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1. Genome‐wide ancestry and introgression in a Zambian baboon hybrid zone

Author

Jeffrey Rogers, Todd R. Disotell, Kenneth L Chiou, Clifford J. Jolly, Christina M. Bergey, Andrew S. Burrell, and Jane E. Phillips-Conroy

Subjects
0106 biological sciences, 0301 basic medicine, Chacma baboon, Zambia, Introgression, Y chromosome, DNA, Mitochondrial, 010603 evolutionary biology, 01 natural sciences, Article, 03 medical and health sciences, Hybrid zone, Kinda baboon, biology.animal, Genetics, Animals, Ecology, Evolution, Behavior and Systematics, Hybrid, biology, Bayes Theorem, Incipient speciation, biology.organism_classification, 030104 developmental biology, Evolutionary biology, Hybridization, Genetic, Papio, Baboon
Abstract

Hybridization in nature offers unique insights into the process of natural selection in incipient species and their hybrids. In order to evaluate the patterns and targets of selection, we examine a recently discovered baboon hybrid zone in the Kafue River Valley of Zambia, where Kinda baboons (Papio kindae) and grey-footed chacma baboons (P. ursinus griseipes) coexist with hybridization. We genotyped baboons at 14,962 variable genome-wide autosomal markers using double-digest RADseq. We compared ancestry patterns from this genome-wide data set to previously reported ancestry from mitochondrial-DNA and Y-chromosome sources. We also fit a Bayesian genomic cline model to scan for genes with extreme patterns of introgression. We show that the Kinda baboon Y chromosome has penetrated the species boundary to a greater extent than either mitochondrial DNA or the autosomal chromosomes. We also find evidence for overall restricted introgression in the JAK/STAT signalling pathway. Echoing results in other species including humans, we find evidence for enhanced and/or directional introgression of immune-related genes or pathways including the toll-like receptor pathway, the blood coagulation pathway, and the LY96 gene. Finally we show enhanced introgression and excess chacma baboon ancestry in the sperm tail gene ODF2. Together, our results elucidate the dynamics of introgressive hybridization in a primate system while identifying genes and pathways possibly under selection.

Published
2021

3. Cryptic diversity and species boundaries within the Paragalago zanzibaricus species complex

Author

Todd R. Disotell, Simon K. Bearder, Johan Karlsson, Anna Penna, Andrew Perkin, and Luca Pozzi

Subjects
0106 biological sciences, 0301 basic medicine, Species complex, Species diversity, Bayes Theorem, Galagidae, Biology, Cytochromes b, Forests, Multiple species, 010603 evolutionary biology, 01 natural sciences, Mitochondria, 03 medical and health sciences, 030104 developmental biology, Species Specificity, Evolutionary biology, Genetics, Animals, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny
Abstract

The recently described genus Paragalago is a complex of several nocturnal and morphologically cryptic species distributed in the forests of eastern Africa. Species diversity within this genus has been mainly described using species-specific differences in their loud calls. However, molecular data are still lacking for this group and species boundaries remain unclear. In this study, we explore species diversity within the zanzibaricus-complex using a combination of mitochondrial and nuclear data and comparing multiple species delimitation methods. Our results consistently support the existence of three independent lineages, P. cocos, P. zanzibaricus, and P. granti, confirming previous hypotheses based on vocal data. We conclude that these three lineages represent valid cryptic species and we hypothesize that speciation within this complex was characterized by cycles of forest expansion and contraction in the Plio-Pleistocene.

Published
2020

4. Duplication and parallel evolution of the pancreatic ribonuclease gene (RNASE1) in folivorous non-colobine primates, the howler monkeys (Alouatta spp.)

Author

Todd R. Disotell, Andrew S. Burrell, Mareike C. Janiak, and Joseph D. Orkin

Subjects
0106 biological sciences, 0301 basic medicine, RNase P, Biological anthropology, Zoology, lcsh:Medicine, Evolutionary ecology, 010603 evolutionary biology, 01 natural sciences, Article, Evolutionary genetics, Evolution, Molecular, 03 medical and health sciences, Gene Duplication, Gene duplication, Animals, Data Mining, lcsh:Science, Gene, Alouatta, RNASE1, Phylogeny, Multidisciplinary, Genome, biology, lcsh:R, Foregut, Genomics, Ribonuclease, Pancreatic, Ruminants, biology.organism_classification, 030104 developmental biology, Digestive enzyme, Howler monkey, biology.protein, Pancreatic ribonuclease, lcsh:Q, Muramidase, Molecular ecology
Abstract

In foregut-fermenting mammals (e.g., colobine monkeys, artiodactyl ruminants) the enzymes pancreatic ribonuclease (RNASE1) and lysozyme C (LYZ), originally involved in immune defense, have evolved new digestive functions. Howler monkeys are folivorous non-colobine primates that lack the multi-chambered stomachs of colobines and instead digest leaves using fermentation in the caeco-colic region. We present data on the RNASE1 and LYZ genes of four species of howler monkey (Alouatta spp.). We find that howler monkey LYZ is conserved and does not share the substitutions found in colobine and cow sequences, whereas RNASE1 was duplicated in the common ancestor of A. palliata, A. seniculus, A. sara, and A. pigra. While the parent gene (RNASE1) is conserved, the daughter gene (RNASE1B) has multiple amino acid substitutions that are parallel to those found in RNASE1B genes of colobines. The duplicated RNase in Alouatta has biochemical changes similar to those in colobines, suggesting a novel, possibly digestive function. These findings suggest that pancreatic ribonuclease has, in parallel, evolved a new role for digesting the products of microbial fermentation in both foregut- and hindgut-fermenting folivorous primates. This may be a vital digestive enzyme adaptation allowing howler monkeys to survive on leaves during periods of low fruit availability.

Published
2019

5. Genomic signatures of extreme body size divergence in baboons

Author

Jeffrey Rogers, Kenneth L Chiou, Christina M. Bergey, Andrew S. Burrell, Jane E. Phillips-Conroy, Clifford J. Jolly, and Todd R. Disotell

Subjects
2. Zero hunger, 0303 health sciences, Natural selection, Multicellular organism growth, 030302 biochemistry & molecular biology, Single-nucleotide polymorphism, Biology, Genome, Genetic architecture, 03 medical and health sciences, Evolutionary biology, Signal transduction, Gene, Selection (genetic algorithm), 030304 developmental biology
Abstract

Kinda and gray-footed chacma baboons occupy opposite extremes of the body size distribution in extant baboons (genusPapio). In order to detect signatures of natural selection in these two species, we genotyped 24,790 genome-wide autosomal SNPs from populations of Zambian baboons using double digest RADseq. We scanned the genome for evidence of selection by identifying regions with extreme differentiation between populations. We find evidence of selection on body size influencing multiple genes in one or both species, includingFGF1, ATXN2, andPRKCE. We also find an enriched signal of selection associated with biological processes involved in multicellular organism growth and development, cell proliferation and cell growth, nutrient metabolism, and chondrocyte differentiation. Finally, we find that selection has impacted components of the CCKR signaling pathway, which regulates food intake and metabolism, and the JAK/STAT signaling pathway, which mediates the effect of cytokine signals on processes including epiphyseal chondrocyte proliferation essential for longitudinal bone growth. Our findings highlight promising avenues for future studies disentangling the genetic architecture of body size in primates including humans.

Published
2019

6. Genome-wide ancestry and introgression in a Zambian baboon hybrid zone

Author

Jeffrey Rogers, Andrew S. Burrell, Clifford J. Jolly, Jane E. Phillips-Conroy, Kenneth L Chiou, Christina M. Bergey, and Todd R. Disotell

Subjects
0106 biological sciences, 0303 health sciences, biology, Chacma baboon, Introgression, Incipient speciation, biology.organism_classification, Y chromosome, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Hybrid zone, Kinda baboon, Evolutionary biology, biology.animal, 030304 developmental biology, Baboon, Hybrid
Abstract

Hybridization in nature offers unique insights into the process of natural selection in incipient species and their hybrids. In order to evaluate the patterns and targets of selection, we examine a recently discovered baboon hybrid zone in the Kafue River valley of Zambia, where Kinda baboons (Papio kindae) and gray-footed chacma baboons (P. ursinus griseipes) coexist with hybridization. We genotyped baboons at 14,962 variable genome-wide autosomal markers using double-digest RADseq. We compare ancestry patterns from this genome-wide dataset to previously reported ancestry from mitochondrial-DNA and Y-chromosome sources. We also fit a Bayesian genomic cline model to scan for genes with extreme patterns of introgression. We show that the Kinda baboon Y chromosome has penetrated the species boundary to a greater extent than either mitochondrial DNA or the autosomal chromosomes. We also find evidence for overall restricted introgression in the JAK/STAT signaling pathway. Echoing results in other species including humans, we find evidence for enhanced and/or directional introgression of immune-related genes or pathways including the toll-like receptor pathway, the blood coagulation pathway, and the LY96 gene. Finally we show enhanced introgression and excess chacma baboon ancestry in the sperm tail gene ODF2. Together, our results elucidate the dynamics of introgressive hybridization in a primate system while highlighting genes and pathways under selection.

