T-hairpin structure found in the RNA element involved in piRNA biogenesis.

PIWI-interacting RNAs (piRNAs) repress transposons to protect the germline genome from DNA damage caused by transposon transposition. In , the () mRNA is consumed to produce piRNA in its 3'-UTR. A element located within the 3'-UTR, , is necessary for piRNA biogenesis. In this study, we analyzed the structure of the RNA, a 100-nt RNA corresponding to the element, by the SHAPE and NMR analyses and found that a stable hairpin structure formed in the 5' half of the RNA. The tertiary structure of the 16-nt stable hairpin was analyzed by NMR, and a novel stem-loop structure, the T-hairpin, was found. In the T-hairpin, four uridine residues are exposed to the solvent, suggesting that this stem-loop is the target of Yb protein, a Tudor domain-containing piRNA biogenesis factor. The piRNA biogenesis assay showed that both the T-hairpin and the 3' half are required for the function of the element, suggesting that both the T-hairpin and the 3' half are recognized by Yb protein.