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    Analysis of multiplex gene expression maps obtained by voxelation

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    Name:
    Analysis of multiplex gene ...
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    Genre
    Journal Article
    Research Support, N.I.H., Extramural
    Research Support, U.S. Gov't, Non-P.H.S.
    Date
    2009-04-29
    Author
    An, Li
    Xie, Hongbo
    Chin, Mark H
    Obradovic, Zoran
    Smith, Desmond J
    Megalooikonomou, Vasileios
    Subject
    Animals
    Brain
    Cluster Analysis
    Computational Biology
    Gene Expression
    Mice
    Permanent link to this record
    http://hdl.handle.net/20.500.12613/5579
    
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    DOI
    10.1186/1471-2105-10-S4-S10
    Abstract
    BACKGROUND: Gene expression signatures in the mammalian brain hold the key to understanding neural development and neurological disease. Researchers have previously used voxelation in combination with microarrays for acquisition of genome-wide atlases of expression patterns in the mouse brain. On the other hand, some work has been performed on studying gene functions, without taking into account the location information of a gene's expression in a mouse brain. In this paper, we present an approach for identifying the relation between gene expression maps obtained by voxelation and gene functions. RESULTS: To analyze the dataset, we chose typical genes as queries and aimed at discovering similar gene groups. Gene similarity was determined by using the wavelet features extracted from the left and right hemispheres averaged gene expression maps, and by the Euclidean distance between each pair of feature vectors. We also performed a multiple clustering approach on the gene expression maps, combined with hierarchical clustering. Among each group of similar genes and clusters, the gene function similarity was measured by calculating the average gene function distances in the gene ontology structure. By applying our methodology to find similar genes to certain target genes we were able to improve our understanding of gene expression patterns and gene functions. By applying the clustering analysis method, we obtained significant clusters, which have both very similar gene expression maps and very similar gene functions respectively to their corresponding gene ontologies. The cellular component ontology resulted in prominent clusters expressed in cortex and corpus callosum. The molecular function ontology gave prominent clusters in cortex, corpus callosum and hypothalamus. The biological process ontology resulted in clusters in cortex, hypothalamus and choroid plexus. Clusters from all three ontologies combined were most prominently expressed in cortex and corpus callosum. CONCLUSION: The experimental results confirm the hypothesis that genes with similar gene expression maps might have similar gene functions. The voxelation data takes into account the location information of gene expression level in mouse brain, which is novel in related research. The proposed approach can potentially be used to predict gene functions and provide helpful suggestions to biologists.
    Citation to related work
    Springer Science and Business Media LLC
    Has part
    BMC BIOINFORMATICS
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    ae974a485f413a2113503eed53cd6c53
    http://dx.doi.org/10.34944/dspace/5561
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