Published
2019
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7. The comparative genomics and complex population history of Papio baboons

Author

Matthew W. Hahn, Mikkel H. Schierup, Dietmar Zinner, Bronwen Aken, Mark A. Batzer, Matthieu Muffato, Maximillian Kothe, Christina M. Bergey, Carolin Kosiol, Christian Roos, Thomas O Beckstrom, Jenny Tung, R. Alan Harris, Richard A. Gibbs, Clifford J. Jolly, Miriam K. Konkel, Vallmer E Jordan, Thomas Mailund, Gisela H. Kopp, Jane E. Phillips-Conroy, Cody J. Steely, Yue Liu, Dominik Schrempf, Jade Cheng, Jeffrey Rogers, Evan E. Eichler, Tomas Marques-Bonet, Donna M. Muzny, Andrew S. Burrell, James G. Else, Kasper Munch, Muthuswamy Raveendran, Fergal J. Martin, Konstantinos Billis, Jerilyn A. Walker, Shwetha C. Murali, Georgios Athanasiadis, Todd R. Disotell, Laura A. Cox, Kim C. Worley, Angela Noll, Kalle Leppälä, National Institutes of Health (US), Austrian Science Fund, Vienna Science and Technology Fund, Wellcome Trust, VEGA Agency (Slovakia), Fundación 'la Caixa', National Science Foundation (US), National Geographic Society, Leakey Foundation, Howard Hughes Medical Institute, Ministerio de Economía y Competitividad (España), European Commission, University of St Andrews. School of Biology, and University of St Andrews. Centre for Biological Diversity

Subjects
0106 biological sciences, Old World, GENETICS, PHYLOGENY, QH301 Biology, Population, HYBRIDIZATION PATTERNS, Introgression, HAMADRYAS, QH426 Genetics, Papio anubis, 010603 evolutionary biology, 01 natural sciences, Gene flow, PHYLOGEOGRAPHY, 03 medical and health sciences, QH301, Phylogenetics, HYBRID ZONE, biology.animal, ddc:570, ANUBIS, education, QH426, TREE, 030304 developmental biology, Comparative genomics, 0303 health sciences, education.field_of_study, Multidisciplinary, biology, DAS, 3. Good health, Evolutionary biology, EVOLUTIONARY, CONCORDANCE, Baboon
Abstract

Recent studies suggest that closely related species can accumulate substantial genetic and phenotypic differences despite ongoing gene flow, thus challenging traditional ideas regarding the genetics of speciation. Baboons (genus Papio) are Old World monkeys consisting of six readily distinguishable species. Baboon species hybridize in the wild, and prior data imply a complex history of differentiation and introgression. We produced a reference genome assembly for the olive baboon (Papio anubis) and whole-genome sequence data for all six extant species. We document multiple episodes of admixture and introgression during the radiation of Papio baboons, thus demonstrating their value as a model of complex evolutionary divergence, hybridization, and reticulation. These results help inform our understanding of similar cases, including modern humans, Neanderthals, Denisovans, and other ancient hominins., The sequencing and analysis activities at the Human Genome Sequencing Center, Baylor College of Medicine, were supported by NIH (NHGRI) grants U54-HG003273 and U54-HG006484 to R.A.G. and GAC grant 1 S10 RR026605 to J. G. Reid. This research was also supported by NIH grant R01-GM59290 to M.A.B.; grants from the Austrian Science Fund (FWF-P24551 and FWF-W1225) and Vienna Science and Technology Fund (WWTF-MA16-061) to C.K.; grants from the Wellcome Trust (WT108749/Z/15/Z) and EMBL to B.A., F.J.M., and M.M.; grants VEGA 1/0719/14 and APVV-14-0253 to T. Vinar (Consortium Member); MINECO/FEDER grant, NIH U01-MH106874 grant, Howard Hughes International Early Career award, and Obra Social “La Caixa” award to T.M.-B.; NSF grants BNS83-03506 to J.P.-C.; NSF1029302 to J.P.-C., J.R., and C.J.J.; BNS96-15150 to J.P.-C., C.J.J., and T.D.; and National Geographic Society and Leakey Foundation grants to J.P.-C. and C.J.J. E.E.E. is an investigator of the Howard Hughes Medical Institute. This work was supported, in part, by U.S. NIH grant HG002385 to E.E.E.

Published
2019

8. Species Boundaries within Morphologically Cryptic Galagos: Evidence from Acoustic and Genetic Data

Author

Simon K. Bearder, Johan Karlsson, Marco Gamba, Todd R. Disotell, Luca Pozzi, and Andrew Perkin

Subjects
Species complex, Mitochondrial DNA, Speciation, Cytochrome b, Biodiversity, Biology, DNA, Mitochondrial, Tanzania, Gene flow, Vocalization, Phylogenetics, Animals, 0501 psychology and cognitive sciences, 0601 history and archaeology, 050102 behavioral science & comparative psychology, Clade, Ecology, Evolution, Behavior and Systematics, Phylogeny, 060101 anthropology, Animal, 05 social sciences, Galago, Vocalisation, 06 humanities and the arts, DNA, Cytochromes b, Kenya, Mitochondrial, Taxon, Genes, Mitochondrial, Genes, Haplotypes, Evolutionary biology, Africa, Cryptic species, Vocalization, Animal, Animal Science and Zoology
Abstract

Describing primate biodiversity is one of the main goals in primatology. Species are the fundamental unit of study in phylogeny, behaviour, ecology and conservation. Identifying species boundaries is particularly challenging for nocturnal taxa where only subtle morphological variation is present. Traditionally, vocal signals have been used to identify species within nocturnal primates: species-specific signals often play a critical role in mate recognition, and they can restrict gene flow with other species. However, little research has been conducted to test whether different “acoustic forms” also represent genetically distinct species. Here, we investigate species boundaries between two putative highly cryptic species of Eastern dwarf galagos (Paragalago cocosand P. zanzibaricus). We combined vocal and genetic data: molecular data included the complete mitochondrial cytochrome b gene (1,140 bp) for 50 samples across 11 localities in Kenya and Tanzania, while vocal data comprised 221 vocalisations recorded across 8 localities. Acoustic analyses showed a high level of correct assignation to the putative species (approx. 90%), while genetic analyses identified two separate clades at the mitochondrial level. We conclude that P. cocos and P. zanzibaricus represent two valid cryptic species that probably underwent speciation in the Late Pliocene while fragmented in isolated populations in the eastern forests.

Published
2019

9. The use of museum specimens with high-throughput DNA sequencers

Author

Christina M. Bergey, Todd R. Disotell, and Andrew S. Burrell

Subjects
Genetics, Whole genome sequencing, Fossils, Shotgun sequencing, Museums, High-Throughput Nucleotide Sequencing, Paleontology, Genomics, DNA, Sequence Analysis, DNA, Biology, Genome, Article, DNA sequencing, DNA sequencer, Ancient DNA, Evolutionary biology, Metagenomics, Anthropology, Animals, Ecology, Evolution, Behavior and Systematics
Abstract

Natural history collections have long been used by morphologists, anatomists, and taxonomists to probe the evolutionary process and describe biological diversity. These biological archives also offer great opportunities for genetic research in taxonomy, conservation, systematics, and population biology. They allow assays of past populations, including those of extinct species, giving context to present patterns of genetic variation and direct measures of evolutionary processes. Despite this potential, museum specimens are difficult to work with because natural postmortem processes and preservation methods fragment and damage DNA. These problems have restricted geneticists’ ability to use natural history collections primarily by limiting how much of the genome can be surveyed. Recent advances in DNA sequencing technology, however, have radically changed this, making truly genomic studies from museum specimens possible. We review the opportunities and drawbacks of the use of museum specimens, and suggest how to best execute projects when incorporating such samples. Several high-throughput (HT) sequencing methodologies, including whole genome shotgun sequencing, sequence capture, and restriction digests (demonstrated here), can be used with archived biomaterials.

