Department of Molecular Medicine
College of Veterinary Medicine
Cornell University

Field of Pharmacology Graduate Course Descriptions



LECTURE COURSES
VETMM 6100 Cellular and Molecular Pharmacology

Spring , odd-numbered years. 2 credits. By permission of the course director. Letter grade or S-U option. R. Collins and pharmacology faculty

This 2-credit graduate-level course will survey the molecular and cellular aspects of receptor mechanisms, signaling pathways, effector systems, and chemotherapeutic approaches. The course will be taught by faculty members in the Graduate Field of Pharmacology. Topics covered include drug-receptor interactions; ligand- and voltage-gated ion channels; G protein pathways; growth factor signaling; calcium signaling; nitric oxide signaling; apoptosis pathways; drug targets and drug design; mechanisms of receptor-mediated effects on neural excitability, electrical pacemakers, muscle contraction and gene expression; chemotherapy, including anti-microbial agents and cancer chemotherapy.
(in revision)


VETMM 6110 Systems Pharmacology

Spring, even-numbered years. 2 credits. By permission of the course director. Letter grade or S-U option. C.M.S. Fewtrell and pharmacology faculty

A graduate-level course surveying system- and organ-related aspects of pharmacology. Topics covered include: drug disposition; pharmacokinetics; autonomic pharmacology; central nervous system pharmacology; the pharmacology of inflammation, allergy and platelet function; cardiovascular, endocrine, renal and gastric pharmacology.
(Spring 2010 schedule)


VETMM 6120 Topics in Pharmacology

Fall and Spring. 0.5 credits. S-U only. H. Sondermann

A Journal Club - Work Shop course based on topics corresponding to the Department of Molecular Medicine Seminar Series. In the journal club students will select and present papers with guidance from the course director. Career development topics will be discussed in workshops led by postdoctoral trainees and research faculty. This course is intended to promoted students' reading widely in the scientific literature and to develop their public speaking skills.

This course allows students to receive graduate credit for the Pharmacology Journal Club that will parallel the Molecular Medicine Seminar Series. The course is offered every semester, all Field of Pharmacology students must participate in the Journal Club, and sign-up for credit for up to 4 semesters.


VETMM 6130 Medical Pharmacology

Spring, odd-numbered years, taught from the 3rd week in March through the 1st week in May. 2 credits. By permission of the course director. Letter grades only. G.A. Weiland and pharmacology faculty

A lecture course covering the basic principles of pharmacology and physiology, will feature the central and peripheral nervous system and muscle, cardiovascular, renal, pulmonary systems and gastrointestinal tract. This course is intended to provide graduate students with a strong foundation in medical pharmacology required for teaching in a medical curriculum.
Available only to graduate students who minor or major in Pharmacology. It will be accepted as a substitute for Systems Pharmacology (VETMM 6110), which is only offered in the spring of even-numbered years.


VETMM 6140 Biodiversity and Pharmacology (also BIOBM tba)

Fall 2010. 1 credit. R. Collins

In recognition of the 2010 UN designated year of Biodiversity, the Field of Pharmacology at Cornell University offers a new course: "Biodiversity and Pharmacology". This course will draw on recent progress in genetics and genomics to explore the applications of biodiversity to the discipline of Pharmacology. Lectures and case studies will examine how biodiversity enables the development of novel drugs, helps us to understand the molecular action of drugs, and how a patient will respond to a particular drug.

This course will be of particular interest to students in the Fields of Pharmacology, Genomics, and Biochemistry, Molecular and Cell Biology and Microbiology. Topics covered will include pharmacogenomics, bioinformatics, ion channels, G protein coupled receptors, cancer and signal transduction, microbial biotechnology. The emphasis will be on general principles and students will deploy these approaches with assignments tailored to each student's research interest.

This is a 1-credit course. Graduate students majoring or minoring in Pharmacology may take this course in partial fulfillment of their Field course requirements after consulation with the Director of Graduate Studies and the student's special committee. Classes will be given in C4-129 VMC starting in October.

Prospective students should contact the course director Ruth Collins (ruth.collins@cornell.edu) for additional information. The course is directed towards graduate students, suitably prepared undergraduates may also enroll with the permission of the course director.


