Interaction of methylene blue with transfer RNA — a spectroscopic study

Abstract

The binding of methylene blue (MB) with tRNA was studied using absorption, fluorescence and circular dichroic spectroscopy. In the spectral titration of MB with tRNA, hypochromism was observed in the absorption maximum of the dye in the visible region till P/D = 4 and thereafter the intensity increased with a red shift at P/D > 9, indicating electrostatic and intercalative binding at low and high P/D ratios, respectively. Analysis of absorption data, following Schwarz's procedure, showed that the electrostatic binding is cooperative in nature (cooperatively parameter q = 50) with a binding constant K = 7.77 × 10 3M −1. A non-linear Scatchard plot was observed for the intercalative binding (at P/D > 4), probably due to a difference in the spectral characteristics of the dye intercalated between the base pairs and that between the bases in the single stranded domains. Quenching of fluorescence was observed for both the binding processes. In the circular dichroism spectra of tRNA-MB complexes at high P/D (∼ 30), nonconservative positive ICD bands were seen at 620 and 680 nm while at low P/D (∼ 2), two conservative negative CD bands at 300 and 660 nm and two bisignate bands with cross overs at 565 and 605 nm were observed. The short wavelength component of the bisignate band at 565 nm is negative while that of the 605-nm band is positive, indicating that the former arises from left handed and the latter from the right handed helical disposition of dye molecules along the tRNA backbone. The changes in the CD spectrum of tRNA on dye binding could be due to a conformational change of the nucleic acid or a negative CD being induced at that region.