Published
2015

10. Revisiting the phylogenetic relationships, biogeography, and taxonomy of spider monkeys (genus Ateles) in light of new molecular data

Author

Todd R. Disotell, Alba Lucia Morales-Jimenez, and Anthony Di Fiore

Subjects
Zoology, Atelidae, DNA, Mitochondrial, Monophyly, Phylogenetics, Genetics, Animals, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Atelinae, Likelihood Functions, Spider, Models, Genetic, biology, Phylogenetic tree, Bayes Theorem, Central America, Sequence Analysis, DNA, South America, biology.organism_classification, Biological Evolution, Sister group, Genetic Loci, Taxonomy (biology), Ateles marginatus
Abstract

Spider monkeys (Ateles) are one of the most endangered groups of primates in the Neotropics. The genus is widely distributed from Mexico to the north of Bolivia and includes many morphologically distinct forms in terms of pelage color and patterning. The taxonomy, phylogenetic relationships, and biogeographic history of the genus have been subject to much debate, making scientific communication difficult and creating challenges for conservation actions. We extracted DNA from samples of all currently recognized species of spider monkeys collected from across the geographic range of the genus, sequenced ∼3.5 kilobases of coding sequence from the mitochondrial genome, and used this large dataset to (a) infer the phylogenetic relationships among the different forms of spider monkeys, (b) evaluate whether currently recognized species of spider monkeys form reciprocally monophyletic groups that are concordant with contemporary classifications, and (c) estimate divergence dates among the different lineages of Ateles. We found that all proposed species of spider monkeys for which we have samples from multiple localities indeed appear to form monophyletic groups. However, in contrast to previous studies, several of our analyses robustly inferred Ateles marginatus from northeast Brazil as the sister taxon to all other spider monkeys. A Bayesian dating analysis suggests that the most recent common ancestor of extant Ateles dates to ∼6.7 Ma, in the late Miocene, and most species-level splits within the genus took place in the late Pliocene, suggesting that the modern diversity in spider monkeys cannot be explained principally by isolation and divergence of populations in forest refugia during the Pleistocene. Based on our new phylogenetic inference and dating analysis, we propose a revised biogeographic scenario for the evolution of this genus.

Published
2015

14. Population Genetics, Dispersal, and Kinship Among Wild Squirrel Monkeys (Saimiri sciureus macrodon): Preferential Association Between Closely Related Females and Its Implications for Insect Prey Capture Success

Author

Todd R. Disotell, Michael J. Montague, and Anthony Di Fiore

Subjects
education.field_of_study, Population, Foraging, Saimiri sciureus, Zoology, Population genetics, Biology, Animal ecology, Genetic structure, Biological dispersal, Animal Science and Zoology, Philopatry, education, Ecology, Evolution, Behavior and Systematics
Abstract

Little genetic information is available to evaluate hypotheses concerning the parameters that affect population genetic structure in primate taxa that exhibit interspecific variation in social systems, such as squirrel monkeys (Saimiri). Here, we used genetic data to assess dispersal patterns, kin structure, and preferential association with same-sex kin in a wild population of Saimiri sciureus macrodon. We also analyzed behavioral data to assess whether individuals that maintain shorter interindividual distances show increased insect foraging success. If there was greater male than female dispersal, then we expected mean pairwise relatedness, F ST values, and intragroup mean corrected assignment indices to be greater among adult females than among adult males. We also expected matrices of pairwise affinity indices (PAIs) for “association” (time spent ≤5 m) and “proximity” (time spent ≤10 m) among female dyads to positively correlate with a matrix of female pairwise relatedness. Not only did we find support for female philopatry, but we also found significant positive relationships between the relatedness matrix and each of the PAI matrices: females were more likely to be associated with (and proximal to) close female relatives than more distant relatives or unrelated individuals. Foraging analyses revealed that females had higher insect capture rates than males, and this sex difference may be related to a smaller mean interindividual distance among closely related female group members. Our result shows how estimates of genetic relatedness are useful for testing predictions regarding the evolution of sex-biased dispersal patterns, as well as potential relationships between kin-biased social behaviors and foraging success.

Published
2013

15. A New Method for Genome-wide Marker Development and Genotyping Holds Great Promise for Molecular Primatology

Author

Todd R. Disotell, Christina M. Bergey, Luca Pozzi, and Andrew S. Burrell

Subjects
Genetics, Whole genome sequencing, education.field_of_study, Phylogenetic tree, Population, Biology, Genome, DNA sequencing, Animal ecology, Evolutionary biology, Microsatellite, Animal Science and Zoology, education, Genotyping, Ecology, Evolution, Behavior and Systematics
Abstract

Over the last two decades primatologists have benefited from the use of numerous molecular markers to study various aspects of primate behavior and evolutionary history. However, most of the studies to date have been based on a single locus, usually mitochondrial DNA, or a few nuclear markers, e.g., microsatellites. Unfortunately, the use of such markers not only is unable to address successfully important questions in primate population genetics and phylogenetics (mainly because of the discordance between gene tree and species tree), but also their development is often a time-consuming and expensive task. The advent of next-generation sequencing allows researchers to generate large amounts of genomic data for nonmodel organisms. However, whole genome sequencing is still cost prohibitive for most primate species. We here introduce a second-generation sequencing technique for genotyping thousands of genome-wide markers for nonmodel organisms. Restriction site–associated DNA sequencing (RAD-seq) reduces the complexity of the genome and allows inexpensive and fast discovery of thousands of markers in many individuals. Here, we describe the principles of this technique and we demonstrate its application in five primates, Microcebus sp., Cebus sp., Theropithecus gelada, Pan troglodytes, and Homo sapiens, representing some of the major lineages within the order. Despite technical and bioinformatic challenges, RAD-seq is a promising method for multilocus phylogenetic and population genetic studies in primates, particularly in young clades in which a high number of orthologous regions are likely to be found across populations or species.

Published
2013

16. Dopamine pathway is highly diverged in primate species that differ markedly in social behavior

Author

Jane E. Phillips-Conroy, Clifford J. Jolly, Todd R. Disotell, and Christina M. Bergey

Subjects
0301 basic medicine, media_common.quotation_subject, Dopamine, Impulsivity, Developmental psychology, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, biology.animal, Commentaries, medicine, Animals, Humans, Primate, Social Behavior, media_common, Multidisciplinary, Propinquity, biology, Behavior, Animal, Boldness, Genetic Variation, Biological Evolution, 030104 developmental biology, Phenotype, Social system, Evolutionary biology, Ethiopia, Metagenomics, medicine.symptom, 030217 neurology & neurosurgery, Biomarkers, Baboon, Social behavior, medicine.drug, Papio
Abstract

In the endeavor to associate genetic variation with complex traits, closely related taxa are particularly fruitful for understanding the neurophysiological and genetic underpinnings of species-specific attributes. Similarity to humans has motivated research into nonhuman primate models, yet few studies of wild primates have investigated immediate causal factors of evolutionarily diverged social behaviors. Neurotransmitter differences have been invoked to explain the distinct behavioral suites of two baboon species in Awash, Ethiopia, which differ markedly in social behavior despite evolutionary propinquity. With this natural experiment, we test the hypothesis that genomic regions associated with monoamine neurotransmitters would be highly differentiated, and we identify a dopamine pathway as an outlier, highlighting the system as a potential cause of species-specific social behaviors. Dopamine levels and resultant variation in impulsivity were likely under differential selection in the species due to social system structure differences, with either brash or circumspect social behavior advantageous to secure mating opportunities depending on the social backdrop. Such comparative studies into the causes of the behavioral agendas that create and interact with social systems are of particular interest, and differences in temperament related to boldness and associated with dopamine variation likely played important roles in the evolution of all social, behaviorally complex animals, including baboons and humans.

