Hybridization kinetics and thermodynamics of molecular beacons

doi:10.1093/nar/gkg212

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Nucleic Acids Research, 2003, Vol. 31, No. 4 1319-1330
© 2003 Oxford University Press

Hybridization kinetics and thermodynamics of molecular beacons

Andrew Tsourkas, Mark A. Behlke¹, Scott D. Rose¹ and Gang Bao^*

Department of Biomedical Engineering, Georgia Institute of Technology and Emory University, Atlanta, GA 30332, USA and ¹ Integrated DNA Technologies, Inc., Coralville, IA 52241, USA

*To whom correspondence should be addressed. Tel: +1 404 385 0373; Fax: +1 404 894 4243; Email: gang.bao{at}bme.gatech.edu

Molecular beacons are increasingly being used in many applicationsinvolving nucleic acid detection and quantification. The stem–loopstructure of molecular beacons provides a competing reactionfor probe–target hybridization that serves to increaseprobe specificity, which is particularly useful when single-basediscrimination is desired. To fully realize the potential ofmolecular beacons, it is necessary to optimize their structure.Here we report a systematic study of the thermodynamic and kineticparameters that describe the molecular beacon structure–functionrelationship. Both probe and stem lengths are shown to havea significant impact on the binding specificity and hybridizationkinetic rates of molecular beacons. Specifically, molecularbeacons with longer stem lengths have an improved ability todiscriminate between targets over a broader range of temperatures.However, this is accompanied by a decrease in the rate of molecularbeacon–target hybridization. Molecular beacons with longerprobe lengths tend to have lower dissociation constants, increasedkinetic rate constants, and decreased specificity. Molecularbeacons with very short stems have a lower signal-to-backgroundratio than molecular beacons with longer stems. These featureshave significant implications for the design of molecular beaconsfor various applications.

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