Comparison of the structures of the native form of rat liver 5S rRNA and yeast tRNAphe: small-angle and wide-angle X-ray scattering study

The small-angle and wide-angle X-ray scattering of tRNA^phe (yeast) and ribosomal 5S RNA (rat liver) in solution have been analysed and compared. tRNA^phe in solution is folded into a compact L-shaped structure similar to its structure in crystals. The geometry of the secondary structure of the double helical regions is also equivalent to the A-form in the crystalline state. Despite differences between the molar mosses of 5S rRNA (40 000 g mol^?1) and tRNA^phe (25 000 g mol^?1), and the fact that the 5S rRNA molecule is more anisometric than the tRNA^phe molecule, there are many structural similarities. The geometrical parameters of the secondary structure of double helical regions in both RNA molecules are almost identical; the mean rise per base pair is about 0.253–0.28 nm and the mean turn angle is about 32.5–33.5. Identical cross-sectional radii of gyration, R_sq,1 ≈ 1.16 nm and R_sq,2 = 0.92 nm, identical molar mass per unit length, , and a mean thickness of the molecules D ≈ 1.65 nm suggest a similar, nearly coplanar organization of isolated, double helical arms. Furthermore, there are compact regions in the central parts of both molecules, which are the sites of tertiary interactions in the tRNA^phe molecule and are a potential site of tertiary interactions in the SS rRNA molecule for stabilization of the complicated L-shape of the two molecules. Both molecules have a pseudo-twofold axis,w hich may play a role in recognition for binding of specific proteins.