Estimating F-statistics for the analysis of population structure.
Bruce S. Weir,C. Clark Cockerham +1 more
TLDR
The purpose of this discussion is to offer some unity to various estimation formulae and to point out that correlations of genes in structured populations, with which F-statistics are concerned, are expressed very conveniently with a set of parameters treated by Cockerham (1 969, 1973).Abstract:
This journal frequently contains papers that report values of F-statistics estimated from genetic data collected from several populations. These parameters, FST, FIT, and FIS, were introduced by Wright (1951), and offer a convenient means of summarizing population structure. While there is some disagreement about the interpretation of the quantities, there is considerably more disagreement on the method of evaluating them. Different authors make different assumptions about sample sizes or numbers of populations and handle the difficulties of multiple alleles and unequal sample sizes in different ways. Wright himself, for example, did not consider the effects of finite sample size. The purpose of this discussion is to offer some unity to various estimation formulae and to point out that correlations of genes in structured populations, with which F-statistics are concerned, are expressed very conveniently with a set of parameters treated by Cockerham (1 969, 1973). We start with the parameters and construct appropriate estimators for them, rather than beginning the discussion with various data functions. The extension of Cockerham's work to multiple alleles and loci will be made explicit, and the use of jackknife procedures for estimating variances will be advocated. All of this may be regarded as an extension of a recent treatment of estimating the coancestry coefficient to serve as a mea-read more
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Arlequin (version 3.0): An integrated software package for population genetics data analysis
TL;DR: Arlequin ver 3.0 as discussed by the authors is a software package integrating several basic and advanced methods for population genetics data analysis, like the computation of standard genetic diversity indices, the estimation of allele and haplotype frequencies, tests of departure from linkage equilibrium, departure from selective neutrality and demographic equilibrium, estimation or parameters from past population expansions, and thorough analyses of population subdivision under the AMOVA framework.
Journal ArticleDOI
Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data.
TL;DR: In this article, a framework for the study of molecular variation within a single species is presented, where information on DNA haplotype divergence is incorporated into an analysis of variance format, derived from a matrix of squared-distances among all pairs of haplotypes.
Journal Article
Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data.
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genepop'007: a complete re-implementation of the genepop software for Windows and Linux
TL;DR: This note summarizes developments of the genepop software since its first description in 1995, and in particular those new to version 4.0: an extended input format, several estimators of neighbourhood size under isolation by distance, new estimators and confidence intervals for null allele frequency, and less important extensions to previous options.
Journal ArticleDOI
A second generation human haplotype map of over 3.1 million SNPs
Kelly A. Frazer,Dennis G. Ballinger,David R. Cox,David A. Hinds,Laura L. Stuve,Richard A. Gibbs,John W. Belmont,Andrew Boudreau,Paul Hardenbol,Suzanne M. Leal,Shiran Pasternak,David A. Wheeler,Thomas D. Willis,Fuli Yu,Huanming Yang,Changqing Zeng,Gao Yang,H. B. Hu,Weitao Hu,Chaohua Li,Wei Lin,Siqi Liu,Hao Pan,Xiaoli Tang,Jian Wang,Wei Wang,Jun Yu,Bo Zhang,Qingrun Zhang,Hongbin Zhao,Hui Zhao,Jun Zhou,Stacey Gabriel,Rachel Barry,Brendan Blumenstiel,Amy L. Camargo,Matthew Defelice,Maura Faggart,Mary Goyette,Supriya Gupta,Jamie Moore,Huy Nguyen,Robert C. Onofrio,Melissa Parkin,Jessica Roy,Erich Stahl,Ellen Winchester,Liuda Ziaugra,David Altshuler,Yan Shen,Zhijian Yao,Wei Huang,Xun Chu,Yungang He,Li Jin,Yangfan Liu,Yayun Shen,Weiwei Sun,Haifeng Wang,Yi Wang,Ying Wang,Xiaoyan Xiong,Liang Xu,Mary M.Y. Waye,Stephen Kwok-Wing Tsui,Hong Xue,J. Tze Fei Wong,Luana Galver,Jian-Bing Fan,Kevin L. Gunderson,Sarah S. Murray,Arnold Oliphant,Mark S. Chee,Alexandre Montpetit,Fanny Chagnon,Vincent Ferretti,Martin Leboeuf,Jean François Olivier,Michael S. Phillips,Stéphanie Roumy,Clémentine Sallée,Andrei Verner,Thomas J. Hudson,Pui-Yan Kwok,Dongmei Cai,Daniel C. Koboldt,Raymond D. Miller,Ludmila Pawlikowska,Patricia Taillon-Miller,Ming