A, García, M T, Vieira, H M, Wozny, C, Wuttke, T V, Yong, L, Yuan, J, Zeng, H & Lein, E 2020, ' A community-based transcriptomics classification and nomenclature of neocortical cell types ', Nature Neuroscience, vol. 23, no. 12, pp. 1456-1468 . https://doi.org/10.1038/s41593-020-0685-8
Nature Neuroscience, 23(12), 1456-1468. Nature Publishing Group
Nature Neuroscience
Nature Neuroscience, ISSN 1097-6256, 2020-03, Vol. 23
Yuste, R, Hawrylycz, M, Aalling, N, Aguilar-valles, A, Arendt, D, Arnedillo, R A, Ascoli, G A, Bielza, C, Bokharaie, V, Bergmann, T B, Bystron, I, Capogna, M, Chang, Y, Clemens, A, De Kock, C P J, Defelipe, J, Dos Santos, S E, Dunville, K, Feldmeyer, D, Fiáth, R, Fishell, G J, Foggetti, A, Gao, X, Ghaderi, P, Goriounova, N A, Güntürkün, O, Hagihara, K, Hall, V J, Helmstaedter, M, Herculano, S, Hilscher, M M, Hirase, H, Hjerling-leffler, J, Hodge, R, Huang, J, Huda, R, Khodosevich, K, Kiehn, O, Koch, H, Kuebler, E S, Kühnemund, M, Larrañaga, P, Lelieveldt, B, Louth, E L, Lui, J H, Mansvelder, H D, Marin, O, Martinez-trujillo, J, Moradi Chameh, H, Nath, A, Nedergaard, M, Němec, P, Ofer, N, Pfisterer, U G, Pontes, S, Redmond, W, Rossier, J, Sanes, J R, Scheuermann, R, Serrano-saiz, E, Steiger, J F, Somogyi, P, Tamás, G, Tolias, A S, Tosches, M A, García, M T, Vieira, H M, Wozny, C, Wuttke, T V, Yong, L, Yuan, J, Zeng, H & Lein, E 2020, ' A community-based transcriptomics classification and nomenclature of neocortical cell types ', Nature Neuroscience, vol. 23, pp. 1456-1468 . https://doi.org/10.1038/s41593-020-0685-8
Nat Neurosci
Nature neuroscience 23(12), 1456-1468 (2020). doi:10.1038/s41593-020-0685-8 special issue: "Focus on neuroscience methods"
Nature Neuroscience, 23(12), 1456-1468. NATURE RESEARCH
Physiology and Pharmacology Publications
Nature neuroscience, vol 23, iss 12
Digital.CSIC. Repositorio Institucional del CSIC
instname
Yuste, R, Hawrylycz, M, Aalling, N, Aguilar-Valles, A, Arendt, D, Arnedillo, R A, Ascoli, G A, Bielza, C, Bokharaie, V, Bergmann, T B, Bystron, I, Capogna, M, Chang, Y, Clemens, A, de Kock, C P J, DeFelipe, J, Dos Santos, S E, Dunville, K, Feldmeyer, D, Fiáth, R, Fishell, G J, Foggetti, A, Gao, X, Ghaderi, P, Goriounova, N A, Güntürkün, O, Hagihara, K, Hall, V J, Helmstaedter, M, Herculano, S, Hilscher, M M, Hirase, H, Hjerling-Leffler, J, Hodge, R, Huang, J, Huda, R, Khodosevich, K, Kiehn, O, Koch, H, Kuebler, E S, Kühnemund, M, Larrañaga, P, Lelieveldt, B, Louth, E L, Lui, J H, Mansvelder, H D, Marin, O, Martinez-Trujillo, J, Moradi Chameh, H, Nath, A, Nedergaard, M, Němec, P, Ofer, N, Pfisterer, U G, Pontes, S, Redmond, W, Rossier, J, Sanes, J R, Scheuermann, R, Serrano-Saiz, E, Steiger, J F, Somogyi, P, Tamás, G, Tolias, A S, Tosches, M A, García, M T, Vieira, H M, Wozny, C, Wuttke, T V, Yong, L, Yuan, J, Zeng, H & Lein, E 2020, ' A community-based transcriptomics classification and nomenclature of neocortical cell types ', Nature Neuroscience, vol. 23, no. 12, pp. 1456-1468 . https://doi.org/10.1038/s41593-020-0685-8
Nature Neuroscience, 23(12), 1456-1468. Nature Publishing Group
Nature Neuroscience
Nature Neuroscience, ISSN 1097-6256, 2020-03, Vol. 23
Yuste, R, Hawrylycz, M, Aalling, N, Aguilar-valles, A, Arendt, D, Arnedillo, R A, Ascoli, G A, Bielza, C, Bokharaie, V, Bergmann, T B, Bystron, I, Capogna, M, Chang, Y, Clemens, A, De Kock, C P J, Defelipe, J, Dos Santos, S E, Dunville, K, Feldmeyer, D, Fiáth, R, Fishell, G J, Foggetti, A, Gao, X, Ghaderi, P, Goriounova, N A, Güntürkün, O, Hagihara, K, Hall, V J, Helmstaedter, M, Herculano, S, Hilscher, M M, Hirase, H, Hjerling-leffler, J, Hodge, R, Huang, J, Huda, R, Khodosevich, K, Kiehn, O, Koch, H, Kuebler, E S, Kühnemund, M, Larrañaga, P, Lelieveldt, B, Louth, E L, Lui, J H, Mansvelder, H D, Marin, O, Martinez-trujillo, J, Moradi Chameh, H, Nath, A, Nedergaard, M, Němec, P, Ofer, N, Pfisterer, U G, Pontes, S, Redmond, W, Rossier, J, Sanes, J R, Scheuermann, R, Serrano-saiz, E, Steiger, J F, Somogyi, P, Tamás, G, Tolias, A S, Tosches, M A, García, M T, Vieira, H M, Wozny, C, Wuttke, T V, Yong, L, Yuan, J, Zeng, H & Lein, E 2020, ' A community-based transcriptomics classification and nomenclature of neocortical cell types ', Nature Neuroscience, vol. 23, pp. 1456-1468 . https://doi.org/10.1038/s41593-020-0685-8
Nat Neurosci
Nature neuroscience 23(12), 1456-1468 (2020). doi:10.1038/s41593-020-0685-8 special issue: "Focus on neuroscience methods"
Nature Neuroscience, 23(12), 1456-1468. NATURE RESEARCH
Physiology and Pharmacology Publications
Nature neuroscience, vol 23, iss 12
To understand the function of cortical circuits it is necessary to classify their underlying cellular diversity. Traditional attempts based on comparing anatomical or physiological features of neurons and glia, while productive, have not resulted in
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d99f5b48e1716cf233a9dc0f39816d98
https://www.pure.ed.ac.uk/ws/files/157037447/NN_2020acceptedClemens_1_.pdf
https://www.pure.ed.ac.uk/ws/files/157037447/NN_2020acceptedClemens_1_.pdf