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dc.creatorSun, Q
dc.creatorMuckatira, S
dc.creatorYuan, L
dc.creatorJi, S
dc.creatorNewfeld, S
dc.creatorKumar, S
dc.creatorYe, J
dc.date.accessioned2021-01-31T18:15:49Z
dc.date.available2021-01-31T18:15:49Z
dc.date.issued2013-12-03
dc.identifier.issn1471-2105
dc.identifier.issn1471-2105
dc.identifier.doihttp://dx.doi.org/10.34944/dspace/5335
dc.identifier.other24299119 (pubmed)
dc.identifier.urihttp://hdl.handle.net/20.500.12613/5353
dc.description.abstractBackground: Drosophila melanogaster has been established as a model organism for investigating the developmental gene interactions. The spatio-temporal gene expression patterns of Drosophila melanogaster can be visualized by in situ hybridization and documented as digital images. Automated and efficient tools for analyzing these expression images will provide biological insights into the gene functions, interactions, and networks. To facilitate pattern recognition and comparison, many web-based resources have been created to conduct comparative analysis based on the body part keywords and the associated images. With the fast accumulation of images from high-throughput techniques, manual inspection of images will impose a serious impediment on the pace of biological discovery. It is thus imperative to design an automated system for efficient image annotation and comparison.Results: We present a computational framework to perform anatomical keywords annotation for Drosophila gene expression images. The spatial sparse coding approach is used to represent local patches of images in comparison with the well-known bag-of-words (BoW) method. Three pooling functions including max pooling, average pooling and Sqrt (square root of mean squared statistics) pooling are employed to transform the sparse codes to image features. Based on the constructed features, we develop both an image-level scheme and a group-level scheme to tackle the key challenges in annotating Drosophila gene expression pattern images automatically. To deal with the imbalanced data distribution inherent in image annotation tasks, the undersampling method is applied together with majority vote. Results on Drosophila embryonic expression pattern images verify the efficacy of our approach.Conclusion: In our experiment, the three pooling functions perform comparably well in feature dimension reduction. The undersampling with majority vote is shown to be effective in tackling the problem of imbalanced data. Moreover, combining sparse coding and image-level scheme leads to consistent performance improvement in keywords annotation. © 2013 Sun et al.; licensee BioMed Central Ltd.
dc.format.extent350-350
dc.language.isoen
dc.relation.haspartBMC Bioinformatics
dc.relation.isreferencedbySpringer Science and Business Media LLC
dc.rightsCC BY
dc.rights.urihttp://creativecommons.org/licenses/by/2.0
dc.subjectAnimals
dc.subjectCell Differentiation
dc.subjectCell Division
dc.subjectComputational Biology
dc.subjectDrosophila melanogaster
dc.subjectGene Expression Profiling
dc.subjectGene Expression Regulation, Developmental
dc.subjectGenome, Insect
dc.subjectHigh-Throughput Screening Assays
dc.subjectModels, Genetic
dc.subjectMolecular Sequence Annotation
dc.subjectPredictive Value of Tests
dc.subjectSupport Vector Machine
dc.titleImage-level and group-level models for Drosophila gene expression pattern annotation
dc.typeArticle
dc.type.genreJournal Article
dc.relation.doi10.1186/1471-2105-14-350
dc.ada.noteFor Americans with Disabilities Act (ADA) accommodation, including help with reading this content, please contact scholarshare@temple.edu
dc.creator.orcidKumar, Sudhir|0000-0002-9918-8212
dc.date.updated2021-01-31T18:15:46Z
refterms.dateFOA2021-01-31T18:15:50Z


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