A directional nucleation-zipping mechanism for triple helix formation

doi:10.1093/nar/gkf675

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Nucleic Acids Research, 2002, Vol. 30, No. 24 5407-5415
© 2002 Oxford University Press

A directional nucleation-zipping mechanism for triple helix formation

Patrizia Alberti, Paola B. Arimondo, Jean-Louis Mergny, Thérèse Garestier, Claude Hélène and Jian-Sheng Sun^*

Laboratoire de Biophysique, USM0503 Muséum National d’Histoire Naturelle, UMR8646 CNRS-MNHN, U565 INSERM, 43 rue Cuvier 75231 Paris cedex 05, France

*To whom correspondence should be addressed. Tel: +33 1 40 79 37 11; Fax: +33 1 40 79 37 05; Email: sun{at}mnhn.fr

A detailed kinetic study of triple helix formation was performedby surface plasmon resonance. Three systems were investigatedinvolving 15mer pyrimidine oligonucleotides as third strands.Rate constants and activation energies were validated by comparisonwith thermodynamic values calculated from UV-melting analysis.Replacement of a T·A base pair by a C·G pair ateither the 5' or the 3' end of the target sequence allowed usto assess mismatch effects and to delineate the mechanism oftriple helix formation. Our data show that the association rateconstant is governed by the sequence of base triplets on the5' side of the triplex (referred to as the 5' side of the targetoligopurine strand) and provides evidence that the reactionpathway for triple helix formation in the pyrimidine motif proceedsfrom the 5' end to the 3' end of the triplex according to thenucleation-zipping model. It seems that this is a general featurefor all triple helices formation, probably due to the right-handednessof the DNA double helix that provides a stronger base stackingat the 5' than at the 3' duplex–triplex junction. Understandingthe mechanism of triple helix formation is not only of fundamentalinterest, but may also help in designing better triple helix-formingoligonucleotides for gene targeting and control of gene expression.

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