On the Origin and Evolution of RNA Editing in Metazoans

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2023 Feb 16

PMID 36795564

Authors

Pei Zhang

Yuanzhen Zhu

Qunfei Guo

Ji Li

Xiaoyu Zhan

Hao Yu

Nianxia Xie

Huishuang Tan

Nina Lundholm

Lydia Garcia-Cuetos

Michael D Martin

Meritxell Anto Subirats

Yi-Hsien Su

Inaki Ruiz-Trillo

Mark Q Martindale

Jr-Kai Yu

M Thomas P Gilbert

Guojie Zhang

Qiye Li

Affiliations

Soon will be listed here.

Abstract

Extensive adenosine-to-inosine (A-to-I) editing of nuclear-transcribed mRNAs is the hallmark of metazoan transcriptional regulation. Here, by profiling the RNA editomes of 22 species that cover major groups of Holozoa, we provide substantial evidence supporting A-to-I mRNA editing as a regulatory innovation originating in the last common ancestor of extant metazoans. This ancient biochemistry process is preserved in most extant metazoan phyla and primarily targets endogenous double-stranded RNA (dsRNA) formed by evolutionarily young repeats. We also find intermolecular pairing of sense-antisense transcripts as an important mechanism for forming dsRNA substrates for A-to-I editing in some but not all lineages. Likewise, recoding editing is rarely shared across lineages but preferentially targets genes involved in neural and cytoskeleton systems in bilaterians. We conclude that metazoan A-to-I editing might first emerge as a safeguard mechanism against repeat-derived dsRNA and was later co-opted into diverse biological processes due to its mutagenic nature.

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