Your search keyword '"Perry, George H."' showing total 53 results

1. Evolutionary medicine: In recognition that evolutionary theory is critical for understanding modern human health, eLife is publishing a special issue on evolutionary medicine to showcase recent research in this growing and increasingly interdisciplinary field

Author

PERRY, GEORGE H.

Subjects

*EVOLUTIONARY theories, *TUMOR suppressor genes, *AFRICAN trypanosomiasis, *CRITICAL theory, *CORONARY artery disease, *GENETIC variation

Published

2021

2. How human behavior can impact the evolution of genetically-mediated behavior in wild non-human species.

Author

Perry, George H.

Subjects

*HUMAN behavior, *BIOLOGICAL evolution, *SPECIES, *BIOLOGICAL extinction, *BEHAVIOR, *DOMESTICATION of animals

Abstract

Humans intensely modify the ecosystems we inhabit. Many of the impacts that this behavior can have on other species also sharing these spaces are obvious. A prime example is the devastating current extinction crisis. Yet some populations of non-human, non-domesticated species survive or even appear to thrive in heavily disturbed or human-built habitats. Theoretically, this apparent paradox could be facilitated partly by the evolution of genetically-mediated trait adaptations to the impacts of human behavior. At the least, persistence in strongly modified habitats would provide requisite selection pressures for this process to potentially occur in the future. In fact, we have a growing number of well-characterized examples of morphological trait adaptations to human behavior. However, our knowledge of genetically-mediated behavioral adaptations in similar contexts is less well developed. In this review I set up and discuss several evolutionary scenarios by which human behavior might have impacted the evolution of genetically mediated behavior in non-human, non-domestic species and highlight several approaches that could be used in future studies of this process. [ABSTRACT FROM AUTHOR]

Published

2020

3. Polygenic adaptation and convergent evolution on growth and cardiac genetic pathways in African and Asian rainforest hunter-gatherers.

Author

Bergey, Christina M., Perry, George H., Cohen, Jacob A., Lopez, Marie, Patin, Etienne, Quintana-Murci, Lluís, Harrison, Genelle F., and Barreiro, Luis B.

Subjects

*HUNTER-gatherer societies, *RAIN forests, *CONVERGENT evolution, *METAGENOMICS, *PHENOTYPES

Abstract

Different human populations facing similar environmental challenges have sometimes evolved convergent biological adaptations, for example, hypoxia resistance at high altitudes and depigmented skin in northern latitudes on separate continents. The "pygmy" phenotype (small adult body size), characteristic of hunter-gatherer populations inhabiting both African and Asian tropical rainforests, is often highlighted as another case of convergent adaptation in humans. However, the degree to which phenotypic convergence in this polygenic trait is due to convergent versus population-specific genetic changes is unknown. To address this question, we analyzed high-coverage sequence data from the protein-coding portion of the genomes of two pairs of populations: Batwa rainforest hunter-gatherers and neighboring Bakiga agriculturalists from Uganda and Andamanese rainforest hunter-gatherers and Brahmin agriculturalists from India. We observed signatures of convergent positive selection between the rainforest hunter-gatherers across the set of genes with "growth factor binding" functions (P<0.001). Unexpectedly, for the rainforest groups, we also observed convergent and population-specific signatures of positive selection in pathways related to cardiac development (e.g., "cardiac muscle tissue development"; P=0.001). We hypothesize that the growth hormone subresponsiveness likely underlying the adult small body-size phenotype may have led to compensatory changes in cardiac pathways, in which this hormone also plays an essential role. Importantly, in the agriculturalist populations, we did not observe similar patterns of positive selection on sets of genes associated with growth or cardiac development, indicating our results most likely reflect a history of convergent adaptation to the similar ecology of rainforests rather than a more general evolutionary pattern. [ABSTRACT FROM AUTHOR]

Published

2018

4. Genomic perspectives on the history and evolutionary ecology of tropical rainforest occupation by humans.

Author

Perry, George H. and Verdu, Paul

Subjects

*ENVIRONMENTAL history, *HUNTER-gatherer societies, *RAIN forest people, *AGRICULTURAL history, POPULATION history

