Title :
A hybrid model for the prediction of mRNA polyadenylation signals
Author :
Jiuqiang Han ; Ze Liu ; Dexing Zhong ; Tuo Wang
Author_Institution :
Minist. of Educ. Key Lab. for Intell. Networks & Network Security, Xi´an Jiaotong Univ., Xi´an, China
Abstract :
The mRNA polyadenylation is the cellular process that adds adenosine tails to mature mRNAs. Malfunction of polyadenylation has been implicated in several human diseases. In this paper, we proposed a novel feature extraction approach which employs the K-gram nucleotide acid pattern, the position weight matrix (PWM) and the increment of diversity (ID) to represent the original features. Then Principle Component Analysis (PCA) was applied to transform the original features into a new feature space where the low-dimensional features were used to train the real-coded genetic neural network model. In the experiments, our proposed algorithm (GA-BP) can achieve the accuracy about 82.98%, specificity 82.95% and sensitivity 83.01% in the specific dataset constructed by Kalkatawi. The results demonstrate that GA-BP is a promising algorithm for the prediction of mRNA polyadenylation signals.
Keywords :
RNA; bioinformatics; cellular biophysics; diseases; feature extraction; molecular biophysics; neural nets; principal component analysis; sensitivity; transforms; K-gram nucleotide acid pattern; PCA; adenosine tails; cellular process; feature extraction; feature space; human diseases; increment-of-diversity; low-dimensional features; mRNA polyadenylation signals; original feature transform; polyadenylation malfunction; position weight matrix; principle component analysis; real-coded genetic neural network model; sensitivity; specific dataset construction; Bioinformatics; Biological neural networks; Genetic algorithms; Prediction algorithms; Principal component analysis; Training;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE
Conference_Location :
Osaka
DOI :
10.1109/EMBC.2013.6610299
