Our lab is interested in understanding the biological determinants of developmental and lifespan neural plasticity, that is how the brain adapts to changes in the sensory environment, while learning a new skill during childhood, upon injury or while aging. We examine the fine structure of the brain, its neuronal circuits, cells, synapses and molecules, using anatomical visualization techniques including electron and confocal microscopy. We also develop quantitative techniques to study the connectome of the brain circuits in 3 dimensional reconstructions at nanometer resolution.
Student will first learn the basic skills of lab and data maintenance (including making solutions, cleaning, conventions of record keeping, safety measures). Then the student will team up with a graduate student to work on an ongoing project. The lab techniques that the student will learn include immunohistochemistry, use of light and electron microscopy, use of imaging and 3D reconstruction softwares.
Basic background in brain structure and function. Understanding chemical safety. A strong commitment to undergraduate research experience. Good organizational skills.
1) Learn basic laboratory techniques related to ultrastructural brain anatomy; 2) Be comfortable in reading scientific literature; 3) Get an understanding of the day-to-day functions of a research lab, and consider whether continuing on a research path is suitable for the particular student.