A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat

A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat

<p>Abstract</p> <p>Background</p> <p>The Affymetrix GeneChip technology uses multiple probes per gene to measure its expression level. Individual probe signals can vary widely, which hampers proper interpretation. This variation can be caused by probes that do not prope...

Full description

Bibliographic Details
Main Authors: Nap Jan-Peter, Breitling Rainer, de Haan Gerald, Bystrykh Leonid V, Hardonk Menno, Terpstra Peter, Alberts Rudi, Jansen Ritsert C
Format: Article
Language:English
Published: BMC 2007-04-01
Series:BMC Bioinformatics
Online Access:http://www.biomedcentral.com/1471-2105/8/132
id doaj-971318f6b5734b7c85ec4614e1b1571d
record_format Article
spelling doaj-971318f6b5734b7c85ec4614e1b1571d2020-11-25T01:13:45ZengBMCBMC Bioinformatics1471-21052007-04-018113210.1186/1471-2105-8-132A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and ratNap Jan-PeterBreitling Rainerde Haan GeraldBystrykh Leonid VHardonk MennoTerpstra PeterAlberts RudiJansen Ritsert C<p>Abstract</p> <p>Background</p> <p>The Affymetrix GeneChip technology uses multiple probes per gene to measure its expression level. Individual probe signals can vary widely, which hampers proper interpretation. This variation can be caused by probes that do not properly match their target gene or that match multiple genes. To determine the accuracy of Affymetrix arrays, we developed an extensive verification protocol, for mouse arrays incorporating the NCBI RefSeq, NCBI UniGene Unique, NIA Mouse Gene Index, and UCSC mouse genome databases.</p> <p>Results</p> <p>Applying this protocol to Affymetrix Mouse Genome arrays (the earlier U74Av2 and the newer 430 2.0 array), the number of sequence-verified probes with perfect matches was no less than 85% and 95%, respectively; and for 74% and 85% of the probe sets all probes were sequence verified. The latter percentages increased to 80% and 94% after discarding one or two unverifiable probes per probe set, and even further to 84% and 97% when, in addition, allowing for one or two mismatches between probe and target gene. Similar results were obtained for other mouse arrays, as well as for human and rat arrays. Based on these data, refined chip definition files for all arrays are provided online. Researchers can choose the version appropriate for their study to (re)analyze expression data.</p> <p>Conclusion</p> <p>The accuracy of Affymetrix probe sequences is higher than previously reported, particularly on newer arrays. Yet, refined probe set definitions have clear effects on the detection of differentially expressed genes. We demonstrate that the interpretation of the results of Affymetrix arrays is improved when the new chip definition files are used.</p> http://www.biomedcentral.com/1471-2105/8/132
collection DOAJ
language English
format Article
sources DOAJ
author Nap Jan-Peter
Breitling Rainer
de Haan Gerald
Bystrykh Leonid V
Hardonk Menno
Terpstra Peter
Alberts Rudi
Jansen Ritsert C
spellingShingle Nap Jan-Peter
Breitling Rainer
de Haan Gerald
Bystrykh Leonid V
Hardonk Menno
Terpstra Peter
Alberts Rudi
Jansen Ritsert C
A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat
BMC Bioinformatics
author_facet Nap Jan-Peter
Breitling Rainer
de Haan Gerald
Bystrykh Leonid V
Hardonk Menno
Terpstra Peter
Alberts Rudi
Jansen Ritsert C
author_sort Nap Jan-Peter
title A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat
title_short A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat
title_full A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat
title_fullStr A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat
title_full_unstemmed A verification protocol for the probe sequences of Affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat
title_sort verification protocol for the probe sequences of affymetrix genome arrays reveals high probe accuracy for studies in mouse, human and rat
publisher BMC
series BMC Bioinformatics
issn 1471-2105
publishDate 2007-04-01
description <p>Abstract</p> <p>Background</p> <p>The Affymetrix GeneChip technology uses multiple probes per gene to measure its expression level. Individual probe signals can vary widely, which hampers proper interpretation. This variation can be caused by probes that do not properly match their target gene or that match multiple genes. To determine the accuracy of Affymetrix arrays, we developed an extensive verification protocol, for mouse arrays incorporating the NCBI RefSeq, NCBI UniGene Unique, NIA Mouse Gene Index, and UCSC mouse genome databases.</p> <p>Results</p> <p>Applying this protocol to Affymetrix Mouse Genome arrays (the earlier U74Av2 and the newer 430 2.0 array), the number of sequence-verified probes with perfect matches was no less than 85% and 95%, respectively; and for 74% and 85% of the probe sets all probes were sequence verified. The latter percentages increased to 80% and 94% after discarding one or two unverifiable probes per probe set, and even further to 84% and 97% when, in addition, allowing for one or two mismatches between probe and target gene. Similar results were obtained for other mouse arrays, as well as for human and rat arrays. Based on these data, refined chip definition files for all arrays are provided online. Researchers can choose the version appropriate for their study to (re)analyze expression data.</p> <p>Conclusion</p> <p>The accuracy of Affymetrix probe sequences is higher than previously reported, particularly on newer arrays. Yet, refined probe set definitions have clear effects on the detection of differentially expressed genes. We demonstrate that the interpretation of the results of Affymetrix arrays is improved when the new chip definition files are used.</p>
url http://www.biomedcentral.com/1471-2105/8/132
work_keys_str_mv AT napjanpeter averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT breitlingrainer averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT dehaangerald averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT bystrykhleonidv averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT hardonkmenno averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT terpstrapeter averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT albertsrudi averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT jansenritsertc averificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT napjanpeter verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT breitlingrainer verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT dehaangerald verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT bystrykhleonidv verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT hardonkmenno verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT terpstrapeter verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT albertsrudi verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
AT jansenritsertc verificationprotocolfortheprobesequencesofaffymetrixgenomearraysrevealshighprobeaccuracyforstudiesinmousehumanandrat
_version_ 1725160349103030272

Similar Items