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Integrated Expression Analysis and E-support using Bayesian Models for Affymetrix Exon and Gene Arrays

ReferenceBB/G000352/1
Principal Investigator / Supervisor Dr Alexandra Lewin
Co-Investigators /
Co-Supervisors		 Dr Sarah Butcher
Institution Imperial College London
DepartmentSchool of Public Health
Funding typeResearch
Value (£) 94,649
StatusCompleted
TypeResearch Grant
Start date 01/10/2008
End date 31/10/2010
Duration25 months

Abstract

This project has two parallel aims: firstly to develop novel methods for analysing the new Affymetrix Exon and Gene arrays, including measuring different splice variants, and secondly to provide E-support for integrated Bayesian analysis of microarray data. We will develop a user-friendly web interface to a Grid-enabled system, allowing researchers to benefit from a powerful computing facility without having to deal directly with the underlying technology. We will adapt existing software for Bayesian analysis to be part of the microarray analysis portal EMAAS, which has been developed by the Bioinformatics Support Service at Imperial College. A series of separate analysis stages will be integrated together, allowing for simultaneous parameter estimation and propagation of uncertainty. We will develop a new Bayesian model for analysing Exon and Gene arrays which will include the facility to study alternative splice variants. This model will be made publicly available via the R software repository Bioconductor, and included in the integrated expression analysis pipeline. Additionally we will provide training and support tools for Bayesian analysis, tutorials for our particular models and worked examples using publicly available data.

Summary

DNA microarrays measure the expression of thousands of genes simultaneously. In the past decade they have become the standard technology for studying gene expression differences between different experimental conditions, for example between individuals suffering from certain diseases and unaffected individuals. The latest generation of Affymetrix microarrays have increased the resolution of genomic expression detection from the gene level down to the exon level, enabling measurement of different splice variants. Currently there are very few tools to take advantage of the additional information contained within these Exon arrays. The aim of this project is to develop powerful and robust methods for Exon array analysis including alternative splice detection and gene expression analyses. The software will be made available for researchers to download and use on their own sytem. In addition, data sets from microarray experiments can be very large and complex. The use of such high-throughput technology brings challenges for researchers in terms of data analysis and storage. Many biologists do not have direct collaboration with statisticians and bioinformaticians who are able to advise on and carry out data analysis. Thus there is a need for readily available analysis tools, in a form accessible to the biological community. Therefore this project also aims to present the developed analysis methods in a user friendly analysis environment, along with technical support and training software. The work will build on an existing resource called EMAAS, created for microarray data analysis and management which has been developed by the Bioinformatics Support Service at Imperial College. This utilises Grid clusters of computers which allows very fast data analysis, accessed via a user-friendly web interface.
Committee Closed Committee - Engineering & Biological Systems (EBS)
Research TopicsTechnology and Methods Development
Research PriorityX – Research Priority information not available
Research Initiative Tools and Resources Development Fund (TRDF) [2006-2015]
Funding SchemeX – not Funded via a specific Funding Scheme
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