Alternative Splicing As a Source of Phenotypic Diversity

Overview

Journal Nat Rev Genet

Specialty Genetics

Date 2022 Jul 12

PMID 35821097

Authors

Charlotte J Wright

Christopher W J Smith

Chris D Jiggins

Affiliations

Soon will be listed here.

Abstract

A major goal of evolutionary genetics is to understand the genetic processes that give rise to phenotypic diversity in multicellular organisms. Alternative splicing generates multiple transcripts from a single gene, enriching the diversity of proteins and phenotypic traits. It is well established that alternative splicing contributes to key innovations over long evolutionary timescales, such as brain development in bilaterians. However, recent developments in long-read sequencing and the generation of high-quality genome assemblies for diverse organisms has facilitated comparisons of splicing profiles between closely related species, providing insights into how alternative splicing evolves over shorter timescales. Although most splicing variants are probably non-functional, alternative splicing is nonetheless emerging as a dynamic, evolutionarily labile process that can facilitate adaptation and contribute to species divergence.

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