Selection of oligonucleotide probes for protein coding sequences

doi:10.1093/bioinformatics/btg086

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Bioinformatics Vol. 19 no. 7 2003
Pages 796-802
© 2003 Oxford University Press

Selection of oligonucleotide probes for protein coding sequences

Xiaowei Wang and Brian Seed ^*

Department of Molecular Biology, 50 Blossom Street, Massachusetts General Hospital, Boston, MA 02114, USA

Received on July 31, 2002 ; revised on November 13, 2002 ; accepted on December 14, 2002

Motivation: Large arrays of oligonucleotide probes have become popular tools for analyzing RNA expression. However to datemost oligo collections contain poorly validated sequences orare biased toward untranslated regions (UTRs). Here we presenta strategy for picking oligos for microarrays that focus ona design universe consisting exclusively of protein codingregions. We describe the constraints in oligo design that are imposed by this strategy, as well as a software tool that allowsthe strategy to be applied broadly.

Results: In this work we sequentially apply a variety of simple filters to candidate sequences for oligo probes. The primaryfilter is a rejection of probes that contain contiguous identitywith any other sequence in the sample universe that exceedsa pre-established threshold length. We find that rejectionof oligos that contain 15 bases of perfect match with othersequences in the design universe is a feasible strategy foroligo selection for probe arrays designed to interrogate mammalianRNA populations. Filters to remove sequences with low complexityand predicted poor probe accessibility narrow the candidateprobe space only slightly. Rejection based on global sequencealignment is performed as a secondary, rather than primary,test, leading to an algorithm that is computationally efficient.Splice isoforms pose unique challenges and we find that isoform prevalence will for the most part have to be determined byanalysis of the patterns of hybridization of partially redundantoligonucleotides.

Availability: The oligo design program OligoPicker and its source code are freely available at our website.

Contact: seed{at}molbio.mgh.harvard.edu

Supplementary information: http://pga.mgh.harvard.edu/oligopicker/index.html

^* To whom correspondence should be addressed.

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