ZFIN ID: ZDB-PERS-100303-1
Sumbre, Germán
Email: sumbre@bio.ens.psl.eu
URL:
Affiliation: SUMBRE Lab
Address: IBENS Ecole Normale Superieure de Paris Section de Neurosciences INSERM U1024 / CNRS UMR8197 46, rue d' Ulm PARIS CEDEX 05, 75230 France
Country: France
Phone:
Fax:
ORCID ID:


BIOGRAPHY AND RESEARCH INTERESTS


PUBLICATIONS
Uribe-Arias, A., Rozenblat, R., Vinepinsky, E., Marachlian, E., Kulkarni, A., Zada, D., Privat, M., Topsakalian, D., Charpy, S., Candat, V., Nourin, S., Appelbaum, L., Sumbre, G. (2023) Radial astrocyte synchronization modulates the visual system during behavioral-state transitions. Neuron. 111(24):4040-4057.e6
Duchemin, A., Privat, M., Sumbre, G. (2022) Fourier Motion Processing in the Optic Tectum and Pretectum of the Zebrafish Larva. Frontiers in neural circuits. 15:814128
Privat, M., Sumbre, G. (2020) Naturalistic Behavior: The Zebrafish Larva Strikes Back. Current biology : CB. 30:R27-R29
Privat, M., Romano, S.A., Pietri, T., Jouary, A., Boulanger-Weill, J., Elbaz, N., Duchemin, A., Soares, D., Sumbre, G. (2019) Sensorimotor Transformations in the Zebrafish Auditory System. Current biology : CB. 29(23):4010-4023.e4
Boulanger-Weill, J., Sumbre, G. (2019) Functional Integration of Newborn Neurons in the Zebrafish Optic Tectum. Frontiers in cell and developmental biology. 7:57
Ponce-Alvarez, A., Jouary, A., Privat, M., Deco, G., Sumbre, G. (2018) Whole-Brain Neuronal Activity Displays Crackling Noise Dynamics. Neuron. 100(6):1446-1459.e6
Marachlian, E., Avitan, L., Goodhill, G.J., Sumbre, G. (2018) Principles of Functional Circuit Connectivity: Insights From Spontaneous Activity in the Zebrafish Optic Tectum. Frontiers in neural circuits. 12:46
Boulanger-Weill, J., Candat, V., Jouary, A., Romano, S., Pérez-Schuster, V., Sumbre, G. (2017) Functional Interactions between Newborn and Mature Neurons Leading to Integration into Established Neuronal Circuits. Current biology : CB. 27(12):1707-1720.e5
Pietri, T., Romano, S.A., Pérez-Schuster, V., Boulanger-Weill, J., Candat, V., Sumbre, G. (2017) The Emergence of the Spatial Structure of Tectal Spontaneous Activity Is Independent of Visual Inputs. Cell Reports. 19:939-948
Pérez-Schuster, V., Kulkarni, A., Nouvian, M., Romano, S.A., Lygdas, K., Jouary, A., Dipoppa, M., Pietri, T., Haudrechy, M., Candat, V., Boulanger-Weill, J., Hakim, V., Sumbre, G. (2016) Correction: Sustained Rhythmic Brain Activity Underlies Visual Motion Perception in Zebrafish. Cell Reports. 17:3089
Pérez-Schuster, V., Kulkarni, A., Nouvian, M., Romano, S.A., Lygdas, K., Jouary, A., Dipoppa, M., Pietri, T., Haudrechy, M., Candat, V., Boulanger-Weill, J., Hakim, V., Sumbre, G. (2016) Sustained Rhythmic Brain Activity Underlies Visual Motion Perception in Zebrafish. Cell Reports. 17:1098-1112
Jouary, A., Haudrechy, M., Candelier, R., Sumbre, G. (2016) A 2D virtual reality system for visual goal-driven navigation in zebrafish larvae. Scientific Reports. 6:34015
Candelier, R., Sriti Murmu, M., Alejo Romano, S., Jouary, A., Debrégeas, G., Sumbre, G. (2015) A microfluidic device to study neuronal and motor responses to acute chemical stimuli in zebrafish. Scientific Reports. 5:12196
Romano, S.A., Pietri, T., Pérez-Schuster, V., Jouary, A., Haudrechy, M., Sumbre, G. (2015) Spontaneous Neuronal Network Dynamics Reveal Circuit's Functional Adaptations for Behavior. Neuron. 85(5):1070-85
Sumbre, G., and Poo, M.M. (2013) Monitoring tectal neuronal activities and motor behavior in zebrafish larvae. Cold Spring Harbor protocols. 2013(9):pdb.prot077131
Pietri, T., Roman, A.C., Guyon, N., Romano, S.A., Washbourne, P., Moens, C.B., de Polavieja, G.G., and Sumbre, G. (2013) The first mecp2-null zebrafish model shows altered motor behaviors. Frontiers in neural circuits. 7:118
Panier, T., Romano, S.A., Olive, R., Pietri, T., Sumbre, G., Candelier, R., and Debrégeas, G. (2013) Fast functional imaging of multiple brain regions in intact zebrafish larvae using Selective Plane Illumination Microscopy. Frontiers in neural circuits. 7:65
Sumbre, G., Muto, A., Baier, H., and Poo, M.M. (2008) Entrained rhythmic activities of neuronal ensembles as perceptual memory of time interval. Nature. 456(7218):102-106

NON-ZEBRAFISH PUBLICATIONS