Xiao,Lap-Chee Tsui,William Mak,Qiang Song You,Paul K.H. Tam,Yusuke Nakamura,Takahisa Kawaguchi,Takuya Kitamoto,Takashi Morizono,Atsushi Nagashima,Yozo Ohnishi,Akihiro Sekine,Toshihiro Tanaka,Tatsuhiko Tsunoda,Panos Deloukas,Christine P. Bird,Marcos Delgado,Emmanouil T. Dermitzakis,Rhian Gwilliam,Sarah E. Hunt,Jonathan J. Morrison,Don Powell,Barbara E. Stranger,Pamela Whittaker,David R. Bentley,Mark J. Daly,Paul I.W. de Bakker,Jeffrey C. Barrett,Yves Chretien,Julian Maller,Steve McCarroll,Nick Patterson,Itsik Pe'er,Alkes L. Price,Shaun Purcell,Daniel J. Richter,Pardis C. Sabeti,Richa Saxena,Stephen F. Schaffner,Pak C. Sham,Patrick Varilly,Lincoln Stein,Lalitha Krishnan,Albert V. Smith,Marcela K. Tello-Ruiz,Gudmundur A. Thorisson,Aravinda Chakravarti,Peter E. Chen,David J. Cutler,Carl S. Kashuk,Shin Lin,Gonçalo R. Abecasis,Weihua Guan,Yun Li,Heather M. Munro,Zhaohui S. Qin,Daryl J. Thomas,Gilean McVean,Adam Auton,Leonardo Bottolo,Niall Cardin,Susana Eyheramendy,Colin Freeman,Jonathan Marchini,Simon Myers,Chris C. A. Spencer,Matthew Stephens,Peter Donnelly,Lon R. Cardon,Geraldine M. Clarke,David M. Evans,Andrew P. Morris,Bruce S. Weir,Todd A. Johnson,James C. Mullikin,Stephen T. Sherry,Michael Feolo,Andrew D. Skol,Houcan Zhang,Ichiro Matsuda,Yoshimitsu Fukushima,Darryl Macer,Eiko Suda,Charles N. Rotimi,Clement Adebamowo,Ike Ajayi,Toyin Aniagwu,Patricia A. Marshall,Chibuzor Nkwodimmah,Charmaine D.M. Royal,Mark Leppert,Missy Dixon,Andy Peiffer,Renzong Qiu,Alastair Kent,Kazuto Kato,Norio Niikawa,Isaac F. Adewole,Bartha Maria Knoppers,Morris W. Foster,Ellen Wright Clayton,Jessica Watkin,Donna M. Muzny,Lynne V. Nazareth,Erica Sodergren,George M. Weinstock,Imtaz Yakub,Bruce W. Birren,Richard K. Wilson,Lucinda Fulton,Jane Rogers,John Burton,Nigel P. Carter,C M Clee,Mark Griffiths,Matthew C. Jones,Kirsten McLay,Robert W. Plumb,Mark T. Ross,Sarah Sims,David Willey,Zhu Chen,Hua Han,Le Kang,Martin Godbout,John C. Wallenburg,Paul L'Archevêque,Guy Bellemare,Koji Saeki,Hongguang Wang,Daochang An,Hongbo Fu,Qing Li,Zhen Wang,Renwu Wang,Arthur L. Holden,Lisa D. Brooks,Jean E. McEwen,Mark S. Guyer,Vivian Ota Wang,Jane Peterson,Michael Shi,Jack Spiegel,Lawrence M. Sung,Lynn F. Zacharia,Francis S. Collins,Karen Kennedy,Ruth Jamieson,John Stewart +237 more
TL;DR: The Phase II HapMap is described, which characterizes over 3.1 million human single nucleotide polymorphisms genotyped in 270 individuals from four geographically diverse populations and includes 25–35% of common SNP variation in the populations surveyed, and increased differentiation at non-synonymous, compared to synonymous, SNPs is demonstrated.
References
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Journal ArticleDOI
Microspatial genetic heterogeneity in pocket gophers: non-random breeding and drift.
James L. Patton,Juliana H. Feder +1 more
TL;DR: In order to further understand both the extent and controlling factors of among population heterogeneity, the genetic structure of pocket gopher (Thomomys bottae) populations has been examined in detail at Hastings Natural History Reservation, Carmel Valley, California, using electrophoretic techniques.
Journal ArticleDOI
Genetic variation and differentiation in scandinavian moose (alces alces): are large mammals monomorphic?
TL;DR: With the notable exceptions of man and white-tailed deer, low levels of heterozygosity have actually been observed in large animals, e.g., alligator, alligator mississippiensis, black bear Revised March 27, 1980.
Journal ArticleDOI
Drift variances of FSTand GST statistics obtained from a finite number of isolated populations
TL;DR: Computer simulation has shown that even under pure random genetic drift, Lewontin and Krakauer's test of selective neutrality of polymorphic genes in terms of FST is not always valid, and it is shown that Jacquard's approximate formula for k generally gives an overestimate.
Journal ArticleDOI
Patterns and levels of genetic variation in great basin bristlecone pine, pinus longaeva.
Ronald D. Hiebert,J. L. Hamrick +1 more
TL;DR: Electrophoretically detectable genetic variation within plant species appears to be influenced by geographic range, lifetime fecundity, mode of reproduction and pollination, generation length, and the stage of community succession in which a species occurs.
Journal ArticleDOI
Allozyme frequencies in a linear series of song dialect populations.
TL;DR: From allozyme frequency data from four dialect populations occurring in a linear sequence along the central California coast, the nature and extent of genetic differentiate within and among the four song dialect populations are described to test the hypothesis of genetic differentiation of dialects.
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