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821 results on '"Slatkin, Montgomery"'

1. Estimation of coalescence probabilities and population divergence times from SNP data

Author

Mualim, Kristy, Theunert, Christoph, and Slatkin, Montgomery

Subjects
Biological Sciences, Genetics, Human Genome, Alleles, Animals, Humans, Neanderthals, Population Density, Probability, Evolutionary Biology, Evolutionary biology
Abstract

We present a method called the G(A|B) method for estimating coalescence probabilities within population lineages from genome sequences when one individual is sampled from each population. Population divergence times can be estimated from these coalescence probabilities if additional assumptions about the history of population sizes are made. Our method is based on a method presented by Rasmussen et al. (2014) to test whether an archaic genome is from a population directly ancestral to a present-day population. The G(A|B) method does not require distinguishing ancestral from derived alleles or assumptions about demographic history before population divergence. We discuss the relationship of our method to two similar methods, one introduced by Green et al. (2010) and called the F(A|B) method and the other introduced by Schlebusch et al. (2017) and called the TT method. When our method is applied to individuals from three or more populations, it provides a test of whether the population history is treelike because coalescence probabilities are additive on a tree. We illustrate the use of our method by applying it to three high-coverage archaic genomes, two Neanderthals (Vindija and Altai) and a Denisovan.

Published
2021

2. Transcontinental dispersal of Anopheles gambiae occurred from West African origin via serial founder events

Author

Schmidt, Hanno, Lee, Yoosook, Collier, Travis C, Hanemaaijer, Mark J, Kirstein, Oscar D, Ouledi, Ahmed, Muleba, Mbanga, Norris, Douglas E, Slatkin, Montgomery, Cornel, Anthony J, and Lanzaro, Gregory C

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Infectious Diseases, Rare Diseases, Malaria, Prevention, Vector-Borne Diseases, Prevention of disease and conditions, and promotion of well-being, 3.2 Interventions to alter physical and biological environmental risks, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Africa, Eastern, Africa, Western, Animals, Anopheles, Founder Effect, Genetics, Population, Geography, Mosquito Vectors, Population Density, Population Dynamics, 2.2 Factors relating to physical environment, Ecological genetics, Population genetics, Biological sciences, Biomedical and clinical sciences
Abstract

The mosquito Anopheles gambiae s.s. is distributed across most of sub-Saharan Africa and is of major scientific and public health interest for being an African malaria vector. Here we present population genomic analyses of 111 specimens sampled from west to east Africa, including the first whole genome sequences from oceanic islands, the Comoros. Genetic distances between populations of A. gambiae are discordant with geographic distances but are consistent with a stepwise migration scenario in which the species increases its range from west to east Africa through consecutive founder events over the last ~200,000 years. Geological barriers like the Congo River basin and the East African rift seem to play an important role in shaping this process. Moreover, we find a high degree of genetic isolation of populations on the Comoros, confirming the potential of these islands as candidate sites for potential field trials of genetically engineered mosquitoes for malaria control.

Published
2019

3. FST between archaic and present-day samples

Author

Ortega-Del Vecchyo, Diego and Slatkin, Montgomery

Subjects
Biological Sciences, Ecology, Genetics, DNA, Ancient, Fossils, Genetics, Population, Genome, History, Ancient, Models, Genetic, Evolutionary Biology, Evolutionary biology
Abstract

The increasing abundance of DNA sequences obtained from fossils calls for new population genetics theory that takes account of both the temporal and spatial separation of samples. Here, we exploit the relationship between Wright's FST and average coalescence times to develop an analytic theory describing how FST depends on both the distance and time separating pairs of sampled genomes. We apply this theory to several simple models of population history. If there is a time series of samples, partial population replacement creates a discontinuity in pairwise FST values. The magnitude of the discontinuity depends on the extent of replacement. In stepping-stone models, pairwise FST values between archaic and present-day samples reflect both the spatial and temporal separation. At long distances, an isolation by distance pattern dominates. At short distances, the time separation dominates. Analytic predictions fit patterns generated by simulations. We illustrate our results with applications to archaic samples from European human populations. We compare present-day samples with a pair of archaic samples taken before and after a replacement event.

Published
2019

4. Genome-wide divergence among invasive populations of Aedes aegypti in California.

Author

Lee, Yoosook, Schmidt, Hanno, Collier, Travis C, Conner, William R, Hanemaaijer, Mark J, Slatkin, Montgomery, Marshall, John M, Chiu, Joanna C, Smartt, Chelsea T, Lanzaro, Gregory C, Mulligan, F Steve, and Cornel, Anthony J

Subjects
Animals, Aedes, Genetics, Population, Evolution, Molecular, Phylogeny, California, Genome, Insect, Genetic Variation, Metagenomics, Introduced Species, Phylogeography, Genome Size, Mosquito Vectors, Whole Genome Sequencing, Aedes aegypti, Invasive species, Population genomics, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics
Abstract

BackgroundIn the summer of 2013, Aedes aegypti Linnaeus was first detected in three cities in central California (Clovis, Madera and Menlo Park). It has now been detected in multiple locations in central and southern CA as far south as San Diego and Imperial Counties. A number of published reports suggest that CA populations have been established from multiple independent introductions.ResultsHere we report the first population genomics analyses of Ae. aegypti based on individual, field collected whole genome sequences. We analyzed 46 Ae. aegypti genomes to establish genetic relationships among populations from sites in California, Florida and South Africa. Based on 4.65 million high quality biallelic SNPs, we identified 3 major genetic clusters within California; one that includes all sample sites in the southern part of the state (South of Tehachapi mountain range) plus the town of Exeter in central California and two additional clusters in central California.ConclusionsA lack of concordance between mitochondrial and nuclear genealogies suggests that the three founding populations were polymorphic for two main mitochondrial haplotypes prior to being introduced to California. One of these has been lost in the Clovis populations, possibly by a founder effect. Genome-wide comparisons indicate extensive differentiation between genetic clusters. Our observations support recent introductions of Ae. aegypti into California from multiple, genetically diverged source populations. Our data reveal signs of hybridization among diverged populations within CA. Genetic markers identified in this study will be of great value in pursuing classical population genetic studies which require larger sample sizes.

