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AdvancedBioinformatics Biostatistics & Medical Informatics 776 Computer Sciences 776 Spring 2002 Mark Craven Dept. of Biostatistics & Medical Informatics.

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Presentation on theme: "AdvancedBioinformatics Biostatistics & Medical Informatics 776 Computer Sciences 776 Spring 2002 Mark Craven Dept. of Biostatistics & Medical Informatics."— Presentation transcript:

1 AdvancedBioinformatics Biostatistics & Medical Informatics 776 Computer Sciences 776 Spring 2002 Mark Craven Dept. of Biostatistics & Medical Informatics Dept. of Computer Sciences craven@biostat.wisc.edu www.biostat.wisc.edu/~craven/776.html

2 BSMI/CS 776: Bioinformatics Instructor: Prof. Mark Craven –craven@biostat.wisc.edu or –craven@cs.wisc.edu Office hours: 2:00-3:00 Tues, 2:30-3:30pm Wed, or by appointment –room 6730, Medical Sciences Center Course home page: www.biostat.wisc.edu/~craven/776.html Course mailing list: TBA

3 Finding My Office

4 Course TA Wei Luo –luo@biostat.wisc.edu –6749 Medical Sciences Center (across the hall from my office) –Office hours: 3:00-4:00pm Tuesday & Thursday

5 Computing Resources for the Class UNIX workstations in Dept. of Biostatistics & Medical Informatics –no “lab”, must log in remotely –more details later CS department offers UNIX orientation sessions –4:00pm in 1325 Computer Sciences –January 23, 24, 28, 29, 30

6 The History of this Course CS838, Craven 1999/2000 CS638, AnantharamanCS838, Craven 2000/2001 BSMI 576, AnantharamanBSMI 776, Craven 2001/2002 you are here

7 Expected Background technically, BSMI/CS 576 statistics: good if you’ve had at least one course, but not required molecular biology: no knowledge assumed, but an interest in learning some basic molecular biology is mandatory

8 Related Courses BSMI/CS 576 Biochemistry 711/712, “Sequence Analysis”, taught by Prof. Ann Palmenberg not-for-credit evening BioModules on “Sequence Analysis”, “Genetics Computing” and “Desktop Molecular Graphics” www.bocklabs.wisc.edu/acp/bnmcdrop/biomodinfo.html CS 731, “Advanced Artificial Intelligence with BiomedicalApplications”, taught by Prof. David Page

9 Course Emphases Understanding the types and sources of data available for computational biology. Understanding the important computational problems in molecular biology. Understanding the most significant & interesting algorithms.

10 Course Requirements homework assignments: ~40% –programming –computational experiments (e.g. measure the effect of varying parameter x in algorithm y) –some written exercises project: ~20% final exam: ~ 35% class participation: ~ 5%

11 Course Readings required: Biological Sequence Analysis: Probabilistic Models of Proteins and Nucleic Acids. R. Durbin, S. Eddy, A. Krogh, and G. Mitchison. Cambridge University Press, 1998. recommended: Introduction to Computational Molecular Biology. J. Setubal and J. Meidanis. PWS Publishing, 1997. articles from the primary literature (scientific journals, etc.)

12 Reading Assignment for next week read: –Molecular Biology for Computer Scientists. L. Hunter –DOE Primer on Molecular Genetics –Finally, the Book of Life and Instructions for Navigating It. E. Pennisi. Science, 2000. –All of the above available from course web page –Chapter 2 (sections 2.1 to 2.5) from Durbin et al. OR Chapter 3 from Setubal & Meidanis

13 Student Survey name taking course for credit or sitting in grad/undergrad and year major/home department CS background biology background statistics background took 638 or 576 w/Prof. Anantharaman

14 What is Bioinformatics representation/storage/retrieval/analysis of biological data concerning –sequences –structures –functions –activity levels –networks of interactions of/among biomolecules sometimes used synonymously with computational biology or computational molecular biology

15 Topics to be Covered: Computational Problems in Molecular Biology pairwise sequence alignment sequence database searching multiple sequence alignment whole genome comparisons gene recognition protein structure and function prediction gene expression analysis phylogenetic tree construction RNA structure modeling biomedical text analysis

16 Topics to be Covered: Computer Science Issues & Algorithms string algorithms dynamic programming machine learning Markov chain models hidden Markov models stochastic context free grammars EM algorithms Gibbs sampling clustering tree algorithms text analysis and more…

17 What do two sequences/genomes have in common? string algorithms dynamic programming

18 Where are the genes in this genome? Markov chain models hidden Markov models

19 Can diseases be characterized by patterns of gene activity? clustering supervised machine learning

20 What does the protein encoded by this gene look like? What does it do? dynamic programming branch & bound hidden Markov models Tarot cards?

21 What other RNA sequences fold up like this? stochastic context free grammars

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