The potential functions of primary microRNAs in target recognition and repression.

Major RNA products of a microRNA (miRNA) gene--the long primary transcript (pri-miRNA), the ∼70-nucleotide (nt) precursor miRNA (pre-miRNA), and the ∼21-nt mature miRNA--all contain the same sequence required for target gene recognition. Thus, it is intrinsically difficult to discern the contribution of individual RNA species or to rule out a function of miRNA precursor species in target repression. Here, we describe a novel approach to dissect the functional contribution of pri-miRNA without compromising important cellular pathways. We show that pri-let-7 has a direct function in target repression in the absence of properly processed mature let-7. Moreover, we show that loop nucleotides provide regulatory controls of the activity of pri-let-7 by modulating interactions between pri-let-7 and target RNAs in vitro and in vivo. Finally, we show that human let-7a-3 pri-miRNA can directly interact with target mRNAs. These findings illustrate that the regulatory information encoded in structured pri-miRNAs may be translated into function through direct interactions with target mRNAs.