Microbiology masters programs online

Graduates are qualified to work in government organizations, educational institutions, laboratories and pharmaceutical companies, or to continue their education in medical, dental or veterinary school. Pursuant to Florida Statute, your application requires inclusion of all post-high school education and employment, as well as information about ongoing international affiliations and research funding. Additional costs for textbooks are not included in these estimates, and the fees are approximate.

Registration costs follow the standard tuition and fee rates for the University of Florida. Let's Connect Fill out this form to learn more about our program. We are also home to the largest microbiology department in the United States. Our online courses feature asynchronous elements which allow you to complete your graduate program at your own pace.

Collaborative Environment: Our faculty fosters and encourages partnerships with other UF departments and with scientists around the world. Get Started. If you are accepted and maintain a 3. You can expect to gain a comprehensive knowledge in several microbiology topics, including bioinformatics, molecular biology, virology and immunology.

For more details, please visit the course schedule page. Students without a background in microbiology or biochemistry will be required to enter the introductory track and take fundamental courses before proceeding to the regular courses. This track, consisting of two courses Fundamentals of Biochemistry and the Biology of Microorganisms for 7 credits, will empower you to transition into microbiology without delaying completion expectancy.

This track is offered year-round, so you can start the program when it is convenient for you. Opportunities include:. View Required Course list and Elective Course list! Introduction to the basic bioinformatic tools used in computational biology for life science research.

The course will use web-based resources that analyze gene and protein sequences as pertinent data examples. View Full Course Details. This course is designed for graduate or advanced undergraduate students desiring a higher level survey course in molecular biology that is beyond an introductory course. Lectures and discussions will emphasize modern molecular, biochemical, and genetic approaches to solving problems of current interest in molecular biology. Study the microbial structure and function with regards to their role in pathogenesis and infection.

Mechanism of microbial pathogenesis: virulence factors, pathology, transmission, etc. Selected diseases caused by bacteria, viruses, fungi and protozoans are discussed 4. The role of immune system in defending the host against infectious diseases and what happens when it breaks down will be examined. Topics discussed include: innate and acquired immunity, the role of cytokines, hypersensitivity, Immunodeficiency, autoimmune diseases, vaccines and the role of immune-therapeutics 5.

General therapeutic principles and mechanisms of bacterial resistance to anti-microbial drugs will be covered. The discussion regarding anti-microbial agents will include: class, mode of action of anti-microbial agents.

The relationship between structure and function and its role in rise of antibiotic-resistant strains will be discussed. As part of your required credits, you must complete at least 3 credits of module coursework, listed below, which covers a more advanced curriculum. Principles of energy and biosynthetic metabolism will be examined in aerobic and anaerobic micro-organisms. Current biotechnology which incorporates these principles will also be discussed. This course covers synthesis, processing, transport, and translation of RNA in micro-organisms and eukaryotes.

Epigenetic regulation of gene expression will be the main topic; however, a review of the feneral mechanisms of eukaryotic gene activation and respression will also be covered. Specific topics about cell structure and function published in recent journal articles and reviews with microbiological interest will be considered in a comparative discussion of animal and plant systems.

Principles of host defense to microbial invasion in a context of cellular biology involving both plants and animals. This course is for beginning graduate and honor students in Microbiology and related disciplines. The course teaches basic information on families of viruses from humans, plants, insects, animals, and bacteria.

Lectures cover the basic information of the medical, clinical, diagnostic, biotechnological, and molecular aspects of these viruses. This course follows GMS Infectious diseases and provides a more detailed molecular analysis of human pathogenic viruses.

Replication mechanisms, molecular pathogenesis, host-pathogen interactions, immune evasion strategies, development of antivirals and vaccines, and the relationship between viral evolution and emerging viruses are taught using representative viruses from different viral families. Survey of advanced topics and current scientific literature related to human host-pathogen interactions and microbial pathogenesis, focusing on emerging bacterial and viral pathogens as agents of human disease, biosecurity, molecular identification methods, spread of multi-drug resistance among bacterial pathogens, drug discovery, and alternative treatment research.

Basic biology and pathogenesis of viruses, bacteria, fungi, and parasites. Select representative organisms of each pathogen group and their diseases will be covered in detail.

Each week a different student will lead the discussion by writing a blog that critically evaluates peer-reviewed science articles for subsequent group discussion threads that reinforces the principles of various research approaches and analytical methods.

This course will also help students to develop their scientific inquiry and written skill sets. Primary research papers correlated with the material being covered in GMS Infectious Diseases will be assigned for reading, analysis, and discussion in a bulletin board-type format.

Core courses required for the general curriculum include titles such as Societal Issues in Biotechnology, Bioprocessing and the Business of Biotechnology.

Online degree in microbiology students have the opportunity to complete a hands-on project with a biotechnology company.

Some classes may be offered in a hybrid format for students who desire more engagement than an online course can offer. Colleges and universities…. They can work as principals, curriculum….

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