DocumentCode
2775339
Title
Modeling gene-regulatory networks using evolutionary algorithms and distributed computing
Author
Swain, Martin ; Hunniford, Thomas ; Mandel, Johannes ; Palfreyman, Niall ; Dubitzky, Werner
Author_Institution
Ulster Univ., Ireland
Volume
1
fYear
2005
fDate
9-12 May 2005
Firstpage
512
Abstract
Living organisms regulate the expression of genes using complex interactions of transcription factors, messenger RNA and active protein products. Due to their complexity, gene-regulatory networks are not fully understood, however, various modeling approaches can he used to gain insight into their function and operation. This paper describes an ongoing study to use evolutionary algorithms to create computational models of gene-regulatory networks based on observed microarray data. Because of the computational requirements of this approach (which requires the discovery of gene network topologies), it is critical that it is implemented on a computing platform capable of delivering significant compute power. We discuss how this can be achieved using distributed and grid computing technology. In particular we investigate how Condor and JavaSpaces technology is suited to the requirements of our modeling approach.
Keywords
evolutionary computation; grid computing; macromolecules; medical computing; proteins; Condor technology; JavaSpaces technology; active protein products; computational models; distributed computing; evolutionary algorithms; gene network topologies; gene-regulatory networks; grid computing; messenger RNA; observed microarray data; transcription factors; Computational modeling; Computer networks; Distributed computing; Evolutionary computation; Grid computing; Java; Network topology; Organisms; Proteins; RNA;
fLanguage
English
Publisher
ieee
Conference_Titel
Cluster Computing and the Grid, 2005. CCGrid 2005. IEEE International Symposium on
Print_ISBN
0-7803-9074-1
Type
conf
DOI
10.1109/CCGRID.2005.1558596
Filename
1558596
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