Using transition density models to interpret experimental optical spectra of exciton-coupled cyanine (iCy3)2dimer probes of local DNA conformations at or near functional protein binding sites

Author:

Heussman Dylan,Enkhbaatar Lulu,Sorour Mohammed I.,Kistler Kurt A.,von Hippel Peter H.,Matsika Spiridoula,Marcus Andrew H.ORCID

Abstract

AbstractExciton-coupled chromophore dimers are an emerging class of optical probes for studies of site-specific biomolecular interactions. Applying accurate theoretical models for the electrostatic coupling of a molecular dimer probe is a key step for simulating its optical properties and analyzing spectroscopic data. In this work, we compare experimental absorbance and circular dichroism (CD) spectra of ‘internally-labeled’ (iCy3)2dimer probes inserted site-specifically into DNA fork constructs to theoretical calculations of the structure and geometry of these exciton-coupled dimers. We compare transition density models of varying levels of approximation to determine conformational parameters of the (iCy3)2dimer-labeled DNA fork constructs. By applying an atomistically detailed transition charge (TQ) model, we can distinguish between dimer conformations in which the stacking and tilt angles between planar iCy3 monomers are varied. A major strength of this approach is that the local conformations of the (iCy3)2dimer probes that we determined can be used to infer information about the structures of the DNA framework immediately surrounding the probes at various positions within the constructs, both deep in the duplex DNA sequences and at sites at or near the DNA fork junctions where protein complexes bind to discharge their biological functions.

Publisher

Cold Spring Harbor Laboratory

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