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Literature DB >> 15961447

ANOSVA: a statistical method for detecting splice variation from expression data.

Melissa S Cline¹, John Blume, Simon Cawley, Tyson A Clark, Jing-Shan Hu, Gang Lu, Nathan Salomonis, Hui Wang, Alan Williams.

Abstract

MOTIVATION: Many or most mammalian genes undergo alternative splicing, generating a variety of transcripts from a single gene. New information on splice variation is becoming available through technology for measuring expression levels of several exons or splice junctions per gene. We have developed a statistical method, ANalysis Of Splice VAriation (ANOSVA) to detect alternative splicing from expression data. Since ANOSVA requires no transcript information, it can be applied when the level of annotation is poor. When validated against spiked clone data, it generated no false positives and few false negatives. We demonstrated ANOSVA with data from a prototype mouse alternative splicing array, run against normal adult tissues, yielding a set of genes with evidence of tissue-specific splice variation. AVAILABILITY: The results are available at the supplementary information site. SUPPLEMENTARY INFORMATION: The results are available at the supplementary information site https://bioinfo.affymetrix.com/Papers/ANOSVA/

Entities: Species

Mesh：

Year: 2005 PMID： 15961447 DOI： 10.1093/bioinformatics/bti1010

Source DB: PubMed Journal: Bioinformatics ISSN： 1367-4803 Impact factor: 6.937

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Cited

30 in total

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Authors: Timothy J Robinson; Eleonora Forte; Raul E Salinas; Shaan Puri; Matthew Marengo; Mariano A Garcia-Blanco; Micah A Luftig
Journal: RNA Date: 2012-06-26 Impact factor: 4.942

2. MADS: a new and improved method for analysis of differential alternative splicing by exon-tiling microarrays.

Authors: Yi Xing; Peter Stoilov; Karen Kapur; Areum Han; Hui Jiang; Shihao Shen; Douglas L Black; Wing Hung Wong
Journal: RNA Date: 2008-06-19 Impact factor: 4.942

3. Gene expression signatures of coronary heart disease.

Authors: Roby Joehanes; Saixia Ying; Tianxiao Huan; Andrew D Johnson; Nalini Raghavachari; Richard Wang; Poching Liu; Kimberly A Woodhouse; Shurjo K Sen; Kahraman Tanriverdi; Paul Courchesne; Jane E Freedman; Christopher J O'Donnell; Daniel Levy; Peter J Munson
Journal: Arterioscler Thromb Vasc Biol Date: 2013-03-28 Impact factor: 8.311

4. LATENT RANK CHANGE DETECTION FOR ANALYSIS OF SPLICE-JUNCTION MICROARRAYS WITH NONLINEAR EFFECTS.

Authors: Jonathan Gelfond; Lee Ann Zarzabal; Tarea Burton; Suzanne Burns; Mari Sogayar; Luiz O F Penalva
Journal: Ann Appl Stat Date: 2011 Impact factor: 2.083

5. Reproducible probe-level analysis of the Affymetrix Exon 1.0 ST array with R/Bioconductor.

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Journal: Brief Bioinform Date: 2014-07 Impact factor: 11.622

6. A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis.

Authors: Julie Støve Bødker; Rasmus Froberg Brøndum; Alexander Schmitz; Anna Amanda Schönherz; Ditte Starberg Jespersen; Mads Sønderkær; Charles Vesteghem; Hanne Due; Caroline Holm Nørgaard; Martin Perez-Andres; Mehmet Kemal Samur; Faith Davies; Brian Walker; Charlotte Pawlyn; Martin Kaiser; David Johnson; Uta Bertsch; Annemiek Broyl; Mark van Duin; Rajen Shah; Preben Johansen; Martin Agge Nørgaard; Richard J Samworth; Pieter Sonneveld; Hartmut Goldschmidt; Gareth J Morgan; Alberto Orfao; Nikhil Munshi; Hans Erik Johnson; Tarec El-Galaly; Karen Dybkær; Martin Bøgsted
Journal: Blood Adv Date: 2018-09-25

ANOSVA: a statistical method for detecting splice variation from expression data.

1. SplicerEX: a tool for the automated detection and classification of mRNA changes from conventional and splice-sensitive microarray expression data.

2. MADS: a new and improved method for analysis of differential alternative splicing by exon-tiling microarrays.

3. Gene expression signatures of coronary heart disease.

4. LATENT RANK CHANGE DETECTION FOR ANALYSIS OF SPLICE-JUNCTION MICROARRAYS WITH NONLINEAR EFFECTS.

5. Reproducible probe-level analysis of the Affymetrix Exon 1.0 ST array with R/Bioconductor.

6. A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis.

7. Prediction of alternatively skipped exons and splicing enhancers from exon junction arrays.

8. Overestimation of alternative splicing caused by variable probe characteristics in exon arrays.

9. Resolving deconvolution ambiguity in gene alternative splicing.

10. Probe-level estimation improves the detection of differential splicing in Affymetrix exon array studies.