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Course Criteria
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3.00 Credits
Biochemistry II is a systematic continuation of Biochemistry I and covers photosynthesis, chemistry of nucleic acids, DNA structure, DNA replication, repair transcription, translation and gene regulation, including recombinant DNA techniques, monoclonal antibodies, and gene manipulation. Four hours of lecture and three hours of laboratory* per week are required. Note: Biochemistry I and II may be offered without laboratory.
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3.00 Credits
Toxicology covers the study of poisonous chemicals, drugs, carcinogens, and other exongenous compounds. The adverse effects of these chemicls in the body will be studied, as well as their metabolism and detonification from the body. Dose/effect relationships and route of exposure (chronic or acute) will be examined in addition to public health implications (including age, sex, environment, clinical, industrial, and legal issues of exposure.
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1.00 Credits
Participants present at least one satisfactory written and one satisfactory oral report each semester on a special chemical problem or on a topic of current interest. Meetings are scheduled for two hours, once a week. Required of Junior and Senior Chemistry Majors.
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1.00 Credits
Participants present at least one satisfactory written and one satisfactory oral report each semester on a special chemical problem or on a topic of current interest. Meetings are scheduled for two hours, once a week. Required of Junior and Senior Chemistry Majors.
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2.00 Credits
This course will acquaint the student with the nature and use of the library, emphasizing the chemical literature. The course will elaborate on the role of chemical literature in the development of chemistry, and the use of literature in research. Assignments teach the effective use of literature in research. Required of first semester junior chemistry majors, if given. Two hours lecture per week are required.
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3.00 Credits
Students will study and use methods and software tools for visualizing and understanding biological data by using computer science and statistics to analyze and interpret biological data. The course will focus on methods of analyzing data in the fields of genomics and proteomics, as well as, an introductory examination of metabolomics data. Topics will include analysis of data from next-generation sequencing technologies, microarrays, mass spectrometry, clustering, and networks/causative models. Current software packages will be utilized (which will be updated frequently and may include NCBI, UCSC genome browser, UniProt, GenBank, 1000 genomes, The Cancer Genome Atlas, HapMap, R, cBioPortal, Tetrad). This course infuses current research by discussing recent published data in genomics and proteomics.
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3.00 Credits
This course will involve discussion and evaluation of current published manuscripts in the field of bioinformatics. The course will discuss methods for searching for peer-reviewed manuscripts and how to properly format the sections of a journal article so students will be prepared to write and submit manuscripts for publication. Students will do research and have discussions on bioinformatics topics of their choosing. Participants present written and oral reports on current bioinformatics research.
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3.00 Credits
Special Topics
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3.00 Credits
This course studies the principles and practices of modern instrumental analytical methods. Topics include visible, ultraviolet, and infrared spectroscopy; electroanalytical methods; gas and liquid chromatography; nuclear magnetic resonance spectroscopy; atomic absorption and emission spectroscopy; and mass spectrometry. Four hours lecture and six hours laboratory per week are required.
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