A robust gene clustering algorithm based on clonal selection in multiobjective optimization framework

•Integration of clustering validity indexes as two conflicting objective functions.•Fast convergence because of a novel population updating mechanism.•Possibility of varying the number of clusters in a predefined range.•Fixed population members length in spite of variable cluster numbers. Gene clust...

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Published inExpert systems with applications Vol. 113; pp. 301 - 314
Main Authors Zareizadeh, Zahra, Helfroush, Mohammad Sadegh, Rahideh, Akbar, Kazemi, Kamran
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 15.12.2018
Elsevier BV
Subjects
Algorithms
Clonal selection
Clustering
Datasets
Gene clustering
Gene expression
Genes
Genomics
Microarray
Multi-objective optimization
Multiple objective analysis
Optimization
Optimization algorithms
Clonal selection
Multi-objective optimization
Microarray
Gene clustering
Online AccessGet full text
ISSN0957-4174
1873-6793
DOI10.1016/j.eswa.2018.06.047

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Abstract •Integration of clustering validity indexes as two conflicting objective functions.•Fast convergence because of a novel population updating mechanism.•Possibility of varying the number of clusters in a predefined range.•Fixed population members length in spite of variable cluster numbers. Gene clustering is a prerequisite in the analysis of microarray data where sets of co-expressed genes are clustered. In this paper, a multi-objective clonal selection optimization algorithm (MCSOA) is developed based on the immune system behavior for gene clustering purposes in which the number of clusters can vary in a predefined range. To achieve a reliable clustering outcome on various gene expression (GE) datasets, the most effective clustering validity indexes are incorporated and represented in terms of two conflicting objective functions. For the sake of fast convergence to the optimal solutions, a new population updating mechanism is iteratively applied to select the less-dominate solutions of the previous iteration. The proposed clustering technique is implemented on various publicly available microarray datasets. Comparing the results with those of the widely used gene clustering techniques confirms the superiority and efficacy of the proposed technique.
AbstractList Gene clustering is a prerequisite in the analysis of microarray data where sets of co-expressed genes are clustered. In this paper, a multi-objective clonal selection optimization algorithm (MCSOA) is developed based on the immune system behavior for gene clustering purposes in which the number of clusters can vary in a predefined range. To achieve a reliable clustering outcome on various gene expression (GE) datasets, the most effective clustering validity indexes are incorporated and represented in terms of two conflicting objective functions. For the sake of fast convergence to the optimal solutions, a new population updating mechanism is iteratively applied to select the less-dominate solutions of the previous iteration. The proposed clustering technique is implemented on various publicly available microarray datasets. Comparing the results with those of the widely used gene clustering techniques confirms the superiority and efficacy of the proposed technique.
•Integration of clustering validity indexes as two conflicting objective functions.•Fast convergence because of a novel population updating mechanism.•Possibility of varying the number of clusters in a predefined range.•Fixed population members length in spite of variable cluster numbers. Gene clustering is a prerequisite in the analysis of microarray data where sets of co-expressed genes are clustered. In this paper, a multi-objective clonal selection optimization algorithm (MCSOA) is developed based on the immune system behavior for gene clustering purposes in which the number of clusters can vary in a predefined range. To achieve a reliable clustering outcome on various gene expression (GE) datasets, the most effective clustering validity indexes are incorporated and represented in terms of two conflicting objective functions. For the sake of fast convergence to the optimal solutions, a new population updating mechanism is iteratively applied to select the less-dominate solutions of the previous iteration. The proposed clustering technique is implemented on various publicly available microarray datasets. Comparing the results with those of the widely used gene clustering techniques confirms the superiority and efficacy of the proposed technique.
Author Rahideh, Akbar
Zareizadeh, Zahra
Kazemi, Kamran
Helfroush, Mohammad Sadegh
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  email: kazemi@sutech.ac.ir
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Multi-objective optimization
Microarray
Gene clustering
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Snippet •Integration of clustering validity indexes as two conflicting objective functions.•Fast convergence because of a novel population updating...
Gene clustering is a prerequisite in the analysis of microarray data where sets of co-expressed genes are clustered. In this paper, a multi-objective clonal...
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SubjectTerms Algorithms
Clonal selection
Clustering
Datasets
Gene clustering
Gene expression
Genes
Genomics
Microarray
Multi-objective optimization
Multiple objective analysis
Optimization
Optimization algorithms
Title A robust gene clustering algorithm based on clonal selection in multiobjective optimization framework
URI https://dx.doi.org/10.1016/j.eswa.2018.06.047
https://www.proquest.com/docview/2121676137
Volume 113
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