Mechanisms ensuring robust repression of the Drosophila female germline stem cell maintenance factor Nanos via posttranscriptional regulation.

During oogenesis in the Drosophila ovary, numerous translational regulators promote the self-renewal or differentiation of stem cells. An intriguing question is how these regulators combine to execute translational regulation. Here, we study mechanisms for the posttranscriptional regulation of nos, a critical stem cell self-renewal factor in the Drosophila ovary; specifically, regulators that promote differentiation of the stem cell daughter. Previous studies showed that Bam, Bgcn, Mei-P26, and Sxl form a complex and repress nos expression through the nos 3'UTR. To further elucidate mechanistic processes of Nos translational regulation, we reconstituted nos repression in cultured Drosophila cells. We identify Ago1 and Brat as new members, and show that Ago1 acts through miRNA binding sites in the proximal region of the nos 3'UTR, whereas Sxl acts via an Sxl binding sequence in the distal region. Combining these findings with published reports, we propose that additional factors Bam, Bgcn, Mei-P26, and Brat are recruited to nos mRNAs through interaction with Ago1 and Sxl. These findings elucidate mechanisms of nos regulation by diverse translational repressors.