Effect of zinc ions on tRNA structure: imino proton NMR spectroscopy

The structure of tRNA in solution was explored by NMR spectroscopy to evaluate the effect of divalent cations, especially zinc, which has a profound effect on the chromatographic behaviour of tRNAs in certain systems. The divalent ions Mg2+ and Zn2+ have specific effects on the imino proton region of the 1H NMR spectrum of valine transfer RNA (tRNA(Val] of Escherichia coli and of phenylalanine transfer RNA (tRNA(Phe] of yeast. The dependence of the imino proton spectra of the two tRNAs was examined as a function of Zn2+ concentration. In both tRNAs the tertiary base pair (G-15).(C-48) was markedly affected by Zn2+ (shifted downfield possibly by as much as 0.4 ppm); this is the terminal base pair in the augmented dihydrouridine helix (D-helix). Base pair (U-8).(A-14) in yeast tRNA(Phe) or (s4U-8).(A-14) in tRNA1(Val), which are stacked on (G-15).(C-48), was not affected by Zn2+, except when 1-2 Mg2+ ions per tRNA were also present. Another imino proton that may be affected by Zn2+ in both tRNAs is that of the tertiary base pair (G-19).(C-46). The assignment of this resonance in yeast tRNA(Phe) is tentative since it is located in the region of highly overlapping resonances between 12.6 and 12.3 ppm. This base pair helps to anchor the D-loop to the T psi C loop.(ABSTRACT TRUNCATED AT 250 WORDS)