Accelerating DNA sequencing-by-hybridization with noise
Authors: 
Chen Chen, Dong Xin, 
Jiawei HanAuthors Info & Claims
Chen Chen, Dong Xin, Jiawei HanAuthors Info & ClaimsPages 29 - 36
Abstract
As a potential alternative to current wet-lab technologies, DNA sequencing-by-hybridization (SBH) has received much attention from different research communities. In order to deal with real applications, experiment environments should not be considered as error-free. Previously, under the assumption of random independent hybridization errors, Leong et al. [9] presented an algorithm for sequence reconstruction which exhibits graceful degradation of output accuracy as the error rate increases. However, as the authors also admitted, a notable downside of their method is its too high computational cost. In this paper, we show that the poor efficiency of [9] is due to its mixing-up of situations with widely different characteristics and treating everything in the safest but also slowest way. Our new algorithm addresses this problem and pushes analysis down to a finer level where a more effective solution is proposed. As demonstrated by experimentations on real human genome datasets, this new methodology yields significant performance improvements and at the same time guarantees almost the same degree of output accuracy.
References
[1]
W. Bains and G. Smith. A novel method for DNA sequence determination. Journal of Theoretical Biology, 135:303--307, 1988.]]
[2]
K. Doi and H. Imai. Sequencing by hybridization in the presence of hybridization errors. Genome Informatics, 11:53--62, 2000.]]
[3]
R. Drmanac, I. Labat, I. Bruckner, and R. Crkvenjakov. Sequencing of megabase plus DNA by hybridization. Genomics, 4:114--128, 1989.]]
[4]
R. Drmanac, I. Labat, and R. Crkvenjakov. An algorithm for the DNA sequence generation from k-tuple word contents of the minimal number of random fragments. Journ. Biomolecular Structure and Dynamics, 8:1085--1102, 1991.]]
[5]
R. Durbin, S. Eddy, A. Krogh, and G. Mitchison. Biological Sequence Analysis: Probabilistic Models of Proteins and Nucleic Acids. Cambridge University Press, 1998.]]
[6]
M. Dyer, A. Frieze, and S. Suen. The probability of unique solutions of sequencing by hybridization. Journal of Computational Biology, 1:105--110, 1994.]]
[7]
W. Ewens and G. Grant. Statistical Methods in Bioinformatics: An Introduction. Springer-Verlag, 2001.]]
[8]
S. Heath and F. Preparata. Enhanced sequence reconstruction with DNA microarray application. COCOON, pages 64--74, 2001.]]
[9]
H.-W. Leong, F. Preparata, W.-K. Sung, and H. Willy. On the control of hybridization noise in DNA sequencing-by-hybridization. WABI, pages 392--403, 2002.]]
[10]
R. Lipshutz. Likelihood DNA sequencing by hybridization. Journ. Biomolecular Structure and Dynamics, 11:637--653, 1993.]]
[11]
D. Loakes and D. Brown. 5-nitroindole as a universal base analogue. Nucleic Acids Research, 22(20):4039--4043, 1994.]]
[12]
Y. Lysov, V. Florentiev, A. Khorlin, K. Khrapko, V. Shih, and A. Mirzabekov. Sequencing by hybridization via oligonucleotides, a novel method. Nucleic Acids Research, 303:1508--1511, Dokl. Acad. Sci. USSR.]]
[13]
P. Pevzner. I-tuple DNA sequencing: computer analysis. Journ. Biomolecular Structure and Dynamics, 7(1):63--73, 1989.]]
[14]
P. Pevzner. Computational Molecular Biology: An Algorithmic Approach. MIT Press, 2000.]]
[15]
P. Pevzner and R. Lipshutz. Towards DNA-sequencing by hybridization. 19th Symp. on Mathem. Found, of Comp. Sci., pages 143--158, 1994.]]
[16]
P. Pevzner, Y. Lysov, K. Khrapko, A. Belyavsky, V. Florentiev, and A. Mirzabekov. Improved chips for sequencing by hybridization. Journ. Biomolecular Structure and Dynamics, 9(2):399--410, 1991.]]
[17]
F. Preparata. Sequencing by hybridization revisited: the analog-spectrum proposal. IEEE Transactions on Computational Biology and Bioinformatics, 1(1), January 2004.]]
[18]
F. Preparata, A. Frieze, and E. Upfal. On the power of universal bases in sequencing by hybridization. Third Annual International Conference on Computational Molecular Biology, pages 295--301, April 1999.]]
[19]
F. Preparata and E. Upfal. Sequencing-by-hybridization at the information-theory bound: an optimal algorithm. Proceedings of the fourth annual international conference on Computational molecular biology, pages 245--253, 2000.]]
[20]
M. Waterman. Introduction to Computational Biology. Chapman and Hall, 1995.]]
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Published In
August 2005
79 pages
ISBN:1595932135
DOI:10.1145/1134030
- General Chair:
- Mohammed Zaki,
- Program Chairs:
- Srinivasan Parthasarathy,
- Wei Wang
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Published: 21 August 2005
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KDD05: The Eleventh ACM SIGKDD International Conference on Knowledge Discovery and Data Mining
August 21, 2005
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