Forensic genetics through the lens of Lewontin: population structure, ancestry and race

Jobling, Mark A.

doi:10.1098/rstb.2020.0422

Cited by 7 publications

(8 citation statements)

References 72 publications

(107 reference statements)

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“…AMOVA revealed that most of the variance (97.12%) in allele frequencies occurred within populations, corroborating previous studies [ 44 , 45 ]. A study that evaluated human population structure using genotypes at 377 autosomal microsatellite loci in 1056 individuals from 52 worldwide populations revealed that the variance within populations accounts for 93 to 95% of genetic variation, while differences among major groups constitute only 3 to 5% [ 45 , 46 ]. Although the number of populations and genetic markers are quite different, the larger amount of variance within populations and lower variance among groups observed in the present study may be either due to chance or to the fact that forensic STRs do show relatively lower F ST than random STRs due to the increased heterozygosity of the former [ 46 ].…”

Section: Discussionmentioning

confidence: 99%

Open-Access Worldwide Population STR Database Constructed Using High-Coverage Massively Parallel Sequencing Data Obtained from the 1000 Genomes Project

Frontanilla

Valle-Silva

Ayala

et al. 2022

Genes

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Achieving accurate STR genotyping by using next-generation sequencing data has been challenging. To provide the forensic genetics community with a reliable open-access STR database, we conducted a comprehensive genotyping analysis of a set of STRs of broad forensic interest obtained from 1000 Genome populations. We analyzed 22 STR markers using files of the high-coverage dataset of Phase 3 of the 1000 Genomes Project. We used HipSTR to call genotypes from 2504 samples obtained from 26 populations. We were not able to detect the D21S11 marker. The Hardy-Weinberg equilibrium analysis coupled with a comprehensive analysis of allele frequencies revealed that HipSTR was not able to identify longer alleles, which resulted in heterozygote deficiency. Nevertheless, AMOVA, a clustering analysis that uses STRUCTURE, and a Principal Coordinates Analysis showed a clear-cut separation between the four major ancestries sampled by the 1000 Genomes Consortium. Except for larger Penta D and Penta E alleles, and two very small Penta D alleles (2.2 and 3.2) usually observed in African populations, our analyses revealed that allele frequencies and genotypes offered as an open-access database are consistent and reliable.

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Section: Discussionmentioning

confidence: 99%

Open-Access Worldwide Population STR Database Constructed Using High-Coverage Massively Parallel Sequencing Data Obtained from the 1000 Genomes Project

Frontanilla

Valle-Silva

Ayala

et al. 2022

Genes

View full text Add to dashboard Cite

show abstract

“…Jobling [27] discusses forensic genetics, an important societal application of population-genetic ideas. Although allele-frequency differences among human populations tend to be small, Lewontin forcefully pointed out that they nonetheless introduce complications when one is trying to quantify the strength of evidence provided by a genetic match between a suspect and a crime-scene sample.…”

Section: (C) Practical Problems In Human Geneticsmentioning

confidence: 99%

“…[28,29]). As discussed by Novembre [2], Lewontin's paper [1] has been referenced beyond the field of human evolutionary genetics as supporting an oversimplified view of human variation, in which population structure is completely ignored even in situations in which it might be relevant, such as matching problems in forensics or transplantation, where population variation in match probabilities affects the societal use of population-genetic computations [27,29].…”

Section: Lewontin's 1972 Paper: a Celebrationmentioning

confidence: 99%

Celebrating 50 years since Lewontin's apportionment of human diversity

Edge

Ramachandran

Rosenberg

2022

Phil. Trans. R. Soc. B

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“…Because the typical person has many distant cousins, even a database that includes only a small fraction of the population (≈2%) will include genetically detectable cousins of the majority of the population (Erlich, Shor, Pe'er, Phenotype predictions in forensic contexts, termed forensic DNA phenotyping (FDP), have been explored in the academic literature (Walsh et al, 2013;Claes et al, 2014;Kayser, 2015;Chaitanya et al, 2018;Schneider, Prainsack, & Kayser, 2019) and are currently marketed to law enforcement (Wienroth, 2018). Forensic interest in phenotype prediction focuses on so-called externally visible traits (EVTs), which might be perceived by a witness (Jobling, 2022). Sex, predicted from sex chromosome karyotype, has been used in this way for some time (Sullivan, Mannucci, & P, 1993), notwithstanding some errors resulting from imperfect matches between sex chromosome karyotype and sex, or between sex and gender identity or presentation.…”

Section: Blair Underwoodmentioning

confidence: 99%

“…Although coarse pigmentation prediction (e.g., classifying blue vs. brown eyes, but not green vs. hazel) can be reasonably accurate for eyes, hair, and skin, at least in some groups (excluding possibilities such as dyed hair, colored contact lenses, greying of hair with age, etc. ), predictive performance on most facial traits is not accurate enough for reliable face reconstruction (Schneider et al, 2019;Jobling, 2022). For some facial phenotypes, predictive accuracy is limited in principle by moderate heritability under current conditions (Šešelj, Duren, & Sherwood, 2015;Cole et al, 2017;Tsagkrasoulis, Hysi, Spector, & Montana, 2017).…”

Section: Blair Underwoodmentioning

confidence: 99%

GATTACA AS A LENS ON CONTEMPORARY GENETICS Marking 25 years into the film’s “not-too-distant” future

Ogbunugafor¹,

Edge²

2022

Preprint

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The 1997 film Gattaca has emerged as a canonical pop culture reference used to discuss modern contro-versies in genetics and bioethics. It appeared in theaters a few years prior to the announcement of the“completion” of the human genome (2000), as the science of human genetics was developing a renewedsense of its social implications. The story is set in a near-future world in which parents can, with tech-nological assistance, influence the genetic composition of their offspring on the basis of predicted lifeoutcomes. This moment—25 years after the film’s release—offers an opportunity to reflect on where so-ciety currently stands with respect to the ideas explored in Gattaca. Here, we review and discuss severalactive areas of genetic research—genetic prediction, embryo selection, forensic genetics, and others–thatinterface directly with scenes and concepts in the film. On its silver anniversary, we argue that Gattacaremains an important reflection of society’s expectations and fears with respect to the ways that geneticscience has manifested in the real world. In an accompanying appendix, we offer some thought questionsto guide group discussions inside and outside of the classroom.

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Forensic genetics through the lens of Lewontin: population structure, ancestry and race

Cited by 7 publications

References 72 publications

Open-Access Worldwide Population STR Database Constructed Using High-Coverage Massively Parallel Sequencing Data Obtained from the 1000 Genomes Project

Open-Access Worldwide Population STR Database Constructed Using High-Coverage Massively Parallel Sequencing Data Obtained from the 1000 Genomes Project

Celebrating 50 years since Lewontin's apportionment of human diversity

GATTACA AS A LENS ON CONTEMPORARY GENETICS Marking 25 years into the film’s “not-too-distant” future

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