Published
2016

17. Successive radiations, not stasis, in the South American primate fauna

Author

Rachana A. Jani, Ryan L. Raaum, Jason A. Hodgson, Todd R. Disotell, Andrew S. Burrell, Kirstin N. Sterner, Caro-Beth Stewart, and Luke J. Matthews

Subjects
Primates, Most recent common ancestor, Multidisciplinary, Geography, biology, Genetic Speciation, Molecular Sequence Data, Temperature, Zoology, Bayes Theorem, South America, Biological Sciences, biology.organism_classification, Ateles belzebuth, biology.animal, Genome, Mitochondrial, Cebus albifrons, Animals, Dolichocebus, Chilecebus, Molecular clock, Tremacebus, Clade, Phylogeny
Abstract

The earliest Neotropical primate fossils complete enough for taxonomic assessment, Dolichocebus , Tremacebus , and Chilecebus , date to approximately 20 Ma. These have been interpreted as either closely related to extant forms or as extinct stem lineages. The former hypothesis of morphological stasis requires most living platyrrhine genera to have diverged before 20 Ma. To test this hypothesis, we collected new complete mitochondrial genomes from Aotus lemurinus , Saimiri sciureus , Saguinus oedipus , Ateles belzebuth , and Callicebus donacophilus. We combined these with published sequences from Cebus albifrons and other primates to infer the mitochondrial phylogeny. We found support for a cebid/atelid clade to the exclusion of the pitheciids. Then, using Bayesian methods and well-supported fossil calibration constraints, we estimated that the platyrrhine most recent common ancestor (MRCA) dates to 19.5 Ma, with all major lineages diverging by 14.3 Ma. Next, we estimated catarrhine divergence dates on the basis of platyrrhine divergence scenarios and found that only a platyrrhine MRCA less than 21 Ma is concordant with the catarrhine fossil record. Finally, we calculated that 33% more change in the rate of evolution is required for platyrrhine divergences consistent with the morphologic stasis hypothesis than for a more recent radiation. We conclude that Dolichocebus , Tremacebus , and Chilecebus are likely too old to be crown platyrrhines, suggesting they were part of an extinct early radiation. We note that the crown platyrrhine radiation was concomitant with the radiation of 2 South American xenarthran lineages and follows a global temperature peak and tectonic activity in the Andes.

Published
2009

18. Phylogenetic incongruence between nuclear and mitochondrial markers in the Asian colobines and the evolution of the langurs and leaf monkeys

Author

Ying Li, Todd R. Disotell, Ya-Ping Zhang, Nelson Ting, and Anthony J. Tosi

Subjects
Cell Nucleus, Genetic Markers, Systematics, X Chromosome, Nuclear gene, Colobinae, Lineage (genetic), Phylogenetic tree, Cercopithecinae, Zoology, Cercopithecidae, Sequence Analysis, DNA, Biology, biology.organism_classification, Genes, Mitochondrial, Sister group, Phylogenetics, Evolutionary biology, Genetics, Animals, Molecular Biology, Asia, Southeastern, Phylogeny, Ecology, Evolution, Behavior and Systematics
Abstract

Evidence of incongruence between mitochondrial and nuclear gene trees is now becoming documented with increasing frequency. Among the Old World monkeys, this discordance has been well demonstrated in the Cercopithecinae, but has not yet been investigated in the Colobinae. The mitochondrial relationships between the colobine genera have recently been clarified and cluster Presbytis and Trachypithecus as sister taxa to the exclusion of Semnopithecus. This is incongruent with previous morphological hypotheses that suggest the latter two are sister taxa, and perhaps even congeneric. In addition to analyzing a previously published 10,896 bp mitochondrial dataset, we sequenced and analyzed a 4297 bp fragment of the X-chromosome in order to test the competing mitochondrial and morphological phylogenetic hypotheses. The results from the mitochondrial dataset again support a Presbytis+Trachypithecus group while the X-chromosomal dataset supported a Semnopithecus+Trachypithecus group. A Shimodaira-Hasegawa test performed on both datasets indicates that the mitochondrial and X-chromosomal trees are significantly better at explaining their respective datasets than alternative topologies (p

Published
2008

19. New Genetic Evidence on the Evolution of Chimpanzee Populations and Implications for Taxonomy

Author

Mary Katherine Gonder, Todd R. Disotell, and John F. Oates

Subjects
Phylogeography, Mitochondrial DNA, Animal ecology, Pongidae, Zoology, Animal Science and Zoology, Taxonomy (biology), Troglodytes, Subspecies, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Hypervariable region
Abstract

Primatologists widely recognize chimpanzees as belonging to a single species, Pan troglodytes, which they traditionally have further divided into 3 subspecies: west African P. t. verus, central African P. t. troglodytes, and east African P. t. schweinfurthii. Previously, we suggested that the phylogeographic history of chimpanzees may be different from that implied by the widely used taxonomy of the species. We based the suggestion on only a limited sample of haplotypes from the first hypervariable region (HVRI) of mitochondrial (mt)DNA from chimpanzees in Nigeria. We have now compiled a more geographically comprehensive genetic database for chimpanzees, including samples obtained near the Niger and Sanaga Rivers. Our database is composed of 254 HVRI haplotypes from chimpanzees of known geographic origin, including 79 unique HVRI haplotypes from chimpanzees living in Nigeria and Cameroon. The genetic data provide clear evidence that a major phylogeographic break between chimpanzee lineages occurs near the Sanaga River in central Cameroon and suggest the need for a reclassification of chimpanzees.

Published
2006

20. Molecular Anthropology and Race

Author

Todd R. Disotell

Subjects
Male, General Neuroscience, Racial Groups, Sampling (statistics), Biology, Sensitivity and Specificity, General Biochemistry, Genetics and Molecular Biology, Evolution, Molecular, Race (biology), Molecular anthropology, Variation (linguistics), History and Philosophy of Science, Human evolution, Evolutionary biology, Molecular evolution, Anthropology, Humans, Female, Human genome
Abstract

Molecular analyses have led to many recent advances in the study of human variation. The addition of DNA analyses of fossils now allows the testing of hypotheses derived from sampling living people. Further sampling of all of the regions of the human genome has led to a remarkably consistent evolutionary scenario that helps to explain the patterns of variation found today.

Published
2006

22. Y-chromosomal Markers Suitable for Noninvasive Studies of Guenon Hybridization

Author

Kate M. Detwiler, Todd R. Disotell, and Anthony J. Tosi

Subjects
Genetics, Data sequences, biology, Animal ecology, Introgression, Animal Science and Zoology, Computational biology, biology.organism_classification, Guenon, Ecology, Evolution, Behavior and Systematics, Human genetics, Gene flow
Abstract

We examine previously-published TSPY sequence data to identify synapomorphies useful for tracking Y-chromosomal gene flow between hybridizing guenon species. We then describe a set of PCR primers and protocols that amplify many of these variable sites from feces. Such Y-chromosomal markers are potentially very useful to conservation studies because they may offer an early sign of introgression as a threat to the genetic integrity of a rare species. Moreover, the ability to survey these markers from feces greatly expands the utility of noninvasive studies.

Published
2005

23. Catarrhine primate divergence dates estimated from complete mitochondrial genomes: concordance with fossil and nuclear DNA evidence

Author

Caro Bert Stewart, Todd R. Disotell, Colleen M. Noviello, Kirstin N. Sterner, and Ryan L. Raaum

Subjects
Mitochondrial DNA, Asia, Molecular Sequence Data, Catarrhini, Extrachromosomal Inheritance, Zoology, Old World monkey, DNA, Mitochondrial, Divergence, Evolution, Molecular, Animals, Molecular clock, Phylogeny, Ecology, Evolution, Behavior and Systematics, Genome, Cercopithecini, Phylogenetic tree, biology, Fossils, Genetic Variation, Paleontology, Cercopithecidae, Hominidae, biology.organism_classification, Sister group, Anthropology, Africa
Abstract