Published
2019

6. Partial genomic survival of cave bears in living brown bears

Author

Barlow, Axel, Cahill, James A, Hartmann, Stefanie, Theunert, Christoph, Xenikoudakis, Georgios, Fortes, Gloria G, Paijmans, Johanna LA, Rabeder, Gernot, Frischauf, Christine, Grandal-d’Anglade, Aurora, García-Vázquez, Ana, Murtskhvaladze, Marine, Saarma, Urmas, Anijalg, Peeter, Skrbinšek, Tomaž, Bertorelle, Giorgio, Gasparian, Boris, Bar-Oz, Guy, Pinhasi, Ron, Slatkin, Montgomery, Dalén, Love, Shapiro, Beth, and Hofreiter, Michael

Subjects
Biological Sciences, Ecology, Genetics, Human Genome, Animals, Extinction, Biological, Gene Flow, Genomics, Hybridization, Genetic, Ursidae, Evolutionary biology, Environmental management
Abstract

Although many large mammal species went extinct at the end of the Pleistocene epoch, their DNA may persist due to past episodes of interspecies admixture. However, direct empirical evidence of the persistence of ancient alleles remains scarce. Here, we present multifold coverage genomic data from four Late Pleistocene cave bears (Ursus spelaeus complex) and show that cave bears hybridized with brown bears (Ursus arctos) during the Pleistocene. We develop an approach to assess both the directionality and relative timing of gene flow. We find that segments of cave bear DNA still persist in the genomes of living brown bears, with cave bears contributing 0.9 to 2.4% of the genomes of all brown bears investigated. Our results show that even though extinction is typically considered as absolute, following admixture, fragments of the gene pool of extinct species can survive for tens of thousands of years in the genomes of extant recipient species.

Published
2018

7. Excess of genomic defects in a woolly mammoth on Wrangel island

Author

Rogers, Rebekah L. and Slatkin, Montgomery

Subjects
Quantitative Biology - Populations and Evolution, Quantitative Biology - Genomics
Abstract

Woolly mammoths (Mammuthus primigenius) populated Siberia, Beringia, and North America during the Pleistocene and early Holocene. Recent breakthroughs in ancient DNA sequencing have allowed for complete genome sequencing for two specimens of woolly mammoths (Palkopoulou et al. 2015). One mammoth specimen is from a mainland population ~45,000 years ago when mammoths were plentiful. The second, a 4300 yr old specimen, is derived from an isolated population on Wrangel island where mammoths subsisted with small effective population size more than 43-fold lower than previous populations. These extreme differences in effective population size offer a rare opportunity to test nearly neutral models of genome architecture evolution within a single species. Using these previously published mammoth sequences, we identify deletions, retrogenes, and non-functionalizing point mutations. In the Wrangel island mammoth, we identify a greater number of deletions, a larger proportion of deletions affecting gene sequences, a greater number of candidate retrogenes, and an increased number of premature stop codons. This accumulation of detrimental mutations is consistent with genomic meltdown in response to low effective population sizes in the dwindling mammoth population on Wrangel island. In addition, we observe high rates of loss of olfactory receptors and urinary proteins, either because these loci are non-essential or because they were favored by divergent selective pressures in island environments. Finally, at the locus of FOXQ1 we observe two independent loss-of-function mutations, which would confer a satin coat phenotype in this island woolly mammoth., Comment: 43 pages, 2 main figures, 7 supplementary figures, 2 main tables, 10 supplementary tables

Published
2016

8. Bayesian inference of natural selection from allele frequency time series

Author

Schraiber, Joshua G., Evans, Steven N., and Slatkin, Montgomery

Subjects
Quantitative Biology - Populations and Evolution, Mathematics - Statistics Theory
Abstract

The advent of accessible ancient DNA technology now allows the direct ascertainment of allele frequencies in ancestral populations, thereby enabling the use of allele frequency time series to detect and estimate natural selection. Such direct observations of allele frequency dynamics are expected to be more powerful than inferences made using patterns of linked neutral variation obtained from modern individuals. We develop a Bayesian method to make use of allele frequency time series data and infer the parameters of general diploid selection, along with allele age, in non-equilibrium populations. We introduce a novel path augmentation approach, in which we use Markov chain Monte Carlo to integrate over the space of allele frequency trajectories consistent with the observed data. Using simulations, we show that this approach has good power to estimate selection coefficients and allele age. Moreover, when applying our approach to data on horse coat color, we find that ignoring a relevant demographic history can significantly bias the results of inference. Our approach is made available in a C++ software package., Comment: 27 pages

Published
2016

9. Statistical methods for analyzing ancient DNA from hominins

Author

Slatkin, Montgomery

Subjects
Biological Sciences, Genetics, Generic health relevance, Animals, DNA, Ancient, DNA, Mitochondrial, Fossils, Genetics, Population, Genome, Hominidae, Humans, Neanderthals, Developmental Biology, Biochemistry and cell biology
Abstract

In the past few years, the number of autosomal DNA sequences from human fossils has grown explosively and numerous partial or complete sequences are available from our closest relatives, Neanderthal and Denisovans. I review commonly used statistical methods applied to these sequences. These methods fall into three broad classes: methods for estimating levels of contamination, descriptive methods, and methods based on population genetic models. The latter two classes are largely methods developed for the analysis of present-day genomic data. When they are applied to ancient DNA (aDNA), they usually ignore the time dimension. A few methods, particularly those concerned with inferring something about selection or ancestor-descendant relationships, take explicit account of the ages of aDNA samples.

