Difference between revisions of "Biochemistry (academic course)"
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'''Biochemistry''' was a year-long academic course I took during my undergraduate years at [[Oregon State University]]. It was a sequence professional course to meet the requirements of majors in Biochemistry and Biophysics. | '''Biochemistry''' was a year-long academic course I took during my undergraduate years at [[Oregon State University]]. It was a sequence professional course to meet the requirements of majors in Biochemistry and Biophysics. | ||
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* Professors: Dr. Michael I. Schimerlik, Dr. Tory M. Hagen, Dr. Christopher K. Mathews, and Dr. George D. Pearson. | * Professors: Dr. Michael I. Schimerlik, Dr. Tory M. Hagen, Dr. Christopher K. Mathews, and Dr. George D. Pearson. | ||
* Textbook: ''Biochemistry'', Christopher K. Mathews, K. E. van Holde, and Kevin G. Ahern, Addison Wesley Longman, San Fransisco, 3rd Edition (2000). | * Textbook: ''Biochemistry'', Christopher K. Mathews, K. E. van Holde, and Kevin G. Ahern, Addison Wesley Longman, San Fransisco, 3rd Edition (2000). | ||
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+ | The course was divided into three terms and there was also separate courses for the laboratory. | ||
==Biochemistry I== | ==Biochemistry I== | ||
Energetics of Life (Thermodynamics, Chemical Reactions and Equilibrium), Nucleic Acids (Properties, Structure, Function), Protein Structure, Protein Function and Evolution, Protein Dynamics, Carbohydrates. | Energetics of Life (Thermodynamics, Chemical Reactions and Equilibrium), Nucleic Acids (Properties, Structure, Function), Protein Structure, Protein Function and Evolution, Protein Dynamics, Carbohydrates. | ||
− | + | '''Keywords''': Chemistry of amino acids and proteins; specialized proteins, including heme proteins and muscle proteins; enzymes, including kinetics and mechanisms; bioenergetics, thermodynamics, and biological oxidation and reduction; carbohydrate chemistry; introduction to metabolism; glycolysis; glycogen metabolism; gluconeogenesis. | |
− | Chemistry of amino acids and proteins; specialized proteins, including heme proteins and muscle proteins; enzymes, including kinetics and mechanisms; bioenergetics, thermodynamics, and biological oxidation and reduction; carbohydrate chemistry; introduction to metabolism; glycolysis; glycogen metabolism; gluconeogenesis. | + | |
==Biochemistry II== | ==Biochemistry II== | ||
Lipids, Membranes, Cellular Transport, Enzymes, Carbohydrate Metabolism, Oxidative Processes, Photosynthesis, Lipid Metabolism, Metabolism of Nitrogenous Compounds, Nucleotide Metabolism, Metabolic Coordination/Control/Signal Transduction. | Lipids, Membranes, Cellular Transport, Enzymes, Carbohydrate Metabolism, Oxidative Processes, Photosynthesis, Lipid Metabolism, Metabolism of Nitrogenous Compounds, Nucleotide Metabolism, Metabolic Coordination/Control/Signal Transduction. | ||
− | + | '''Keywords''': Bioenergetics; lipids and membranes; energy-yielding metabolic pathways, oxidative phosphorylation, and photosynthesis; chemistry and metabolism of lipids, steroids, and eicosanoids; membrane structure, hormone action; metabolic regulation; amino acid and nitrogen metabolism; nucleotide metabolism. | |
− | Bioenergetics; lipids and membranes; energy-yielding metabolic pathways, oxidative phosphorylation, and photosynthesis; chemistry and metabolism of lipids, steroids, and eicosanoids; membrane structure, hormone action; metabolic regulation; amino acid and nitrogen metabolism; nucleotide metabolism. | + | |
==Biochemistry III== | ==Biochemistry III== | ||
Information Copying (Replication), Restriction, Repair, Recombination, Rearrangement, Amplification, Transcription, Translation, Expression. | Information Copying (Replication), Restriction, Repair, Recombination, Rearrangement, Amplification, Transcription, Translation, Expression. | ||
− | + | '''Keywords''': Nucleic acid structure; replication, transcription, translation; regulation of gene expression; DNA repair, biochemistry of specialized cell functions; oncogenes and growth control. | |
− | Nucleic acid structure; replication, transcription, translation; regulation of gene expression; DNA repair, biochemistry of specialized cell functions; oncogenes and growth control. | + | |
==Biochemistry I-Laboratory== | ==Biochemistry I-Laboratory== |
Revision as of 19:07, 26 December 2005
Biochemistry was a year-long academic course I took during my undergraduate years at Oregon State University. It was a sequence professional course to meet the requirements of majors in Biochemistry and Biophysics.
- Professors: Dr. Michael I. Schimerlik, Dr. Tory M. Hagen, Dr. Christopher K. Mathews, and Dr. George D. Pearson.
- Textbook: Biochemistry, Christopher K. Mathews, K. E. van Holde, and Kevin G. Ahern, Addison Wesley Longman, San Fransisco, 3rd Edition (2000).
The course was divided into three terms and there was also separate courses for the laboratory.
Contents
Biochemistry I
Energetics of Life (Thermodynamics, Chemical Reactions and Equilibrium), Nucleic Acids (Properties, Structure, Function), Protein Structure, Protein Function and Evolution, Protein Dynamics, Carbohydrates.
Keywords: Chemistry of amino acids and proteins; specialized proteins, including heme proteins and muscle proteins; enzymes, including kinetics and mechanisms; bioenergetics, thermodynamics, and biological oxidation and reduction; carbohydrate chemistry; introduction to metabolism; glycolysis; glycogen metabolism; gluconeogenesis.
Biochemistry II
Lipids, Membranes, Cellular Transport, Enzymes, Carbohydrate Metabolism, Oxidative Processes, Photosynthesis, Lipid Metabolism, Metabolism of Nitrogenous Compounds, Nucleotide Metabolism, Metabolic Coordination/Control/Signal Transduction.
Keywords: Bioenergetics; lipids and membranes; energy-yielding metabolic pathways, oxidative phosphorylation, and photosynthesis; chemistry and metabolism of lipids, steroids, and eicosanoids; membrane structure, hormone action; metabolic regulation; amino acid and nitrogen metabolism; nucleotide metabolism.
Biochemistry III
Information Copying (Replication), Restriction, Repair, Recombination, Rearrangement, Amplification, Transcription, Translation, Expression.
Keywords: Nucleic acid structure; replication, transcription, translation; regulation of gene expression; DNA repair, biochemistry of specialized cell functions; oncogenes and growth control.
Biochemistry I-Laboratory
Fundamentals of biochemical methodology: buffers, spectrophotometry, gel electrophoresis, thin-layer chromatography, protein purification, enzyme kinetics, peptide structure, preparative ultracentrifugation, scientific report writing.
Textbook: Fundamental Laboratory Approaches for Biochemistry and Biotechnology, Ninfa and Ballou.
Biochemistry II-Laboratory
Research techniques in molecular genetics and nucleic acid biochemistry: Plasmid isolation, restriction analysis, molecular cloning, PCR, site-directed mutagenesis, overexpression of proteins in E. coli, purification of recombinant proteins, analysis of proteins by SDS-PAGE and western blotting, computer-aided DNA sequence analysis, nucleic acid hybridization.
Biochemistry III-Laboratory
Microdetection, quantitation and communication. Focus upon radioisotopes.