DNase I–tRNA Interaction

Deoxyribonuclease I (DNase I) binds right-handed DNA duplex via a minor groove and the backbone phosphate group with no contact to the major groove. It hydrolyses double-stranded DNA predominantly by a single-stranded nicking mechanism under physiological conditions, in the presence of divalent Mg and Ca cations. Even though DNase-RNA interaction was observed, less is known about the protein-RNA binding mode and the effect of such complexation on both protein and RNA conformations. The aim of this study was to examine the effects of DNase I-tRNA interaction on tRNA and protein conformations. The interaction of DNase I with tRNA is monitored under physiological conditions, in the absence of Mg2+, using constant DNA concentration of 12.5 mM (phosphate) and various protein contents (10 microM to 250 microM). FTIR, UV-visible, and CD spectroscopic methods were used to analyze the protein binding mode, the binding constant, and the effects of polynucleotide-enzyme interaction on both tRNA and protein conformations. Spectroscopic evidence showed major DNase-PO2 and minor groove interactions with overall binding constant of K = 2.1 (+/-0.7) x 10(4) M(-1). The DNase I-tRNA interaction alters protein secondary structure with major reduction of the alpha-helix, and increases the random coil, beta-anti and turn structures, while tRNA remains in the A-conformation. No digestion of tRNA by DNase I was observed in the protein-tRNA complexes.