The functional and evolutionary impacts of human-specific deletions in conserved elements.

Science (New York, N.Y.)
Authors
James Xue
Ava Mackay-Smith
Kousuke Mouri
Meilin Garcia
Michael Dong
Jared Akers
Mark Noble
Xue Li
Zoonomia Consortium†
Kerstin Lindblad-Toh
Elinor Karlsson
James Noonan
Terence Capellini
Kristen Brennand
Ryan Tewhey
Pardis Sabeti
Steven Reilly
Gregory Andrews
Joel Armstrong
Matteo Bianchi
Bruce Birren
Kevin Bredemeyer
Ana Breit
Matthew Christmas
Hiram Clawson
Joana Damas
Federica Di Palma
Mark Diekhans
Michael Dong
Eduardo Eizirik
Kaili Fan
Cornelia Fanter
Nicole Foley
Karin Forsberg-Nilsson
Carlos Garcia
John Gatesy
Steven Gazal
Diane Genereux
Linda Goodman
Jenna Grimshaw
Michaela Halsey
Andrew Harris
Glenn Hickey
Michael Hiller
Allyson Hindle
Robert Hubley
Graham Hughes
Jeremy Johnson
David Juan
Irene Kaplow
Elinor Karlsson
Kathleen Keough
Bogdan Kirilenko
Klaus-Peter Koepfli
Jennifer Korstian
Amanda Kowalczyk
Sergey Kozyrev V
Alyssa Lawler
Colleen Lawless
Thomas Lehmann
Danielle Levesque
Harris Lewin
Xue Li
Abigail Lind
Kerstin Lindblad-Toh
Ava Mackay-Smith
Voichita Marinescu
Tomas Marques-Bonet
Victor Mason
Jennifer Meadows
Wynn Meyer
Jill Moore
Lucas Moreira
Diana Moreno-Santillan
Kathleen Morrill
Gerard Muntané
William Murphy
Arcadi Navarro
Martin Nweeia
Sylvia Ortmann
Austin Osmanski
Benedict Paten
Nicole Paulat
Andreas Pfenning
BaDoi Phan
Katherine Pollard
Henry Pratt
David Ray
Steven Reilly
Jeb Rosen
Irina Ruf
Louise Ryan
Oliver Ryder
Pardis Sabeti
Daniel Schäffer
Aitor Serres
Beth Shapiro
Arian Smit
Mark Springer
Chaitanya Srinivasan
Cynthia Steiner
Jessica Storer
Kevin Sullivan
Patrick Sullivan
Elisabeth Sundström
Megan Supple
Ross Swofford
Joy-El Talbot
Emma Teeling
Jason Turner-Maier
Alejandro Valenzuela
Franziska Wagner
Ola Wallerman
Chao Wang
Juehan Wang
Zhiping Weng
Aryn Wilder
Morgan Wirthlin
James Xue
Xiaomeng Zhang
Abstract

Conserved genomic sequences disrupted in humans may underlie uniquely human phenotypic traits. We identified and characterized 10,032 human-specific conserved deletions (hCONDELs). These short (average 2.56 base pairs) deletions are enriched for human brain functions across genetic, epigenomic, and transcriptomic datasets. Using massively parallel reporter assays in six cell types, we discovered 800 hCONDELs conferring significant differences in regulatory activity, half of which enhance rather than disrupt regulatory function. We highlight several hCONDELs with putative human-specific effects on brain development, including , , and . Reverting an hCONDEL to the ancestral sequence alters the expression of and developmental genes involved in myelination and synaptic function. Our data provide a rich resource to investigate the evolutionary mechanisms driving new traits in humans and other species.
Year of Publication
2023
Journal
Science (New York, N.Y.)
Volume
380
Issue
6643
Pages
eabn2253
Date Published
04/2023
ISSN
1095-9203
DOI
10.1126/science.abn2253
PubMed ID
37104592
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