October 28 - November 3, 2015
Application Deadline: July 15, 2015

Aaron Mackey, HemoShear LLC, Charlottesville
William Pearson,
University of Virginia, Charlottesville
Lisa Stubbs, University of Illinois, Urbana

Please note special application instructions:
Only ONE letter of reference is required along with your application and Statement/Essay

See the roll of honor - who's taken the course in the past

This course presents a comprehensive overview of the theory and practice of computational methods for the identification and characterization of functional elements from DNA sequence data. The course focuses on approaches for extracting the maximum amount of information from protein and DNA sequence similarity through sequence database searches, statistical analysis, and multiple sequence alignment. Additional topics include:

•Alignment and analysis of “next-gen” sequencing data, with applications from metagenomic, RNA-Seq, and CHiP-Seq experiments
•The Galaxy environment for high-throughput analysis
•Regulatory element and motif identification from conserved signals in aligned and unaligned sequences
•Integration of genetic and sequence information in biological databases
•Genome Browsers and Genome Features

2015 Lecturers include:
James Taylor,  Johns Hopkins University
Gary Stormo, Washington University
Ross Hardison, Pennsylvania State University
David Hawkins, University of Washington, Seattle

The course combines lectures with hands-on exercises; students are encouraged to pose challenging sequence analysis problems using their own data. The course is designed for biologists seeking advanced training in biological sequence and genome analysis, computational biology core resource directors and staff, and for individuals in other disciplines (e.g., computer science) who wish to survey current research problems in biological sequence analysis. Advanced programming skills are not required.

The primary focus of the Computational & Comparative Genomics course is the theory and practice of algorithms in computational biology, with the goals of using current methods more effectively for biological discovery and developing new algorithms. The schedule and lectures for last years Computational & Comparative Genomics course can be found at: Students more interested in the practical aspects of software development are encouraged to apply to the course on Programming for Biology. Students who would like in-depth training in the analysis of next-generation sequencing data (e.g., SNP calling and the detection of structural variants) should apply to the course on Advanced Sequencing Technologies & Applications.

This course is supported by the National Human Genome Research Institute

Cost (including tuition, board and lodging): $2,470

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No fees are due until you have completed the full application process and
are accepted into the course.