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Course Criteria
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3.00 Credits
This course involves the study of chemical nomenclature, chemical reactions of the elements, acid-base theory and reactions. Other material covered includes an introduction to inorganic chemistry; building a network of ideas to make sense of the periodic table; hydrogen and hydrides; oxygen, aqueous solutions; acid-base character of oxides and hydroxides, alkali metals; alkaline-earth metals; groups 3A and 4A elements; group 5A: the pnicogens; sulfur selenium, tellurium and polonium; the halogens; and group 8A: the noble gases. Four hours lecture, and one three-hour laboratory 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. This course will inroduce tools usefut for retrievins and analzing biological data and will show how these skills can be applied to a wide range of disciplines such as molecular biology, medicine, biotechnology, forensic science, and anthropology. Students will explore topics such as protein-protein interactions and genomic sequencing data. Basic concepts in computer science (e.g. Linux command-line, batch scripting) will be followed up with introduction to data collection and mining techniques with current software packages (which will be updated frequently and may include NCBI, UCSC genome browser, UnProt, GenBank, 1000 genomes The Cancer Genome Atlas, HapMap, R, cBioPortal, Tetrad).
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1.00 Credits
This is the laboratory component to supplement the introduction to bioinformatics lecture. 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. This course will introduce tools useful for retrieving and analyzing biological data and will show how these skills can be applied to a wide range of disciplines such as molecular biology, medicine, biotechnology, forensic science, and anthropology. Students will explore topics such as protein-protein interactions and genomic sequencing data. Basic concepts in computer science (e.g. Linux command-line, batch scripting) will be followed up with introduction to data collection and mining techniques with current software packages. Lab will be a computer laboratory utilizing many databases and data analysis programs (which may include NCBI, UCSC genome browser, UniProt, GenBank, 1000 genomes, The Cancer Genome Atlas, HapMap, R, cBioPortal, Tetrad).
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3.00 Credits
The material in this course includes: Gases; the first, second and third laws of thermodynamics; chemical equilibria; phases and solutions; phase equilibria; composite reaction mechanisms; and kinetics of elementary reactions. Four hours lecture and six hours laboratory per week are required.
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3.00 Credits
The material covered in this course includes Electrochemistry, surface chemistry, colloids, transport properties, quantum mechanics and atomic structure, chemical bond, chemical spectroscopy, molecular statistics, the solid state and the liquid state. Four hours of lecture and six hours of laboratory per week are required.
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3.00 Credits
Biochemistry I covers fundamental aspects of protein isolation, characterization, structure and function, biocatalysis, biomembranes, lipids and metabolic pathways of glycolysis, TCA cycle, and oxidative phosphorylation. Four hours lecture and three hours laboratory per week are required.
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