A Self-Tuning Method for One-Chip SNP Identification

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2004 IEEE Computational Systems Bioinformatics Conference (CSB'04)

Stanford, California

August 16-August 19

ISBN: 0-7695-2194-0

	ASCII Text	x
	Michael Molla, Jude Shavlik, Thomas Albert, Todd Richmond, Steven Smith, "A Self-Tuning Method for One-Chip SNP Identification," Computational Systems Bioinformatics Conference, International IEEE Computer Society, pp. 69-79, 2004 IEEE Computational Systems Bioinformatics Conference (CSB'04), 2004.

	BibTex	x
	@article{ 10.1109/CSB.2004.1332419, author = {Michael Molla and Jude Shavlik and Thomas Albert and Todd Richmond and Steven Smith}, title = {A Self-Tuning Method for One-Chip SNP Identification}, journal ={Computational Systems Bioinformatics Conference, International IEEE Computer Society}, volume = {0}, year = {2004}, isbn = {0-7695-2194-0}, pages = {69-79}, doi = {http://doi.ieeecomputersociety.org/10.1109/CSB.2004.1332419}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Computational Systems Bioinformatics Conference, International IEEE Computer Society TI - A Self-Tuning Method for One-Chip SNP Identification SN - 0-7695-2194-0 SP69 EP79 A1 - Michael Molla, A1 - Jude Shavlik, A1 - Thomas Albert, A1 - Todd Richmond, A1 - Steven Smith, PY - 2004 KW - null VL - 0 JA - Computational Systems Bioinformatics Conference, International IEEE Computer Society ER -

Michael Molla, University of Wisconsin-Madison and NimbleGen Systems, Inc.

Jude Shavlik, University of Wisconsin-Madison

Thomas Albert, NimbleGen Systems, Inc.

Todd Richmond, NimbleGen Systems, Inc.

Steven Smith, NimbleGen Systems, Inc.

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/CSB.2004.1332419

Current methods for interpreting oligonucleotide-based SNP-detection microarrays, SNP chips, are based on statistics and require extensive parameter tuning as well as extremely high-resolution images of the chip being processed. We present a method, based on a simple data-classification technique called nearest-neighbors that, on haploid organisms, produces results comparable to the published results of the leading statistical methods and requires very little in the way of parameter tuning. Furthermore, it can interpret SNP chips using lower-resolution scanners of the type more typically used in current microarray experiments.

Along with our algorithm, we present the results of a SNP-detection experiment where, when independently applying this algorithm to six identical SARS SNP chips, we correctly identify all 24 SNPs in a particular strain of the SARS virus, with between 6 and 13 false positives across the six experiments.

Citation:

Michael Molla, Jude Shavlik, Thomas Albert, Todd Richmond, Steven Smith, "A Self-Tuning Method for One-Chip SNP Identification," csb, pp.69-79, 2004 IEEE Computational Systems Bioinformatics Conference (CSB'04), 2004

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