Recognition of T{middle dot}G mismatched base pairs in DNA by stacked imidazole-containing polyamides: surface plasmon resonance and circular dichroism studies

doi:10.1093/nar/30.8.1834

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Nucleic Acids Research, 2002, Vol. 30, No. 8 1834-1841
© 2002 Oxford University Press

Recognition of T·G mismatched base pairs in DNA by stacked imidazole-containing polyamides: surface plasmon resonance and circular dichroism studies

Eilyn R. Lacy, Kari K. Cox¹, W. David Wilson and Moses Lee¹^,*

Department of Chemistry, Georgia State University, Atlanta, GA 30303, USA and ¹Department of Chemistry, Furman University, 3300 Poinsett Highway, Greenville, SC 29613, USA

An imidazole-containing polyamide trimer, f-ImImIm, where fis a formamido group, was recently found using NMR methods torecognize T·G mismatched base pairs. In order to characterizein detail the T·G recognition affinity and specificityof imidazole-containing polyamides, f-ImIm, f-ImImIm and f-PyImImwere synthesized. The kinetics and thermodynamics for the polyamidesbinding to Watson–Crick and mismatched (containing oneor two T·G, A·G or G·G mismatched basepairs) hairpin oligonucleotides were determined by surface plasmonresonance and circular dichroism (CD) methods. f-ImImIm bindssignificantly more strongly to the T·G mismatch-containingoligonucleotides than to the sequences with other mismatchedor with Watson–Crick base pairs. Compared with the Watson–CrickCCGG sequence, f-ImImIm associates more slowly with DNAs containingT·G mismatches in place of one or two C·G basepairs and, more importantly, the dissociation rate from theT·G oligonucleotides is very slow (small k_d). These resultsclearly demonstrate the binding selectivity and enhanced affinityof side-by-side imidazole/imidazole pairings for T·Gmismatches and show that the affinity and specificity increasearise from much lower k_d values with the T·G mismatchedduplexes. CD titration studies of f-ImImIm complexes with T·Gmismatched sequences produce strong induced bands at $~$ 330 nmwith clear isodichroic points, in support of a single minorgroove complex. CD DNA bands suggest that the complexes remainin the B conformation.

^* To whom correspondence should be addressed. Tel: +1 864 2943368; Fax: +1 864 294 3559; Email: moses.lee{at}furman.edu Correspondencemay also be addressed to W. David Wilson. Tel: +1 404 651 3903;Fax: +1 404 651 2751; Email: chewdw{at}panther.gsu.edu

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