2019
DOI: 10.1016/j.tig.2019.08.005
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De Novo Mutations Reflect Development and Aging of the Human Germline

Abstract: Human germline de novo mutations (DNMs) are both a driver of evolution and an important cause of genetic diseases. In the past few years, whole-genome sequencing (WGS) of parentoffspring trios has facilitated the large-scale detection and study of human DNMs, which has led to exciting discoveries. The overarching theme of all of these studies is that the DNMs of an individual are a complex mixture of mutations that arise through different biological processes acting at different times during human development … Show more

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Cited by 97 publications
(93 citation statements)
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“…In particular, a recent review argued that germline mutations are replicative in origin and hence track cell divisions but that the rate of SSC divisions is much lower than previously believed [45]. Although plausible [45,46], this explanation alone would not explain our findings: If mutations were due to replication errors and if rates of SSC divisions were very low, then without making further assumptions, we would expect human and baboon paternal mutation rates per generation to be highly similar, when they are not. In turn, the approximately 2-fold lower mutation rate observed in baboon compared with human females could be explained if there are fewer rounds of DNA replication in baboons than humans (or greater replication fidelity).…”
Section: Implications For the Genesis Of Mutationmentioning
confidence: 97%
“…In particular, a recent review argued that germline mutations are replicative in origin and hence track cell divisions but that the rate of SSC divisions is much lower than previously believed [45]. Although plausible [45,46], this explanation alone would not explain our findings: If mutations were due to replication errors and if rates of SSC divisions were very low, then without making further assumptions, we would expect human and baboon paternal mutation rates per generation to be highly similar, when they are not. In turn, the approximately 2-fold lower mutation rate observed in baboon compared with human females could be explained if there are fewer rounds of DNA replication in baboons than humans (or greater replication fidelity).…”
Section: Implications For the Genesis Of Mutationmentioning
confidence: 97%
“…Human germline de novo mutations are both a driver of evolution and an important cause of genetic disease (Goldmann et al 2019 ; Veltman and Brunner 2012 ; Acuna-Hidalgo et al 2016 ). Indeed, whole-genome studies have suggested that de novo mutations may be responsible for a considerable proportion of congenital or early-onset neurodevelopmental disorders, including autism spectrum disorder, epilepsy and intellectual disability/developmental delay (Neale et al 2012 ; Iossifov et al 2014 ; Hamdan et al 2017 ).…”
Section: De Novo Mutationsmentioning
confidence: 99%
“…24 De novo variants are an important reason of early-onset genetic disease such as CHD, hearing loss. 37 The identified NOTCH1 variant was found to be novel de novo which not reported on 1000…”
Section: Discussionmentioning
confidence: 93%