Rate of de novo mutations and the importance of father’s age to disease risk

Kong, Augustine; Frigge, Michael L.; Másson, Gísli; Besenbacher, Søren; Sulem, Patrick; Magnússon, Gísli; Gudjonsson, Sigurjon A.; Sigurðsson, Ásgeir; Jónasdóttir, Áslaug; Jónasdóttir, Aðalbjörg; Wong, Wendy S. W.; Sigurðsson, Gunnar; Walters, G. Bragi; Steinberg, Stacy; Helgason, Hannes; Þorleifsson, Guðmar; Guðbjartsson, Daníel F.; Helgason, Agnar; Magnússon, Ólafur Þ.; Þorsteinsdóttir, Unnur; Stefánsson, Kāri

doi:10.1038/nature11396

Cited by 1,876 publications

(1,950 citation statements)

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“…20 In humans, the relevance of male mutation bias is particularly manifested in older fathers, whose offspring harbor more autosomal mutations than the offspring of younger fathers. 15,34 However, it is not clear whether the huge variation in paternal age at conception assumed by Mendez et al 2 is a reasonable assumption in modern human populations, let alone in ancient ones. For instance, even among developed nations, where age at conception is delayed, generation times ranges from 20 to 30 years 35 and stands at B25 in the US.…”

Section: Resultsmentioning

confidence: 99%

“…4,13,14 Instead, they derived a substitution rate for the Y chromosome (6.12 Â 10 À10 ) using autosomal mutation rates reported from an Icelandic data set of parent-offspring trios in which one child is either autistic or schizophrenic. 15 Interestingly, the authors even acknowledge that the TMRCA would have been much shorter had they used the Y-specific mutation rate in the literature. For example, Xue et al 13 sequenced approximately 10.15 Mb from two Y chromosomes of two European individuals separated by 13 generations and inferred a substitution rate of 1 Â 10 À9 substitutions per nucleotide per year, under the assumption that the generation time is 30 years.…”

Section: Resultsmentioning

confidence: 99%

“…For these analyses, Mendez et al 2 presumed that long-term substitution rates are equal to singlegeneration mutation rates as determined by Kong et al, 15 and assumed a complete lack of purifying or advantageous selection on the Y chromosome. Is this a reasonable assumption?…”

Section: Resultsmentioning

confidence: 99%

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The ‘extremely ancient’ chromosome that isn’t: a forensic bioinformatic investigation of Albert Perry’s X-degenerate portion of the Y chromosome

Elhaik

Tatarinova

Klyosov³

et al. 2014

Eur J Hum Genet

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Mendez and colleagues reported the identification of a Y chromosome haplotype (the A00 lineage) that lies at the basal position of the Y chromosome phylogenetic tree. Incorporating this haplotype, the authors estimated the time to the most recent common ancestor (TMRCA) for the Y tree to be 338 000 years ago (95% CI ¼ 237 000-581 000). Such an extraordinarily early estimate contradicts all previous estimates in the literature and is over a 100 000 years older than the earliest fossils of anatomically modern humans. This estimate raises two astonishing possibilities, either the novel Y chromosome was inherited after ancestral humans interbred with another species, or anatomically modern Homo sapiens emerged earlier than previously estimated and quickly became subdivided into genetically differentiated subpopulations. We demonstrate that the TMRCA estimate was reached through inadequate statistical and analytical methods, each of which contributed to its inflation. We show that the authors ignored previously inferred Y-specific rates of substitution, incorrectly derived the Y-specific substitution rate from autosomal mutation rates, and compared unequal lengths of the novel Y chromosome with the previously recognized basal lineage. Our analysis indicates that the A00 lineage was derived from all the other lineages 208 300 (95% CI ¼ 163 900-260 200) years ago.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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The ‘extremely ancient’ chromosome that isn’t: a forensic bioinformatic investigation of Albert Perry’s X-degenerate portion of the Y chromosome