Published
2016

10. Ancient DNA and human history

Author

Slatkin, Montgomery and Racimo, Fernando

Subjects
Biological Sciences, Genetics, History, Heritage and Archaeology, Human Society, Archaeology, Anthropology, Human Genome, Generic health relevance, Animals, DNA Contamination, DNA, Ancient, Fossils, Genome, Hominidae, Humans, human history, Neanderthal, Denisovan, ancient DNA, demography
Abstract

We review studies of genomic data obtained by sequencing hominin fossils with particular emphasis on the unique information that ancient DNA (aDNA) can provide about the demographic history of humans and our closest relatives. We concentrate on nuclear genomic sequences that have been published in the past few years. In many cases, particularly in the Arctic, the Americas, and Europe, aDNA has revealed historical demographic patterns in a way that could not be resolved by analyzing present-day genomes alone. Ancient DNA from archaic hominins has revealed a rich history of admixture between early modern humans, Neanderthals, and Denisovans, and has allowed us to disentangle complex selective processes. Information from aDNA studies is nowhere near saturation, and we believe that future aDNA sequences will continue to change our understanding of hominin history.

Published
2016

11. Bayesian Inference of Natural Selection from Allele Frequency Time Series

Author

Schraiber, Joshua G, Evans, Steven N, and Slatkin, Montgomery

Subjects
Biological Sciences, Genetics, Animals, Bayes Theorem, Diploidy, Gene Frequency, Horses, Models, Genetic, Selection, Genetic, Skin Pigmentation, Software, Bayesian inference, diffusion theory, natural selection, path augmentation, q-bio.PE, math.ST, stat.TH, Developmental Biology, Biochemistry and cell biology
Abstract

The advent of accessible ancient DNA technology now allows the direct ascertainment of allele frequencies in ancestral populations, thereby enabling the use of allele frequency time series to detect and estimate natural selection. Such direct observations of allele frequency dynamics are expected to be more powerful than inferences made using patterns of linked neutral variation obtained from modern individuals. We developed a Bayesian method to make use of allele frequency time series data and infer the parameters of general diploid selection, along with allele age, in nonequilibrium populations. We introduce a novel path augmentation approach, in which we use Markov chain Monte Carlo to integrate over the space of allele frequency trajectories consistent with the observed data. Using simulations, we show that this approach has good power to estimate selection coefficients and allele age. Moreover, when applying our approach to data on horse coat color, we find that ignoring a relevant demographic history can significantly bias the results of inference. Our approach is made available in a C++ software package.

Published
2016

12. Using Ancient Samples in Projection Analysis

Author

Yang, Melinda A and Slatkin, Montgomery

Subjects
Human Genome, Genetics, Computer Simulation, Datasets as Topic, Demography, Genetics, Population, Genome, Human, Genomics, Humans, Models, Genetic, projection, human population genetics, human demography, ancient genomes
Abstract

Projection analysis is a tool that extracts information from the joint allele frequency spectrum to better understand the relationship between two populations. In projection analysis, a test genome is compared to a set of genomes from a reference population. The projection's shape depends on the historical relationship of the test genome's population to the reference population. Here, we explore in greater depth the effects on the projection when ancient samples are included in the analysis. First, we conduct a series of simulations in which the ancient sample is directly ancestral to a present-day population (one-population model), or the ancient sample is ancestral to a sister population that diverged before the time of sampling (two-population model). We find that there are characteristic differences between the projections for the one-population and two-population models, which indicate that the projection can be used to determine whether a test genome is directly ancestral to a present-day population or not. Second, we compute projections for several published ancient genomes. We compare two Neanderthals and three ancient human genomes to European, Han Chinese and Yoruba reference panels. We use a previously constructed demographic model and insert these five ancient genomes to assess how well the observed projections are recovered.

Published
2016

13. Tracking the origins of Yakutian horses and the genetic basis for their fast adaptation to subarctic environments

Author

Librado, Pablo, Der Sarkissian, Clio, Ermini, Luca, Schubert, Mikkel, Jónsson, Hákon, Albrechtsen, Anders, Fumagalli, Matteo, Yang, Melinda A, Gamba, Cristina, Seguin-Orlando, Andaine, Mortensen, Cecilie D, Petersen, Bent, Hoover, Cindi A, Lorente-Galdos, Belen, Nedoluzhko, Artem, Boulygina, Eugenia, Tsygankova, Svetlana, Neuditschko, Markus, Jagannathan, Vidhya, Thèves, Catherine, Alfarhan, Ahmed H, Alquraishi, Saleh A, Al-Rasheid, Khaled AS, Sicheritz-Ponten, Thomas, Popov, Ruslan, Grigoriev, Semyon, Alekseev, Anatoly N, Rubin, Edward M, McCue, Molly, Rieder, Stefan, Leeb, Tosso, Tikhonov, Alexei, Crubézy, Eric, Slatkin, Montgomery, Marques-Bonet, Tomas, Nielsen, Rasmus, Willerslev, Eske, Kantanen, Juha, Prokhortchouk, Egor, and Orlando, Ludovic

Subjects
Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Adaptation, Physiological, Animals, Arctic Regions, Cold Temperature, Evolution, Molecular, Genome, Horses, Siberia, ancient genomics, adaptation, population discontinuity, regulatory changes, horse
Abstract

Yakutia, Sakha Republic, in the Siberian Far East, represents one of the coldest places on Earth, with winter record temperatures dropping below -70 °C. Nevertheless, Yakutian horses survive all year round in the open air due to striking phenotypic adaptations, including compact body conformations, extremely hairy winter coats, and acute seasonal differences in metabolic activities. The evolutionary origins of Yakutian horses and the genetic basis of their adaptations remain, however, contentious. Here, we present the complete genomes of nine present-day Yakutian horses and two ancient specimens dating from the early 19th century and ∼5,200 y ago. By comparing these genomes with the genomes of two Late Pleistocene, 27 domesticated, and three wild Przewalski's horses, we find that contemporary Yakutian horses do not descend from the native horses that populated the region until the mid-Holocene, but were most likely introduced following the migration of the Yakut people a few centuries ago. Thus, they represent one of the fastest cases of adaptation to the extreme temperatures of the Arctic. We find cis-regulatory mutations to have contributed more than nonsynonymous changes to their adaptation, likely due to the comparatively limited standing variation within gene bodies at the time the population was founded. Genes involved in hair development, body size, and metabolic and hormone signaling pathways represent an essential part of the Yakutian horse adaptive genetic toolkit. Finally, we find evidence for convergent evolution with native human populations and woolly mammoths, suggesting that only a few evolutionary strategies are compatible with survival in extremely cold environments.

