Medicinal Chemistry - MDCH
The information below lists courses approved in this subject area effective Fall 2015. Not all courses will necessarily be offered these terms. Please consult the Schedule of Classes for a listing of courses offered for a specific term.
500-level courses require graduate standing.
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412
Pharmaceutical Applications of Genomics and Bioinformatics 2 hours.
Introduction to genomics and bioinformatics for advanced pharmacy students. Principles of gene expression, DNA sequencing in bacterial and human genomes, with emphasis on diagnostic and therapeutic applications. Same as PMMP 412. Prerequisite(s): PHAR 331 or consent of the instructor. For graduate students: one or two semesters of basic molecular biology and/or biochemistry with a grade of B or better.
461
Introductory Organic Medicinal Chemistry 1 hours.
Covers introductory aspects of graduate organic and physical organic chemistry related to medicinal chemistry. Credit is not given for MDCH 461 if the student has credit in MDCH 560. Prerequisite(s): One year of undergraduate organic chemistry and consent of the instructor.
507
Drug Discovery, Design and Development 3 hours.
Overview of drug development process from target identification and screening through clinical trials and FDA evaluation. Same as BPS 507 and PMPG 507.
516
Structure Elucidation of Natural Products II 3 hours.
Employing modern computational methods in the structure elucidation and dereplication of a natural product by using real life examples. Same as PMPG 516. May be repeated.
553
Cancer Biology and Therapeutics 2 hours.
Fundamentals of cancer biology with emphasis on biological, hormonal and chemotherapeutic drug therapies currently used and in development. Specific treatment approaches to breast, ovarian, prostate and colon cancers will be explored. Same as BPS 553 and PMPG 553. Prerequisite(s): Consent of the instructor. Recommended background: Molecular and Cellular Biology.
560
Organic Medicinal Chemistry I 3 hours.
Organic reactions are discussed in terms of their mechanisms and utility in the field of medicinal chemistry, particulary in the synthesis of medicinal agents. Prerequisite(s): One year of organic chemistry with laboratory.
561
Principles of Medicinal Chemistry 4 hours.
Concerns basic chemical and physical principles necessary for an understanding of drug action. These principles are applied in the design and discovery of medicinal agents. Prerequisite(s): One year each of undergraduate organic chemistry and biochemistry. Requires concurrent registration in MDCH 592.
562
Spectroscopy in Medicinal Chemistry 3 hours.
The fundamental principles used to determine structure and conformation in molecules, emphasizing spectroscopic methods useful in solving structural problems and in analyzing dynamic biological processes. Prerequisite(s): One year of physical chemistry or consent of the instructor.
564
Physical Medicinal Chemistry 3 hours.
Focuses on kinetics and thermodynamics in biological systems. Applications to drug action will be emphasized. Prerequisite(s): One year of physical chemistry.
571
Organic Medicinal Chemistry II 3 hours.
Heterocyclic chemistry foundation for bio-organic mechanisms of enzyme reactions. Enzymes involved in biosynthesis and metabolism, particularly those that are targets for drug action or involved in drug metabolism. Prerequisite(s): MDCH 460 and MDCH 561.
572
Drug Design 2 hours.
Quantitative structure-activity relationships, computer graphics, molecular modeling and simulation, and chemometrics as applied to drug design and discovery. Prerequisite(s): MDCH 561.
573
Principles of Stereochemistry 1 hours.
Principles of molecular structure and stereochemistry for medicinal and natural products chemists focusing on stereochemical structures rather than synthesis. Prerequisite(s): Credit or concurrent registration in MDCH 560 and one year of organic chemistry with lab or consent of the instructor.
585
Practical Liquid Chromatography-Mass Spectrometry 2 hours.
Introductory-level course combining classroom discussions with laboratory demonstrations to provide basic practical knowledge and hands-on experience in the operation of liquid chromatography and mass spectrometry instrumentation. Satisfactory/Unsatisfactory grading only. Prerequisite(s): MDCH 562.
592
Research Techniques in Medicinal Chemistry 2 hours.
Provides an initial biweekly informal seminar series with program faculty presenting a discussion of the ongoing research in her/his laboratory. May be repeated to a maximum of 6 hours. Lectures/discussions will be given for the first part of the semester and an intensive lab experience takes place for the remainder of the semester. To be taken fall and spring semesters of the first year of graduate study.
593
Graduate Student Seminar Class 1 hours.
Provides practice and practical guidance for giving a high quality research seminar. Satisfactory/Unsatisfactory grading only.
594
Special Topics in Medicinal Chemistry 2 TO 4 hours.
An advanced course covering selected topics which may include new spectroscopic, theoretical, chemometric and synthetic approaches to biomolecular structure and function. May be repeated to a maximum of 4 hours. Prerequisite(s): MDCH 561 and MDCH 562 and one year of physical chemistry and one semester of biochemistry or consent of the instructor.
595
Seminar in Medicinal Chemistry 1 hours.
Presentation on a current research topic. Satisfactory/Unsatisfactory grading only.
598
Master's Research in Medicinal Chemistry 0 TO 16 hours.
Thesis research to fulfill master's degree requirements. Satisfactory/Unsatisfactory grading only.
599
Doctoral Research in Medicinal Chemistry 0 TO 16 hours.
Research for doctoral students. Satisfactory/Unsatisfactory grading only.
Information provided by the Office of Programs and Academic Assessment.
This listing is for informational purposes only and does not constitute a contract. Every attempt is made to provide the most current and correct information. Courses listed here are subject to change without advance notice. Courses are not necessarily offered every term or year. Individual departments or units should be consulted for information regarding frequency of course offerings.
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