Data merging for integrated microarray and proteomic analysis

doi:10.1093/bfgp/ell019

Briefings in Functional Genomics Advance Access originally published online on May 10, 2006
Briefings in Functional Genomics 2006 5(4):261-272; doi:10.1093/bfgp/ell019

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Data merging for integrated microarray and proteomic analysis

Katrina M. Waters, Joel G. Pounds and Brian D. Thrall

Corresponding author. Brian D. Thrall, Cell Biology and Biochemistry Group, Biological Sciences Division, Pacific Northwest National Laboratory, Mail Stop P7-56 Box 999, Richland WA 99352, USA. Tel: 509-376-3809; Fax: 509-376-6767; E-mail: brian.thrall{at}pnl.gov

The functioning of even a simple biological system is much morecomplicated than the sum of its genes, proteins and metabolites.A premise of systems biology is that molecular profiling willfacilitate the discovery and characterization of important diseasepathways. However, as multiple levels of effector pathway regulationappear to be the norm rather than the exception, a significantchallenge presented by high-throughput genomics and proteomicstechnologies is the extraction of the biological implicationsof complex data. Thus, integration of heterogeneous types ofdata generated from diverse global technology platforms representsthe first challenge in developing the necessary foundationaldatabases needed for predictive modelling of cell and tissueresponses. Given the apparent difficulty in defining the correspondencebetween gene expression and protein abundance measured in severalsystems to date, how do we make sense of these data and designthe next experiment? In this review, we highlight current approachesand challenges associated with integration and analysis of heterogeneousdata sets, focusing on global analysis obtained from high-throughputtechnologies.

Keywords: proteomics, microarray, data integration

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