BIOL0333A-S23
Receptor Biology
Receptor Biology
In this course we will focus on the wide range of membrane receptors and channels that are critical for cellular communication, neuronal connectivity, and sensory transduction. These complex proteins represent major targets in the pharmaceutical industry, and their study incorporates interdisciplinary techniques in structural biology, electrophysiology, synthetic chemistry, and pharmacology. After thoroughly engaging in the primary literature, we will emphasize discipline-specific writing and learn to summarize and communicate new findings to a wide range of expert and non-expert audiences. (BIOL 0145 or waiver) 3 hrs. lect./disc
In this course we will focus on the wide range of membrane receptors and channels that are critical for cellular communication, neuronal connectivity, and sensory transduction. These complex proteins represent major targets in the pharmaceutical industry, and their study incorporates interdisciplinary techniques in structural biology, electrophysiology, synthetic chemistry, and pharmacology. After thoroughly engaging in the primary literature, we will emphasize discipline-specific writing and learn to summarize and communicate new findings to a wide range of expert and non-expert audiences. (BIOL 0145 or waiver) 3 hrs. lect./disc
- Term:
- Spring 2023
- Location:
- McCardell Bicentennial Hall 148(MBH 148)
- Schedule:
- 11:15am-12:30pm on Monday, Wednesday (Feb 13, 2023 to May 15, 2023)
- Type:
- Lecture
- Course Modality:
- In-Person
- Instructors:
- Gregory Pask
- Subject:
- Biology
- Department:
- Biology
- Division:
- Natural Sciences
- Requirements Fulfilled:
- CW SCI
- Levels:
- Undergraduate
- Availability:
- View availability, prerequisites, and other requirements.
- Course Reference Number (CRN):
- 22342
- Subject Code:
- BIOL
- Course Number:
- 0333
- Section Identifier:
- A