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1 - 8 of 8 results for: BIO 83: Biochemistry

BIO 83: Biochemistry & Molecular Biology

Introduction to the molecular and biochemical basis of life. Lecture topics include the structure and function of proteins, nucleic acids, lipids and carbohydrates, energy metabolism, signal transduction, epigenetics and DNA repair. The course will also consider how defects in these processes cause disease. Prerequisites: None.
Terms: Aut | Units: 4 | UG Reqs: WAY-SMA

BIO 120: Prokaryotic Biology - A Quantitative Approach (BIO 220)

To live, microbes have to successfully coordinate various cellular processes, in line with available resources and what environmental conditions demand. This course introduces quantitative advances in understanding this coordination and their consequences across scales: from molecular biology via growth to population dynamics and ecology. Dry lab sessions complement lectures to introduce computational approaches. Python based analysis tools will be introduced. Prerequisite: MATH 51 or MATH 19, 20,21. Recommended: microbiology (e.g. BIO 62 or 162) and molecular biology/biochemistry/genetics courses (e.g. BIO 82 or 83) and basic familiarity with coding.
Terms: Win | Units: 3 | Repeatable 2 times (up to 3 units total)
Instructors: Cremer, J. (PI)

BIO 178: Microbiology Literature (BIO 278)

For advanced undergraduates and first-year graduate students. Critical reading of the research literature in prokaryotic genetics and molecular biology, with particular applications to the study of major human pathogens. Classic and foundational papers in pathogenesis, genetics, and molecular biology; recent literature on bacterial pathogens such as Salmonella, Vibrio, and/or Yersinia. Diverse experimental approaches: biochemistry, genomics, pathogenesis, and cell biology. Prerequisites: Declared Biology majors must have taken BIO 82 (Genetics) and BIO 83 (Biochemistry). Enrollment for undergraduates is limited to Biology majors in junior or senior year. Co-term or Ph.D. students in basic life sciences departments such as Biology, Bioengineering, and Genetics may also enroll in BIO 278. Apply at https://forms.gle/4NTtcBdWYMqRFvGc9.
Terms: Aut | Units: 3
Instructors: Long, S. (PI)

BIO 220: Prokaryotic Biology - A Quantitative Approach (BIO 120)

To live, microbes have to successfully coordinate various cellular processes, in line with available resources and what environmental conditions demand. This course introduces quantitative advances in understanding this coordination and their consequences across scales: from molecular biology via growth to population dynamics and ecology. Dry lab sessions complement lectures to introduce computational approaches. Python based analysis tools will be introduced. Prerequisite: MATH 51 or MATH 19, 20,21. Recommended: microbiology (e.g. BIO 62 or 162) and molecular biology/biochemistry/genetics courses (e.g. BIO 82 or 83) and basic familiarity with coding.
Terms: Win | Units: 3 | Repeatable 2 times (up to 3 units total)
Instructors: Cremer, J. (PI)

BIO 230: Molecular and Cellular Immunology

Mechanisms of immune responses in health and disease. Innate and adaptive immunity; development of the immune system; molecular biology, structure, and function of antibodies and T-cell receptors; cellular basis and regulation of immune responses; infectious diseases and vaccines; allergy, inflammation, and autoimmunity. COVID-19 will be featured as a major example. Lectures and discussion in class and in sections. For upper class undergraduate and graduate students who have not had an introductory immunology course. Prerequisites for undergraduates: Biology Core, Human Biology Core, or BIO 83 and 86, or consent of instructor. For graduate students: College-level molecular biology, biochemistry, and cell biology, or consent of instructor.
Terms: Aut | Units: 4

BIO 273A: Environmental Microbiology I (CEE 274A, CHEMENG 174, CHEMENG 274)

Basics of microbiology and biochemistry. The biochemical and biophysical principles of biochemical reactions, energetics, and mechanisms of energy conservation. Diversity of microbial catabolism, flow of organic matter in nature: the carbon cycle, and biogeochemical cycles. Bacterial physiology, phylogeny, and the ecology of microbes in soil and marine sediments, bacterial adhesion, and biofilm formation. Microbes in the degradation of pollutants. Prerequisites: CHEM 33, CHEM 121 (formerly CHEM 35), and BIOSCI 83, CHEMENG 181, or equivalents.
Terms: Aut | Units: 3

BIO 278: Microbiology Literature (BIO 178)

For advanced undergraduates and first-year graduate students. Critical reading of the research literature in prokaryotic genetics and molecular biology, with particular applications to the study of major human pathogens. Classic and foundational papers in pathogenesis, genetics, and molecular biology; recent literature on bacterial pathogens such as Salmonella, Vibrio, and/or Yersinia. Diverse experimental approaches: biochemistry, genomics, pathogenesis, and cell biology. Prerequisites: Declared Biology majors must have taken BIO 82 (Genetics) and BIO 83 (Biochemistry). Enrollment for undergraduates is limited to Biology majors in junior or senior year. Co-term or Ph.D. students in basic life sciences departments such as Biology, Bioengineering, and Genetics may also enroll in BIO 278. Apply at https://forms.gle/4NTtcBdWYMqRFvGc9.
Terms: Aut | Units: 3
Instructors: Long, S. (PI)

CEE 274A: Environmental Microbiology I (BIO 273A, CHEMENG 174, CHEMENG 274)

Basics of microbiology and biochemistry. The biochemical and biophysical principles of biochemical reactions, energetics, and mechanisms of energy conservation. Diversity of microbial catabolism, flow of organic matter in nature: the carbon cycle, and biogeochemical cycles. Bacterial physiology, phylogeny, and the ecology of microbes in soil and marine sediments, bacterial adhesion, and biofilm formation. Microbes in the degradation of pollutants. Prerequisites: CHEM 33, CHEM 121 (formerly CHEM 35), and BIOSCI 83, CHEMENG 181, or equivalents.
Terms: Aut | Units: 3
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