Accurate divergence date estimates improve scenarios of primate evolutionary history and aid in interpretation of the natural history of disease-causing agents. While molecule-based estimates of divergence dates of taxa within the superfamily Hominoidea (apes and humans) are common in the literature, few such estimates are available for the Cercopithecoidea (Old World monkeys), the sister taxon of the hominoids in the primate infraorder Catarrhini. To help fill this gap, we have sequenced the entire mitochondrial DNA (mtDNA) genomes from a representative of three cercopithecoid tribes, Cercopithecini (Chlorocebus aethiops), Colobini (Colobus guereza), and Presbytini (Trachypithecus obscurus), and analyzed these new data together with other catarrhine mtDNA genomes available in public databases. Molecular divergence date estimates are dependent on calibration points gleaned from the paleontological record. We defined criteria for the selection of good calibration points and identified three points meeting these criteria: Homo-Pan, 6.0 Ma; Pongo-hominines, 14.0 Ma; hominoid/cercopithecoid, 23.0 Ma. Because a uniform molecular clock does not fit the catarrhine mtDNA data, we estimated divergence dates using a penalized likelihood and a Bayesian method, both of which take into account the effects of rate differences on lineages, phylogenetic tree structure, and multiple calibration points. The penalized likelihood method applied to the coding regions of the mtDNA genome yielded the following divergence date estimates, with approximate 95% confidence intervals: cercopithecine-colobine, 16.2 (14.4-17.9) Ma; colobin-presbytin, 10.9 (9.6-12.3) Ma; cercopithecin-papionin, 11.6 (10.3-12.9) Ma; and Macaca-Papio, 9.8 (8.6-10.9) Ma. Within the hominoids, the following dates were inferred: hylobatid-hominid, 16.8 (15.0-18.5) Ma; Gorilla-Homo + Pan, 8.1 (7.1-9.0) Ma; Pongo pygmaeus pygmaeus-P. p. abelii, 4.1 (3.5-4.7) Ma; and Pan troglodytes-P. paniscus, 2.4 (2.0-2.7) Ma. These dates were similar to those found using penalized likelihood on other subsets of the data, but slightly younger than several of the Bayesian estimates.

Published
2005

24. Mitochondrial evidence for the origin of hamadryas baboons

Author

Thore J. Bergman, Kirstin N. Sterner, Todd R. Disotell, Abdulwali al-Aghbari, Derek E. Wildman, Timothy K. Newman, Clifford J. Jolly, and Jane E. Phillips-Conroy

Subjects
Mitochondrial DNA, Range (biology), Biogeography, Zoology, Biology, DNA, Mitochondrial, Hamadryas, Evolution, Molecular, Middle East, stomatognathic system, biology.animal, Genetics, Animals, Molecular Biology, Hamadryas baboon, Phylogeny, Ecology, Evolution, Behavior and Systematics, Papio hamadryas, Geography, Ecology, Land bridge, Genetic Variation, biology.organism_classification, eye diseases, humanities, Africa, Papio, Baboon
Abstract

Baboons (Mammalia: Primates, Papio) are found primarily on the continent of Africa, but the range of hamadryas baboons (Papio hamadryas) extends to the Arabian Peninsula, and the origin of Arabian populations is unclear. To estimate the timing of the divergence between Arabian and African hamadryas populations we analyzed mitochondrial DNA (mtDNA) sequences from individuals of Arabian and African origin, and from representatives of the other major baboon taxa. The oldest hamadryas mitochondrial lineages in the Arabian Peninsula form an ancient trichotomy with the two major African lineages. This suggests that Arabia was colonized by hamadryas very soon after the appearance of the distinctive hamadryas phenotype, both events perhaps coinciding with a mid-Pleistocene stage of dry climate and low sea-level. The most closely related Arabian and African mtDNA haplotypes coalesce at approximately 35 ka, suggesting that no gene flow between African and Arabian baboons has occurred since the end of the last ice age, when a land bridge at the southern sill of the Red Sea was submerged. The mitochondrial paraphyly of Ethiopian hamadryas and anubis (P. anubis) baboons suggests an extensive and complex history of sex-specific introgression.

Published
2004

25. Sex chromosome phylogenetics indicate a single transition to terrestriality in the guenons (tribe Cercopithecini)

Author

Todd R. Disotell, Don J. Melnick, and Anthony J. Tosi

Subjects
Male, Paraphyly, X Chromosome, Cercopithecini, biology, Chlorocebus, Erythrocebus patas, Zoology, Environment, biology.organism_classification, Adaptation, Physiological, Cercopithecus aethiops, Allenopithecus nigroviridis, Monophyly, Genetics, Population, Cercopithecinae, Y Chromosome, Anthropology, Molecular phylogenetics, Animals, Female, Phylogeny, Ecology, Evolution, Behavior and Systematics
Abstract

This is the first molecular study to trace the evolutionary transition in substrate preference across a primate radiation. We surveyed 20 guenons (tribe Cercopithecini) and 4 outgroup taxa for two Y-chromosomal genes, TSPY ( approximately 2240 bp) and SRY ( approximately 780 bp), and one X-chromosomal intergenic region ( approximately 1600 bp) homologous to a fragment of human Xq13.3. Parsimony and maximum likelihood analyses of the sex chromosomal datasets consistently cluster the three terrestrial taxa, Cercopithecus aethiops, Cercopithecus lhoesti, and Erythrocebus patas, into a group that is reciprocally monophyletic with a clade of arboreal Cercopithecus spp. Given that the common ancestor of the two clades was most likely an arboreal taxon, this phylogenetic pattern suggests the transition to terrestriality occurred only once among the extant guenons. This pattern also indicates that the genus Cercopithecus is paraphyletic, as presently defined, and calls for taxonomic revision so that the nomen describes a strictly monophyletic group. We outline four acceptable taxonomic schemes and suggest that the most appropriate is to reassign C. aethiops, C. lhoesti, and E. patas to the resurrected genus Chlorocebus. Finally, while the phylogeny and taxonomy of terrestrial guenons were the focus of this study, the X-chromosome sequences presented here represent the first molecular evidence to unambiguously place Allenopithecus nigroviridis as the basal lineage of the tribe Cercopithecini.

Published
2004

26. Assessment of the Diversity of African Primates

Author

Thomas M. Butynski, Todd R. Disotell, Colin P. Groves, Peter Grubb, Thomas T. Struhsaker, John F. Oates, and Simon K. Bearder

Subjects
Systematics, Ecology, Chlorocebus, Biology, Subspecies, biology.organism_classification, Guenon, Genealogy, Taxon, Animal ecology, IUCN Red List, Animal Science and Zoology, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics
Abstract

This account of the systematics of African primates is the consensus view of a group of authors who attended the Workshop of the IUCN/SSC Primate Specialist Group held at Orlando, Florida, in February 2000. We list all species and subspecies that we consider to be valid, together with a selected synonymy for all names that have been controversial in recent years or that have been considered to be valid by other authors in recent publications. For genera, species-groups or species, we tabulate and discuss different published systematic interpretations, with emphasis on more recent publications. We explain why we have adopted our taxonomic treatment and give particular attention to cases where more research is urgently required and in which systematic changes are most likely to be made. For all taxa, from suborder to subspecies, we provide English names.

Published
2003

27. Cercopithecine Y-chromosome data provide a test of competing morphological evolutionary hypotheses

Author

Juan Carlos Morales, Anthony J. Tosi, Don J. Melnick, and Todd R. Disotell

Subjects
Paraphyly, Papionini, Molecular Sequence Data, Cercopithecinae, Zoology, Tribe (biology), Evolution, Molecular, Monophyly, Y Chromosome, Genetics, Animals, Molecular clock, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Cercopithecini, Base Sequence, biology, Nuclear Proteins, biology.organism_classification, Sex-Determining Region Y Protein, DNA-Binding Proteins, Phenotype, Phylogenetic Pattern, Transcription Factors
Abstract

We report here the results of the first molecular evolutionary analysis to include members of all 10 extant genera of cercopithecine monkeys. A total of 44 individuals were surveyed for ∼2.2 kb of the testis-specific protein, Y-chromosome (TSPY). The TSPY sequences were subjected to parsimony analyses in PAUP 4.0, followed by tree comparison tests designed to assess existing morphological hypotheses of cercopithecine evolution. The results of these tests show that the present Y-chromosome dataset unambiguously supports: (1) monophyly of Macaca , (2) polyphyly of the mangabeys ( Cercocebus and Lophocebus ), (3) paraphyly of Cercopithecus , and (4) inclusion of Allenopithecus and Miopithecus in the tribe Cercopithecini. A number of unexpected Y-chromosome relationships are also discussed, including a pattern suggesting resurrection of the genus Chlorocebus for the guenons currently identified as Erythrocebus patas , Cercopithecus aethiops , and Cercopithecus lhoesti . Relative rate tests reveal significant difference in the TSPY substitution rate across numerous lineages in the tribe Cercopithecini. Because the rate differences follow no obvious phylogenetic pattern, “local” molecular clocks were not employed and divergence dates were not estimated for this tribe. In contrast, similar analysis of the Papionini reveals rate heterogeneity between a single pair of taxonomic groups: Macaca vs. the “African papionins.” Divergence dates were therefore calculated for the tribe by calibrating TSPY clocks specific to each of these two clades.

