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| Statistiques F (FST)× | Analyse d'admixture× | Théorie coalescente× | |
|---|---|---|---|
| Domaine | Génétique | Génétique | Génétique |
| Famille | Process / pipeline | Process / pipeline | Process / pipeline |
| Année d'origine≠ | 1951 | 2009 | 1982 |
| Auteur d'origine≠ | Sewall Wright | David Alexander & Jonathan Novembre | John Kingman |
| Type≠ | Population differentiation measure | Clustering and inference method | Stochastic process model |
| Source fondatrice≠ | Wright, S. (1951). The genetical structure of populations. Annals of Eugenics, 15(4), 323–354. DOI ↗ | Alexander, D. H., Novembre, J., & Lange, K. (2009). Fast model-based estimation of ancestry in unrelated individuals. Genome Research, 19(9), 1655–1664. DOI ↗ | Kingman, J. F. C. (1982). The coalescent. Stochastic Processes and their Applications, 13(3), 235–248. DOI ↗ |
| Alias≠ | FST, Wright's F-statistics, Population differentiation index | Population structure inference, Ancestry analysis, ADMIXTURE | Kingman Coalescent, n-coalescent |
| Apparentées | 4 | 4 | 4 |
| Résumé≠ | F-statistics are a family of measures developed by Sewall Wright to quantify population genetic structure and the degree of genetic differentiation between populations. FST, the most widely used F-statistic, measures the proportion of total genetic variation attributable to differences between populations versus within populations. FST ranges from zero (no differentiation) to one (complete differentiation). These statistics have become fundamental tools for understanding population structure, detecting population admixture, and analyzing the evolutionary forces shaping genetic variation. | Admixture analysis is a population genetics method that infers population structure and individual ancestry from multilocus genotype data. Originally developed by Pritchard, Stephens, and Donnelly (2000) and refined by Alexander, Novembre, and Lange (2009), admixture analysis reveals how genetic variation is distributed among populations and estimates the ancestry fractions of admixed individuals. This technique is essential for understanding human evolutionary history, detecting population stratification in genetic studies, and inferring individual ancestry. | Coalescent theory is a probabilistic framework that traces the genealogical history of DNA sequences backward in time to their most recent common ancestor. Developed by John Kingman in 1982, this method forms the foundation of modern population genetics, enabling researchers to understand demographic events, estimate genetic parameters, and reconstruct evolutionary histories from modern genetic data. |
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