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91 - 100 of 176 results for: BIO

BIO 208: Spanish in Science/Science in Spanish (EARTHSYS 207, LATINAM 207)

For graduate and undergraduate students interested in the natural sciences and the Spanish language. Students will acquire the ability to communicate in Spanish using scientific language and will enhance their ability to read scientific literature written in Spanish. Emphasis on the development of science in Spanish-speaking countries or regions. Course is conducted in Spanish and intended for students pursuing degrees in the sciences, particularly disciplines such as ecology, environmental science, sustainability, resource management, anthropology, and archeology.
Terms: Spr | Units: 2
Instructors: Dirzo, R. (PI)

BIO 210: DNA Replication and Genomic Maintenance (BIO 110)

Maintenance of the genome and its accurate replication are prerequisites for life. DNA replication is also intricately connected to pathways for responding to genotoxic stress, which include inevitable collisions with transcription. In eukaryotes, DNA repair and replication are tightly connected to chromatin modification. Emphasis for lecture topics include: DNA-templated chromatin transactions; Chromatin manipulation during replication and DNA damage responses; Structural biology and molecular mechanisms of replication and DNA repair enzymes; Inducible responses to genotoxic stress; Relationships of DNA damage processing to mutagenesis, carcinogenesis, aging and human genetic disease.
Last offered: Spring 2014

BIO 214: Advanced Cell Biology (BIOC 224, MCP 221)

For Ph.D. students. Current research on cell structure, function, and dynamics. Topics include complex cell phenomena such as cell division, apoptosis, compartmentalization, transport and trafficking, motility and adhesion, and differentiation. Weekly reading of current papers from the primary literature. Preparation of an original research proposal. Prerequisite for advanced undergraduates: BIO 129A,B, and consent of instructor.
Terms: Win | Units: 4

BIO 222: Exploring Neural Circuits

Seminar. The logic of how neural circuits control behavior; how neural circuits are assembled during development and modified by experience. Emphasis is on primary literature. Topics include: neurons as information processing units; simple and complex circuits underlying sensory information processing and motor control; and development and plasticity of neural circuits. Advanced undergraduates and graduate students with background in physical science, engineering, and biology may apply to enroll. Recommended: background in neuroscience.
Terms: Win | Units: 3

BIO 226: Introduction to Biophysics (APPPHYS 205, BIO 126)

Core course appropriate for advanced undergraduate students and graduate students with prior knowledge of calculus and a college physics course. Introduction to how physical principles offer insights into modern biology, with regard to the structural, dynamical, and functional organization of biological systems. Topics include the roles of free energy, diffusion, electromotive forces, non-equilibrium dynamics, and information in fundamental biological processes.
Terms: Win | Units: 3-4

BIO 227: Foundations of Community Ecology

Discussion of classic papers in community ecology (Forbes, Clements, Gleason, Grinnell, Lindeman, Preston, Elton, Hutchinson, May, MacArthur, Odum, Connell, Paine, Tilman, etc.) and contemporary papers on related topics, to develop historical perspectives to understand current issues and identify future directions. Prerequisite for undergraduates: consent of instructor.

BIO 22Q: Infection, Immunity, and Global Health

Why do infectious diseases continue to challenge us despite advances in medicine? This course will explore the causes and prevention of infectious diseases, focusing on the interplay between pathogens, the immune system, the environment, and societal factors that affect disease occurrence and outcomes. Topics will include: basic elements of microbiology, immunology, and epidemiology; case studies of old diseases (e.g., smallpox, tuberculosis, malaria) and recently-emergent diseases (e.g., Ebola, AIDS, antibiotic-resistant bacteria, Lyme disease, and pandemic influenza) that illustrate the biological, environmental, cultural, political, and economic factors that affect disease emergence, spread, and control; the limitations of modern medical approaches such as antibiotics and vaccines; and strategies for reducing global infectious disease threats. The seminar will feature class discussion, student projects, and faculty and student presentations. Prerequisite: biology background, preferably introductory college courses (e.g., 41, 42, or HUMBIO 2A, 3A).
| UG Reqs: GER: DB-NatSci

BIO 230: Molecular and Cellular Immunology

Components of the immune system and their functions in immune responses in health and disease: development of the immune system; innate and adaptive immunity; structure and function of antibodies; molecular biology and biochemistry of antigen receptors and signaling pathways; cellular basis of immune responses and their regulation; genetic control of immune responses and disease susceptibility. Lectures and discussion in class and in sections. Satisfies Central Menu Areas 1 or 2. For upper class undergraduates and graduate students who have not previously taken an introductory immunology course. Prerequisite for undergraduates: Biology or Human Biology core, or consent of instructor.
Terms: Aut | Units: 4

BIO 230A: Molecular and Cellular Immunology Literature Review

Special discussion section for graduate students. Supplement to 230. Corequisite: 230.
Terms: Aut | Units: 1
Instructors: Jones, P. (PI)

BIO 232: Advanced Imaging Lab in Biophysics (APPPHYS 232, BIO 132, BIOPHYS 232, GENE 232)

Laboratory and lectures. Advanced microscopy and imaging, emphasizing hands-on experience with state-of-the-art techniques. Students construct and operate working apparatus. Topics include microscope optics, Koehler illumination, contrast-generating mechanisms (bright/dark field, fluorescence, phase contrast, differential interference contrast), and resolution limits. Laboratory topics vary by year, but include single-molecule fluorescence, fluorescence resonance energy transfer, confocal microscopy, two-photon microscopy, microendoscopy, and optical trapping. Limited enrollment. Recommended: basic physics, Biology core or equivalent, and consent of instructor.
Terms: Spr | Units: 4
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