The frequent evolutionary birth and death of functional promoters in mouse and human

Robert S. Young; Yosihide Hayashizaki; Robin Andersson; Albin Gustav Sandelin; Hideya Kawaji; Masayoshi Itoh; Timo Lassmann; Piero Carninci; Wendy A. Bickmore; Alistair R. Forrest; Martin S. Taylor

doi:10.1101/gr.190546.115

The frequent evolutionary birth and death of functional promoters in mouse and human

Robert S. Young, Yosihide Hayashizaki, Robin Andersson, Albin Gustav Sandelin, Hideya Kawaji, Masayoshi Itoh, Timo Lassmann, Piero Carninci, Wendy A. Bickmore, Alistair R. Forrest, Martin S. Taylor

Computational and RNA Biology

25 Citations (Scopus)

151 Downloads (Pure)

Abstract

Promoters are central to the regulation of gene expression. Changes in gene regulation are thought to underlie much of the adaptive diversification between species and phenotypic variation within populations. In contrast to earlier work emphasizing the importance of enhancer evolution and subtle sequence changes at promoters, we show that dramatic changes such as the complete gain and loss (collectively, turnover) of functional promoters are common. Using quantitative measures of transcription initiation in both humans and mice across 52 matched tissues, we discriminate promoter sequence gains from losses and resolve the lineage of changes. We also identify expression divergence and functional turnover between orthologous promoters, finding only the latter is associated with local sequence changes. Promoter turnover has occurred at the majority (>56%) of protein-coding genes since humans and mice diverged. Tissue-restricted promoters are the most evolutionarily volatile where retrotransposition is an important, but not the sole, source of innovation. There is considerable heterogeneity of turnover rates between promoters in different tissues, but the consistency of these in both lineages suggests that the same biological systems are similarly inclined to transcriptional rewiring. The genes affected by promoter turnover show evidence of adaptive evolution. In mice, promoters are primarily lost through deletion of the promoter containing sequence, whereas in humans, many promoters appear to be gradually decaying with weak transcriptional output and relaxed selective constraint. Our results suggest that promoter gain and loss is an important process in the evolutionary rewiring of gene regulation and may be a significant source of phenotypic diversification.

Original language	English
Journal	Genome Research
Volume	25
Pages (from-to)	1546-1557
Number of pages	12
ISSN	1088-9051
DOIs	https://doi.org/10.1101/gr.190546.115
Publication status	Published - 1 Oct 2015

Access to Document

10.1101/gr.190546.115Licence: CC BY

The frequent evolutionary birth and death of functional promoters in mouse and humanFinal published version, 980 KBLicence: CC BY

Cite this

@article{7449392622774c71ab9cc41ff61d2801,

title = "The frequent evolutionary birth and death of functional promoters in mouse and human",

abstract = "Promoters are central to the regulation of gene expression. Changes in gene regulation are thought to underlie much of the adaptive diversification between species and phenotypic variation within populations. In contrast to earlier work emphasizing the importance of enhancer evolution and subtle sequence changes at promoters, we show that dramatic changes such as the complete gain and loss (collectively, turnover) of functional promoters are common. Using quantitative measures of transcription initiation in both humans and mice across 52 matched tissues, we discriminate promoter sequence gains from losses and resolve the lineage of changes. We also identify expression divergence and functional turnover between orthologous promoters, finding only the latter is associated with local sequence changes. Promoter turnover has occurred at the majority (>56%) of protein-coding genes since humans and mice diverged. Tissue-restricted promoters are the most evolutionarily volatile where retrotransposition is an important, but not the sole, source of innovation. There is considerable heterogeneity of turnover rates between promoters in different tissues, but the consistency of these in both lineages suggests that the same biological systems are similarly inclined to transcriptional rewiring. The genes affected by promoter turnover show evidence of adaptive evolution. In mice, promoters are primarily lost through deletion of the promoter containing sequence, whereas in humans, many promoters appear to be gradually decaying with weak transcriptional output and relaxed selective constraint. Our results suggest that promoter gain and loss is an important process in the evolutionary rewiring of gene regulation and may be a significant source of phenotypic diversification.",

