De novo emergence of adaptive membrane proteins from thymine-rich genomic sequences
Citation:
Nikolaos Vakirlis, Omer Acar, Brian Hsu, Nelson Castilho Coelho, S. Branden Van Oss, Aaron Wacholder, Kate Medetgul-Ernar, Ray W. Bowman II, Cameron P. Hines, John Iannotta, Saurin Bipin Parikh, Aoife McLysaght, Carlos J. Camacho, Allyson F. O’Donnell, Trey Ideker & Anne-Ruxandra Carvunis, 'De novo emergence of adaptive membrane proteins from thymine-rich genomic sequences', 2020, Nature Communications;, 11;, 781;Download Item:
Abstract:
Recent evidence demonstrates that novel protein-coding genes can arise de novo from non- genic loci. This evolutionary innovation is thought to be facilitated by the pervasive translation of non-genic transcripts, which exposes a reservoir of variable polypeptides to natural selection. Here, we systematically characterize how these de novo emerging coding sequences impact fitness in budding yeast. Disruption of emerging sequences is generally inconsequential for fitness in the laboratory and in natural populations. Overexpression of emerging sequences, however, is enriched in adaptive fitness effects compared to over- expression of established genes. We find that adaptive emerging sequences tend to encode putative transmembrane domains, and that thymine-rich intergenic regions harbor a wide- spread potential to produce transmembrane domains. These findings, together with in-depth examination of the de novo emerging YBR196C-A locus, suggest a novel evolutionary model whereby adaptive transmembrane polypeptides emerge de novo from thymine-rich non- genic regions and subsequently accumulate changes molded by natural selection.
Sponsor
Grant Number
European Research Council
309834
European Research Council
771419
Author's Homepage:
http://people.tcd.ie/mclysagaDescription:
PUBLISHED
Author: Mc Lysaght, Aoife
Type of material:
Journal ArticleCollections
Series/Report no:
Nature Communications;11;
781;
Availability:
Full text availableKeywords:
adaptive membrane proteins, protein-coding genesSubject (TCD):
Genes & SocietyDOI:
https://doi.org/10.1038/s41467-020-14500-zMetadata
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