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A Probabilistic Learning Approach to Whole-Genome Operon Prediction

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A Probabilistic Learning Approach to Whole-Genome Operon Prediction
We present a computational approach to predicting operons in the genomes of prokaryotic organisms. Our approach uses machine learning methods to induce predictive models for this task from a rich variety of data types including sequence data, gene expression data, and functional annotations associated with genes. We use multiple learned models that individually predict promoters, terminators and operons themselves. A key part of our approach is a dynamic programming method that uses our predictions to map every known and putative gene in a given genome into its most probable operon. We evaluate our approach using data from the E. coli K-12 genome.
Mark Craven, David Page, Jude W. Shavlik, Joseph B
Added 01 Nov 2010
Updated 01 Nov 2010
Type Conference
Year 2000
Where ISMB
Authors Mark Craven, David Page, Jude W. Shavlik, Joseph Bockhorst, Jeremy D. Glasner
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