Chris I. de Zeeuw
Affiliations: | Erasmus Medical Center Rotterdam, Rotterdam, Netherlands |
Website:
http://www2.eur.nl/fgg/neuro/people/C.I.deZeeuw.htmlGoogle:
"Chris de Zeeuw"Bio:
http://hdl.handle.net/1765/50888
Mean distance: 13.75 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentorJan Voogd | grad student | 1990 | Erasmus MC | |
(Ultrastructure of the cat inferior olive : an anatomical study using three new combination techniques) | ||||
Enrico Mugnaini | post-doc | University of Connecticut | ||
John I. Simpson | post-doc | NYU School of Medicine |
Children
Sign in to add traineeThijs van der Vaart | research assistant | 2007- | Erasmus MC |
Marco Bocchio | research assistant | 2010-2012 | Erasmus MC |
Zhenyu Gao | grad student | Erasmus MC | |
Yoshiyuki Onuki | grad student | ||
Martijn Schonewille | grad student | Erasmus MC | |
Claudia Bonardi | grad student | 2009-2010 | Erasmus MC |
Aleksandra Badura | grad student | 2007-2011 | Erasmus MC |
Laurens Witter | grad student | 2007-2013 | Netherlands Institute for Neuroscience, Amsterdam, NL |
Elisabetta Iavarone | grad student | 2014-2014 | |
Eric Avila | grad student | 2010-2015 | Erasmus MC |
Saša Peter | grad student | 2012-2017 | Erasmus MC |
Robin Broersen | grad student | 2014-2019 | Erasmus MC |
Laurens W. Bosman | post-doc | 2006- | Erasmus MC |
Marylka Yoe Uusisaari | post-doc | 2016- | Erasmus MC |
Tycho M. Hoogland | research scientist | Netherlands Institute for Neuroscience | |
Katja Kornysheva | research scientist | Erasmus MC | |
Ger Ramakers | research scientist | Netherlands Institute for Neuroscience |
Collaborators
Sign in to add collaboratorRobert Buccigrossi | collaborator | Erasmus MC | ||
Egidio D'Angelo | collaborator | University of Pavia | ||
Eric Burguiere | collaborator | 2002- | CNRS, Collège de France | |
(L7-PKCi mice) |
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Publications
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Geminiani A, Casellato C, Boele HJ, et al. (2024) Mesoscale simulations predict the role of synergistic cerebellar plasticity during classical eyeblink conditioning. Plos Computational Biology. 20: e1011277 |
Jaarsma D, Birkisdóttir MB, van Vossen R, et al. (2024) Different Purkinje cell pathologies cause specific patterns of progressive gait ataxia in mice. Neurobiology of Disease. 192: 106422 |
van Hoogstraten WS, Lute MCC, Liu Z, et al. (2024) Disynaptic inhibitory cerebellar control over caudal medial accessory olive. Eneuro |
Xu FX, Wang XT, Cai XY, et al. (2023) Purkinje-cell-specific MeCP2 deficiency leads to motor deficits and autistic-like behavior due to aberrations in PTP1B-TrkB-SK signaling. Cell Reports. 42: 113559 |
Zhai P, Romano V, Soggia G, et al. (2023) Whisker kinematics in the cerebellum. The Journal of Physiology |
Broersen R, Albergaria C, Carulli D, et al. (2023) Synaptic mechanisms for associative learning in the cerebellar nuclei. Nature Communications. 14: 7459 |
Blot FGC, White JJ, van Hattem A, et al. (2023) Publisher Correction: Purkinje cell microzones mediate distinct kinematics of a single movement. Nature Communications. 14: 5375 |
Broersen R, Canto CB, De Zeeuw CI. (2023) Cerebellar nuclei: Associative motor learning in zebrafish. Current Biology : Cb. 33: R867-R870 |
Loyola S, Hoogland TM, Hoedemaker H, et al. (2023) How inhibitory and excitatory inputs gate output of the inferior olive. Elife. 12 |
Blot FGC, White JJ, van Hattem A, et al. (2023) Purkinje cell microzones mediate distinct kinematics of a single movement. Nature Communications. 14: 4358 |