Published
2003

28. Neandertal Genome: The Ins and Outs of African Genetic Diversity

Author

Jason A. Hodgson, Christina M. Bergey, and Todd R. Disotell

Subjects
Genetic diversity, Genome, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Genetic Variation, Sampling (statistics), Hominidae, Biology, General Biochemistry, Genetics and Molecular Biology, Gene flow, Evolutionary biology, Animals, Humans, General Agricultural and Biological Sciences
Abstract

SummaryAnalysis of the Neandertal genome indicates gene flow between Neandertals and modern humans of Eurasia but not Africa. This surprising result is difficult to reconcile with current models of human origins and might have to do with insufficient African sampling.

Published
2010

29. AnAlu insertion polymorphism in a baboon hybrid zone

Author

Todd R. Disotell, Erika P. Reategui, Lourdes M. Andino, Clifford J. Jolly, Tamsin Woolley-Barker, Martin N. Szmulewicz, and Rene J. Herrera

Subjects
Genetics, education.field_of_study, biology, Outbreeding depression, Population, Alu element, Introgression, biology.organism_classification, Hamadryas, Loss of heterozygosity, Anthropology, biology.animal, Anatomy, education, Papio hamadryas, Baboon
Abstract

A novel polymerase chain reaction (PCR) primer pair was used to analyze the frequency of insertion of the first described, nonhuman, baboon-specific Alu repetitive element in populations from the Papio hamadryas anubis and the Papio hamadryas hamadryas subspecies, and from a number of anubis-hamadryas hybrids. The Alu insertion is found in intron 7 of the baboon lipoprotein lipase (LPL) gene. Each of the populations had different frequencies for the insertion, and the hybrids examined had a frequency intermediate to that of the parental populations. All hybrids and all P. h. anubis groups except the group of anubis sampled in 1973 exhibited higher-than-expected heterozygosity, while P. h. hamadryas and 1973 P. h. anubis showed lower-than-expected heterozygosity, supporting behavioral and other genetic observations of greater anubis outbreeding relative to hamadryas. This may include asymmetric introgression of the Alu insertion from hamadryas to the anubis population due to hybridization.

Published
1999

30. Primate evolution – in and out of Africa

Author

Todd R. Disotell and Caro-Beth Stewart

Subjects
Primates, Old World, Asia, Hominidae, Zoology, Cercopithecidae, Biology, General Biochemistry, Genetics and Molecular Biology, Lineage (anthropology), Time, Out of africa, Animals, Humans, Phylogeny, Ancestor, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Biological evolution, biology.organism_classification, Primate evolution, Europe, Evolutionary biology, Africa, General Agricultural and Biological Sciences
Abstract

A synthetic analysis of molecular, fossil and biogeographical data gives a remarkably consistent scenario for the evolution of the catarrhine primates – the hominoids and Old World monkeys. This analysis supports the African location of the common ancestor of the Old World monkeys, and suggests that the Asian colobine monkeys and macaques dispersed out of Africa into Eurasia within the past ten million years. More interestingly and controversially, this analysis further suggests that the lineage leading to the living hominoids dispersed out of Africa about twenty million years ago, and that the common ancestor of the living African apes, including humans, migrated back into Africa from Eurasia within about the past ten million years.

Published
1998
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31. Nuclear gene trees and the phylogenetic relationships of the mangabeys (Primates: Papionini)

Author

Eugene E. Harris and Todd R. Disotell

Subjects
Papionini, Cercocebus, Biology, Theropithecus, Monophyly, Cercopithecinae, Polyphyly, Genetics, Animals, Mangabey, Eye Proteins, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Cell Nucleus, Phylogenetic tree, Nuclear Proteins, DNA, Sequence Analysis, DNA, Galactosyltransferases, biology.organism_classification, Sex-Determining Region Y Protein, Globins, DNA-Binding Proteins, Retinol-Binding Proteins, Sister group, Evolutionary biology, CD4 Antigens, Molecular phylogenetics, Transcription Factors
Abstract

Phylogenetic relationships of mangabeys within the Old World monkey tribe Papionini are inferred from analyses of nuclear DNA sequences from five unlinked loci. The following conclusions are strongly supported, based on congruence among trees derived for the five separate gene regions: (1) mangabeys are polyphyletic within the Papionini; (2) Cercocebus is the sister taxon to the genus Mandrillus; and (3) Lophocebus belongs to a clade with Papio and Theropithecus, with Papio as its most likely sister taxon. Morphologically based phylogenies positing mangabey monophyly were evaluated by mapping the sequences for each locus on these trees. The data seem to fit these trees poorly in both maximum-parsimony and likelihood analyses. Incongruence among nuclear gene trees occurred in the interrelationships among Lophocebus, Papio, and Theropithecus. Several factors that may account for this incongruence are discussed, including sampling error, random lineage sorting, and introgression.

Published
1998

32. [Untitled]

Author

Shimelis Beyene, Tamsin Woolley-Barker, Clifford J. Jolly, Todd R. Disotell, and Jane E. Phillips-Conroy

Subjects
Natural selection, biology, Animal ecology, Gelada, Backcrossing, Zoology, Introgression, Animal Science and Zoology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Papio hamadryas, Hamadryas, Hybrid
Abstract

Though belonging to genera that have been distinct for several million years, gelada and common baboons—Theropithecus gelada and Papio hamadryas sensu lato, respectively—interbreed occasionally, even in the wild. A female hamadryas at Bihere Tsige Park, Addis Ababa, Ethiopia, apparently favored a gelada male over eligible conspecifics and produced several offspring with him. The F1hybrids were large but developmentally normal. In skull and tooth form, and to a lesser extent in postcranial proportions, they were intermediate between the parental forms but lacked most of their parents' derived, (sub)species-specific epigamic characters. A female infant born to a subadult F1was sired by a hamadryas. The backcross infant appeared normal and was still flourishing at about 2.5 years. Though perhaps impeded by natural selection against poorly adapted hybrids, theoretically interspecific hybridization could exceed mutation as a source of novel, preadapted genes in the wild.

Published
1997

33. Primate phylogenetic relationships and divergence dates inferred from complete mitochondrial genomes

Author

Todd R. Disotell, Andrew S. Burrell, Jason A. Hodgson, Luca Pozzi, Ryan L. Raaum, and Kirstin N. Sterner

Subjects
Primates, Old World, Zoology, Article, Monophyly, Strepsirrhini, Phylogenetics, biology.animal, Genetics, Animals, Primate, Clade, Molecular clock, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, Mammals, Likelihood Functions, biology, Phylogenetic tree, Models, Genetic, Fossils, Bayes Theorem, Sequence Analysis, DNA, biology.organism_classification, Biological Evolution, Genome, Mitochondrial
Abstract

The origins and the divergence times of the most basal lineages within primates have been difficult to resolve mainly due to the incomplete sampling of early fossil taxa. The main source of contention is related to the discordance between molecular and fossil estimates: while there are no crown primate fossils older than 56 Ma, most molecule-based estimates extend the origins of crown primates into the Cretaceous. Here we present a comprehensive mitogenomic study of primates. We assembled 87 mammalian mitochondrial genomes, including 62 primate species representing all the families of the order. We newly sequenced eleven mitochondrial genomes, including eight Old World monkeys and three strepsirrhines. Phylogenetic analyses support a strong topology, confirming the monophyly for all the major primate clades. In contrast to previous mitogenomic studies, the positions of tarsiers and colugos relative to strepsirrhines and anthropoids are well resolved. In order to improve our understanding of how fossil calibrations affect age estimates within primates, we explore the effect of seventeen fossil calibrations across primates and other mammalian groups and we select a subset of calibrations to date our mitogenomic tree. The divergence date estimates of the Strepsirrhine/Haplorhine split support an origin of crown primates in the Late Cretaceous, at around 74 Ma. This result supports a short-fuse model of primate origins, whereby relatively little time passed between the origin of the order and the diversification of its major clades. It also suggests that the early primate fossil record is likely poorly sampled.

