MICR 801 Principles of Immunology. (1 credit) Description of the cellular and molecular basis of immunity, the nature of immune recognition and immune cell activation, and the role the immune system plays in health and disease.
MICR 802 Principles of Virology. (1 credit) Molecular biology of viruses, including the fundamentals of viral genomes and genetics, the viral life cycle and virology techniques, especially viral vectology.
MICR 803 Principles of Bacteriology. (1 credit) Bacterial cell structure, molecular genetics of bacteria and phages, DNA repair, genetic exchange, gene regulation, protein secretion, antibiotics, and bacterial pathogenesis.
MICR 805 Teaching in Higher Education. (3 credits) Theoretical and practical aspects of teaching in a graduate degree program with emphasis on program and curriculum design, student assessment, communicating learning expectations, selecting optimal teaching methods aligned with expectations, understanding diverse learning styles, apprenticeship teaching, developing as a teacher and applying contemporary educational theory to the classroom or research laboratory. Prerequisite: Any graduate degree or current enrollment in a graduate degree program or permission of instructor.
MICR 808 Immunology. (3 credits) Molecular and cellular aspects of immunity. Specific topics will include immunoglobulin and receptor structure/function, attributes of antigenicity, antigen-antibody reactions, immunocompetent cells, cellular interactions, soluble mediators of immune responses, and normal and abnormal immune regulation. Prerequisite: Principles Courses (MICR 801-803) or permission of course director.
MICR 809 Tumor Immunology. (3 credits) Immune system and tumor growth; tumor immunotherapy. Analysis and applications of experimental systems and discussion of contemporary as well as classical primary literature in the field. Collaborative learning and communication skills emphasized. Prerequisite: IGPBS core curriculum or equivalent, or permission of instructor.
MICR 810 Fundamentals of Immunology. (2 credits) Immune cells and soluble mediators of the innate and adaptive systems, antigen and pattern recognition, lymphocyte development and activation, immune effector mechanisms, mechanisms of immune-based diseases. Analysis and applications of experimental systems and discussion of contemporary as well as classical primary literature in the field. Collaborative learning and communication skills emphasized. Prerequisite: Introductory course work in cell and molecular biology, biochemistry and genetics.
MICR 811 Molecular Genetics of Bacteria and Phages. (2 credits) This course is designed for students pursuing a graduate degree in a biomedical field. The goal of the course is to introduce the fundamental concepts of modern microbial genetics and to expose the students to commonly used experimental procedures in microbial and molecular genetics. Students will study both textbook and literature sources and will learn to apply research methods to understand the problems associated with the bacterial physiology and genetics. Active learning approaches in the classroom will require that students work collaboratively with others. Both written and oral communication will be emphasized as important learning outcomes in this course. Prerequisite: An introductory course in biology, genetics, chemistry or biochemistry.
MICR 812 Molecular Virology and Pathogenesis. (2 credits) This course is aimed at graduate students who are pursuing a graduate degree in a biomedical field. It provides a contemporary understanding of how viruses are built, how they infect and replicate in host cells, how they spread and evolve, how they interact with host cells, how they eventually cause diseases, and how infection of a host can be prevented. Prerequisite: Introductory course work in cell and molecular biology, biochemistry and genetics.
MICR 820 Bacterial Genetics and Pathogenesis. (3 credits) Genetics of bacteria with emphasis on bacterial pathogens. Topics include: gene regulation, recombination, bacteriophages, transposons, genetic exchange, plasmids, genetics of virulence, bacterial adherence and colonization, immune evasion mechanisms, bacterial toxins, vaccines and antimicrobials, re-emerging bacterial diseases. Prerequisite: Principles Courses (MICR 801-803) or permission of course director.
MICR 825 Virology. (3 credits) Literature-based course. Students will bring their knowledge/training in virology to a more sophisticated and advanced level by reading, presenting and critically discussing papers that represent original research in the field of modern virology, including research conducted by KUMC virologists. Specific topics of the course include mechanisms of viral replication, antivirals, virus infection and induced host response, and viruses and microRNAs. Prerequisite: Principles Courses (MICR 801-803) or permission of course director.
MICR 855 Host-Pathogen Interactions. (3 credits) Basic concepts of host-pathogen interactions, with an emphasis on pathogen adhesion, invasion and intracellular survival, cell death pathways, innate immunity, and extracellular matrices. Prerequisite: Principles Courses (MICR 801-803) or permission of course director.
MICR 835 Research in Microbiology. (1-6 credits) This course is specifically designed to provide research experience in various laboratories in the department.
MICR 890 Research for M.A. in Microbiology. (1-10 credits) This course is designated for thesis research leading to the M.A. degree.
MICR 899 Thesis for M.A. in Microbiology. (1-10 credits) Restricted to writing of the thesis.
MICR 930 Advanced Topics in Microbiology. (1-8 credits) An advanced approach to selected topics in any of the major disciplines in microbiology. Readings and conferences, or advanced laboratory techniques.
MICR 990 Research for Ph.D. in Microbiology. (1-10 credits) This course is restricted to dissertation research.
MICR 999 Dissertation for Ph.D. in Microbiology. (1-10 credits) This course is restricted to actual writing of the dissertation.
CORE 810 Inflammation & Immunity. (4 credits) for M.D./Ph.D. students; identical to the Inflammation & Immunity module of the Year 1 M.D. curriculum.
CORE 850 Infectious Diseases. (6 credits) for M.D./Ph.D. students; identical to the Infectious Disease module of the Year 2 M.D. curriculum.