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GENE 109Q: Genomics: A Technical and Cultural Revolution (BIOMEDIN 109Q)

Preference to sophomores. For non-science majors. Concepts of genomics, high-throughput methods of data collection, and computational approaches to analysis of data. The social, ethical, and economic implications of genomic science. Students may focus on computational or social aspects of genomics.
Terms: Win | Units: 3 | UG Reqs: Writing 2
Instructors: Altman, R. (PI)

GENE 199: Undergraduate Research

Students undertake investigations sponsored by individual faculty members. Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit

GENE 202: Human Genetics

Theoretical and experimental basis for the genetics of human health and disease. Molecular, chromosomal, biochemical, developmental, cancer, and medical genetics, emphasizing the last. Clinical case discussions. Prerequisites: biochemistry; basic genetics.
Terms: Aut | Units: 4
Instructors: Hudgins, L. (PI) ; Ormond, K. (PI)

GENE 203: Advanced Genetics (BIO 203, DBIO 203)

For graduate students in Bioscience programs; may be appropriate for graduate students in other programs. The genetic toolbox. Examples of analytic methods, genetic manipulation, genome analysis, and human genetics. Emphasis is on use of genetic tools in dissecting complex biological pathways, developmental processes, and regulatory systems. Faculty-led discussion sections with evaluation of papers. Students with minimal experience in genetics should prepare by working out problems in college level textbooks.
Terms: Aut | Units: 4
Instructors: Barsh, G. (PI) ; Sidow, A. (PI) ; Stearns, T. (PI)

GENE 211: Genomics

Genome evolution, organization, and function; technical, computational, and experimental approaches; hands-on experience with representative computational tools used in genome science; and a beginning working knowledge of PERL.
Terms: Win | Units: 3
Instructors: Cherry, J. (PI) ; Myers, R. (PI) ; Sherlock, G. (PI) ; Sidow, A. (PI)

GENE 212: Introduction to Biomedical Informatics Research Methodology (BIOE 212, BIOMEDIN 212, CS 272)

Hands-on software building. Student teams conceive, design, specify, implement, evaluate, and report on a software project in the domain of biomedicine. Creating written proposals, peer review, providing status reports, and preparing final reports. Guest lectures from professional biomedical informatics systems builders on issues related to the process of project management. Software engineering basics. Prerequisites: 210, 211 or 214, or consent of instructor.
Terms: Aut | Units: 3
Instructors: Altman, R. (PI) ; Cheng, B. (PI) ; Klein, T. (PI)

GENE 214: Representations and Algorithms for Computational Molecular Biology (BIOE 214, BIOMEDIN 214, CS 274)

Topics: algorithms for alignment of biological sequences and structures, computing with strings, phylogenetic tree construction, hidden Markov models, computing with networks of genes, basic structural computations on proteins, protein structure prediction, protein threading techniques, homology modeling, molecular dynamics and energy minimization, statistical analysis of 3D biological data, integration of data sources, knowledge representation and controlled terminologies for molecular biology, graphical display of biological data, machine learning (clustering and classification), and natural language text processing. Prerequisites: programming skills; consent of instructor for 3 units.
Terms: Spr | Units: 3-4
Instructors: Altman, R. (PI)

GENE 215: Frontiers in Biological Research (BIOC 215, DBIO 215)

Literature discussion in conjunction with the Frontiers in Biological Research seminar series hosted by Biochemistry, Developmental Biology, and Genetics in which distinguished investigators present current work. Students and faculty meet beforehand to discuss papers from the speaker's primary research literature. Students meet with the speaker after the seminar to discuss their research and future direction, commonly used techniques to study problems in biology, and comparison between the genetic and biochemical approaches in biological research.
Terms: Aut, Win | Units: 1
Instructors: Harbury, P. (PI) ; Tan, M. (PI) ; Villeneuve, A. (PI)

GENE 218: Computational Analysis of Biological Images (PATH 218)

Physical and computational tools for acquisition, processing, interpretation, and archiving of biological images. Emphasis is on digital microscopy.
Terms: Spr | Units: 2
Instructors: Fire, A. (PI)

GENE 222: Method and Logic in Experimental Genetics

For graduate students only. How experimental strategies are applied to biological questions irrespective of discipline boundaries. Examples include purifying activities from complex mixtures, localizing molecules in space and time, discovering macromolecular interactions, inferences from sequence similarity, using structure to elucidate function, and applying genomics to biological problems. Weekly discussion of two representative papers selected by faculty and a student presentation of a third paper which illustrate principles of biochemistry and cell and molecular biology, and the historical context of important scientific advances.
Terms: Win | Units: 3
Instructors: Baker, J. (PI) ; Calos, M. (PI)
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