Published
2015

14. Ancient human genomes suggest three ancestral populations for present-day Europeans

Author

Lazaridis, Iosif, Patterson, Nick, Mittnik, Alissa, Renaud, Gabriel, Mallick, Swapan, Kirsanow, Karola, Sudmant, Peter H., Schraiber, Joshua G., Castellano, Sergi, Lipson, Mark, Berger, Bonnie, Economou, Christos, Bollongino, Ruth, Fu, Qiaomei, Bos, Kirsten I., Nordenfelt, Susanne, Li, Heng, de Filippo, Cesare, Prüfer, Kay, Sawyer, Susanna, Posth, Cosimo, Haak, Wolfgang, Hallgren, Fredrik, Fornander, Elin, Rohland, Nadin, Delsate, Dominique, Francken, Michael, Guinet, Jean-Michel, Wahl, Joachim, Ayodo, George, Babiker, Hamza A., Bailliet, Graciela, Balanovska, Elena, Balanovsky, Oleg, Barrantes, Ramiro, Bedoya, Gabriel, Ben-Ami, Haim, Bene, Judit, Berrada, Fouad, Bravi, Claudio M., Brisighelli, Francesca, Busby, George, Cali, Francesco, Churnosov, Mikhail, Cole, David E. C., Corach, Daniel, Damba, Larissa, van Driem, George, Dryomov, Stanislav, Dugoujon, Jean-Michel, Fedorova, Sardana A., Romero, Irene Gallego, Gubina, Marina, Hammer, Michael, Henn, Brenna, Hervig, Tor, Hodoglugil, Ugur, Jha, Aashish R., Karachanak-Yankova, Sena, Khusainova, Rita, Khusnutdinova, Elza, Kittles, Rick, Kivisild, Toomas, Klitz, William, Kučinskas, Vaidutis, Kushniarevich, Alena, Laredj, Leila, Litvinov, Sergey, Loukidis, Theologos, Mahley, Robert W., Melegh, Béla, Metspalu, Ene, Molina, Julio, Mountain, Joanna, Näkkäläjärvi, Klemetti, Nesheva, Desislava, Nyambo, Thomas, Osipova, Ludmila, Parik, Jüri, Platonov, Fedor, Posukh, Olga, Romano, Valentino, Rothhammer, Francisco, Rudan, Igor, Ruizbakiev, Ruslan, Sahakyan, Hovhannes, Sajantila, Antti, Salas, Antonio, Starikovskaya, Elena B., Tarekegn, Ayele, Toncheva, Draga, Turdikulova, Shahlo, Uktveryte, Ingrida, Utevska, Olga, Vasquez, René, Villena, Mercedes, Voevoda, Mikhail, Winkler, Cheryl, Yepiskoposyan, Levon, Zalloua, Pierre, Zemunik, Tatijana, Cooper, Alan, Capelli, Cristian, Thomas, Mark G., Ruiz-Linares, Andres, Tishkoff, Sarah A., Singh, Lalji, Thangaraj, Kumarasamy, Villems, Richard, Comas, David, Sukernik, Rem, Metspalu, Mait, Meyer, Matthias, Eichler, Evan E., Burger, Joachim, Slatkin, Montgomery, Pääbo, Svante, Kelso, Janet, Reich, David, and Krause, Johannes

Subjects
Quantitative Biology - Populations and Evolution
Abstract

We sequenced genomes from a $\sim$7,000 year old early farmer from Stuttgart in Germany, an $\sim$8,000 year old hunter-gatherer from Luxembourg, and seven $\sim$8,000 year old hunter-gatherers from southern Sweden. We analyzed these data together with other ancient genomes and 2,345 contemporary humans to show that the great majority of present-day Europeans derive from at least three highly differentiated populations: West European Hunter-Gatherers (WHG), who contributed ancestry to all Europeans but not to Near Easterners; Ancient North Eurasians (ANE), who were most closely related to Upper Paleolithic Siberians and contributed to both Europeans and Near Easterners; and Early European Farmers (EEF), who were mainly of Near Eastern origin but also harbored WHG-related ancestry. We model these populations' deep relationships and show that EEF had $\sim$44% ancestry from a "Basal Eurasian" lineage that split prior to the diversification of all other non-African lineages.

Published
2013
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15. Using Ancient Samples in Projection Analysis.

Author

Yang, Melinda A and Slatkin, Montgomery

Subjects
Humans, Genetics, Population, Genomics, Demography, Genome, Human, Models, Genetic, Computer Simulation, Datasets as Topic, ancient genomes, human demography, human population genetics, projection, Genetics, Population, Genome, Human, Models, Genetic
Abstract

Projection analysis is a tool that extracts information from the joint allele frequency spectrum to better understand the relationship between two populations. In projection analysis, a test genome is compared to a set of genomes from a reference population. The projection's shape depends on the historical relationship of the test genome's population to the reference population. Here, we explore in greater depth the effects on the projection when ancient samples are included in the analysis. First, we conduct a series of simulations in which the ancient sample is directly ancestral to a present-day population (one-population model), or the ancient sample is ancestral to a sister population that diverged before the time of sampling (two-population model). We find that there are characteristic differences between the projections for the one-population and two-population models, which indicate that the projection can be used to determine whether a test genome is directly ancestral to a present-day population or not. Second, we compute projections for several published ancient genomes. We compare two Neanderthals and three ancient human genomes to European, Han Chinese and Yoruba reference panels. We use a previously constructed demographic model and insert these five ancient genomes to assess how well the observed projections are recovered.

