The 5' leader of precursor tRNAAsp bound to the Bacillus subtilis RNase P holoenzyme has an extended conformation.

RNase P catalyzes the 5' maturation of transfer RNA (tRNA). RNase P from Bacillus subtilis comprises a large RNA component (130 kDa, P RNA) and a small protein subunit (14 kDa, P protein). Although P RNA alone can efficiently catalyze the maturation reaction in vitro, P protein is strictly required under physiological conditions. We have used time-resolved fluorescence resonance energy transfer on a series of donor-labeled substrates and two acceptor-labeled P proteins to determine the conformation of the pre-tRNA 5' leader relative to the protein in the holoenzyme-pre-tRNA complex. The resulting distance distribution measurements indicate that the leader binds to the holoenzyme in an extended conformation between nucleotides 3 and 7. The conformational mobility of nucleotides 5-8 in the leader is reduced, providing further evidence that these nucleotides interact with the holoenzyme. The increased fluorescence intensity and lifetime of the 5'-fluorescein label of these leaders indicate a more hydrophobic environment, consistent with the notion that such interactions occur with the central cleft of the P protein. Taken together, our data support a model where the P protein binds to the 5' leader between the fourth and seventh nucleotides upstream of the cleavage site, extending the leader and decreasing its structural dynamics. Thus, P protein acts as a wedge to separate the 5' from the 3' terminus of the pre-tRNA and to position the cleavage site in the catalytic core. These results reveal a structural basis for the P protein dependent discrimination between precursor and mature tRNAs.