Publications
Goldstein SA, Brown ST, Raman IM. (2026). Representations of subsecond duration-based timing by complex spike synchrony in cerebellar Purkinje neurons. J Neurosci., e0219262026.
Hadke SS, Klingler CN, Brown ST, et al. (2026). Printed MoS2 memristive nanosheet networks for spiking neurons with multi-order complexity. Nat Nanotechnol., 21(5):672-679.
Holla MR, Brown ST, Raman IM. (2026). Effects of Short-Term Synaptic Plasticity in Feedforward Inhibitory Circuits on Cerebellar Responses to Repetitive Sensory Input. J Neurosci., 46(3):e1850252025.
Brown ST, Holla MR, Land MA, et al. (2025). High-speed voltage imaging of action potentials in molecular layer interneurons reveals sensory-driven synchrony that augments movement. Cell Rep., 44(8):116148.
Brown ST, Medina-Pizarro M, Holla M, Vaaga CE, Raman IM. (2024). Simple spike patterns and synaptic mechanisms encoding sensory and motor signals in Purkinje cells and the cerebellar nuclei. Neuron, 112(11):1848-1861.e4.
Zempolich GW, Brown ST, Holla M, Raman IM. (2021). Simple and complex spike responses of mouse cerebellar Purkinje neurons to regular trains and omissions of somatosensory stimuli. J Neurophysiol., 126(3):763-776.
Vaaga CE, Brown ST, Raman IM. (2020). Cerebellar modulation of synaptic input to freezing-related neurons in the periaqueductal gray. eLife, 9:e54302.
White HV, Brown ST, Bozza TC, Raman IM. (2019). Effects of FGF14 and NaVβ4 deletion on transient and resurgent Na current in cerebellar Purkinje neurons. J Gen Physiol., 151(11):1300-1318.
Brown ST, Raman IM. (2018). Sensorimotor Integration and Amplification of Reflexive Whisking by Well-Timed Spiking in the Cerebellar Corticonuclear Circuit. Neuron, 99(3):564-575.e2.