Gene recognition based on DAG shortest paths

doi:10.1093/bioinformatics/17.suppl_1.S56

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Bioinformatics Vol. 17 no. 90001 2001
Pages S56-S64
© 2001 Oxford University Press

Gene recognition based on DAG shortest paths

John S. Chuang and Dan Roth

Department of Computer Science, University of Illinois at Urbana-Champaign, Digital Computing Laboratory, Urbana, Illinois, 61801, USA

Received on February 5, 2001 ; revised on April 2, 2001 ; accepted on April 2, 2001

We describe DAGGER, an ab initio gene recognition programwhich combines the output of high dimensional signal sensorsin an intuitive gene model based on directed acyclic graphs.In the first stage, candidate start, donor, acceptor, and stop sites are scored using the SNoW learning architecture.These sites are then used to generate a directed acyclic graphin which each source-sink path represents a possible genestructure. Training sequences are used to optimize an edgeweighting function so that the shortest source-sink path maximizesexon-level prediction accuracy. Experimental evaluation ofprediction accuracy on two benchmark data sets demonstratesthat DAGGERis competitive with ab initio gene finding programsbased on Hidden Markov Models.

Contact: jsc{at}ocf.berkeley.edu, danr{at}cs.uiuc.edu

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