DocumentCode
3379345
Title
Inference of genetic networks using multi-objective hybrid SPEA2+ from Microarray data
Author
Showkat, Dilruba ; Kabir, Muhammad
Author_Institution
BRAC Univ., Bangladesh
fYear
2013
fDate
16-18 July 2013
Firstpage
195
Lastpage
202
Abstract
Multi-objective optimization plays a significant role in optimizing many real life problems, where we desire to optimize more than one objective. Numerous multi-objective optimization algorithm exists in research. NSGA-II and SPEA2 are widely used multi-objective optimization algorithms. SPEA2+ algorithm performs better than the other multi-objective optimization algorithms in terms of searching and maintaining diversity in the optimal solution. In this research, to reconstruct the gene regulatory network we have proposed a new Hybrid SPEA2+ algorithm based inference method. We have proposed a new objective function to obtain sparse gene network structure more precisely. To reverse engineer the gene regulatory network we have used linear time variant model. The proposed approach is at first tested against synthetic noise free time series datasets. It has successfully inferred all the correct regulations from noise free time series datasets. Then it was applied on synthetic noisy time series datasets. Even with the presence of noise, the proposed method have correctly captured all the correct gene regulations successfully. The proposed reconstruction method has been further validated by analyzing the real gene expression datasets of SOS DNA repair system in Escherichia coli. Our proposed method have shown its potency in finding more correct regulations and this has been confirmed by comparing the obtained gene regulations with the results of other existing researches.
Keywords
bioinformatics; data analysis; evolutionary computation; genetics; inference mechanisms; molecular biophysics; time series; Escherichia coli; NSGA-II; SOS DNA repair system; SPEA2; gene regulatory network; genetic networks inference; hybrid SPEA2+ algorithm; linear time variant model; microarray data; multiobjective optimization algorithms; objective function; sparse gene network structure; synthetic noise free time series dataset; Biological system modeling; Gene expression; Inference algorithms; Mathematical model; Noise; Noise measurement; Time series analysis;
fLanguage
English
Publisher
ieee
Conference_Titel
Cognitive Informatics & Cognitive Computing (ICCI*CC), 2013 12th IEEE International Conference on
Conference_Location
New York, NY
Print_ISBN
978-1-4799-0781-6
Type
conf
DOI
10.1109/ICCI-CC.2013.6622244
Filename
6622244
Link To Document