Abstract

We review contributions from the field of genomics that have helped to inform our understanding of the history and evolutionary ecology of tropical rainforest hunting and gathering behavior by humans, and discuss potential opportunities for future studies. This perspective encompasses i) the question of the antiquity of full-time tropical rainforest occupation, ii) the characterization of biological adaptations to the particular ecological challenges of this habitat, including small adult body size or the “pygmy” phenotype, and iii) the timing and nature of interactions between hunter-gatherer groups and the farming populations that migrated into interior tropical rainforest habitats following the origins of agriculture. [ABSTRACT FROM AUTHOR]

Published

2017

5. Horse Paleogenomes and Human–Animal Interactions in Prehistory.

Author

Perry, George H. and Makarewicz, Cheryl A.

Abstract

A new analysis of paleogenomic data from 278 ancient horses (Fages et al. Cell http://doi.org/10.1016/j.cell.2019.03.049) finds that this animal – crucially important to many ancient and contemporary human societies for subsistence, transportation, conflict, and more – was domesticated in at least two different regions, but with the geographic and cultural origins of the modern domestic horse lineage remaining unknown. By tracing ancient horse population movements and inferring the spatiotemporal trajectories of phenotypic adaptations, this study provides fresh perspectives on past human group interactions and activities. [ABSTRACT FROM AUTHOR]

Published

2019

6. Hunter–gatherer genomics: evolutionary insights and ethical considerations.

Author

Bankoff, Richard J and Perry, George H

Subjects

*HUNTING, *BIOLOGICAL evolution, *BIODIVERSITY, *GENETICS, *HABITATS

Abstract

Hunting and gathering societies currently comprise only a small proportion of all human populations. However, the geographic and environmental diversity of modern hunter–gatherer groups, their inherent dependence on ecological resources, and their connection to patterns of behavior and subsistence that represent the vast majority of human history provide opportunities for scientific research to deliver major insights into the evolutionary history of our species. We review recent evolutionary genomic studies of hunter–gatherers, focusing especially on those that identify and functionally characterize phenotypic adaptations to local environments. We also call attention to specific ethical issues that scientists conducting hunter–gatherer genomics research ought to consider, including potential social and economic tensions between traditionally mobile hunter–gatherers and the land ownership-based nation-states by which they are governed, and the implications of genomic-based evidence of long-term evolutionary associations with particular habitats. [ABSTRACT FROM AUTHOR]

Published

2016

7. Insights into hominin phenotypic and dietary evolution from ancient DNA sequence data.

Author

Perry, George H., Kistler, Logan, Kelaita, Mary A., and Sams, Aaron J.

Subjects

*PHENOTYPES, *FOSSIL DNA, *HOMINIDS, *NUCLEOTIDE sequencing, *DIET, *BIOLOGICAL evolution

Abstract

Nuclear genome sequence data from Neandertals, Denisovans, and archaic anatomically modern humans can be used to complement our understanding of hominin evolutionary biology and ecology through i) direct inference of archaic hominin phenotypes, ii) indirect inference of those phenotypes by identifying the effects of previously-introgressed alleles still present among modern humans, or iii) determining the evolutionary timing of relevant hominin-specific genetic changes. Here we review and reanalyze published Neandertal and Denisovan genome sequence data to illustrate an example of the third approach. Specifically, we infer the timing of five human gene presence/absence changes that may be related to particular hominin-specific dietary changes and discuss these results in the context of our broader reconstructions of hominin evolutionary ecology. We show that pseudogenizing (gene loss) mutations in the TAS2R62 and TAS2R64 bitter taste receptor genes and the MYH16 masticatory myosin gene occurred after the hominin-chimpanzee divergence but before the divergence of the human and Neandertal/Denisovan lineages. The absence of a functional MYH16 protein may explain our relatively reduced jaw muscles; this gene loss may have followed the adoption of cooking behavior. In contrast, salivary amylase gene ( AMY1 ) duplications were not observed in the Neandertal and Denisovan genomes, suggesting a relatively recent origin for the AMY1 copy number gains that are observed in modern humans. Thus, if earlier hominins were consuming large quantities of starch-rich underground storage organs, as previously hypothesized, then they were likely doing so without the digestive benefits of increased salivary amylase production. Our most surprising result was the observation of a heterozygous mutation in the first codon of the TAS2R38 bitter taste receptor gene in the Neandertal individual, which likely would have resulted in a non-functional protein and inter-individual PTC (phenylthiocarbamide) taste sensitivity variation, as also observed in both humans and chimpanzees. [ABSTRACT FROM AUTHOR]

