Modified constructs of the tRNA TPsiC domain to probe substrate conformational requirements of m(1)A(58) and m(5)U(54) tRNA methyltransferases

The TΨC stem and loop (TSL) of tRNA contains highly conserved nucleoside modifications, m⁵C₄₉, T₅₄, Ψ₅₅ and m¹A₅₈. U₅₄ is methylated to m⁵U (T) by m⁵U₅₄ methyltransferase (RUMT); A₅₈ is methylated to m¹A by m¹A₅₈ tRNA methyltransferase (RAMT). RUMT recognizes and methylates a minimal TSL heptadecamer and RAMT has previously been reported to recognize and methylate the 3′-half of the tRNA molecule. We report that RAMT can recognize and methylate a TSL heptadecamer. To better understand the sensitivity of RAMT and RUMT to TSL conformation, we have designed and synthesized variously modified TSL constructs with altered local conformations and stabilities. TSLs were synthesized with natural modifications (T₅₄ and Ψ₅₅), naturally occurring modifications at unnatural positions (m⁵C₆₀), altered sugar puckers (dU₅₄ and/or dU₅₅) or with disrupted U-turn interactions (m¹Ψ₅₅ or m¹m³Ψ₅₅). The unmodified heptadecamer TSL was a substrate of both RAMT and RUMT. The presence of T₅₄ increased thermal stability of the TSL and dramatically reduced RAMT activity toward the substrate. Local conformation around U₅₄ was found to be an important determinant for the activities of both RAMT and RUMT.