Published
2015

16. A hidden Markov model for investigating recent positive selection through haplotype structure

Author

Chen, Hua, Hey, Jody, and Slatkin, Montgomery

Subjects
Human Genome, Genetics, Alleles, Asian People, Chromosomes, Computer Simulation, Genetics, Population, Haplotypes, Humans, Lactase, Markov Chains, Models, Genetic, Mutation, Selection, Genetic, Skin Pigmentation, White People, Hidden Markov model, Haplotype structure, Recent positive selection, Allele age, Selection intensity, Ecological Applications, Ecology, Evolutionary Biology
Abstract

Recent positive selection can increase the frequency of an advantageous mutant rapidly enough that a relatively long ancestral haplotype will be remained intact around it. We present a hidden Markov model (HMM) to identify such haplotype structures. With HMM identified haplotype structures, a population genetic model for the extent of ancestral haplotypes is then adopted for parameter inference of the selection intensity and the allele age. Simulations show that this method can detect selection under a wide range of conditions and has higher power than the existing frequency spectrum-based method. In addition, it provides good estimate of the selection coefficients and allele ages for strong selection. The method analyzes large data sets in a reasonable amount of running time. This method is applied to HapMap III data for a genome scan, and identifies a list of candidate regions putatively under recent positive selection. It is also applied to several genes known to be under recent positive selection, including the LCT, KITLG and TYRP1 genes in Northern Europeans, and OCA2 in East Asians, to estimate their allele ages and selection coefficients.

Published
2015

17. The influence of relatives on the efficiency and error rate of familial searching

Author

Rohlfs, Rori V., Murphy, Erin, Song, Yun S., and Slatkin, Montgomery

Subjects
Quantitative Biology - Genomics, Statistics - Applications
Abstract

We investigate the consequences of adopting the criteria used by the state of California, as described by Myers et al. (2011), for conducting familial searches. We carried out a simulation study of randomly generated profiles of related and unrelated individuals with 13-locus CODIS genotypes and YFiler Y-chromosome haplotypes, on which the Myers protocol for relative identification was carried out. For Y-chromosome sharing first degree relatives, the Myers protocol has a high probability (80 - 99%) of identifying their relationship. For unrelated individuals, there is a low probability that an unrelated person in the database will be identified as a first-degree relative. For more distant Y-haplotype sharing relatives (half-siblings, first cousins, half-first cousins or second cousins) there is a substantial probability that the more distant relative will be incorrectly identified as a first-degree relative. For example, there is a 3 - 18% probability that a first cousin will be identified as a full sibling, with the probability depending on the population background. Although the California familial search policy is likely to identify a first degree relative if his profile is in the database, and it poses little risk of falsely identifying an unrelated individual in a database as a first-degree relative, there is a substantial risk of falsely identifying a more distant Y-haplotype sharing relative in the database as a first-degree relative, with the consequence that their immediate family may become the target for further investigation. This risk falls disproportionately on those ethnic groups that are currently overrepresented in state and federal databases., Comment: main text: 19 pages, 4 tables, 2 figures supplemental text: 2 pages, 5 tables all together as single file

Published
2013
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18. Detecting range expansions from genetic data

Author

Peter, Benjamin M and Slatkin, Montgomery

Subjects
Quantitative Biology - Populations and Evolution
Abstract

We propose a method that uses genetic data to test for the occurrence of a recent range expansion and to infer the location of the origin of the expansion. We introduce a statistic for pairs of populations $\psi$ (the directionality index) that detects asymmetries in the two-dimensional allele frequency spectrum caused by the series of founder events that happen during an expansion. Such asymmetry arises because low frequency alleles tend to be lost during founder events, thus creating clines in the frequencies of surviving low-frequency alleles. Using simulations, we further show that $\psi$ is more powerful for detecting range expansions than both $F_{ST}$ and clines in heterozygosity. We illustrate the utility of $\psi$ by applying it to a data set from modern humans and show how we can include more complicated scenarios such as multiple expansion origins or barriers to migration in the model.

Published
2013

19. The Projection of a Test Genome onto a Reference Population and Applications to Humans and Archaic Hominins

Author

Yang, Melinda A, Harris, Kelley, and Slatkin, Montgomery

Subjects
Biological Sciences, Genetics, Human Genome, Animals, Computer Simulation, Evolution, Molecular, Gene Flow, Genetics, Population, Genome, Genome, Human, Genomics, Hominidae, Humans, Models, Genetic, Population Density, Population Groups, archaic admixture, frequency spectrum, human demography, human population genetics, Developmental Biology, Biochemistry and cell biology
Abstract

We introduce a method for comparing a test genome with numerous genomes from a reference population. Sites in the test genome are given a weight, w, that depends on the allele frequency, x, in the reference population. The projection of the test genome onto the reference population is the average weight for each x, [Formula: see text]. The weight is assigned in such a way that, if the test genome is a random sample from the reference population, then [Formula: see text]. Using analytic theory, numerical analysis, and simulations, we show how the projection depends on the time of population splitting, the history of admixture, and changes in past population size. The projection is sensitive to small amounts of past admixture, the direction of admixture, and admixture from a population not sampled (a ghost population). We compute the projections of several human and two archaic genomes onto three reference populations from the 1000 Genomes project-Europeans, Han Chinese, and Yoruba-and discuss the consistency of our analysis with previously published results for European and Yoruba demographic history. Including higher amounts of admixture between Europeans and Yoruba soon after their separation and low amounts of admixture more recently can resolve discrepancies between the projections and demographic inferences from some previous studies.

