BIOL 211-101 MICROBIOLOGY Fundamental course in the study of microorganisms and their activity, with emphasis on bacteria. Prerequisite: BIOL 101 or 210 or 215. Two hours lecture, four hours laboratory per week. Meets General Education IVB (Prior to Fall 2008: IIIB).
BIOL 211-111 MICROBIOLOGY Fundamental course in the study of microorganisms and their activity, with emphasis on bacteria. Prerequisite: BIOL 101 or 210 or 215. Two hours lecture, four hours laboratory per week. Meets General Education IVB (Prior to Fall 2008: IIIB).
2013 Fall
BIOL 211-021 MICROBIOLOGY Fundamental course in the study of microorganisms and their activity, with emphasis on bacteria. Prerequisite: BIOL 101 or 210 or 215. Two hours lecture, four hours laboratory per week. Meets General Education IVB (Prior to Fall 2008: IIIB).
BIOL 350-010 CELL BIOLOGY Focuses on the structure and function of eukaryotic cells. Topics covered include enzyme kinetics, membrane transport, cell signaling, intercellular protein trafficking, cellular respiration, mitosis and meiosis, the cell cycle, and cancer. Prerequisites: BIOL 210 and CHEM 221 or 12 credits of biology. Three hours lecture, three hours laboratory per week.
BIOL 350-011 CELL BIOLOGY Focuses on the structure and function of eukaryotic cells. Topics covered include enzyme kinetics, membrane transport, cell signaling, intercellular protein trafficking, cellular respiration, mitosis and meiosis, the cell cycle, and cancer. Prerequisites: BIOL 210 and CHEM 221 or 12 credits of biology. Three hours lecture, three hours laboratory per week.
BIOL 350-012 CELL BIOLOGY Focuses on the structure and function of eukaryotic cells. Topics covered include enzyme kinetics, membrane transport, cell signaling, intercellular protein trafficking, cellular respiration, mitosis and meiosis, the cell cycle, and cancer. Prerequisites: BIOL 210 and CHEM 221 or 12 credits of biology. Three hours lecture, three hours laboratory per week.
BIOL 350-013 CELL BIOLOGY Focuses on the structure and function of eukaryotic cells. Topics covered include enzyme kinetics, membrane transport, cell signaling, intercellular protein trafficking, cellular respiration, mitosis and meiosis, the cell cycle, and cancer. Prerequisites: BIOL 210 and CHEM 221 or 12 credits of biology. Three hours lecture, three hours laboratory per week.
BIOL 415-008 RESEARCH IN BIOLOGY Independent student research under the supervision of a faculty member. BIOL 416 may not be used to satisfy requirements within the major. Prerequisite: Permission of instructor. Schedule to be arranged individually.
BIOL 416-003 RESEARCH IN BIOLOGY Independent student research under the supervision of a faculty member. BIOL 416 may not be used to satisfy requirements within the major. Prerequisite: Permission of instructor. Schedule to be arranged individually.
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Higgins, J., Hohn, C., Hornor, S., Frana, M., Denver, M. & Joerger, R.
(2007).
Genotyping of Escherichia coli from environmental & animal samples.
Journal of Microbiological Methods,70(2),
227-235.
Price, B., Venso. E., Frana, M., Greenberg, J. & Ware, A.
(2007).
A comparison of ARA and DNA data for microbial source tracking based on source-classification models developed using classification trees.
Water Research,41(16),
3575-3584.
Frana, M. F., Gasparich, G. E. & Grogan, W. L., Jr.
(2001).
First isolation of a spiroplasma (Mollicutes: Spiroplasmataceae) from biting midges (Dipera: Certopogonidae).
Entomological News,112(1),
64-70.
Folkoff, M. E., Harris, D. W., Scott, M. S., Venso, E.A.& Frana, M.F. (2003). Bacterial Source Tracking of Nonpoint Source Pollution Using GIS and DNA Fingerprinting Technologies. Khan, O.A. (Eds.), Geographic Information Systemsand Health Applications Hershey, PA: Idea Group Publishing.
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