Structure, of transfer RNA molecules containing the long variable loop

Abstract

A structure is proposed for the type II tRNA molecules containing the long variable loop and the tertiary base interactions here are compared with type I tRNAs having the short variable loop. The type II tRNAs are similar to the type I tRNAs in their tertiary base pairing interactions but differ from them generally by not having the tertiary base triples. The long variable loop, which is comprised of a helical stem and a loop at the end of it, emerges from the deep groove side of the dihydrouridine helix, and is tilted roughly 30 degrees to the plane formed by the amino acid-pseudo-uridine and anticodon-dihydrouridine helices found in yeast tRNAPhe. The fact that many of the type I tRNAs also lack the full compliment of base triples suggests that the tertiary base pairs may alone suffice to sustain the tRNA fold required for its biological function. The base triples and the variable loop appear to have little functional significance. The base type at position 9 is correlated with the number of base triples and G-C base pairs in the dihydrouridine stem.