Published
2014

20. Genomic tests of variation in inbreeding among individuals and among chromosomes

Author

Schraiber, Joshua G., Shih, Stephannie, and Slatkin, Montgomery

Subjects
Quantitative Biology - Populations and Evolution
Abstract

We examine the distribution of heterozygous sites in nine European and nine Yoruban individuals whose genomic sequences were made publicly available by Complete Genomics. We show that it is possible to obtain detailed information about inbreeding when a relatively small set of whole-genome sequences is available. Rather than focus on testing for deviations from Hardy-Weinberg genotype frequencies at each site, we analyze the entire distribution of heterozygotes conditioned on the number of copies of the derived (non-chimpanzee) allele. Using Levene's exact test, we reject Hardy-Weinberg in both populations. We generalized Levene's distribution to obtain the exact distribution of the number of heterozygous individuals given that every individual has the same inbreeding coefficient, F. We estimated F to be 0.0026 in Europeans and 0.0005 in Yorubans, but we could also reject the hypothesis that F was the same in each individual. We used a composite likelihood method to estimate F in each individual and within each chromosome. Variation in F across chromosomes within individuals was too large to be consistent with sampling effects alone. Furthermore, estimates of F for each chromosome in different populations were not correlated. Our results show how detailed comparisons of population genomic data can be made to theoretical predictions. The application of methods to the Complete Genomics data set shows that the extent of apparent inbreeding varies across chromosomes and across individuals, and estimates of inbreeding coefficients are subject to unexpected levels of variation which might be partly accounted for by selection., Comment: 18 pages, 2 figures

Published
2012
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21. Genome sequence of a 45,000-year-old modern human from western Siberia

Author

Fu, Qiaomei, Li, Heng, Moorjani, Priya, Jay, Flora, Slepchenko, Sergey M, Bondarev, Aleksei A, Johnson, Philip LF, Aximu-Petri, Ayinuer, Prüfer, Kay, de Filippo, Cesare, Meyer, Matthias, Zwyns, Nicolas, Salazar-García, Domingo C, Kuzmin, Yaroslav V, Keates, Susan G, Kosintsev, Pavel A, Razhev, Dmitry I, Richards, Michael P, Peristov, Nikolai V, Lachmann, Michael, Douka, Katerina, Higham, Thomas FG, Slatkin, Montgomery, Hublin, Jean-Jacques, Reich, David, Kelso, Janet, Viola, T Bence, and Pääbo, Svante

Subjects
Genetics, Biotechnology, Human Genome, Alleles, Animals, Chromosomes, Human, Pair 12, Diet, Evolution, Molecular, Fossils, Genome, Human, Humans, Hybridization, Genetic, Male, Molecular Sequence Data, Mutation Rate, Neanderthals, Phylogeny, Population Density, Population Dynamics, Principal Component Analysis, Sequence Analysis, DNA, Siberia, General Science & Technology
Abstract

We present the high-quality genome sequence of a ∼45,000-year-old modern human male from Siberia. This individual derives from a population that lived before-or simultaneously with-the separation of the populations in western and eastern Eurasia and carries a similar amount of Neanderthal ancestry as present-day Eurasians. However, the genomic segments of Neanderthal ancestry are substantially longer than those observed in present-day individuals, indicating that Neanderthal gene flow into the ancestors of this individual occurred 7,000-13,000 years before he lived. We estimate an autosomal mutation rate of 0.4 × 10(-9) to 0.6 × 10(-9) per site per year, a Y chromosomal mutation rate of 0.7 × 10(-9) to 0.9 × 10(-9) per site per year based on the additional substitutions that have occurred in present-day non-Africans compared to this genome, and a mitochondrial mutation rate of 1.8 × 10(-8) to 3.2 × 10(-8) per site per year based on the age of the bone.

Published
2014

22. The complete genome sequence of a Neanderthal from the Altai Mountains

Author

Prüfer, Kay, Racimo, Fernando, Patterson, Nick, Jay, Flora, Sankararaman, Sriram, Sawyer, Susanna, Heinze, Anja, Renaud, Gabriel, Sudmant, Peter H, de Filippo, Cesare, Li, Heng, Mallick, Swapan, Dannemann, Michael, Fu, Qiaomei, Kircher, Martin, Kuhlwilm, Martin, Lachmann, Michael, Meyer, Matthias, Ongyerth, Matthias, Siebauer, Michael, Theunert, Christoph, Tandon, Arti, Moorjani, Priya, Pickrell, Joseph, Mullikin, James C, Vohr, Samuel H, Green, Richard E, Hellmann, Ines, Johnson, Philip LF, Blanche, Hélène, Cann, Howard, Kitzman, Jacob O, Shendure, Jay, Eichler, Evan E, Lein, Ed S, Bakken, Trygve E, Golovanova, Liubov V, Doronichev, Vladimir B, Shunkov, Michael V, Derevianko, Anatoli P, Viola, Bence, Slatkin, Montgomery, Reich, David, Kelso, Janet, and Pääbo, Svante

Subjects
Human Genome, Genetics, Africa, Animals, Caves, DNA Copy Number Variations, Female, Fossils, Gene Flow, Gene Frequency, Genome, Heterozygote, Humans, Inbreeding, Models, Genetic, Neanderthals, Phylogeny, Population Density, Siberia, Toe Phalanges, General Science & Technology
Abstract

We present a high-quality genome sequence of a Neanderthal woman from Siberia. We show that her parents were related at the level of half-siblings and that mating among close relatives was common among her recent ancestors. We also sequenced the genome of a Neanderthal from the Caucasus to low coverage. An analysis of the relationships and population history of available archaic genomes and 25 present-day human genomes shows that several gene flow events occurred among Neanderthals, Denisovans and early modern humans, possibly including gene flow into Denisovans from an unknown archaic group. Thus, interbreeding, albeit of low magnitude, occurred among many hominin groups in the Late Pleistocene. In addition, the high-quality Neanderthal genome allows us to establish a definitive list of substitutions that became fixed in modern humans after their separation from the ancestors of Neanderthals and Denisovans.

