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A Comparative Study of Clustering and Biclustering of Microarray Data


Affiliations
1 Laboratory of Technologies of Information and Communication and Electrical Engineering (LaTICE) at National Superior School of Engineers of Tunis (ENSIT) - Tunis University, Tunis, Tunisia
 

There are subsets of genes that have similar behavior under subsets of conditions, so we say that they coexpress, but behave independently under other subsets of conditions. Discovering such coexpressions can be helpful to uncover genomic knowledge such as gene networks or gene interactions. That is why, it is of utmost importance to make a simultaneous clustering of genes and conditions to identify clusters of genes that are coexpressed under clusters of conditions. This type of clustering is called biclustering.

Biclustering is an NP-hard problem. Consequently, heuristic algorithms are typically used to approximate this problem by finding suboptimal solutions. In this paper, we make a new survey on clustering and biclustering of gene expression data, also called microarray data.


Keywords

Clustering, Biclustering, Heuristic Algorithms, Microarray Data, Genomic Knowledge.
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  • A Comparative Study of Clustering and Biclustering of Microarray Data

Abstract Views: 490  |  PDF Views: 198

Authors

Haifa Ben Saber
Laboratory of Technologies of Information and Communication and Electrical Engineering (LaTICE) at National Superior School of Engineers of Tunis (ENSIT) - Tunis University, Tunis, Tunisia
Mourad Elloumi
Laboratory of Technologies of Information and Communication and Electrical Engineering (LaTICE) at National Superior School of Engineers of Tunis (ENSIT) - Tunis University, Tunis, Tunisia

Abstract


There are subsets of genes that have similar behavior under subsets of conditions, so we say that they coexpress, but behave independently under other subsets of conditions. Discovering such coexpressions can be helpful to uncover genomic knowledge such as gene networks or gene interactions. That is why, it is of utmost importance to make a simultaneous clustering of genes and conditions to identify clusters of genes that are coexpressed under clusters of conditions. This type of clustering is called biclustering.

Biclustering is an NP-hard problem. Consequently, heuristic algorithms are typically used to approximate this problem by finding suboptimal solutions. In this paper, we make a new survey on clustering and biclustering of gene expression data, also called microarray data.


Keywords


Clustering, Biclustering, Heuristic Algorithms, Microarray Data, Genomic Knowledge.