Credits: 3.
Discoveries in biology are driven as much by computer analysis as by laboratory work. Students learn the theory and practice of computer programming with emphasis on the practical techniques and problem solving skills required to use computer programming in biological research. This course is taught completely online.
BSC 4434C Introduction to Bioinformatics
Credits: 3; Prereq: MCB 3020 or MCB 3023 or BCH 4024 or CHM 3218 with a minimum grade of C.
A lecture and hands-on computer laboratory with emphasis on data-mining tools freely available in web-based resources that predict gene function from DNA, RNA and protein sequences.
BSC 4913 Independent Research in Bioinformatics
Credits: 3; Prereq: BSC 2891 or MCB 4320C or BSC 4434 or BSC 4434C with a minimum grade of C.
Mentored research experience at the interface between computational and biological sciences, preparing students for competitive graduate-school and industry positions in bioinformatics.
BSC 4914 Advanced Independent Research in Bioinformatics
Credits: 3; Prereq: BSC 4913 with a minimum grade of C.
Mentored bioinformatics research experience that challenges students to develop a deeper understanding of bioinformatics methodologies, to frame biological questions, to evaluate primary scientific literature and to present their research in formal written and oral presentations.
Credits: 3.
The role of microorganisms in chemical transformations, disease, public health and agriculture. Fundamental concepts are discussed, followed by beneficial and harmful actions of microorganisms as they affect our lives. Suitable as a general education science course, but not acceptable for admission to advanced microbiology courses nor for the preprofessional curricula required for the medical/veterinary sciences. (B)
Credits: 1; Coreq: MCB 2000.
Laboratory exercises demonstrate biochemical transformations and present methods for studying microbial properties. Suitable as a general education science course, but not acceptable for admission to advanced microbiology courses nor for the preprofessional curricula required for the medical/veterinary sciences.
MCB 3020 Basic Biology of Microorganisms
Credits: 3; Prereq: BSC 2010 and BSC 2010L, or equivalent, with minimum grades of C; BSC 2011 and BSC 2011L, or equivalent, or AGR 3303, with minimum grade/s of C; CHM 2200 or CHM 2210, with minimum grade of C; non-microbiology majors only.
Introduction to the principles and techniques of microbiology, genetics, taxonomy, biochemistry and ecology and microorganisms. Students will also study virology, immunology and the pathogenicity of microorganisms. (B)
MCB 3020L Laboratory for Basic Biology of Microorganisms
Credits: 1; Coreq: MCB 3020; non-microbiology majors only.
Laboratory exercises on the structure, nutrition and growth of prokaryotic and eukaryotic cells. Includes isolation and classification of representative microorganisms.
Credits: 3;Prereq: BSC 2010 and BSC 2010L, or equivalent, with minimum grades of C; BSC 2011 and BSC 2011L, or equivalent, or AGR 3303, with minimum grade/s of C; CHM 2200 or CHM 2210, with minimum grade of C; microbiology majors only.
Introduction to the principles and techniques of microbiology, genetics, taxonomy, biochemistry and ecology of microorganisms. Required of all majors and students who will enroll in more advanced courses in the Department of Microbiology and Cell Science.
MCB 3023L Principles of Microbiology Laboratory
Credits: 2; Prereq: MCB or MCY major; Coreq: MCB 3023.
Laboratory techniques on the structure, nutrition, biochemistry, genetics and growth of microorganisms. Required of all majors and students who will enroll in more advanced courses in the Department of Microbiology and Cell Science.
Credits: 3; Prereq: introductory course in microbiology, astronomy, chemistry, physics or geology.
Astrobiology examines the origin, evolution and future of life in our solar system. Topics include planetary habitability, astrobiogeochemistry, microbial life and human space flight.
Credits: 1; Prereq: MCB 3020 or MCB 3023, MCB 3020L or MCB 3023L with minimum grades of C.
Application of immunological, molecular biological and microbial techniques to the isolation, identification and characterization of bacteria and viruses.
Credits: 3; Prereq: MCB 3020 or MCB 3023 with minimum grade of C.
Host-parasite relationships in the diseases of man and animals, including the characteristics of bacterial and viral pathogens and the basic techniques of isolation and identification.
Credits: 3; Prereq: MCB 3020 or MCB 3023, and MCB 3020L or MCB 3023L with minimum grades of C; BCH 4024 should be taken before MCB 4403.
Molecular biology of bacterial gene expression, including DNA replication, mutation, genetic mapping using plasmids and phages, and recombinant DNA mechanisms.
