This proposal is to request support for visits to the Centre of Excellence in Genomic Sciences (CEGS) at the University of Southern California, and Caltech (Mayo Laboratory), to exchange ideas, develop new lines of research and explore collaborative ventures. The underlying scientific theme which links these visits is the development of advanced tools for Bayesian statistical modelling, and their application to two challenging problems in systems and synthetic biology - the understanding of genetic variation and the design of novel protein molecules. This proposal surmounts traditional academic disciplinary boundaries and lies at the interface of biophysics, genomics and computational statistics.
A key feature that distinguishes the modern approach to systems biology is the aim of linking mathematical and statistical modelling with the huge volume and diversity of contemporary cellular and molecular data, such as that coming from high-throughput, genome-wide and imaging technologies. One of the most important challenges facing modern biology and medicine is to understand how the genetic variation between individuals (the genotype) translates into the type of variation we can see or measure, such as blood pressure (the phenotype), and how environment influences this relationship. Although considerable progress has been made in recent years in identifying regulatory genes and modules in various organisms, there is still limited knowledge about downstream gene regulatory networks, and about how variation in these networks results in phenotypic differences, and is, in turn, affected by the environment.
The Centre of Excellence in Genomic Sciences (CEGS) at the University of Southern California, directed by Professor Simon Tavare FRS, is one of only 11 CEGS funded by the National Institutes of Health, with a focus on the use of the heterogeneous data produced by modern genomics technologies to understand genetic variation. Professor Tavare is internationally recognised for his work at the interface of statistics, probability and the biological and medical sciences. He has made important contributions to the study of combinatorial stochastic processes, population genetics and statistical bioinformatics. The visit to CEGS will provide an unparalleled opportunity to interact with a wide range of researchers, including molecular biologists, population geneticists, genetic epidemiologists, statisticians, computer scientists, and mathematicians, who are focused these problems.
Whilst systems biology attempts to understand the design principles underpinning biological processes, synthetic biology attempts to apply this understanding to the design and construction of novel biological functions and systems not found in nature. One facet of synthetic biology is protein design, in which our increasing understanding of the principles underlying protein structure and function is being applied in the redesign of existing proteins, or the design of novel proteins.
Professor Steve Mayo is one of the pioneers of the field of protein design and a member of the US National Academy of Sciences; the focus of his laboratory at Caltech is the use of theoretical, computational, and experimental approaches to study structural biology, and in particular to develop quantitative methods for protein design. Caltech was rated the world's number one university in the 2011--2012 Times Higher Education global ranking of the top 200 universities. The visit to Professor Mayo's laboratory will provide a unique opportunity to interact with a wide range of researchers applying theoretical, computational, and experimental approaches to the study of protein design, protein sequence evolution and protein-protein recognition, in a world-class environment.
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