A Novel Model for the RNase MRP-Induced Switch between the Formation of Different Forms of 5.8S rRNA

Processing of the RNA polymerase I pre-rRNA transcript into the mature 18S, 5.8S, and 25S rRNAs requires removing the spacer sequences. The canonical pathway for the removal of the ITS1 spacer involves cleavages at the 3 ' end of 18S rRNA and at two sites inside ITS1. The process can generate either a long or a short 5.8S rRNA that differs in the number of ITS1 nucleotides retained at the 5.8S 5 ' end. Here we document a novel pathway to the long 5.8S, which bypasses cleavage within ITS1. Instead, the entire ITS1 is degraded from its 5 ' end by exonuclease Xrn1. Mutations in RNase MRP increase the accumulation of long relative to short 5.8S rRNA. Traditionally this is attributed to a decreased rate of RNase MRP cleavage at its target in ITS1, called A3. However, results from this work show that the MRP-induced switch between long and short 5.8S rRNA formation occurs even when the A3 site is deleted. Based on this and our published data, we propose that the link between RNase MRP and 5.8S 5 ' end formation involves RNase MRP cleavage at unknown sites elsewhere in pre-rRNA or in RNA molecules other than pre-rRNA.

Automated summary

This article describes a novel pathway to the long 5.8S rRNA formation via degradation of ITS1 from its 5' end by exonuclease Xrn1. Mutations in RNase MRP lead to an increase in the accumulation of long 5.8S rRNA relative to short 5.8S rRNA, even when the A3 site is deleted. The link between RNase MRP and 5.8S 5' end formation may involve cleavage at unknown sites elsewhere in pre-rRNA or other RNA molecules.