MOTIVATION: Alternative splicing is a major component of the regulatory action on mammalian transcriptomes. It is estimated that over half of all human genes have more than one splice variant. Previous studies have shown that alternatively spliced exons possess several features that distinguish them from constitutively spliced ones. Recently, we have demonstrated that such features can be used to distinguish alternative from constitutive exons. In the current study, we used advanced machine learning methods to generate robust classifier of alternative exons. RESULTS: We extracted several hundred local sequence features of constitutive as well as alternative exons. Using feature selection methods we find seven attributes that are dominant for the task of classification. Several less informative features help to slightly increase the performance of the classifier. The classifier achieves a true positive rate of 50% for a false positive rate of 0.5%. This result enables one to reliably identify alternatively spliced exons in exon databases that are believed to be dominated by constitutive exons.
MOTIVATION: Alternative splicing is a major component of the regulatory action on mammalian transcriptomes. It is estimated that over half of all human genes have more than one splice variant. Previous studies have shown that alternatively spliced exons possess several features that distinguish them from constitutively spliced ones. Recently, we have demonstrated that such features can be used to distinguish alternative from constitutive exons. In the current study, we used advanced machine learning methods to generate robust classifier of alternative exons. RESULTS: We extracted several hundred local sequence features of constitutive as well as alternative exons. Using feature selection methods we find seven attributes that are dominant for the task of classification. Several less informative features help to slightly increase the performance of the classifier. The classifier achieves a true positive rate of 50% for a false positive rate of 0.5%. This result enables one to reliably identify alternatively spliced exons in exon databases that are believed to be dominated by constitutive exons.
Authors: Sahar Gelfman; David Burstein; Osnat Penn; Anna Savchenko; Maayan Amit; Schraga Schwartz; Tal Pupko; Gil Ast Journal: Genome Res Date: 2011-10-05 Impact factor: 9.043
Authors: Gene W Yeo; Eric Van Nostrand; Dirk Holste; Tomaso Poggio; Christopher B Burge Journal: Proc Natl Acad Sci U S A Date: 2005-02-11 Impact factor: 11.205
Authors: Anireddy S N Reddy; Mark F Rogers; Dale N Richardson; Michael Hamilton; Asa Ben-Hur Journal: Front Plant Sci Date: 2012-02-07 Impact factor: 5.753