MCB 4320C Bacterial Genome Sequencing and Analysis
Credits: 3; Prereq: MCB 3020 or MCB 3023 with minimum grades of C.
Genomics research and scientific communication while sequencing a whole bacterial genome as a class project.
MCB 4403 Prokaryotic Cell Structure and Function
Credits: 3; Prereq: CHM 2211, and MCB 3020 or MCB 3023, and MCB 3020L or MCB 3023L with minimum grades of C; BCH 4024 should be taken before MCB 4403.
An analysis of the cell structure and physiology of bacterial cells. Extensive discussion of cell division and cell growth is provided along with descriptions of important bacterial cell structures (e.g. cell walls, membranes, flagella, etc.)
Credits: 3; Prereq: MCB 3020 or MCB 3023 or MCB 4203 or PCB 3023 or BCH 3023 or PCB 3134 with minimum grade of C.
Nature of viruses and mechanisms of infection and replication, including bacterial, animal and plant viruses.
Credits: 3; Prereq: MCB 3020, MCB 3023 or equivalent introductory microbiology course with minimum grade of C.
Overview of microorganisms in the environment including occurrence, abundance and distribution; processes of microbial interaction with the environment; and practices of applied environmental microbiology.
Credits: 1 to 4; can be repeated with change in content up to 10 credits. Prereq: undergraduate adviser permission; microbiology majors only.
Individual laboratory research under the guidance of a faculty member. Required of, but not limited to, candidates for high and highest honors. Not acceptable toward 25 credits of required department and elective credits.
MCB 4911 Supervised Research in Microbiology and Cell Science
Credits: 0 to 3; can be repeated with a change in content up to 6 credits.
Firsthand, authentic research in microbiology and cell science under the supervision of a faculty member. Projects may involve inquiry, design, investigation, scholarship, discovery or application. (S-U)
MCB 4915 Honors Thesis Research in Microbiology and Cell Science
Credits: 0 to 3; can be repeated with a change in content up to 6 credits. Prereq: junior standing, upper division GPA of 3.75 or higher and completed honors thesis proposal on file.
Independent research in microbiology and cell science leading to an honors thesis. Student will be mentored by a faculty member. Projects may involve inquiry, design, investigation, scholarship, discovery or application. (S-U)
MCB 4934 Special Topics in Microbiology and Cell Science
Credits: 1 to 4; can be repeated with a change in content up to 4 credits. Prereq: undergraduate coordinator permission.
Supervised literature or historical study on current topics in microbiology and cell science. Not acceptable toward 25 credits of required department and elective credits.
MCB 4941 Microbiology and Cell Science Internship
Credits: 1 to 4.
Internship in microbiology and cell science under supervision of the department.
NUR 3197 Genetics and Genomics in Health Care
Credits: 2; Prereq: nursing major.
The fields of genetics and genomics are advancing quickly and will play a greater role in health care as personal genome sequencing becomes available. This course prepares nursing students by reinforcing basic genetics and genomics concepts and exploring how genomics may affect health care.
Credits: 3.
The genome sequence, how it is analyzed and its implications on human health. The course promotes genetic literacy (see syllabus for specific topics).
PCB 3134 Eukaryotic Cell Structure and Function
Credits: 3; Prereq: BSC 2010 and BSC 2010L, or equivalent, with minimum grades of C; BSC 2011 and BSC 2011L, or equivalent, or AGR 3303 and CHM 2210, with minimum grades of C; CHM 2200 or CHM 2210, with minimum grade of C. Coreq: CHM 2211 and CHM 2211L.
Lecture and discussions in the field of cell biology with emphasis on the interrelation of structure and function, the regulation of metabolism and the specialized activities of plant and animal cells.
Credits: 3; Prereq: MCB 3023 or MCB 3020 with minimum grade of C; or BCH 4024 with minimum grade of C; or CHM 3218 with minimum grade of C; or PCB 3134 with minimum grade of C.
Basic concepts in immunology, including specific components, development and function.
Credits: 3; Prereq: MCB 3020 or MCB 3023 with minimum grade of C.
Molecular biology of prokaryotes and eukaryotes covering the fundamentals of genome organization and gene structure, regulation of transcription, DNA replication and repair, and RNA processing. Also includes discussion of strategies, vectors and applications of genetic engineering in higher plants and animals.
Credits: 3; Prereq: BSC 2010 and BSC 2010L, or equivalent; and BSC 2011 and BSC 2011L, or equivalent, or AGR 3303 with minimum grades of C.
Host-parasite relationships of helminth and protozoan diseases important in health sciences and veterinary medicine.