Published
2014

23. Non-equilibrium theory of the allele frequency spectrum

Author

Evans, Steven N., Shvets, Yelena, and Slatkin, Montgomery

Subjects
Quantitative Biology - Populations and Evolution, Mathematics - Probability
Abstract

A forward diffusion equation describing the evolution of the allele frequency spectrum is presented. The influx of mutations is accounted for by imposing a suitable boundary condition. For a Wright-Fisher diffusion with or without selection and varying population size, the boundary condition is $\lim_{x \downarrow 0} x f(x,t)=\theta \rho(t)$, where $f(\cdot,t)$ is the frequency spectrum of derived alleles at independent loci at time $t$ and $\rho(t)$ is the relative population size at time $t$. When population size and selection intensity are independent of time, the forward equation is equivalent to the backwards diffusion usually used to derive the frequency spectrum, but the forward equation allows computation of the time dependence of the spectrum both before an equilibrium is attained and when population size and selection intensity vary with time. From the diffusion equation, we derive a set of ordinary differential equations for the moments of $f(\cdot,t)$ and express the expected spectrum of a finite sample in terms of those moments. We illustrate the use of the forward equation by considering neutral and selected alleles in a highly simplified model of human history. For example, we show that approximately 30% of the expected heterozygosity of neutral loci is attributable to mutations that arose since the onset of population growth in roughly the last $150,000$ years., Comment: 24 pages, 7 figures, updated to accomodate referees' suggestions, to appear in Theoretical Population Biology

Published
2006

24. A method for estimating the effective number of loci affecting a quantitative character

Author

Slatkin, Montgomery

Subjects
Genetics, Female, Humans, Likelihood Functions, Male, Models, Theoretical, Quantitative Trait Loci, Wright-Castle method, Quantitative genetics, Wright–Castle method, Ecological Applications, Ecology, Evolutionary Biology
Abstract

A likelihood method is introduced that jointly estimates the number of loci and the additive effect of alleles that account for the genetic variance of a normally distributed quantitative character in a randomly mating population. The method assumes that measurements of the character are available from one or both parents and an arbitrary number of full siblings. The method uses the fact, first recognized by Karl Pearson in 1904, that the variance of a character among offspring depends on both the parental phenotypes and on the number of loci. Simulations show that the method performs well provided that data from a sufficient number of families (on the order of thousands) are available. This method assumes that the loci are in Hardy-Weinberg and linkage equilibrium but does not assume anything about the linkage relationships. It performs equally well if all loci are on the same non-recombining chromosome provided they are in linkage equilibrium. The method can be adapted to take account of loci already identified as being associated with the character of interest. In that case, the method estimates the number of loci not already known to affect the character. The method applied to measurements of crown-rump length in 281 family trios in a captive colony of African green monkeys (Chlorocebus aethiopus sabaeus) estimates the number of loci to be 112 and the additive effect to be 0.26 cm. A parametric bootstrap analysis shows that a rough confidence interval has a lower bound of 14 loci.

Published
2013

25. Genome sequencing reveals fine scale diversification and reticulation history during speciation in Sus

Author

Frantz, Laurent AF, Schraiber, Joshua G, Madsen, Ole, Megens, Hendrik-Jan, Bosse, Mirte, Paudel, Yogesh, Semiadi, Gono, Meijaard, Erik, Li, Ning, Crooijmans, Richard PMA, Archibald, Alan L, Slatkin, Montgomery, Schook, Lawrence B, Larson, Greger, and Groenen, Martien AM

Abstract

Abstract Background Elucidating the process of speciation requires an in-depth understanding of the evolutionary history of the species in question. Studies that rely upon a limited number of genetic loci do not always reveal actual evolutionary history, and often confuse inferences related to phylogeny and speciation. Whole-genome data, however, can overcome this issue by providing a nearly unbiased window into the patterns and processes of speciation. In order to reveal the complexity of the speciation process, we sequenced and analyzed the genomes of 10 wild pigs, representing morphologically or geographically well-defined species and subspecies of the genus Sus from insular and mainland Southeast Asia, and one African common warthog. Results Our data highlight the importance of past cyclical climatic fluctuations in facilitating the dispersal and isolation of populations, thus leading to the diversification of suids in one of the most species-rich regions of the world. Moreover, admixture analyses revealed extensive, intra- and inter-specific gene-flow that explains previous conflicting results obtained from a limited number of loci. We show that these multiple episodes of gene-flow resulted from both natural and human-mediated dispersal. Conclusions Our results demonstrate the importance of past climatic fluctuations and human mediated translocations in driving and complicating the process of speciation in island Southeast Asia. This case study demonstrates that genomics is a powerful tool to decipher the evolutionary history of a genus, and reveals the complexity of the process of speciation.

Published
2013

26. Higher Levels of Neanderthal Ancestry in East Asians than in Europeans

Author

Wall, Jeffrey D, Yang, Melinda A, Jay, Flora, Kim, Sung K, Durand, Eric Y, Stevison, Laurie S, Gignoux, Christopher, Woerner, August, Hammer, Michael F, and Slatkin, Montgomery

Subjects
Biological Sciences, Genetics, Human Genome, Biotechnology, Animals, Asian People, Asia, Eastern, Gene Pool, Genetics, Population, Genome, Human, Haplotypes, Humans, Models, Genetic, Neanderthals, Phylogeny, White People, Developmental Biology, Biochemistry and cell biology
Abstract

Neanderthals were a group of archaic hominins that occupied most of Europe and parts of Western Asia from ∼30,000 to 300,000 years ago (KYA). They coexisted with modern humans during part of this time. Previous genetic analyses that compared a draft sequence of the Neanderthal genome with genomes of several modern humans concluded that Neanderthals made a small (1-4%) contribution to the gene pools of all non-African populations. This observation was consistent with a single episode of admixture from Neanderthals into the ancestors of all non-Africans when the two groups coexisted in the Middle East 50-80 KYA. We examined the relationship between Neanderthals and modern humans in greater detail by applying two complementary methods to the published draft Neanderthal genome and an expanded set of high-coverage modern human genome sequences. We find that, consistent with the recent finding of Meyer et al. (2012), Neanderthals contributed more DNA to modern East Asians than to modern Europeans. Furthermore we find that the Maasai of East Africa have a small but significant fraction of Neanderthal DNA. Because our analysis is of several genomic samples from each modern human population considered, we are able to document the extent of variation in Neanderthal ancestry within and among populations. Our results combined with those previously published show that a more complex model of admixture between Neanderthals and modern humans is necessary to account for the different levels of Neanderthal ancestry among human populations. In particular, at least some Neanderthal-modern human admixture must postdate the separation of the ancestors of modern European and modern East Asian populations.

