No correlation between native and denatured forms of tRNA(Trp) form Escherichia coli and the resistant and sensitive molecules characterised by phosphorolysis. Two classes of conformation characterised by phosphorolysis in both native and denatured tRNA(Trp).

Some tRNA molecules in solution are sensitive to attack by polynucleotide phosphorylase while others are resistant, even with pure species of tRNA. Further analysis of this behaviour has revealed an underlying microheterogeneity in tRNA structure. In order to clarify the relation between the sensitive and resistant classes of tRNA, and the native and denatured forms with respect to amino acid acceptance, the phosphorolysis of tRNATrp from Escherichia coli has been investigated. Native tRNATrp is similar to species examined previously: resistant and sensitive classes are observed and the sensitive proportion increases with temperature. At 20 degrees C both native and denatured tRNATrp are stable under phosphorolysis conditions, and denaturated tRNATrp is found also to possess resistant and sensitive classes. About 10% of both native and denatured tRNATrp is rapidly phosphorolysed at 20 degrees C, but the rate of conversion of resistant denatured tRNATrp to the sensitive class is about twice as fact as for the native form. Thus it can be concluded that the sensitive molecules of tRNATrp attacked by polynucleotide phosphorylase are not due to denaturation.