Alu RNA secondary structure consists of two independent 7 SL RNA-like folding units.

The amplification of genomic Alu elements by retroposition, i.e. by reintegration of reverse-transcribed RNA, suggests that Alu RNA plays an important role in this process. We report enzymatic studies of the secondary structure of Alu RNAs transcribed in vitro from two recently retroposed Alu elements. These experiments show that the dimeric organization of an Alu sequence is reflected in its RNA folding. Alu subunits fold independently, conserving secondary structure motifs of their progenitor 7 SL RNA molecule. Energy minimization analysis indicates that this folding pattern is also characteristic of different Alu and Alu-like sequences and has been conserved since primate divergence. By analogy to 7 SL RNA, the Alu RNA folding may be important for specific interactions with proteins. This could indicate a physiological function for Alu transcripts. However, this can be also seen as a structural adaptation leading to efficient retroposition of these sequence elements.