A Study of the Potential of EIIP Mapping Method in Exon Prediction Using the Frequency Domain Techniques

American Journal of Biomedical Engineering Pub Date : 2012-08-31 DOI:10.5923/J.AJBE.20120202.04

M. Mabrouk

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引用次数: 25

Abstract

Recently, a number of numerical DNA sequence representations have evolved in order to transform the DNA sequence analysis problems from the traditional string processing domain to the discrete signal processing domain. On the other hand, the coding regions (exons) detection problem has received a special attention due to the 3-base periodicity property of exons which can be easily detected using simple discrete signal processing techniques. The 3-base periodicity in the nucleotide arrangement is evidenced as a sharp peak at frequency f =1/3 in the frequency domain power spectrum. In this paper, we exploit the 3-base periodicity property of a set of the Electron-Ion Interaction Pseudopotential (EIIP) coded DNA sequences by employing a frequency domain power spectrum estimation techniques as Short Time Fourier Transform (STFT),Auto Regressive (AR), Singular Vector Decomposition (SVD) and Digital filtering methods. Also, we give a brief comparison of these methods In order to enhance the coding prediction performance as well as the computa- tional complexity. Results provided that both STFT and digital filtering techniques for EIIP coded sequences performs with highest accuracy compared with AR and SVD methods.

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利用频域技术研究EIIP映射法在外显子预测中的潜力

近年来，为了将DNA序列分析问题从传统的字符串处理领域转变为离散信号处理领域，出现了许多DNA序列的数值表示方法。另一方面，编码区(外显子)的检测问题受到了特别的关注，因为外显子具有3个碱基的周期性，可以用简单的离散信号处理技术很容易地检测到。在频域功率谱中，在频率f =1/3处有一个尖峰，证明了核苷酸排列中的3碱基周期性。本文利用短时傅立叶变换(STFT)、自回归(AR)、奇异向量分解(SVD)和数字滤波等频域功率谱估计技术，研究了一组电子-离子相互作用伪势(EIIP)编码DNA序列的3基周期性。为了提高编码预测的性能和计算复杂度，我们对这些方法进行了简要的比较。结果表明，与AR和SVD方法相比，STFT和数字滤波技术对EIIP编码序列具有最高的精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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American Journal of Biomedical Engineering

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