Identification of Protein-Coding Regions in DNA Sequences Using A Time-Frequency Filtering Approach 被引量：4

Identification of Protein-Coding Regions in DNA Sequences Using A Time-Frequency Filtering Approach

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摘要 Accurate identification of protein-coding regions （exons） in DNA sequences has been a challenging task in bioinformatics. Particularly the coding regions have a 3-base periodicity, which forms the basis of all exon identifica- tion methods. Many signal processing tools and techniques have been applied successfully for the identification task but still improvement in this direction is needed. In this paper, we have introduced a new promising model-independent time-frequency filtering technique based on S-transform for accurate identification of the coding regions. The S-transform is a powerful linear time-frequency representation useful for filtering in time-frequency domain. The potential of the proposed technique has been assessed through simulation study and the results obtained have been compared with the existing methods using standard datasets. The comparative study demonstrates that the proposed method outperforms its counterparts in identifying the coding regions. Accurate identification of protein-coding regions （exons） in DNA sequences has been a challenging task in bioinformatics. Particularly the coding regions have a 3-base periodicity, which forms the basis of all exon identifica- tion methods. Many signal processing tools and techniques have been applied successfully for the identification task but still improvement in this direction is needed. In this paper, we have introduced a new promising model-independent time-frequency filtering technique based on S-transform for accurate identification of the coding regions. The S-transform is a powerful linear time-frequency representation useful for filtering in time-frequency domain. The potential of the proposed technique has been assessed through simulation study and the results obtained have been compared with the existing methods using standard datasets. The comparative study demonstrates that the proposed method outperforms its counterparts in identifying the coding regions.

作者 Sitanshu Sekhar Sahu Ganapati Panda

机构地区 Department of Electronics and Communication Engineering School of Electrical Sciences

出处《Genomics, Proteomics & Bioinformatics》 SCIE CAS CSCD 2011年第1期45-55,共11页 基因组蛋白质组与生物信息学报（英文版）

关键词 protein-coding region 3-base periodicity time-frequency filtering S-TRANSFORM protein-coding region, 3-base periodicity, time-frequency filtering, S-transform

分类号 Q75 [生物学—分子生物学]

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参考文献35

1Fickett,J.W.and Tung,C.S.1992.Assessment of protein coding measures.Nucleic Acids Res.20:6441-6450.
2Fickett,J.W.1996.The gene identification problem:an overview for developers.Comput.Chem.20:103-118.
3Vaidyanathan,P.P.and Yoon,B.J.2004.The role of signal-processing concepts in genomics and proteomics.J.Franklin Inst.341:111-135.
4Tiwari,S.,et al.1997.Prediction of probable genes by Fourier analysis of genomic sequences.Comput.Appl.Biosci.13:263-270.
5Tsonis,A.A.,et al.1991.Periodicity in DNA coding sequences:implications in gene evolution.J.Theor.Biol.151:323-331.
6Gutierrez,G.,et al.1994.On the origin of the periodicity of three in protein coding DNA sequences.J.Theor.Biol.167:413-414.
7Bernaola-Galvan,P.,et al.2000.Finding borders between coding and noncoding DNA regions by an entropic segmentation method.Phy.Rev.Lett.85:1342-1345.
8Voss,R.F.1992.Evolution of long-range fractal correlations and 1/f noise in DNA base sequences.Phys.Rev.Lett.68:3805-3808.
9Chatzidimitriou-Dreismann,C.A.and Larhammar,D.1993.Long-range correlations in DNA.Nature 361:212-213.
10Henderson,J.,et al.1997.Finding genes in DNA with a Hidden Markov Model.J.Comput.Biol.4:127-141.

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1侯正信,徐妮妮.加窗全相位DFT数字滤波器[J].天津大学学报（自然科学与工程技术版）,2005,38(5):448-454. 被引量：10
2黄翔东,王兆华.基于两种对称频率采样的全相位FIR滤波器设计[J].电子与信息学报,2007,29(2):478-481. 被引量：12
3VOSS RF. Evolution of long-range fractal correlations and1/f noise in DNA base sequences[J]. Physics Review Letter,1992,68(25) : 3805 -3808.
4AKHTAR M,EPPS J,AMBIKAIRAJAH E. Signal processing in se-quence analysis: advances in Eukaryotic gene prediction[J]. IEEE Journal of Selected Topics in Singal Processing,2008,2(3) : 310 -321.
5ZHANG R,ZHANG CT. Z curves,an intuitive tool for visualizing and analyzing the DNA sequences[J]. Journal of Biomolecular Structure & Dynamics,1994,11(4) : 767 -782.
6SILVERMAN BD,LINSKER R. A measure of DNA periodicity[J]. Journal of Theoretical Biology,1986,118: 295 -300.
7ANASTASSIOU D. Genomic signal processing[J]. IEEE Signal Pro-cessing Magazine,2001,18(4) : 8 -20.
8HOTA MK,SRIVASTAVA VK. DSP technique for gene and exon pre-diction taking complex indicator sequence[C] //Proc. 2008 IEEE Re-gion 10 Conference(TENCON 2008),Hyderabad,2008: 1 -6.
9ACHUTHSANKAR S NAIR,SIVARAMA PILLAI SREENADHAN. A coding measure scheme employing electron-ion interaction pseudopo-tential(EIIP) [J]. Bioinfomation,2006,1(6) : 197 -202.
10RAO KD,SWAMY MNS. Analysis of genomics and proteomics using DSP techniques[J]. IEEE Transactions on Circuits and Systems, 2008,55(1) : 370 -378.

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Identification of Protein-Coding Regions in DNA Sequences Using A Time-Frequency Filtering Approach 被引量：4

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