RNase P is a ribozyme originally identified for its role in maturation of tRNAs
by cleavage of precursor tRNAs (pre-tRNAs) at the 5′-end termini. RNase P is a
ribonucleoprotein consisting of a catalytic RNA molecule and, depending on the organism,
one or more cofactor proteins. The site of cleavage of a pre-tRNA is identified by its
tertiary structure; and any RNA molecule can be cleaved by RNase P as long as the RNA
forms a duplex that resembles the regional structure in the pre-tRNA. When the antisense
sequence that forms the duplex with the strand that is subsequently cleaved by RNase P is
in a separate molecule, it is called an external guide sequence (EGS).
These fundamental observations are the basis for EGS technology, which consists of
inhibiting gene expression by utilizing an EGS that elicits RNase P-mediated cleavage of a
target mRNA molecule. EGS technology has been used to inhibit expression of a wide variety
of genes, and may help development of novel treatments of diseases, including multidrug
resistant bacterial and viral infections.
RNase P is a ribozyme consisting of a catalytic RNA molecule and, depending on the organism, one or more cofactor proteins. It was initially identified as the enzyme that mediates cleavage of precursor tRNAs at the 5'-end termini to generate the mature tRNAs. An important characteristic of RNase P is that its specificity depends on the structure rather than the sequence of the RNA substrate. Any RNA species that interacts with an antisense molecule (called external guide sequence, EGS) and forms the appropriate structure can be cleaved by RNase P. This property is the basis for EGS technology, an antisense methodology for inhibiting gene expression by eliciting RNase P-mediated cleavage of a target mRNA molecule. EGS technology is being developed to design therapies against a large variety of diseases. An essential milestone in developing EGSs as therapies is the assessment of the efficiency of antisense molecules to induce cleavage of the target mRNA and evaluate their effect in vivo. Here, we describe simple protocols to test the ability of EGSs to induce cleavage of a target mRNA in vitro and to induce a phenotypic change in growing cells.
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