1H NMR study of [d(GCGATCGC)]2 and its interaction with minor groove binding 4',6-diamidino-2-phenylindole.

E Trotta,E D'Ambrosio,N Del Grosso,G Ravagnan,M Cirilli,M Paci

doi:10.1016/s0021-9258(18)53563-8

E Trotta, E D'Ambrosio + Show 4 more

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Journal: Journal of Biological Chemistry	Publication Date: Feb 1, 1993
Citations: 54	License type: cc-by

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Two-dimensional NMR spectroscopy has been applied to study the solution binding of 4',6-diamidino-2-phenylindole (DAPI) to synthetic DNA duplex [d(GCGATCGC)]2. The structure of the complex at a molar ratio of 1:1 drug:duplex has been investigated. NMR results indicate that DAPI binds selectively in the minor groove of the DNA region containing only two A:T base pairs. The results disagree with conclusions drawn from footprinting experiments and show that the presence of the G3NH2 group in the minor groove does not prevent the binding. A molecular model is proposed that closely resembles the crystal structure previously published for the interaction of DAPI with the dodecamer [d(CGCGAATTCGCG)]2, containing four A:T base pairs in the binding site. In this model, DAPI lies in the minor groove, nearly isohelical, with its aromatic rings adjacent to H4' protons of T5 and C6 deoxyribose and the NH indole group oriented toward the DNA axis. The binding does not perturb the B-type conformation of the duplex, and the DNA oligomer conserves its 2-fold symmetry, indicating that fast exchange dynamics exist between the two stereochemically equivalent binding sites of the palindromic sequence. The binding constant and the exchange rate between free and bound species were also measured by NMR spectroscopy.

Highlights

NMR results indicate that DAPI binds selectively in the minor groove of the DNA region containing only two A:T base pairs
[d(CGCGAATTCGCG)l2, Comparison of thbeindincgonstants of DAPI with ooptDchhforeeNiinlresTiAttcnuam5atiroelnobal,diidngnewtdtogolh,miwtCefDBheoa6A-rurtidyrcPdtsopeAItnhoel:asxTiereeycosrboDrmvianibNensafosoAetsitrechipmtaesaaxar2iniimtr-nsifsdo.goiinntTlsnohdofhertasgethdyhreNbjomeaioHbncmvidedneeiunind,nHtptrdinglyn4otee,g’olxdaepio,srnrliegoytdasertinoio.ncsdunIaoonpts-t-thectpwsmheroiiyeltlnfhsy-obt[caAridonlg(:msdTArtoiprTnsoulige)vctImeet2tusooeriafnestntAhraadeer:tTpyGp[lod:oerCr(ealtCygess[tidGiod3tneC(ofGssGo.riCdrsAToe)hanAr]sle,esTooipTnfDrddCmeeAifGcmaePagCrotIeneGnnimsstt)utiIotra2dhla(leea1tcbet6usdi)tnlt.heIbrdnoeytibhnniaoaggnutertinenercdrtteahhtncoaettinon ing that fast exchange dynamics exist between the twwoork, the authors show that DAPI bindsin the minor groove stereochemically equivalent binding siteosf the palin- of the central AATT region of the dodecamer by forming a dromicsequence
This paper reports the studoyf the complex between DAPI and DNA oligomer [d(GCGATCGC)]

Summary

Introduction

NMR results indicate that DAPI binds selectively in the minor groove of the DNA region containing only two A:T base pairs. Groove protons are distinguished by closed and open symbols, the exchangeable NH indole resonance was assigned at 10.91 respectively, and are plotted aas function of their position in ppm by one-dimensional and NOESY experiments in HzO theDNA sequence.

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