Jesse I. Gilmer
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View article: A novel biomechanical model of the proximal mouse forelimb predicts muscle activity in optimal control simulations of reaching movements
A novel biomechanical model of the proximal mouse forelimb predicts muscle activity in optimal control simulations of reaching movements Open
Investigations into motor planning and execution lack an accurate and complete model of the forelimb, which could bolster or expand on findings. We sought to construct such a model using high-detail scans of murine anatomy and prior resear…
View article: A novel biomechanical model of the mouse forelimb predicts muscle activity in optimal control simulations of reaching movements
A novel biomechanical model of the mouse forelimb predicts muscle activity in optimal control simulations of reaching movements Open
Mice are key model organisms in neuroscience and motor systems physiology. Fine motor control tasks performed by mice have become widely used in assaying neural and biophysical motor system mechanisms. Although fine motor tasks provide use…
View article: An emergent temporal basis set robustly supports cerebellar time-series learning
An emergent temporal basis set robustly supports cerebellar time-series learning Open
During movement, mossy fiber inputs to the cerebellum relay time-varying information with strong intrinsic relationships to ongoing movement. Are such mossy fibers signals sufficient to support Purkinje signals and learning? In a model, we…
View article: An emergent temporal basis set robustly supports cerebellar time-series learning
An emergent temporal basis set robustly supports cerebellar time-series learning Open
Learning plays a key role in the function of many neural circuits. The cerebellum is considered a ‘learning machine’ essential for time interval estimation underlying motor coordination and other behaviors. Theoretical work has proposed th…
View article: Monosynaptic inputs to specific cell types of the intermediate and deep layers of the superior colliculus
Monosynaptic inputs to specific cell types of the intermediate and deep layers of the superior colliculus Open
The intermediate and deep layers of the midbrain superior colliculus (SC) are a key locus for several critical functions, including spatial attention, multisensory integration, and behavioral responses. While the SC is known to integrate i…
View article: Learning improves decoding of odor identity with phase-referenced oscillations in the olfactory bulb
Learning improves decoding of odor identity with phase-referenced oscillations in the olfactory bulb Open
Local field potential oscillations reflect temporally coordinated neuronal ensembles—coupling distant brain regions, gating processing windows, and providing a reference for spike timing-based codes. In phase amplitude coupling (PAC), the …
View article: Learning improves decoding of odor identity with phase-referenced oscillations in the olfactory bulb
Learning improves decoding of odor identity with phase-referenced oscillations in the olfactory bulb Open
Local field potential oscillations reflect temporally coordinated neuronal ensembles— coupling distant brain regions, gating processing windows, and providing a reference for spike timing-based codes. In phase amplitude coupling (PAC), the…
View article: Between-ear sound frequency disparity modulates a brain stem biomarker of binaural hearing
Between-ear sound frequency disparity modulates a brain stem biomarker of binaural hearing Open
The auditory brain stem response (ABR) is an evoked potential that indexes a cascade of neural events elicited by sound. In the present study we evaluated the influence of sound frequency on a derived component of the ABR known as the bina…
View article: Pathway-Specific Drive of Cerebellar Golgi Cells Reveals Integrative Rules of Cortical Inhibition
Pathway-Specific Drive of Cerebellar Golgi Cells Reveals Integrative Rules of Cortical Inhibition Open
Cerebellar granule cells (GrCs) constitute over half of all neurons in the vertebrate brain and are proposed to decorrelate convergent mossy fiber (MF) inputs in service of learning. Interneurons within the GrC layer, Golgi cells (GoCs), a…
View article: Pathway specific drive of cerebellar Golgi cells reveals integrative rules of cortical inhibition
Pathway specific drive of cerebellar Golgi cells reveals integrative rules of cortical inhibition Open
Cerebellar granule cells (GrCs) constitute over half of all neurons in the vertebrate brain and are proposed to decorrelate convergent mossy fiber inputs in service of learning. Interneurons within the granule cell layer, Golgi cells (GoCs…
View article: Morphological Constraints on Cerebellar Granule Cell Combinatorial Diversity
Morphological Constraints on Cerebellar Granule Cell Combinatorial Diversity Open
Combinatorial expansion by the cerebellar granule cell layer (GCL) is fundamental to theories of cerebellar contributions to motor control and learning. Granule cells (GrCs) sample approximately four mossy fiber inputs and are thought to f…
View article: Morphological constraints on cerebellar granule cell combinatorial diversity
Morphological constraints on cerebellar granule cell combinatorial diversity Open
Combinatorial expansion by the cerebellar granule cell layer (GCL) is fundamental to theories of cerebellar contributions to motor control and learning. Granule cells sample approximately four mossy fiber inputs and are thought to form a c…