Published
2013

36. The phylogeny of Old World monkeys

Author

Todd R. Disotell

Subjects
Old World, Fossil Record, Phylogenetic tree, Phylogenetics, Evolutionary biology, Anthropology, Molecular phylogenetics, Taxonomy (biology), General Medicine, Old World monkey, Biology, Mandrillus, biology.organism_classification
Abstract

The living Old World monkeys, family Cercopithecidae, are the most successful group of nonhuman primates alive today. Overall, they account for over one quarter of the extant genera of primates and approximately 40% of the species. They have an extensive fossil record extending back to the early and middle Miocene of Africa.1,2 Despite this specific diversity and a long evolutionary history, it is commonly argued that the group is relatively uniform in both its skeletal3 and dental4 anatomy, suggesting that much of the current taxonomic diversity is a relatively recent phenomenon. In such a species group, it is perhaps not surprising that the taxonomy of Old World monkeys is subject to many differing classifications. Thus, in recent years, authors have recognized as few as 10 and as many as 22 different genera within the family. Although some of this greater-than-two-fold difference in the number of genera can be attributed to the “splitting” versus “lumping” philosophies of different researchers, much of it is based on major disagreements over phylogenetic relationships. Recent studies of the genetics and chromosomes of this group have illuminated Old World monkey phylogeny in many ways. Some of these studies have resolved longstanding debates based on morphological data; others have revealed phylogenetic relationships that morphologists had never suspected.

Published
1996

37. Chimpanzee Kinship

Author

Todd R. Disotell, C. J. Jolly, and John F. Oates

Subjects
Multidisciplinary, Kinship, Biology, Genealogy
Published
1995

38. Archaic human genomics

Author

Todd R. Disotell

Subjects
Old World, Demographic history, Population, DNA, Mitochondrial, Anthropology, Physical, Evolution, Molecular, Animals, Humans, education, Phylogeny, Neanderthals, education.field_of_study, biology, Ecology, Fossils, Genome, Human, Recent African origin of modern humans, Genetic Variation, DNA, Genomics, Sequence Analysis, DNA, biology.organism_classification, Europe, Ancient DNA, Human evolution, Evolutionary biology, Anthropology, Human taxonomy, Anatomy, Homo erectus
Abstract

For much of the 20th century, the predominant view of human evolutionary history was derived from the fossil record. Homo erectus was seen arising in Africa from an earlier member of the genus and then spreading throughout the Old World and into the Oceania. A regional continuity model of anagenetic change from H. erectus via various intermediate archaic species into the modern humans in each of the regions inhabited by H. erectus was labeled the multiregional model of human evolution (MRE). A contrasting model positing a single origin, in Africa, of anatomically modern H. sapiens with some populations later migrating out of Africa and replacing the local archaic populations throughout the world with complete replacement became known as the recent African origin (RAO) model. Proponents of both models used different interpretations of the fossil record to bolster their views for decades. In the 1980s, molecular genetic techniques began providing evidence from modern human variation that allowed not only the different models of modern human origins to be tested but also the exploration demographic history and the types of selection that different regions of the genome and even specific traits had undergone. The majority of researchers interpreted these data as strongly supporting the RAO model, especially analyses of mitochondrial DNA (mtDNA). Extrapolating backward from modern patterns of variation and using various calibration points and substitution rates, a consensus arose that saw modern humans evolving from an African population around 200,000 years ago. Much later, around 50,000 years ago, a subset of this population migrated out of Africa replacing Neanderthals in Europe and western Asia as well as archaics in eastern Asia and Oceania. mtDNA sequences from more than two-dozen Neanderthals and early modern humans re-enforced this consensus. In 2010, however, the complete draft genomes of Neanderthals and of heretofore unknown hominins from Siberia, called Denisovans, demonstrated gene flow between these archaic human species and modern Eurasians but not sub-Saharan Africans. Although the levels of gene flow may be very limited, this unexpected finding does not fit well with either the RAO model or MRE model. More thorough sampling of modern human diversity, additional fossil discoveries, and the sequencing of additional hominin fossils are necessary to throw light onto our origins and our history.

Published
2012

39. Generic level relationships of the papionini (cercopithecoidea)

Author

Todd R. Disotell

Subjects
Male, Genetics, Paraphyly, Papionini, Phylogenetic tree, Biology, biology.organism_classification, Theropithecus, Cercopithecinae, Sister group, Phylogenetics, Molecular evolution, Anthropology, Animals, Female, Anatomy, Mandrillus, Phylogeny
Abstract

Phylogenetic hypotheses for the Old World monkey tribe Papionini based on molecular data are incongruent with those inferred from previous morphological analyses. Morphologists have often inferred a close relationship between Mandrillus and Papio based on their overall similarity. Theropithecus has been variously proposed to be either quite distantly related to these two genera, their sister taxon, or anywhere in between. Molecular and chromosomal analyses on the other hand unambiguously group Theropithecus and Papio together to the exclusion of Mandrillus. Additionally, molecular and chromosomal analyses reveal that mangabeys (Cerocebus) are paraphyletic. Morphologists have acknowledged this possibility resurrecting the genus name Lophocebus for one group of mangabeys. A review and reanalysis of the morphological characters put forth by various researchers find little to contradict the consensus phylogeny derived from analysis of chromosomal banding, nuclear RNA restriction mapping, alpha and beta hemoglobin sequences, albumin and transferrin microcomplement fixation, DNA-DNA hybridization, repetitive DNA patterns, immunodiffusion, hemoglobin and adenylate kinase isozymes, and mitochondrial cytochrome oxidase subunit II DNA sequences.

Published
1994

40. Panmixia postponed: ancestry-related assortative mating in contemporary human populations

Author

Andrew S. Burrell and Todd R. Disotell

Subjects
Male, Panmixia, Cultural Characteristics, Models, Genetic, Assortative mating, Ethnic group, Hispanic or Latino, Biology, Emigration and Immigration, United States, Genetics, Population, Sex Factors, Social Class, Spouse, Sex factors, Evolutionary biology, Indians, North American, Humans, Female, Minireview, Mexico
Abstract

A study of two different populations reveals that in both the choice of a spouse is non-random not only in respect of broad ethnic group but also in regard to specific ancestries within that group. The cause of this surprising bias remains unclear.

Published
2009

42. Mitochondrial evidence for the hybrid origin of the kipunji, Rungwecebus kipunji (Primates: Papionini)

Author

Andrew S. Burrell, Anthony J. Tosi, Todd R. Disotell, and Clifford J. Jolly

Subjects
Papionini, Rungwecebus kipunji, biology, Genetic Speciation, Zoology, Sequence Analysis, DNA, biology.organism_classification, DNA, Mitochondrial, Tanzania, Theropithecus, Evolution, Molecular, Sister group, Cercopithecinae, Species Specificity, biology.animal, Yellow baboon, Genetics, Animals, Hybridization, Genetic, Hybrid speciation, Mangabey, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, Baboon
Abstract

Common baboons (Papio), gelada baboons (Theropithecus) and baboon–mangabeys (Lophocebus) are closely related African papionin monkeys. In 2005, the species Lophocebus kipunji was described from relict montane and submontane forests in Tanzania, based upon a single specimen and observations of living animals. Its initial assignment to Lophocebus was based on its overall morphology, but subsequent genetic studies suggesting that it was sister taxon to common baboons (Papio) led to its generic separation, as Rungwecebus. As a mangabey-like sister-taxon to Papio, Rungwecebus could be interpreted either as an arboreal derivative from a more terrestrial, baboon-like ancestor, or as a survivor of a mangabey-like common ancestor of the Lophocebus–Papio–Theropithecus clade. Here, we present a new, strongly-supported, mitochondrial DNA (mtDNA) phylogeny that includes Papio baboons from populations geographically close to the kipunji. Rather than supporting sister-taxon status, the new phylogeny not only situates the kipunji’s mtDNA among Papio haplotypes, it clearly assigns it to a mitochondrial clade including geographically adjacent yellow baboons (Papio cynocephalus). This relationship suggests either that the kipunji is descended from a yellow baboon, and has converged on a mangabey-like morphology, or, much more likely, that it originated by hybridization between Papio cf. cynocephalus females and Lophocebus sp. males, about 0.65 Ma. We believe this to be the first case among mammals in which a natural occurrence of inter-generic hybridization can be shown to have resulted in a new, distinct, long-surviving taxon. More such cases can be anticipated as molecular evidence accumulates.

