Extensive Evolutionary Changes in Regulatory Element Activity during Human Origins Are Associated with Altered Gene Expression and Positive Selection

Yoichiro Shibata,Bum-Kyu Lee,Lingyun Song,Courtney C Babbitt,Vishwanath R Iyer,Elliott H Margulies,Olivier Fedrigo,Gregory A Wray,Matthew Wortham,Darin London,Stephen C J Parker,Gregory E Crawford,Alok K Tewari,Nathan C Sheffield,Terrence S Furey

doi:10.1371/journal.pgen.1002789

Abstract

Understanding the molecular basis for phenotypic differences between humans and other primates remains an outstanding challenge. Mutations in non-coding regulatory DNA that alter gene expression have been hypothesized as a key driver of these phenotypic differences. This has been supported by differential gene expression analyses in general, but not by the identification of specific regulatory elements responsible for changes in transcription and phenotype. To identify the genetic source of regulatory differences, we mapped DNaseI hypersensitive (DHS) sites, which mark all types of active gene regulatory elements, genome-wide in the same cell type isolated from human, chimpanzee, and macaque. Most DHS sites were conserved among all three species, as expected based on their central role in regulating transcription. However, we found evidence that several hundred DHS sites were gained or lost on the lineages leading to modern human and chimpanzee. Species-specific DHS site gains are enriched near differentially expressed genes, are positively correlated with increased transcription, show evidence of branch-specific positive selection, and overlap with active chromatin marks. Species-specific sequence differences in transcription factor motifs found within these DHS sites are linked with species-specific changes in chromatin accessibility. Together, these indicate that the regulatory elements identified here are genetic contributors to transcriptional and phenotypic differences among primate species.

Highlights

Understanding the molecular basis of phenotypic differences between humans and other primates has been a priority in medicine, behavior, and evolution research [1,2,3]
We report a genome-wide comparison of active gene regulatory elements in human, chimpanzee, and macaque, and we identify hundreds of regulatory elements that have been gained or lost in the human or chimpanzee genomes since their evolutionary divergence
Polymorphic DNA bases in transcription factor motifs that we found in these regulatory elements may be responsible for the varied biological functions across species

Summary

Introduction

Understanding the molecular basis of phenotypic differences between humans and other primates has been a priority in medicine, behavior, and evolution research [1,2,3]. Finding genotype-phenotype connections is difficult since the vast majority of sequence changes do not contribute to phenotypic differences across species It was hypothesized over 40 years ago that phenotypic differences between humans and our closest primate relatives are shaped largely by changes in non-coding regulatory elements [4]. Genome-wide scans of non-coding DNA sequences under branch-specific positive selection have identified putative regulatory elements that have undergone functional changes [14,15,16]. These studies identified hundreds of regulatory regions with evidence of accelerated sequence substitution during human origins, possibly reflecting adaptive changes in gene regulation. Scans for selection do not, provide information about the functional or trait consequences of these evolutionary changes

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