Zhenyu Gao | Dept. of Neuroscience

Dr. Zhenyu Gao (Z.)

Position: PhD, Associate Professor, Erasmus MC
Lab Head in:
- Cerebro-cerebellar Communication

Publications

1. Disynaptic inhibitory cerebellar control over caudal medial accessory olive.

van Hoogstraten WS, Lute MCC, Liu Z, Broersen R, Mangili L, Kros L, Gao Z, Wang X, van den Maagdenberg AMJM, De Zeeuw CI

in eNeuro 2024

DOI: 10.1523/ENEURO.0262-23.2023

2. Morphological correlates of pyramidal cell axonal myelination in mouse and human neocortex.

Pascual-García M, Unkel M, Slotman JA, Bolleboom A, Bouwen B, Houtsmuller AB, Dirven C, Gao Z, Hijazi S, Kushner SA

in Cerebral cortex (New York, N.Y. : 1991) 2024

DOI: 10.1093/cercor/bhae147

3. Excitatory nucleo-olivary pathway shapes cerebellar outputs for motor control

Xiaolu Wang, Zhiqiang Liu, Milen Angelov, Zhao Feng, Xiangning Li, Anan Li, Yan Yang, Hui Gong & Zhenyu Gao

in Nature Neuroscience 2023

DOI: 10.1038/s41593-023-01387-4

4. Activity map of a cortico-cerebellar loop underlying motor planning

Zhu J, Hasanbegovic H, Liu LD, Gao Z, Li N

in Nature Neuroscience 2023

DOI: 10.1038/s41593-023-01453-x

5. A disynaptic basal ganglia connection to the inferior olive: potential for basal ganglia influence on cerebellar learning.

Ruigrok TJH, Wang X, Sabel-Goedknegt E, Coulon P, Gao Z

in Frontiers in systems neuroscience 2023

DOI: 10.3389/fnsys.2023.1176126

6. A midbrain-thalamus-cortex circuit reorganizes cortical dynamics to initiate movement.

Inagaki HK, Chen S, Ridder MC, Sah P, Li N, Yang Z, Hasanbegovic H, Gao Z, Gerfen CR, Svoboda K

in Cell 2022

DOI: 10.1016/j.cell.2022.02.006

7. Temporal dynamics of the cerebello-cortical convergence in ventro-lateral motor thalamus.

Schäfer CB, Gao Z, De Zeeuw CI, Hoebeek FE

in The Journal of physiology 2021

DOI: 10.1113/JP280455

8. Protein phosphatase 2B dual function facilitates synaptic integrity and motor learning.

Lin Z, Wu B, Paul MW, Li KW, Yao Y, Smal I, Onori MP, Hasanbegovic H, Bezstarosti K, Demmers J, Houtsmuller AB, Meijering E, Hoebeek FE, Schonewille M, Smit AB, Gao Z, De Zeeuw CI

in The Journal of neuroscience : the official journal of the Society for Neuroscience 2021

DOI: 10.1523/JNEUROSCI.1741-20.2021

9. RHEB/mTOR hyperactivity causes cortical malformations and epileptic seizures through increased axonal connectivity.

Proietti Onori M, Koene LMC, Schäfer CB, Nellist M, de Brito van Velze M, Gao Z, Elgersma Y, van Woerden GM

in PLoS biology 2021

DOI: 10.1371/journal.pbio.3001279

10. Input and output organization of the mesodiencephalic junction for cerebro-cerebellar communication.

Wang X, Novello M, Gao Z, Ruigrok TJH, De Zeeuw CI

in Journal of neuroscience research 2021

DOI: 10.1002/jnr.24993

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Department of Neuroscience
Erasmus MC

NEUROSCIENCE LABS

contact

Dr. Zhenyu Gao (Z.)

Publications

1. Disynaptic inhibitory cerebellar control over caudal medial accessory olive.

2. Morphological correlates of pyramidal cell axonal myelination in mouse and human neocortex.

3. Excitatory nucleo-olivary pathway shapes cerebellar outputs for motor control

4. Activity map of a cortico-cerebellar loop underlying motor planning

5. A disynaptic basal ganglia connection to the inferior olive: potential for basal ganglia influence on cerebellar learning.

6. A midbrain-thalamus-cortex circuit reorganizes cortical dynamics to initiate movement.

7. Temporal dynamics of the cerebello-cortical convergence in ventro-lateral motor thalamus.

8. Protein phosphatase 2B dual function facilitates synaptic integrity and motor learning.

9. RHEB/mTOR hyperactivity causes cortical malformations and epileptic seizures through increased axonal connectivity.

10. Input and output organization of the mesodiencephalic junction for cerebro-cerebellar communication.

contact

Dr. Zhenyu Gao (Z.)

Publications Show/Hide

1. Disynaptic inhibitory cerebellar control over caudal medial accessory olive.

2. Morphological correlates of pyramidal cell axonal myelination in mouse and human neocortex.

3. Excitatory nucleo-olivary pathway shapes cerebellar outputs for motor control

4. Activity map of a cortico-cerebellar loop underlying motor planning

5. A disynaptic basal ganglia connection to the inferior olive: potential for basal ganglia influence on cerebellar learning.

6. A midbrain-thalamus-cortex circuit reorganizes cortical dynamics to initiate movement.

7. Temporal dynamics of the cerebello-cortical convergence in ventro-lateral motor thalamus.

8. Protein phosphatase 2B dual function facilitates synaptic integrity and motor learning.

9. RHEB/mTOR hyperactivity causes cortical malformations and epileptic seizures through increased axonal connectivity.

10. Input and output organization of the mesodiencephalic junction for cerebro-cerebellar communication.

Publications