7.346 Synaptic Plasticity and Memory, from Molecules to Behavior, Fall 2007

Author(s)
Kamsler, Ariel
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Synaptic Plasticity and Memory, from Molecules to Behavior
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Abstract
In this course we will discover how innovative technologies combined with profound hypotheses have given rise to our current understanding of neuroscience. We will study both new and classical primary research papers with a focus on the plasticity between synapses in a brain structure called the hippocampus, which is believed to underlie the ability to create and retrieve certain classes of memories. We will discuss the basic electrical properties of neurons and how they fire. We will see how firing properties can change with experience, and we will study the biochemical basis of these changes. We will learn how molecular biology can be used to specifically change the biochemical properties of brain circuits, and we will see how these circuits form a representation of space giving rise to complex behaviors in living animals. A special emphasis will be given to understanding why specific experiments were done and how to design experiments that will answer the questions you have about the brain. This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT. These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highly interactive setting. Many instructors of the Advanced Undergraduate Seminars are postdoctoral scientists with a strong interest in teaching.
Date issued
2007-12
URI
https://hdl.handle.net/1721.1/148496
Department
Massachusetts Institute of Technology. Department of Biology
Other identifiers
7.346-Fall2007
Other identifiers
7.346
IMSCP-MD5-f4fb91007f79767706c19db1313c292b
Keywords
synapse, memory, neuroscience, plasticity, hippocampus, LTP, molecular mechanism, Morris water maze, place cells, NMDA, synaptic tagging, long term depression, cortex, synaptic plasticity, neuronal circuits, specificity, CA1, grid cells, schema, fear memory, biochemistry
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