Published
2013

27. The influence of relatives on the efficiency and error rate of familial searching.

Author

Rohlfs, Rori, Murphy, Erin, Song, Yun, and Slatkin, Montgomery

Subjects
California, Chromosomes, Human, Y, Databases, Genetic, False Positive Reactions, Family, Forensic Genetics, Gene Frequency, Genotyping Techniques, Humans, Research Design
Abstract

We investigate the consequences of adopting the criteria used by the state of California, as described by Myers et al. (2011), for conducting familial searches. We carried out a simulation study of randomly generated profiles of related and unrelated individuals with 13-locus CODIS genotypes and YFiler® Y-chromosome haplotypes, on which the Myers protocol for relative identification was carried out. For Y-chromosome sharing first degree relatives, the Myers protocol has a high probability (80~99%) of identifying their relationship. For unrelated individuals, there is a low probability that an unrelated person in the database will be identified as a first-degree relative. For more distant Y-haplotype sharing relatives (half-siblings, first cousins, half-first cousins or second cousins) there is a substantial probability that the more distant relative will be incorrectly identified as a first-degree relative. For example, there is a 3~18% probability that a first cousin will be identified as a full sibling, with the probability depending on the population background. Although the California familial search policy is likely to identify a first degree relative if his profile is in the database, and it poses little risk of falsely identifying an unrelated individual in a database as a first-degree relative, there is a substantial risk of falsely identifying a more distant Y-haplotype sharing relative in the database as a first-degree relative, with the consequence that their immediate family may become the target for further investigation. This risk falls disproportionately on those ethnic groups that are currently overrepresented in state and federal databases.

Published
2013

31. A high-coverage Neandertal genome from Vindija Cave in Croatia

Author

Prüfer, Kay, de Filippo, Cesare, Grote, Steffi, Mafessoni, Fabrizio, Korlević, Petra, Hajdinjak, Mateja, Vernot, Benjamin, Skov, Laurits, Hsieh, Pinghsun, Peyrégne, Stéphane, Reher, David, Hopfe, Charlotte, Nagel, Sarah, Maricic, Tomislav, Fu, Qiaomei, Theunert, Christoph, Rogers, Rebekah, Skoglund, Pontus, Chintalapati, Manjusha, Dannemann, Michael, Nelson, Bradley J., Key, Felix M., Rudan, Pavao, Kućan, Željko, Gušić, Ivan, Golovanova, Liubov V., Doronichev, Vladimir B., Patterson, Nick, Reich, David, Eichler, Evan E., Slatkin, Montgomery, Schierup, Mikkel H., Andrés, Aida M., Kelso, Janet, Meyer, Matthias, and Pääbo, Svante

Published
2017

37. Reconstructing the genetic history of late Neanderthals

Author

Hajdinjak, Mateja, Fu, Qiaomei, Hübner, Alexander, Petr, Martin, Mafessoni, Fabrizio, Grote, Steffi, Skoglund, Pontus, Narasimham, Vagheesh, Rougier, Hélène, Crevecoeur, Isabelle, Semal, Patrick, Soressi, Marie, Talamo, Sahra, Hublin, Jean-Jacques, Gušić, Ivan, Kućan, Željko, Rudan, Pavao, Golovanova, Liubov V., Doronichev, Vladimir B., Posth, Cosimo, Krause, Johannes, Korlević, Petra, Nagel, Sarah, Nickel, Birgit, Slatkin, Montgomery, Patterson, Nick, Reich, David, Prüfer, Kay, Meyer, Matthias, Pääbo, Svante, and Kelso, Janet

Published
2018
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43. A High-Coverage Genome Sequence from an Archaic Denisovan Individual

Author

Meyer, Matthias, Kircher, Martin, Gansauge, Marie-Theres, Li, Heng, Racimo, Fernando, Mallick, Swapan, Schraiber, Joshua G., Jay, Flora, Prüfer, Kay, de Filippo, Cesare, Sudmant, Peter H., Alkan, Can, Fu, Qiaomei, Do, Ron, Rohland, Nadin, Tandon, Arti, Siebauer, Michael, Green, Richard E., Bryc, Katarzyna, Briggs, Adrian W., Stenzel, Udo, Dabney, Jesse, Shendure, Jay, Kitzman, Jacob, Hammer, Michael F., Shunkov, Michael V., Derevianko, Anatoli P., Patterson, Nick, Andrés, Aida M., Eichler, Evan E., Slatkin, Montgomery, Reich, David, Kelso, Janet, and Pääbo, Svante

Published
2012
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44. Evolution of patterns on Conus shells

Author

Gong, Zhenqiang, Matzke, Nichilos J., Ermentrout, Bard, Song, Dawn, Vendetti, Jann E., Slatkin, Montgomery, and Oster, George

Published
2012

46. A Draft Sequence of the Neandertal Genome

Author

Green, Richard E., Krause, Johannes, Briggs, Adrian W., Marcic, Tomislav, Stenzel, Udo, Kircher, Martin, Patterson, Nick, Li, Heng, Zhai, Weiwei, Fritz, Markus Hsi-Yang, Hansen, Nancy F., Durand, Eric Y., Malaspinas, Anna-Sapfo, Jensen, Jeffrey D., Marques-Bonet, Tomas, Alkan, Can, Prüfer, kay, Meyer, Matthias, Burbano, Hernán A., Good, Jeffrey M., Schultz, Rigo, Aximu-Petri, Ayinuer, Butthof, Anne, Höber, Barbara, Höffner, Barbara, Siegemund, Madlen, Weihmann, Antje, Nusbaum, Chad, Lander, Eric S., Russ, Carsten, Novod, Nathaniel, Affourtit, Jason, Egholm, Michael, Verna, Christine, Rudan, Pavao, Brajkovic, Dejana, Kucan, Zeljko, Gusic, Ivan, Doronichev, Vladimir B., Golovanova, Liubov V., Lalueza-Fox, Carles, de la Rasilla, Marco, Fortea, Javier, Rosas, Antonio, Schmitz, Ralf W., Johnson, Philip L F., Eichler, Evan E., Falush, Daniel, Birney, Ewan, Mullikin, James, Slatkin, Montgomery, Nielsen, Rasmus, Kelso, Janet, Lachmann, Michael, Reich, David, and Pääbo, Svante

Published
2010

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