Structural changes in 16S RNA from Escherichia coli upon unfolding by urea.

The urea-induced unfolding of 16S RNA at low ionic strength has been studied by dynamic light scattering, uv spectroscopy, and some hydrodynamic methods. Three components could be resolved in the photon correlation spectra of scattered light, using the inverse Laplace transform SIPP program [G.R. Danovich and I.N. Serdyuk (1983) in Photon Correlation Techniques in Fluid Mechanics, vol. B38, E.O. Schulz-Dubois, Ed., Springer, Berlin/Heidelberg, New York, p. 315]. One component is assigned to the center-of-mass translation of the RNA, another one to a combination of translational and internal motion, and the last to diffusion of urea clusters. The hydrodynamic dimensions of RNA increase strongly upon transition from 4 to 6 M urea. We conclude that up to 2 M urea, 16S RNA is highly elongated, and coiled above 4 M urea, with a great increase of the hydrodynamic dimensions of RNA being observed upon transition from 4 to 6 M urea. A scheme for RNA unfolding is proposed.