Biophysical significance of fluorescence spectroscopy in deciphering nucleic acid dynamics: From fundamental to recent advancements

Abstract

Fluorescence spectroscopy has revolutionized the study of nucleic acids, providing invaluable insights into the dynamic processes that underpin gene expression, replication, and repair. This review explores the application of fluorescence probes in monitoring the conformational changes, interactions, and regulatory mechanisms of DNA and RNA. We discuss the utility of intercalating and non-intercalating fluorescent probes in real-time tracking of nucleic acid dynamics, highlighting their role in elucidating the molecular mechanisms of DNA replication, transcriptional regulation, and DNA repair. By offering a detailed analysis of recent advancements, this review underscores the significance of fluorescence-based techniques in enhancing our understanding of nucleic acid behavior and their implications for genomic stability and therapeutic interventions.