Published
2008

44. Regionally and climatically restricted patterns of distribution of genetic diversity in a migratory bat species, Miniopterus schreibersii (Chiroptera : Vespertilionidae)

Author

Emrah Çoraman, Raşit Bilgin, Juan Carlos Morales, Ahmet Karataş, Todd R. Disotell, 0-Belirlenecek, and [Bilgin, Rasit -- Coraman, Emrah] Bogazici Univ, Inst Environm Sci, TR-34342 Istanbul, Turkey -- [Bilgin, Rasit] Columbia Univ, Dept Ecol Evolut & Environm Biol, New York, NY 10027 USA -- [Bilgin, Rasit] Columbia Univ, Ctr Environm Res & Conservat, New York, NY 10027 USA -- [Karatas, Ahmet] Nigde Univ, TR-51100 Nigde, Turkey -- [Disotell, Todd] New York Univ, Dept Anthropol, New York, NY 10003 USA -- [Morales, Juan Carlos] Calif State Univ Stanislaus, Turlock, CA 95382 USA

Subjects
Evolution, Climate, Molecular Sequence Data, Population Dynamics, Population, Biology, DNA, Mitochondrial, Chiroptera, Genetic variation, QH359-425, Animals, Glacial period, education, Phylogeny, Ecology, Evolution, Behavior and Systematics, Abiotic component, education.field_of_study, Genetic diversity, Genetic Variation, 0-Belirlenecek, Phylogeography, Habitat, Evolutionary biology, Biological dispersal, Animal Migration, Research Article, Microsatellite Repeats
Abstract

WOS: 000258103400001, PubMed ID: 18638374, Background: Various mechanisms such as geographic barriers and glacial episodes have been proposed as determinants of intra-specific and inter-specific differentiation of populations, and the distribution of their genetic diversity. More recently, habitat and climate differences, and corresponding adaptations have been shown to be forces influencing the phylogeographic evolution of some vertebrates. In this study, we examined the contribution of these various factors on the genetic differentiation of the bent-winged bat, Miniopterus schreibersii, in southeastern Europe and Anatolia. Results and conclusion: Our results showed differentiation in mitochondrial DNA coupled with weaker nuclear differentiation. We found evidence for restriction of lineages to geographical areas for hundreds of generations. The results showed that the most likely ancestral haplotype was restricted to the same geographic area ( the Balkans) for at least 6,000 years. We were able to delineate the migration routes during the population expansion process, which followed the coasts and the inland for different nested mitochondrial clades. Hence, we were able to describe a scenario showing how multiple biotic and abiotic events including glacial periods, climate and historical dispersal patterns complemented each other in causing regional and local differentiation within a species.

Published
2008

45. The monkey's perspective

Author

Anthony J. Tosi and Todd R. Disotell

Subjects
Genetics, Old World, Genome, biology, Mouse lemur, Indian origin, animal diseases, Perspective (graphical), Biological evolution, Sequence Analysis, DNA, Simian immunodeficiency virus, medicine.disease_cause, biology.organism_classification, Biological Evolution, Macaca mulatta, Rhesus macaque, stomatognathic system, Evolutionary biology, medicine, Animals, Humans, Female, Minireview
Abstract

The sequencing of the genome of a female rhesus macaque (Macaca mulatta) of Indian origin will provide us with biomedical and evolutionary insights into both humans and Old World monkeys.

Published
2007

46. Demographic changes and marker properties affect detection of human population differentiation

Author

Robert T. Malison, Sookjaroen Tangwonchai, Jennifer B. Listman, Kittipong Sanichwankul, Atapol Sughondhabirom, Joel Gelernter, Bao-Zhu Yang, Apiwat Mutirangura, Todd R. Disotell, Ryan L. Raaum, Nuntika Thavichachart, and Henry R. Kranzler

Subjects
Genetic Markers, China, lcsh:QH426-470, Demographic history, Population Dynamics, Population, Black People, Biology, Population stratification, White People, 03 medical and health sciences, Asian People, Population Groups, Gene mapping, Genetic drift, Genetic variation, Genetics, Humans, Genetics(clinical), Dinucleotide Repeats, education, Allele frequency, Genetics (clinical), 030304 developmental biology, 0303 health sciences, education.field_of_study, 030305 genetics & heredity, Chromosome Mapping, Genetic Variation, Thailand, lcsh:Genetics, Genetics, Population, Population bottleneck, Evolutionary biology, Microsatellite Repeats, Research Article
Abstract

BackgroundDifferentiating genetically between populations is valuable for admixture and population stratification detection and in understanding population history. This is easy to achieve for major continental populations, but not for closely related populations. It has been claimed that a large marker panel is necessary to reliably distinguish populations within a continent. We investigated whether empirical genetic differentiation could be accomplished efficiently among three Asian populations (Hmong, Thai, and Chinese) using a small set of highly variable markers (15 tetranucleotide and 17 dinucleotide repeats).ResultsHmong could be differentiated from Thai and Chinese based on multi-locus genotypes, but Thai and Chinese were indistinguishable from each other. We found significant evidence for a recent population bottleneck followed by expansion in the Hmong that was not present in the Thai or Chinese. Tetranucleotide repeats were less useful than dinucleotide repeat markers in distinguishing between major continental populations (Asian, European, and African) while both successfully distinguished Hmong from Thai and Chinese.ConclusionDemographic history contributes significantly to robust detection of intracontinental population structure. Populations having experienced a rapid size reduction may be reliably distinguished as a result of a genetic drift -driven redistribution of population allele frequencies. Tetranucleotide markers, which differ from dinucleotide markers in mutation mechanism and rate, are similar in information content to dinucleotide markers in this situation. These factors should be considered when identifying populations suitable for gene mapping studies and when interpreting interpopulation relationships based on microsatellite markers.

Published
2007

47. Contrasting Phylogeographic Histories of Chimpanzees in Nigeria and Cameroon: A Multi-Locus Genetic Analysis

Author

Todd R. Disotell and M. Katherine Gonder

Subjects
Genetic diversity, Mitochondrial DNA, biology, Population genetics, Troglodytes, Subspecies, biology.organism_classification, Genealogy, Hypervariable region, Phylogeography, Geography, Evolutionary biology, parasitic diseases, Microsatellite
Abstract

As many as four geographically distinct subspecies of chimpanzees (Pan troglodytes) may persist across sub-Saharan Africa, but little is known about the geographic boundaries that delimit these populations. Genetic studies of the first hypervariable region (HVRI) of mitochondrial (mt)DNA of wild chimpanzees suggest that the Sanaga River may important in delineating chimpanzee populations in western Africa from those western equatorial Africa. However, the HVRI represents only a single realization of the evolutionary process. Here we present microsatellite, or Single Tandem Repeat (STR), genotypes of wild chimpanzees from Nigeria and Cameroon to complement and expand upon previous studies of chimpanzee mtDNA. We observed a different but compatible pattering of genetic diversity between the STR loci and the HVRI sequences. Generally, our analyses of these data suggest that the Sanaga River has played an important, but not exclusive, role in delimiting chimpanzees from western Africa from those in western equatorial Africa. The significance of the Niger River and of the Dahomey Gap in limiting chimpanzee distribution patterns remain equivocal. Additional multi-locus sampling of chimpanzees near these putative biogeographic boundaries may more clearly resolve the roles they have played in recent chimpanzee evolution.

Published
2006

49. Modern Humans: Origin and Evolution

Author

Todd R. Disotell

Subjects
Mitochondrial DNA, Neanderthal, biology, biology.animal, Zoology, Gene pool, human activities
Abstract

Modern humans originated recently in geological time from a diverse African gene pool. Very little if any interbreeding probably occurred with existing archaic human populations outside of Africa such as the Neanderthals of Europe. Keywords: multiregional model; single recent replacement model; coalescence; Neanderthal; mitochondrial DNA

Published
2006

50. Humans: Archaic and Modern

Author

Todd R. Disotell

Subjects
biology, Homo neanderthalensis, Homo sapiens, Evolutionary biology, Philosophy, Human taxonomy, Homo heidelbergensis, biology.organism_classification
Abstract

The terms archaic and modern human refer to two biologically and temporally disparate groups of humans. Keywords: Homo sapiens; Homo neanderthalensis; Homo heidelbergensis

Published
2006

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