PROJECT SUMMARY / ABSTRACT To survive, animals must learn appropriate associations between sensory cues and motor actions through a process of trial and error. We expect that this learning will strengthen the synaptic connections between neurons representing the sensory cue and neurons initiating the motor action.
Project Summary/Abstract This proposal aims to delineate the electrical and molecular diversity of the suprachiasmatic nucleus (SCN) and provide new evidence for receptor-expressing subtypes of SCN neurons using novel nanowire arrays that allow single cell recording at 1024 contacts simultaneously. The SCN is among the most robust and far-reaching networks of the brain.
Project Summary Learning is a fundamental function of the brain: sensory representations must be flexible to adjust to changes in environmental demands and experience, thus allowing us to adapt to the world around us. Understanding the mechanisms of learning are important not only for normal function of the brain but also in disease, for example, after unilateral hearing loss. One important but often overlooked principle of learning is the importance of feedback from other brain areas.
Project Summary/Abstract Candidate Goals and Mission Relevance: The applicant’s broad, long-term objective is to investigate how high- (circuit/behavioral) and low- (subcellular/molecular) level organizational principles of the brain cooperate to drive learning.
PROJECT SUMMARY Functional magnetic resonance imaging (fMRI) research has transformed our understanding of human brain function and disease and is flourishing under unprecedented international funding, including dedicated support from the BRAIN Initiative.
Project Abstract Whether riding your bike down a narrow path or reaching for your favorite cookie in a small box, many of our daily actions require skilled and accurate movements. However, to achieve proficiency, these motor skills must first be learned through the process of motor learning. Much work on this subject has focused on the dynamics of heterogeneous populations of neurons in various parts of the motor system. However, whether specific types of neurons are recruited over learning and/or whether neurons change functionally over learning has not been thoroughly explored.
PROJECT SUMMARY How do animals coordinate their many parts to generate coherent, adaptive behavior?
Project Summary Functional MRI (fMRI) is the prevailing method for both basic research and clinical functional neuroimaging in humans. A key component behind state-of-the-art fMRI is the multichannel radio frequency (RF) receive coil technology, which enables parallel imaging acceleration for improved spatial and temporal resolution. However, these imaging coils are usually fabricated on a hard helmet-shaped plastic chassis.
Project Summary/Abstract The brain undergoes extensive synaptic plasticity and circuit refinement during development. Similar changes recur throughout life during learning in a more narrowly constrained manner. Understanding how neuronal connections and activity are adaptively remodeled to accommodate a changing world remains an outstanding question in neuroscience research. Recent technological innovations provide unprecedented access to address this.
Project Summary/Abstract Circuits in the brain control motor output to generate the precise behaviors required for survival. Dysfunction of these circuits results in devastating movement disorders such as Parkinson’s disease and amyotrophic lateral sclerosis. It is important to understand how the brain normally controls behavior by understanding what features of motor output are encoded in individual neurons and how these representations are organized across a neuronal population. This K99/R00 proposal will support Dr.
