Nucleic Acids Research

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Nucleic Acids Research, 1984, Vol. 12, No. 17 6763-6778
© 1984

CHEMISTRY

RNA structure analysis using T2 ribonuclease: detection of pH and metal ion induced conformational changes in yeast tRNA^Phe

Calvin P.H. Vary and John N. Vournakis

Department of Biology, Syracuse University Syracuse, NY 13210, USA

Received May 14, 1984. Revised August 13, 1984. Accepted August 13, 1984.

We describe the use of an enzymic probe of RNA structure, T2 ribonuclease, to detect alterations of RNA conformation induced by changes in Mg²⁺ ion concentration and pH. T2 RNase is shown to possess single-strand specificity similar to S1 nuclease. In contrast to S1 nuclease, T2 RNase does not require divalent cations for activity. We have used this enzyme to investigate the role of Mg²⁺ ions in the stabilization of RNA conformation. We find that, at neutral pH, drastic reduction of the available divalent metal ions results in a decrease in the ability of T2 RNase to cleave the anticodon loop of tRNA^Phe. This change accompanies an increase in the cleavage of the molecule in the TC and in the dihydrouracil loops. Similar treatment of Tetrahymena thermophila 5S ribosomal RNA shows that changes in magnesium ion concentration does not have a pronounced effect on the cleavage pattern produced by T2 RNase. T2 RNase activity has a broader pH range than S1 nuclease and can be used to study pH induced conformational shifts in RNA structure. We find that upon lowering the pH from 7.0 to 4.5, nucleotide D16 in the dihydrouracil loop of tRNA^Phe becomes highly sensitive to T2 RNase hydrolysis. This change accompanies a decrease in the relative sensitivity of the anticodon loop to the enzyme. The role of metal ion and proton concentrations in maintenance of the functional conformation of tRNA^Phe is discussed.

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