VETMM 6150 Drug Discovery and Genomics (also BIOBM tba)

Spring. 1 credit. R. Collins

This course will be of particular interest to students in the Fields of Pharmacology, Genomics, and Biochemistry, Molecular and Cell Biology, Microbiology and Comparative Biomedical Sciences. Topics covered will include drug development, pharmacology in silico, bioinformatics, the cancer genome, G protein coupled receptors, signal transduction, microbial biotechnology and protein engineering. The emphasis will be on general principles and case-based studies. The course will include a special Computational Biology guest lecture.


VETMM 4700 Biophysical Methods (also A&EP 470 and BIONB 470)

Fall [not offered 2010] 3 credits. By permission of the instructor. Letter grades only. M. Lindau

This course is an overview of the diversity of modern biophysical experimental techniques used in the study of biological systems at the cellular and molecular level. Topics covered include methods that examine both structure and function of biological systems: light microscopy, fluorescence microscopy, Fourier optics and image processing, confocal and multiphoton microscopy, phase contrast, electron microscopy, X-ray diffraction and protein structure determination, multidimensional NMR, spectroscopy, calcium measurements, resonance energy transfer, membrane biophysics, electrophysiology, ion channels, action potentials, ligand-gated channels, fluctuation analysis, patch-clamp, molecular biology of ion channels, rapid kinetics, caged compounds, transmitter release, capacitance measurements, amperometry, optical traps and molecular force measurements. The course is intended for students in the engineering, physics, chemistry and biological disciplines who seek an introduction to modern biophysical experimental methods. Due to the interdisciplinary nature of the course, students have diverse backgrounds. Therefore, basic knowledge of and interest in physics and mathematics is expected but strong attempts are made to give an intuitive understanding of the mathematics and physics involved. Some knowledge of physical chemistry, molecular and cell biology, or neurobiology is helpful. Depending on individual backgrounds all students find certain aspects of the course easy and other aspects demanding.


VETMM 5710 Biophysical Methods Advanced Laboratory Course (also A&EP 571)

Spring, taught daily during the first 3 weeks of January [not offered 2011] 3 credits. By permission of the instructor. S/U or letter grades. M. Lindau

The Biophysical Methods Advanced Laboratory Course is offered to students of the engineering, physics, chemistry and biological disciplines who are interested in research at the interface between Physical Sciences /Engineering and Life Sciences. It is offered in January intersession as a 3-week full day intensive course. In groups of two, participants will perform 5 experiments in research laboratories on state-of-the-art equipment. Lab training sessions are arranged individually in January and throughout the spring term. Typically each experiment will be 2 days in the lab plus one day for analysis and report writing. We are currently planning to offer experiments including fluorescence spectroscopy and mathematical modelling to study antibody binding, modern microscopy (multiphoton excitation, total internal reflection evanescent wave excitation) to study cellular function, electron spin resonance studies of dynamic membrane structure, bio-electrochemistry and electrophysiology (patch clamp). The course is intended for those who seek hands-on introduction to modern biophysical experimental methods. As a prerequisite, the lecture course "Biophysical Methods" (VETMM 470 / A&EP 470) is highly recommended but qualified students who have not taken this course may also be accepted.


VETMM 7010 Organ System Toxicology (also TOX 611)

Fall, even-numbered years. 1 credit. S-U grading. W.S. Schwark

A minicourse on molecular mechanisms involved in chemical toxicity. The course will focus on chemical-induced toxicity of specific organ systems in mammalian species. Mechanisms whereby chemicals target specific organ/tissues will be emphasized. Specific examples of toxicity in organ systems such as the nervous system, kidney, liver, respiratory tract, and cardiovascular system will be discussed, particularly at the cellular/molecular level.
(Course outline)


VETMM 7030 Receptor-Ligand Interactions

Fall, even-numbered years. 1 credit. By permission of the instructors. Letter grade or S-U option. G.A. Weiland and R.E. Oswald

