Secondary Structures for 5′ Regions of R2 Retrotransposon RNAs Reveal a Novel Conserved Pseudoknot and Regions that Evolve under Different Constraints

Sequences from the 5' region of R2 retrotransposons of four species of silk moth are reported. In Bombyx mori, this region of the R2 messenger RNA contains a binding site for R2 protein and mediates interactions critical to R2 element insertion into the host genome. A model of secondary structure for a segment of this RNA is proposed on the basis of binding to oligonucleotide microarrays, chemical mapping, and comparative sequence analysis. Five conserved secondary structures are identified, including a novel pseudoknot. There is an apparent transition from an entirely RNA structure coding function in most of the 5' segment to a protein coding function near the 3' end. This suggests that local regions evolved under separate functional constraints (structural, coding, or both). (C) 2009 Elsevier Ltd. All rights reserved.