Workshop 11th July 2011 8 a.m. University of Oxford, Department of Plant Sciences
Oxford Summer Projects in Computational Biology
- Web page
- http://www.stats.ox.ac.uk/__data/assets/pdf_file/0012/6330/OXFORD_SUMMER_PROJECTS_IN_COMPUTATIONAL_BIOLOGY.pdf
- Categories
- Bioinformatics, Developmental Biology, Evolution, Structural biology, Systems biology
- Submitter
- Petrina Butler
From July 11th until August 20th 2011, a project-based summer school in computational biology will take place in Oxford in The Department of Plant Sciences. The ideal student is strong in maths/stats/compsci/phys/chem, has studied 2-3 years of an undergraduate degree, and has an interest in moving into computational biology. However, we have also successfully had students from a pure biology background, as well as students in the process of doing their PhD. The instructors/teachers/project designers are: James Anderson, Luke Cartey, Tom Cavalier-Smith, David Gavaghan, Jotun Hein, Joe Herman, Nick Jones, Steve Kelly, Rune Lyngsø, Thomas Mailund, Istvan Miklos, Adam Novak, Bela Novak, Joe Pitt-Francis, Gail Preston, Miltos Tsiantis.
The presently planned projects are:
- Metabolic Random Fields
- Correlated Alignment
- Phylogenomic Analysis of Algae
- Stochastic Models Combining Alignment and Annotation
- Advanced Software Design for Statistical Alignment
- Evolving Dynamical Systems: the Cell Cycle as test case
- Inverse RNA Folding Algorithms
- Stochastic Models of Leaf Shape Evolution
- Comparison of Parallel Solution Techniques for the Eikonal equation
More detailed descriptions of these can be found here and earlier project reports here. Students will work in groups of three with daily discussion with the instructors. There will be three presentations by each group and there should be a final report describing the work. Participation has in general been experienced as very demanding by students. There are no official credits for participation, but participation has been experienced as very rewarding as a research experience and in creating relationships with students/researchers in other countries.
In the work days in the above period, each day will start with a one hour lecture and we will hope to have given an overview of computational biology by the end of the period. But, the course will strongly focus on learning 'by doing'. There will also be one lecture describing how to enter an Oxford DPhil program.
The present plan is:
- Week 1: Introduction to summer school, Introduction to computational biology, Alignment of a pair of sequences, Alignment of a set of sequences, Student Presentations.
- Week 2: Models of substitution I, Models of substitution II, Models of substitution III, Phylogenies I, Phylogenies II
- Week 3: Statistical alignment I, Statistical alignment II, Genetic mapping I, Genetic mapping II, Networks I
- Week 4: Networks II, Networks III, Integrative genomics I, Integrative genomics II, Student Presentations.
- Week 5: Genome annotation I: protein genes. Genome annotation II: RNA genes, Genome annotation III: signals by machine learning, Genome annotation IV: signals by evolutionary models, Patterns in biology.
- Week 6: Modelling molecular reactions I, Modelling molecular reactions II, Predicting protein structure, Doing a DPhil in Oxford, Final Student Presentations.
There are a number of scholarships to cover housing and food, but more might be available dependent on applications under review. The deadline for applications is 1st March by email to Madeline Mitchell. A CV with university grades and two people who can be contacted for references are needed. If possible, please apply as soon as possible as there are a series of alternative possibilities of funding for named students
Madeline Mitchell: mitchell@stats.ox.ac.uk