All Publications — The Walter Lab

Spontaneous neurotransmission at evocable synapses predicts their responsiveness to action potentials

Frontiers in cellular neuroscience, March 2023

Andreas T. Grasskamp, Meida Jusyte, Anthony W. McCarthy, Torsten W. B. Götz, Susanne Ditlevsen and Alexander M. Walter

Unc13A dynamically stabilizes vesicle priming at synaptic release sites for short-term facilitation and homeostatic potentiation

Cell reports, June 2023

Meida Jusyte, Natalie Blaum, Mathias A. Bohme, Manon M.M. Berns, Alix E. Bonard, Abel B. Vamosi, Kavya V. Pushpalatha, Janus R.L. Kobbersmed, and Alexander M. Walter

Rate-limiting recovery processes in neurotransmission under sustained stimulation

Ernst, A., Unger, N., Schütte, C., Walter, A. M., & Winkelmann, S. (2023).

Rate-limiting recovery processes in neurotransmission under sustained stimulation.

Mathematical biosciences. https://doi.org/10.1016/j.mbs.2023.109023

Editorial: Functional and molecular insights of neural circuit adaptation, refinement, and remodeling.

Walter, A.M., Uesaka, N., and Midorikawa, M. (2023)

Editorial: Functional and molecular insights of neural circuit adaptation, refinement, and remodeling.

Frontiers in Cellular Neuroscience https://doi.org/10.3389/fncel.2023.1213640

An active zone state switch concentrates and immobilizes voltage gated Ca2+ channels to promote long-term plasticity

Ghelani, T., Escher, M., Thomas, U., Esch, K., Luetzkendorf, J., Depner, H., Maglione, M., Parutto, P., Gratz, S., Ryglewski, S., Walter, A.M., Holcmann, D., O’Connor Giles, K., Heine, M., and Sigrist, S. (2023)

An active zone state switch concentrates and immobilizes voltage gated Ca2+ channels to promote long-term plasticity

Science Advances https://doi.org/10.1126/sciadv.ade7804