Elhaik

Tatarinova

Klyosov³

et al. 2014

Eur J Hum Genet

View full text Add to dashboard Cite

show abstract

“…Sperm are produced throughout a man's life, whereas women are born with a full array of eggs. The constant division of sperm precursor cells means that men tend to pass on more new mutations to their offspring than women -four times as many, according to a 2012 estimate 4 -and older fathers transmit more mutations than young ones. This means that changes in the biology of sperm production or paternal age over evolutionary time could influence mutation rate.…”

Section: World's Whaling Slaughter Talliedmentioning

confidence: 99%

World’s whaling slaughter tallied

Cressey¹

2015

Nature

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“…Research investigations using Genome Wide Association Study (GWAS) (Network and Pathway Analysis Subgroup of the Psychiatric Genomics Consortium, 2015; Wood, 2013), exome‐based sequencing (Girard et al, 2011; Iossifov et al, 2012; O'Roak et al, 2011; Vissers et al, 2010; Xu et al, 2012), and whole genome sequencing (Kong et al, 2012) techniques have revealed several candidate genes that are associated with common neuropsychiatric disorders such as Autism Spectrum Disorder (ASD), intellectual disability, and schizophrenia. However, in the case of rare disorders, understanding the genetic origins and progressions of disorders—one of the key objectives of Precision Medicine research (Collins & Varmus, 2015; Kohane, 2015; Kohane, Churchill, & Murphy, 2012)—is hindered by small patient population size, the consequent paucity of patient data, and the lack of robust phenotyping protocols (Baynam et al, 2015; Delude, 2015; Robinson, Mungall, & Haendel, 2015).…”

Section: Introductionmentioning

confidence: 99%

Phelan‐McDermid syndrome data network: Integrating patient reported outcomes with clinical notes and curated genetic reports

Kothari

Wack

Hassen‐Khodja

et al. 2017

American J of Med Genetics Pt B

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The heterogeneity of patient phenotype data are an impediment to the research into the origins and progression of neuropsychiatric disorders. This difficulty is compounded in the case of rare disorders such as Phelan‐McDermid Syndrome (PMS) by the paucity of patient clinical data. PMS is a rare syndromic genetic cause of autism and intellectual deficiency. In this paper, we describe the Phelan‐McDermid Syndrome Data Network (PMS_DN), a platform that facilitates research into phenotype–genotype correlation and progression of PMS by: a) integrating knowledge of patient phenotypes extracted from Patient Reported Outcomes (PRO) data and clinical notes—two heterogeneous, underutilized sources of knowledge about patient phenotypes—with curated genetic information from the same patient cohort and b) making this integrated knowledge, along with a suite of statistical tools, available free of charge to authorized investigators on a Web portal https://pmsdn.hms.harvard.edu. PMS_DN is a Patient Centric Outcomes Research Initiative (PCORI) where patients and their families are involved in all aspects of the management of patient data in driving research into PMS. To foster collaborative research, PMS_DN also makes patient aggregates from this knowledge available to authorized investigators using distributed research networks such as the PCORnet PopMedNet. PMS_DN is hosted on a scalable cloud based environment and complies with all patient data privacy regulations. As of October 31, 2016, PMS_DN integrates high‐quality knowledge extracted from the clinical notes of 112 patients and curated genetic reports of 176 patients with preprocessed PRO data from 415 patients.

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Rate of de novo mutations and the importance of father’s age to disease risk

Cited by 1,876 publications

References 27 publications

The ‘extremely ancient’ chromosome that isn’t: a forensic bioinformatic investigation of Albert Perry’s X-degenerate portion of the Y chromosome

The ‘extremely ancient’ chromosome that isn’t: a forensic bioinformatic investigation of Albert Perry’s X-degenerate portion of the Y chromosome

World’s whaling slaughter tallied

Phelan‐McDermid syndrome data network: Integrating patient reported outcomes with clinical notes and curated genetic reports

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