Effects of Probe Length and Secondary Structure on DNA Microarray Hybridizations: Implications for Design of Pathogen Detection Assays

Jennifer Leader Elmose; Samantha Lane

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Effects of Probe Length and Secondary Structure on DNA Microarray Hybridizations: Implications for Design of Pathogen Detection Assays

Journal article

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Effects of Probe Length and Secondary Structure on DNA Microarray Hybridizations: Implications for Design of Pathogen Detection Assays

Jennifer Leader Elmose and Samantha Lane

WSU McNair Journal, pp.68-80

Autumn 2005

Handle:

https://hdl.handle.net/2376/18

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Abstract

biological probes

DNA microarrays

biological probe length

biological probe secondary structure

16S ribosomal DNA

Escherichia coli

pathogen detection assays

oligonucleotide probes

experimental methodology

Polymerase Chain Reaction

A number of investigators have proposed using DNA microarrays as part of pathogen detection assays. False negative hybridizations can occur if the target DNA hybridizes to itself and other target DNA, thus inhibiting hybridization to complementary microarray probes. We hypothesized that longer probes can compete with this ‘secondary structure’ better than shorter probes. To test this we constructed a prototype microarray using a series of short and long probes that were specific to the 16S ribosomal DNA gene of Escherichia coli. Three different targets (PCR un-nick translated, PCR nick translated, and nick translated genomic DNA) were hybridized to an array and assessed by a Tyramide Signal Amplification (TM) biotin system. Our results verified that hybridization of short probes to target sequences is greatly affected by secondary structure, while long probes provide enhanced signal intensities. Using long probes can offer three specific advantages to microarray design: 1) mitigation of secondary structure, 2) enhanced analytical sensitivity, and 3) greater tolerance to base pair mismatches.

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Title: Effects of Probe Length and Secondary Structure on DNA Microarray Hybridizations: Implications for Design of Pathogen Detection Assays
Creators: Jennifer Leader Elmose (Author)
Samantha Lane (Author)
Contributors: DOUGLAS RUBEN CALL (Other) - Washington State University, Paul G. Allen School for Global Animal Health
Publication Details: WSU McNair Journal, pp.68-80
Academic Unit: McNair Journal
Publisher: Washington State University. Graduate School. McNair Program.
Identifiers: 99900501638901842
Copyright: In copyright ; openAccess ; http://rightsstatements.org/vocab/InC/1.0/ ; http://purl.org/eprint/accessRights/OpenAccess
Language: English
Resource Type: Journal article