Krishnankutty S. Sanju scite author profile

A few novel anthracene-based cyclophanes CP-1, CP-2 and CP-3 were synthesized and their interactions with DNA were investigated employing photophysical and biophysical techniques. In methanol and acetonitrile, these systems exhibited optical properties characteristic of the anthracene chromophore. However, in the aqueous medium, the symmetric cyclophane CP-1 showed a dual emission having lambda(max) at 430 and 550 nm, due to the monomer and excimer, respectively. In contrast, the cyclophanes CP-2 and CP-3 in the aqueous medium showed structured anthracene absorption and emission spectra similar to those obtained in methanol and acetonitrile. DNA binding studies indicate that CP-1 undergoes efficient nonclassical partial intercalative interactions with DNA resulting in the exclusive formation of a sandwich-type excimer having enhanced emission intensity and lifetimes. The cyclophane CP-2 having one anthracene moiety exhibited nonclassical intercalative binding with DNA, albeit with less efficiency compared with CP-1. In contrast, CP-3, having sterically bulky viologen bridging group showed DNA electrostatic as well as groove binding interactions. These results demonstrate that the nature of the bridging unit plays an important role in the binding mode of the cyclophanes with DNA and in the formation of the novel sandwich-type excimer.

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Design and synthesis of solution processable green fluorescent D–π–A dyads for OLED applications

Thurakkal

Sanju

Soman

et al. 2018

New J. Chem.

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Simultaneous binding of a cyclophane and classical intercalators to DNA: observation of FRET-mediated white light emission

Sanju

Thurakkal

Neelakandan

et al. 2015

Phys. Chem. Chem. Phys.

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DNA-assisted Förster resonance energy transfer (FRET) between an anthracene-based cyclophane (CP) and mono- and bis-intercalators such as propidium iodide (PI) and ethidium homodimer-1 (EHD), respectively, has been studied using various photophysical and biophysical techniques. The cyclophane and PI exhibited simultaneous binding to DNA at all concentrations studied and showed DNA-assisted FRET from the excimer of cyclophane with a FRET efficiency of ca. 71%. On the other hand, the bis-intercalator EHD, only at lower concentrations (<3 μM), can act as an acceptor for the energy transfer process with a lower efficiency of ca. 44%. At higher concentrations (>15 μM), EHD, on account of its higher binding affinity, displaces cyclophane from the DNA scaffold. Employing the ternary system comprising of the cyclophane, DNA and PI and fine-tuning the concentrations of the components in a molar ratio of 1 : 0.75 : 0.05 (CP : DNA : PI) we have demonstrated white light emission with CIE coordinates (0.35, 0.37).

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