RNA beacons for detecting the human testis-determining factor

The testis-determining factor (TDF) is an essential transcriptional protein for male differentiation in mammals, expressed along spermatids to early zygotes and, to some extent, in diverse cellular lines. In this study, we developed fluorescent biosensors capable of indicating the presence of TDF. We usedin vitroevolution techniques to produce RNA aptamers that bind the recombinantly expressed HMG-box, the DNA binding domain of TDF. Bioinformatic analysis along in vitro evolution setup suggested two predominant aptamer clusters with distinctive motifs. The top ranked aptamer from each cluster, M1 and M2, showed specific binding to TDF. Aptamers were fluorescently modified as molecular beacons. Pre-steady-state kinetics indicated the beacons bind rapidly, within 50 seconds, yet M1 showed better signal to noise ratios than M2. Structural predictions of the aptamer interaction indicated that M1 is composed by three stem loops and likely interact with the HMG-box of TDF through the pocket formed by the three loops. Molecular modelling of M1 beacon shows that binding to TDF entails a conformational change of the sensor resulting in the measured fluorescence changes. To our knowledge, this is the first work describing an RNA beacon for detecting the essential TDF. Potential applications and advantages over alternative methods are provided and discussed.