Search Results
Your search for courses · during 2023-24 · taught by ehoopfer · returned 5 results
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BIOL 365 Seminar: Topics in Neuroscience 6 credits
We will focus on recent advances in neuroscience. All areas of neuroscience (cellular/molecular, developmental, systems, cognitive, and disease) will be considered. Classical or foundational papers will be used to provide background.
Waitlist only
- Fall 2023
- Quantitative Reasoning Encounter
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Biology 125 and 126 or instructor consent
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BIOL 368 Seminar: Developmental Neurobiology 6 credits
An examination of the cellular and molecular mechanisms underlying development of the nervous system. We will survey recent studies of a variety of model organisms to explore key steps in neuronal development including neural induction, patterning, specification of neuronal identity, axonal guidance, synapse formation, cell death and regeneration.
Waitlist only
- Winter 2024
- Quantitative Reasoning Encounter
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Biology 125 and 126 and Biology 240 or Biology 280
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NEUR 127 Foundations in Neuroscience and Lab 6 credits
This course is an introduction to basic neural function. Topics include neural transmission, development of the nervous system, anatomy, sensory systems, learning and the corresponding change in the brain, and the role of the nervous system in behavior. Team-based learning will be used to understand the experiments that shape current knowledge.
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NEUR 127.52 Fall 2023
- Faculty:Eric Hoopfer 🏫 👤 · Sarah Meerts 🏫 👤
- Size:16
- T, THWeitz Center 235 10:10am-11:55am
- THulings B04 1:00pm-5:00pm
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NEUR 127.53 Fall 2023
- Faculty:Eric Hoopfer 🏫 👤 · Sarah Meerts 🏫 👤
- Size:16
- T, THWeitz Center 235 10:10am-11:55am
- WHulings B04 2:00pm-6:00pm
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NEUR 238 Neurons, Circuits and Behavior 6 credits
Neurons are the building blocks of the nervous system. Molecular and cellular neuroscience seeks to understand the fundamental principles that govern how neurons function, how they communicate with each other, and how they assemble into circuits that generate behavior. This course focuses on the molecular and cellular basis of nervous system function from the level of genes and molecules to neural circuits and behavior. We will take an integrative approach to examine the genetic, molecular and cellular mechanisms that underlie neuronal communication, the molecular basis of sensation and innate behaviors, neural plasticity, and nervous system disorders. This course will emphasize the experimental evidence and techniques that have built our understanding of the molecular and cellular basis of behavior through team-based learning, analysis of primary literature papers and laboratory experimentation. A grade of C- or better must be earned in both Neuroscience 238 and 239 to satisfy the LS requirement.
- Spring 2024
- Science with Lab Quantitative Reasoning Encounter
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Neuroscience 127 or Biology 125
Concurrent registration in Neuroscience 239.
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NEUR 238.00 Spring 2024
- Faculty:Eric Hoopfer 🏫 👤
- Size:25
- T, THAnderson Hall 329 10:10am-11:55am
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NEUR 239 Neurons, Circuits and Behavior Lab 2 credits
This laboratory course will provide experience in performing experiments to elucidate the structure and function of neurons and neural circuits using classical and cutting-edge techniques. Students will apply these techniques to develop and carry out an independent research project.
- Spring 2024
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Concurrent registration in Neuroscience 238 required
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NEUR 239.01 Spring 2024
- Faculty:Eric Hoopfer 🏫 👤
- Size:12
- THulings B04 1:00pm-5:00pm
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NEUR 239.02 Spring 2024
- Faculty:Eric Hoopfer 🏫 👤
- Size:12
- WHulings B04 2:00pm-6:00pm