The course covers both the practical and theoretical tools for the study of ligand-receptor interactions, emphasizing the quantitative and physical chemical aspects of receptor theory. Topics discussed are basic methods of radioligand binding assays, including separation and measurement of bound and free ligand; characterization of receptor function; analysis of receptor structure; thermodynamic basis of binding; methods of analyzing equilibrium binding; equilibrium binding for complex mechanisms; and kinetics of simple and complex binding mechanisms.
(in revision)


VETMM 7040 CNS Synaptic Transmission

Fall, even-numbered years. 2 credits. Limited to 20 graduate students and undergraduate seniors by permission of the instructor. L. Nowak

This is a survey course in vertebrate central nervous system physiology and pharmacology that focuses on mechanisms of neurotransmitter action at the membrane and cellular levels. Roles of selected neurotransmitters in normal brain and neurological disorders are discussed. Topics are introduced in lectures and followed up by discussions of recent journal articles.
(Fall 2008 schedule)


VETMM 7050 The Chemistry and Biology Behind Cell Signaling (also CHEM 760)

Fall, even-numbered years. 2 credits. Letter grade or S-U option. R.A. Cerione

This course focuses on the mechanisms of action of GTP binding proteins, but examines several receptor-coupled signaling systems, including adenylyl cyclase, vertebrate vision, phosphatidylinositol lipid turnover, receptor systems regulating various ion channels, and receptors involved in cell growth regulation.
(Spring 2008 schedule)


VETMM 7070 Protein NMR Spectroscopy (also BIOBM 730)

Spring, even-numbered years. 2 credits. Prerequisites: CHEM 389 and 390, or CHEM 287 and 288, or permission of the instructors. Letter grade or S-U option. R.E. Oswald and L.K. Nicholson

The student acquires the tools necessary for in-depth understanding of multidimensional, multinuclear NMR experiments. Schemes for magnetization transfer, selective excitation, water suppression, decoupling, and others are presented. The application of these techniques to proteins for resonance assignment, structure determination, and characterization of dynamics is discussed.
(Spring 2008 schedule)


VETMM 7200 Patch Clamp Techniques in Biology

Winter Intersession of even-numbered years, daily during the second and third weeks of January. 2 credits. By arrangement with the instructor. S-U grades only. L.M. Nowak

Students will learn the theoretical background for patch clamp studies in the morning lectures. The experimental techniques of whole cell recording and single channel recordings in cell-attached membrance patches are taught in 10-15 hours of afternoon laboratory instruction per student. Laboratory training sessions are arranged individually throughout the spring semester.
(Spring 2008 schedule)


RESEARCH AND SPECIAL PROJECTS
VETMM 7300 Graduate Research in Pharmacology or Molecular Medicine

Fall, spring and summer. 1-12 credits. S-U grades only. Field of Pharmacology faculty

This course is offered by individual faculty members in the Department of Molecular Medicine and the Graduate Field of Pharmacology for graduate students undertaking research towards M.S. or Ph.D. degrees.
This course cannot be used to fulfill the formal course requirements for the Field of Pharmacology.


VETMM 7400 Special Projects and Research in Pharmacology

Fall, spring and summer. 1-3 credits each topic. By arrangement with the instructor. Letter grade or S-U option. Field of Pharmacology Faculty

This course enables students to undertake research in an area related to the research interests of a faculty member in the Graduate Field of Pharmacology. Topics include, but are not limited to: Mechanisms of Growth-Factor Action - R.A. Cerione; Mechanisms of Neurotransmitter Release - M. Lindau; Central Nervous System Neurotransmitters - L.M. Nowak.
This course cannot be used to fulfill the formal course requirements for the Field of Pharmacology.


DIRECTED READINGS
Fall, spring, and summer. 1-3 credits each topic. By arrangement with the instructor. Letter grade or S-U option. Reading and discussion. Field of Pharmacology faculty

VETMM 7600 Directed Readings in Pharmacology

Individual members of the Graduate Field of Pharmacology offer directed readings and discussions on pharmacological topics to small groups or to individual students. Topics include, but are not limited to: Receptor Mechanisms - G.A. Weiland; Biochemical Neuropharmacology - G.A. Weiland; Amino Acid Neurotransmitters - L.M. Nowak; Calcium Signalling - C.M.S. Fewtrell.


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Last modified: Wednesday, December 21, 2011 gaw