Certain Adenylated Non-coding RNAs, Including 5' Leader Sequences of Primary MicroRNA Transcripts, Accumulate in Mouse Cells Following Depletion of the RNA Helicase MTR4

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2014 Jun 14

PMID 24926684

Citations 4

Authors

Jane E Dorweiler

Ting Ni

Jun Zhu

Stephen H Munroe

James T Anderson

Affiliations

Soon will be listed here.

Abstract

RNA surveillance plays an important role in posttranscriptional regulation. Seminal work in this field has largely focused on yeast as a model system, whereas exploration of RNA surveillance in mammals is only recently begun. The increased transcriptional complexity of mammalian systems provides a wider array of targets for RNA surveillance, and, while many questions remain unanswered, emerging data suggest the nuclear RNA surveillance machinery exhibits increased complexity as well. We have used a small interfering RNA in mouse N2A cells to target the homolog of a yeast protein that functions in RNA surveillance (Mtr4p). We used high-throughput sequencing of polyadenylated RNAs (PA-seq) to quantify the effects of the mMtr4 knockdown (KD) on RNA surveillance. We demonstrate that overall abundance of polyadenylated protein coding mRNAs is not affected, but several targets of RNA surveillance predicted from work in yeast accumulate as adenylated RNAs in the mMtr4KD. microRNAs are an added layer of transcriptional complexity not found in yeast. After Drosha cleavage separates the pre-miRNA from the microRNA's primary transcript, the byproducts of that transcript are generally thought to be degraded. We have identified the 5' leading segments of pri-miRNAs as novel targets of mMtr4 dependent RNA surveillance.

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