The brains of humans and animals have the amazing capability of extracting abstract relationships between external stimuli efficiently. Knowing such regularities helps us compute and react to novel information flexibly without prior experience. The olfactory system is no exception. Animals need to infer commonalities across different odors sharing similar meaning,...
Parkinson's disease (PD) is a movement disorder that arises following the degeneration of dopamine-producing neurons of the substantia nigra pars compacta (SNc). Patients experience a host of limiting motor symptoms such as rigidity, tremor, and a paucity of controlled movement generation. These symptoms often correspond with a predominance of abnormally...
The cerebellum contributes to movement initiation, execution, and adaptation. Primary cerebellar neurons receive synaptic inputs related to sensory stimuli and motor commands, leading to modulation of their firing. Furthermore, synaptic input differs substantially between cerebellum-dependent behaviors. I have made voltage- and current-clamp recordings from Purkinje and eurydendroid neurons in the...
Mounting evidence indicates that known schizophrenia susceptibility genes regulate dendritic spines supports the model that perturbations in the molecular network underlying spine plasticity are crucially involved in the pathogenesis of schizophrenia. The Rac1- and RhoA-guanine nucleotide exchange factor (GEF) kalirin is critical for spine morphogenesis on cortical pyramidal neurons, and...
The mammalian retina harbors more than 30 output channels, each playing a distinct role in processing visual images. A comprehensive understanding of the retinal code primarily relies on the functional knowledge of individual output neurons or retinal ganglion cells (RGCs). Despite recent technical advances in imaging and genetics, the function...
A central question in neuroscience is how the brain plans movements. Here, I apply neural data analysis and machine learning methods to better understand both eye and arm movement planning, in particular focusing on naturalistic settings. First, I built encoding models to investigate the factors that led to neural activity...
Following a stroke, precise, individuated control of single joints is often replaced by highly stereotyped patterns of multi-joint movement, due to a loss of independent joint control, which can negatively impact functional use of the paretic arm. Despite the debilitating nature of this impairment, the precise underlying neural mechanisms remain...
Totipotent cells have the highest developmental potential and can only be created by nuclear transfer into oocytes. Identities of maternal factors that can induce this reprogramming remain a mystery. In this report, we demonstrate induction of totipotency on mouse embryonic stem cells by introducing six factors, Hist1h2aa, H3f3b, H1foo, p-Npm2,...
Psychosocial stress is part of everyday life, and while ubiquitous, stress plays a huge role disease development and treatment. Though the stressor’s intensity, predictability, and frequency (acute vs chronic) are important determinants of disease development, interactions with one’s genetic and epigenetic make-up also play a causal role. Major Depressive Disorder...
In vivo, substantia nigra pars compacta (SNc) dopaminergic neurons exhibit three spiking patterns – irregular, regular, and bursting. These distinct modes of activity are thought to underlie the different roles that dopamine (DA) plays in target structures within the basal ganglia. In particular, burst spiking in SNc DA neurons is...