Issue 111, 2016

Targeting G-quadruplex DNA and B-DNA with a natural alkaloid: a comparative spectroscopic study

Abstract

The present research compared the binding mechanisms of natural alkaloid harmine (HR) with two structurally different biologically important DNA species, human telomeric 22 G-quadruplex DNA (GQ-DNA) and B-DNA using various steady state and time-resolved spectroscopic techniques. Our study shows that for both DNA species HR has appreciable ground state interaction with comparable binding strengths. When HR binds, GQ-DNA which initially remained as mixed-hybrid structure converted to parallel types whereas the B-DNA structure perturbed through intercalation. HR displayed modest selectivity for the quadruplex over duplex B-DNA and binds in grooves and/or loops over external end stacking with quadruplex instead of intercalation with B-DNA. Switching of stabilization from moderate to strong occurred while HR binds with GQ-DNA and B-DNA respectively. The difference in the dynamics of HR in with both DNAs has been described well by the wobbling-in-cone model from the time-resolved anisotropy data. Our time-resolved results interpreted the dynamics of HR in both DNA environments suggesting favourable loop and/or groove binding of HR with GQ-DNA over partial end-stacking and intercalation mode of binding with B-DNA. Steady state anisotropy measurements and molecular docking further confirmed our conclusions regarding binding mechanisms. The present study could be highly useful in less toxic targeted gene therapy.

Graphical abstract: Targeting G-quadruplex DNA and B-DNA with a natural alkaloid: a comparative spectroscopic study

Supplementary files

Article information

Article type
Paper
Submitted
12 Sep 2016
Accepted
10 Nov 2016
First published
17 Nov 2016

RSC Adv., 2016,6, 109846-109856

Targeting G-quadruplex DNA and B-DNA with a natural alkaloid: a comparative spectroscopic study

P. Mandal, M. Bhattacharya and J. Chowdhury, RSC Adv., 2016, 6, 109846 DOI: 10.1039/C6RA22776G

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