Interaction of manganese with fragments, complementary fragment recombinations, and whole molecules of yeast phenylalanine specific transfer RNA

Binding of Mn²⁺ to the whole molecule, fragments and complementary fragment recombinations of yeast tRNA^Phe, and to synthetic polynucleotides was studied by equilibrium dialysis. The comparison of the binding patterns of the fragments, fragment recombinations and synthetic polynucleotides with that of intact tRNA^Phe permits reasonable conclusions concerning the nature and location of the various classes of sites on tRNA^Phe. Binding of Mn²⁺ to intact tRNA^Phe consists of a co-operative and a non-co-operative phase. There are about 17 “strong” sites and several “weak” ones. Five of the 17 strong sites are associated with the co-operative phase. This phase is completely lacking in the binding of Mn²⁺ to tRNA^Phe fragments (5′-$\text{1}\text{2}$, 3′-$\text{1}\text{2}$, 5′-$\text{3}\text{5}$, 3′-$\text{2}\text{5}$), poly-(A):poly(U) and poly(I):poly(C) helices, and single stranded poly(A) and poly(U). This argues that the co-operative sites arise from the tRNA tertiary structure. This conclusion is further strengthened by the observation that cooperativity is present in a tRNA^Phe molecule which has been split in the anticodon loop, but it is absent in one which has been split in the extra loop. It is in the vicinity of the latter loop, but not the former, that tertiary interactions are seen in the crystal structure. The remaining 12 strong sites are “independent” and appear to be associated with cloverleaf helical sections.