Germline Selection Shapes Human Mitochondrial DNA Diversity

Overview

Journal Science

Specialty Science

Date 2019 May 25

PMID 31123110

Citations 112

Authors

Wei Wei

Salih Tuna

Michael J Keogh

Katherine R Smith

Timothy J Aitman

Phil L Beales

David L Bennett

Daniel P Gale

Maria A K Bitner-Glindzicz

Graeme C Black

Paul Brennan

Perry Elliott

Frances A Flinter

R Andres Floto

Henry Houlden

Melita Irving

Ania Koziell

Eamonn R Maher

Hugh S Markus

Nicholas W Morrell

William G Newman

Irene Roberts

John A Sayer

Kenneth G C Smith

Jenny C Taylor

Hugh Watkins

Andrew R Webster

Andrew O M Wilkie

Catherine Williamson

Sofie Ashford

Christopher J Penkett

Kathleen E Stirrups

Augusto Rendon

Willem H Ouwehand

John R Bradley

F Lucy Raymond

Mark Caulfield

Ernest Turro

Patrick F Chinnery

Affiliations

Soon will be listed here.

Abstract

Approximately 2.4% of the human mitochondrial DNA (mtDNA) genome exhibits common homoplasmic genetic variation. We analyzed 12,975 whole-genome sequences to show that 45.1% of individuals from 1526 mother-offspring pairs harbor a mixed population of mtDNA (heteroplasmy), but the propensity for maternal transmission differs across the mitochondrial genome. Over one generation, we observed selection both for and against variants in specific genomic regions; known variants were more likely to be transmitted than previously unknown variants. However, new heteroplasmies were more likely to match the nuclear genetic ancestry as opposed to the ancestry of the mitochondrial genome on which the mutations occurred, validating our findings in 40,325 individuals. Thus, human mtDNA at the population level is shaped by selective forces within the female germ line under nuclear genetic control, which ensures consistency between the two independent genetic lineages.

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