CSE P590A,  Au '08:  Computational Biology (Professional Masters Program)

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Administrative  Info Sheet  FAQ  Schedule & Reading Course Email  Subscription Options  Class List Archive  E-mail Course Staff Assignments  Message Board  HW #1  HW #2  HW #3  HW #4  HW #5 Lecture Notes  1: Introduction; Bio Basics (1-up, 4-up)  2: Alignment; DNA Replication (1-up, 4-up)  3: BLAST; Scoring; DNA Sequencing (1-up, 4-up)  4: MLE & EM (1-up, 4-up)        MLE/EM Notes (.pdf)        EM Example (.xls)  5: Motifs; Gene Regulation (1-up, 4-up)  6: HMMs (1-up, 4-up)        HMM Example (.xls)  7: Gene Finding; Splicing (1-up, 4-up)  8: RNA Function & Structure (1-up, 4-up)  9: RNA Search & Discovery (1-up, 4-up)        Lecture Video Previous Versions  CSEP 590A, 2006  CSE 590TV, 2003 Resources  Pubmed  NCBI Science Primer  NHGRI Talking Glossary  ORNL Genome Glossary  A Molecular Biology Glossary  BLAST  Swiss-Prot  PDB

Lecture:  EEB 045 (schematic) Th 6:30- 9:20PM    Office Hours Location Phone Instructor:  Larry Ruzzo, ruzzo at cs  By appt. CSE 554  (206) 543-6298 TA:  Elizabeth Tseng, lachesis at cs  By appt. Course Email: csep590a_au08@u.washington.edu. Use this list to ask and/or answer questions about homework, lectures, etc. The instructor and TA are subscribed to this list. All messages are automatically archived.  Questions not of general interest may be directed to the instructor and TA: csep590a-staff or just to the instructor: ruzzo at cs. You can (and perhaps should) change your subscription options. Catalog Description: An introduction to the use of computational methods for the understanding of biological systems at the molecular level. Prerequisite: None Credits: 4 Learning Objectives: The availability of the complete genome sequences of humans and other organisms is one of the landmark achievements of science. Understanding this enormous volume of data is a problem that will challenge scientists for decades to come, and the nature and scope of the problem means that computer scientists will play a vital role. The primary objective of the course is for students to understand the variety of computational problems and solutions that arise in this interdisciplinary field. Students will learn enough of the basic concepts of molecular biology to understand the context for the computational problems presented in the rest of the course. They will learn how some of the computational methods they have encountered in other courses can be applied to solve problems in modern molecular biology. An important component is to learn the nature and capabilities of some of the key public databases available for the solution of these problems, as well as publicly available computational analysis tools and the algorithmic principles underlying them. Textbook: Richard Durbin, Sean R. Eddy, Anders Krogh and Graeme Mitchison, Biological Sequence Analysis: Probabilistic models of proteins and nucleic acids, Cambridge, 1998.  (Available from U Book Store, Amazon, etc.)  Errata. References: See Schedule & Reading Portions of the CSE P590A Web may be reprinted or adapted for academic nonprofit purposes, providing the source is accurately quoted and duly credited. The CSE P590A Web: © 1993-2008, Department of Computer Science and Engineering, University of Washington.

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