Accurate automated clustering of two-dimensional data for single-nucleotide polymorphism genotyping by a combination of clustering methods: Evaluation by large-scale real data

Shuichi Takitoh; Shogo Fujii; Yoichi Mase; Junichi Takasaki; Toshimasa Yamazaki; Yozo Ohnishi; Masao Yanagisawa; Yusuke Nakamura; Naoyuki Kamatani

doi:10.1093/bioinformatics/btl133

Accurate automated clustering of two-dimensional data for single-nucleotide polymorphism genotyping by a combination of clustering methods: Evaluation by large-scale real data

Shuichi Takitoh, Shogo Fujii, Yoichi Mase, Junichi Takasaki, Toshimasa Yamazaki, Yozo Ohnishi, Masao Yanagisawa, Yusuke Nakamura, Naoyuki Kamatani^*

^*Corresponding author for this work

School of Fundamental Science and Engineering

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Motivation: The Invader assay is a fluorescence-based high-throughput genotyping technology. If the output data from the Invader assay were classified automatically, then genotypes for individuals would be determined efficiently. However, existing classification methods do not necessarily yield results with the same accuracy as can be achieved by technicians. Our clustering algorithm, Genocluster, is intended to increase the proportion of data points that need not be manually corrected by technicians. Results: Genocluster worked well even when the number of clusters was unknown in advance and when there were only a few points in a cluster. The use of Genocluster enabled us to achieve an acceptance rate (proportion of assay results that did not need to be corrected by expert technicians) of 84.4% and a proportion of uncorrected points of 95.8%, as determined using the data from over 31 million points.

Original language	English
Pages (from-to)	408-413
Number of pages	6
Journal	Bioinformatics
Volume	23
Issue number	4
DOIs	https://doi.org/10.1093/bioinformatics/btl133
Publication status	Published - 2007 Feb 15

ASJC Scopus subject areas

Statistics and Probability
Biochemistry
Molecular Biology
Computer Science Applications
Computational Theory and Mathematics
Computational Mathematics

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10.1093/bioinformatics/btl133

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Takitoh, S., Fujii, S., Mase, Y., Takasaki, J., Yamazaki, T., Ohnishi, Y., Yanagisawa, M., Nakamura, Y., & Kamatani, N. (2007). Accurate automated clustering of two-dimensional data for single-nucleotide polymorphism genotyping by a combination of clustering methods: Evaluation by large-scale real data. Bioinformatics, 23(4), 408-413. https://doi.org/10.1093/bioinformatics/btl133

Takitoh, S, Fujii, S, Mase, Y, Takasaki, J, Yamazaki, T, Ohnishi, Y, Yanagisawa, M, Nakamura, Y & Kamatani, N 2007, 'Accurate automated clustering of two-dimensional data for single-nucleotide polymorphism genotyping by a combination of clustering methods: Evaluation by large-scale real data', Bioinformatics, vol. 23, no. 4, pp. 408-413. https://doi.org/10.1093/bioinformatics/btl133

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title = "Accurate automated clustering of two-dimensional data for single-nucleotide polymorphism genotyping by a combination of clustering methods: Evaluation by large-scale real data",

abstract = "Motivation: The Invader assay is a fluorescence-based high-throughput genotyping technology. If the output data from the Invader assay were classified automatically, then genotypes for individuals would be determined efficiently. However, existing classification methods do not necessarily yield results with the same accuracy as can be achieved by technicians. Our clustering algorithm, Genocluster, is intended to increase the proportion of data points that need not be manually corrected by technicians. Results: Genocluster worked well even when the number of clusters was unknown in advance and when there were only a few points in a cluster. The use of Genocluster enabled us to achieve an acceptance rate (proportion of assay results that did not need to be corrected by expert technicians) of 84.4% and a proportion of uncorrected points of 95.8%, as determined using the data from over 31 million points.",

author = "Shuichi Takitoh and Shogo Fujii and Yoichi Mase and Junichi Takasaki and Toshimasa Yamazaki and Yozo Ohnishi and Masao Yanagisawa and Yusuke Nakamura and Naoyuki Kamatani",

note = "Funding Information: The authors would like to acknowledge S. Shibata, S. Kato, K. Nakazono, N. Miyagawa and H. Higuchi for their excellent suggestions and comments. This study was supported by Grants-in-Aid from the Ministry of Education, Culture, Sports, Science and Technology of Japan.",

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doi = "10.1093/bioinformatics/btl133",

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AU - Takitoh, Shuichi

AU - Fujii, Shogo

AU - Mase, Yoichi

AU - Takasaki, Junichi

AU - Yamazaki, Toshimasa

AU - Ohnishi, Yozo

AU - Yanagisawa, Masao

AU - Nakamura, Yusuke

AU - Kamatani, Naoyuki

N1 - Funding Information: The authors would like to acknowledge S. Shibata, S. Kato, K. Nakazono, N. Miyagawa and H. Higuchi for their excellent suggestions and comments. This study was supported by Grants-in-Aid from the Ministry of Education, Culture, Sports, Science and Technology of Japan.

PY - 2007/2/15

Y1 - 2007/2/15

N2 - Motivation: The Invader assay is a fluorescence-based high-throughput genotyping technology. If the output data from the Invader assay were classified automatically, then genotypes for individuals would be determined efficiently. However, existing classification methods do not necessarily yield results with the same accuracy as can be achieved by technicians. Our clustering algorithm, Genocluster, is intended to increase the proportion of data points that need not be manually corrected by technicians. Results: Genocluster worked well even when the number of clusters was unknown in advance and when there were only a few points in a cluster. The use of Genocluster enabled us to achieve an acceptance rate (proportion of assay results that did not need to be corrected by expert technicians) of 84.4% and a proportion of uncorrected points of 95.8%, as determined using the data from over 31 million points.

AB - Motivation: The Invader assay is a fluorescence-based high-throughput genotyping technology. If the output data from the Invader assay were classified automatically, then genotypes for individuals would be determined efficiently. However, existing classification methods do not necessarily yield results with the same accuracy as can be achieved by technicians. Our clustering algorithm, Genocluster, is intended to increase the proportion of data points that need not be manually corrected by technicians. Results: Genocluster worked well even when the number of clusters was unknown in advance and when there were only a few points in a cluster. The use of Genocluster enabled us to achieve an acceptance rate (proportion of assay results that did not need to be corrected by expert technicians) of 84.4% and a proportion of uncorrected points of 95.8%, as determined using the data from over 31 million points.

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Accurate automated clustering of two-dimensional data for single-nucleotide polymorphism genotyping by a combination of clustering methods: Evaluation by large-scale real data

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