Comparative Analysis Using Bayesian Approach To Neural Network Of Translational Initiation Sites In Alternative Polymorphic Contex

Comparative Analysis Using Bayesian Approach To Neural Network Of Translational Initiation Sites In Alternative Polymorphic Contex

Widely accepted as an important signal for gene discovery,translation initiation sites (TIS) in weak context has been the main focus in this paper.Many TIS prediction programs have been developed for optimal context,but they fail to successfully predict the start codon if the contexts conditions are...

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Bibliographic Details
Main Authors: Herman, Nanna Suryana, Husin, Nurul Arneida, Hussin, Burairah
Format: Article
Language:English
Published: Bulgarian Academy of Sciences 2012
Subjects:
Q Science (General)
QA75 Electronic computers. Computer science
QA76 Computer software
Online Access:http://eprints.utem.edu.my/id/eprint/22976/2/Comparative_Analysis_using_Bayesian_Approach_to_Ne.pdf
http://eprints.utem.edu.my/id/eprint/22976/
http://biomed.bas.bg/bioautomation/2011/vol_15.4/files/15.4_03.pdf
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Institution: Universiti Teknikal Malaysia Melaka
Language: English
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Summary:Widely accepted as an important signal for gene discovery,translation initiation sites (TIS) in weak context has been the main focus in this paper.Many TIS prediction programs have been developed for optimal context,but they fail to successfully predict the start codon if the contexts conditions are in weak positions. The objectives of this paper are to develop useful algorithms and to build a new classification model for the case study.The first approach of neural network includes training on algorithms of Resilient Backpropagation,Scaled Conjugate Gradient Backpropagation and Levenberg-Marquardt.The outputs are used in comparison with Bayesian Neural Network for efficiency comparison.The results showed that Resilient Backpropagation have the consistency in all measurement but performs less in accuracy.In second approach,the Bayesian Classifier_01 outperforms the Resilient Backpropagation by successfully increasing the overall prediction accuracy by 16.0%.The Bayesian Classifier_02 is built to improve the accuracy by adding new features of chemical properties as selected by the Information Gain Ratio method,and increasing the length of the window sequence to 201.The result shows that the built model successfully increases the accuracy by 96.0%.In comparison,the Bayesian model outperforms Tikole and Sankararamakrishnan (2008) by increasing the sensitivity by 10% and specificity by 26%.

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