author = "Young, {Robert S.} and Yosihide Hayashizaki and Robin Andersson and Sandelin, {Albin Gustav} and Hideya Kawaji and Masayoshi Itoh and Timo Lassmann and Piero Carninci and Bickmore, {Wendy A.} and Forrest, {Alistair R.} and Taylor, {Martin S.}",

note = "Published by Cold Spring Harbor Laboratory Press.",

year = "2015",

month = oct,

day = "1",

doi = "10.1101/gr.190546.115",

language = "English",

volume = "25",

pages = "1546--1557",

journal = "Genome Research",

issn = "1088-9051",

publisher = "Cold Spring Harbor Laboratory Press",

}

TY - JOUR

T1 - The frequent evolutionary birth and death of functional promoters in mouse and human

AU - Young, Robert S.

AU - Hayashizaki, Yosihide

AU - Andersson, Robin

AU - Sandelin, Albin Gustav

AU - Kawaji, Hideya

AU - Itoh, Masayoshi

AU - Lassmann, Timo

AU - Carninci, Piero

AU - Bickmore, Wendy A.

AU - Forrest, Alistair R.

AU - Taylor, Martin S.

N1 - Published by Cold Spring Harbor Laboratory Press.

PY - 2015/10/1

Y1 - 2015/10/1

N2 - Promoters are central to the regulation of gene expression. Changes in gene regulation are thought to underlie much of the adaptive diversification between species and phenotypic variation within populations. In contrast to earlier work emphasizing the importance of enhancer evolution and subtle sequence changes at promoters, we show that dramatic changes such as the complete gain and loss (collectively, turnover) of functional promoters are common. Using quantitative measures of transcription initiation in both humans and mice across 52 matched tissues, we discriminate promoter sequence gains from losses and resolve the lineage of changes. We also identify expression divergence and functional turnover between orthologous promoters, finding only the latter is associated with local sequence changes. Promoter turnover has occurred at the majority (>56%) of protein-coding genes since humans and mice diverged. Tissue-restricted promoters are the most evolutionarily volatile where retrotransposition is an important, but not the sole, source of innovation. There is considerable heterogeneity of turnover rates between promoters in different tissues, but the consistency of these in both lineages suggests that the same biological systems are similarly inclined to transcriptional rewiring. The genes affected by promoter turnover show evidence of adaptive evolution. In mice, promoters are primarily lost through deletion of the promoter containing sequence, whereas in humans, many promoters appear to be gradually decaying with weak transcriptional output and relaxed selective constraint. Our results suggest that promoter gain and loss is an important process in the evolutionary rewiring of gene regulation and may be a significant source of phenotypic diversification.

AB - Promoters are central to the regulation of gene expression. Changes in gene regulation are thought to underlie much of the adaptive diversification between species and phenotypic variation within populations. In contrast to earlier work emphasizing the importance of enhancer evolution and subtle sequence changes at promoters, we show that dramatic changes such as the complete gain and loss (collectively, turnover) of functional promoters are common. Using quantitative measures of transcription initiation in both humans and mice across 52 matched tissues, we discriminate promoter sequence gains from losses and resolve the lineage of changes. We also identify expression divergence and functional turnover between orthologous promoters, finding only the latter is associated with local sequence changes. Promoter turnover has occurred at the majority (>56%) of protein-coding genes since humans and mice diverged. Tissue-restricted promoters are the most evolutionarily volatile where retrotransposition is an important, but not the sole, source of innovation. There is considerable heterogeneity of turnover rates between promoters in different tissues, but the consistency of these in both lineages suggests that the same biological systems are similarly inclined to transcriptional rewiring. The genes affected by promoter turnover show evidence of adaptive evolution. In mice, promoters are primarily lost through deletion of the promoter containing sequence, whereas in humans, many promoters appear to be gradually decaying with weak transcriptional output and relaxed selective constraint. Our results suggest that promoter gain and loss is an important process in the evolutionary rewiring of gene regulation and may be a significant source of phenotypic diversification.

U2 - 10.1101/gr.190546.115

DO - 10.1101/gr.190546.115

M3 - Journal article

C2 - 26228054

SN - 1088-9051

VL - 25

SP - 1546

EP - 1557

JO - Genome Research

JF - Genome Research

ER -

The frequent evolutionary birth and death of functional promoters in mouse and human

Abstract

Access to Document

Fingerprint

Cite this