• NEUR 4720: Neuroscience Speaker Seminar

  2.00 Credits

  University of Wyoming

  
  The purpose of this course is to use the Neurosciencesensory biology visiting speaker series to build student knowledge in neuroscience, as well as, skills in critical evaluation of the research literature, and oral/written communication. This will maximize student learning from the speaker series. The course may be taken up to 3 times.
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• NEUR 5100: Str/Fnctn Nerv System

  4.00 Credits

  University of Wyoming

  
  Aimed at understanding the structure and interconnections of neurons in the brain and how structure gives rise to the complex functions mediated by the brain. This is an essential feature of neuroscience. Covers gross anatomy of the brain, followed by detailed consideration of the divisions of the brain and their functional significance. Cross listed with ZOO 5100. Prerequisite: admission to the graduate neuroscience program or graduate standing.
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• NEUR 5160: Neurologic diseases

  3.00 Credits

  University of Wyoming

  
  Neurologic Diseases: Mechanisms and Therapeutic Approaches, 3 hrs.Use lectures, student presentations and discussions to learn about impacts, molecular mechanisms and prospects for effective therapy of some important neurologic diseases of man and animals. Disorder we will study will include chronic traumatic encephalopathy, Alzheimer's disease, prion diseases, stroke and epilepsy. Cross listed with PATB 5160. Prerequisites: Courses in neuroanatomy and biochemistry; graduate level standing.
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• NEUR 5280: Introduction to Neuroscience

  3.00 Credits

  University of Wyoming

  
  Examines the basic properties of neurons and from there identifies determinants of brain development and how neuronal circuits are formed. How neuronal circuits underlie processing sensory information, coordinated movement, complex functions (e.g. sleep, learning) and homeostasis are discussed. Cross listed with ZOO 5280. Prerequisite: ZOO 3115 or equivalent.
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• NEUR 5295: Neurodevelopment

  3.00 Credits

  University of Wyoming

  
  Through lecture and discussion of research articles, students learn mechanisms of nervous system development, from the birth and differentiation of neurons to the formation of synapses and circuits. Focus is on classical experiments done in vertebrates (Xenopus tadpole, chick, zebrafish, and mouse) and invertebrates (nematode and drosophila). Prerequisite: Graduate standing.
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• NEUR 5685: Neurphysiology

  3.00 Credits

  University of Wyoming

  
  Designed to investigate the structure and function of nervous systems, drawing information from both vertebrate and invertebrate organisms. Topics such as sensory systems, motor coordination and central integrative mechanisms will be covered in addition to the basic neurophysiology of nerve cells. Cross listed with ZOO 5685. Prerequisite: one course in physiology, chemistry, physics.
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• NEUR 5715: Sem Neuroscience

  1.00 - 2.00 Credits

  University of Wyoming

  
  A continuing seminar. All students in the graduate neuroscience program are expected to register for this seminar each semester. The interdisciplinary approach to the nervous system is used employing work from physiology, neuroanatomy and neurochemistry, psychology, pharmacology and biochemistry. Cross listed with ZOO 5715. Prerequisites: admission to the graduate neuroscience program or graduate standing.
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• NEUR 5720: Neuroscience Speaker Series

  2.00 Credits

  University of Wyoming

  
  The purpose of this course is to use the Neurosciencesensory biology visiting speaker series to build student knowledge in neuroscience, as well as, skills in critical evaluation of the research literature, and oral/written communication. This will maximize student learning from the speaker series. The course may be taken up to 3 times.
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• NEUR 5800: Research Neuroscience

  1.00 - 16.00 Credits

  University of Wyoming

  
  The research must be conducted under the supervision of one of the neuroscience program faculty. Laboratory opportunities for research include neuroendocrinology, behavioral neuroscience, sensory neurophysiology, neuroanatomy, neuropharmacology, neurotoxicology, neural cell biology, and neurochemistry. Prerequisite: admission to the graduate neuroscience program or graduate standing.
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• NEUR 5887: Molecular Neuropharmacology

  3.00 Credits

  University of Wyoming

  
  Focus on the molecularly-induced functional changes within the nervous system in normal and disease states. In addition, will provide a thorough explanation of the cellular and molecular actions of drugs on synaptic transmission and discuss the neurochemical basis of behavior. Crosslisted with PHCY 5887. Prerequisites: PharmD current standing and instuctor's permission or NEUR 5280 Introduction to Neuroscience.
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