Published

2015

8. Monkeys overharvest shellfish.

Author

PERRY, GEORGE H. and CODDING, BRIAN F.

Subjects

*SHELLFISH, *MONKEYS, *MACAQUES, *POPULATION density, *RESOURCE exploitation

Published

2017

9. Comparative metabolomics in primates reveals the effects of diet and gene regulatory variation on metabolic divergence.

Author

Blekhman, Ran, Perry, George H., Shahbaz, Sevini, Fiehn, Oliver, Clark, Andrew G., and Gilad, Yoav

Subjects

*METABOLOMICS, *DIET, *PHYSIOLOGY, *GENETIC regulation, *PRIMATE genetics, *PRIMATE genomes

Abstract

Human diets differ from those of non-human primates. Among few obvious differences, humans consume more meat than most non-human primates and regularly cook their food. It is hypothesized that a dietary shift during human evolution has been accompanied by molecular adaptations in metabolic pathways. Consistent with this notion, comparative studies of gene expression levels in primates have found that the regulation of genes with metabolic functions tend to evolve rapidly in the human lineage. The metabolic consequences of these regulatory differences, however, remained unknown. To address this gap, we performed a comparative study using a combination of gene expression and metabolomic profiling in livers from humans, chimpanzees, and rhesus macaques. We show that dietary differences between species have a strong effect on metabolic concentrations. In addition, we found that differences in metabolic concentration across species are correlated with inter-species differences in the expression of the corresponding enzymes, which control the same metabolic reaction. We identified a number of metabolic compounds with lineage-specific profiles, including examples of human-species metabolic differences that may be directly related to dietary differences. [ABSTRACT FROM AUTHOR]

Published

2014

10. Aye-aye population genomic analyses highlight an important center of endemism in northern Madagascar.

Author

Perry, George H., Louis, Jr., Edward E., Ratan, Aakrosh, Bedoya-Reina, Oscar C., Burhansc, Richard C., Runhua Lei, Johnson, Steig E., Schuster, Stephan C., and Miller, Webb

Subjects

*AYE-aye (Animal), *ANIMAL populations, *GENOMICS, *BIOGEOGRAPHY, *MALAGASY

Abstract

We performed a population genomics study of the aye-aye, a highly specialized nocturnal lemur from Madagascar. Aye-ayes have low population densities and extensive range requirements that could make this flagship species particularly susceptible to extinction. Therefore, knowledge of genetic diversity and differentiation among aye-aye populations is critical for conservation planning. Such information may also advance our general understanding of Malagasy biogeography, as aye-ayes have the largest species distribution of any lemur. We generated and analyzed whole-genome sequence data for 12 aye-ayes from three regions of Madagascar (North, West, and East). We found that the North population is genetically distinct, with strong differentiation from other aye-ayes over relatively short geographic distances. For comparison, the average FST value between the North and East aye-aye populations—separated by only 248 km—is over 2.1-times greater than that observed between human Africans and Europeans. This finding is consistent with prior watershed- and climate-based hypotheses of a center of endemism in northern Madagascar. Taken together, these results suggest a strong and long-term biogeographical barrier to gene flow. Thus, the specific attention that should be directed toward preserving large, contiguous aye-aye habitats in northern Madagascar may also benefit the conservation of other distinct taxonomic units. To help facilitate future ecological- and conservation-motivated population genomic analyses by noncomputational biologists, the analytical toolkit used in this study is available on the Galaxy Web site. [ABSTRACT FROM AUTHOR]

Published

2013

11. A Genome Sequence Resource for the Aye-Aye (Daubentonia madagascariensis), a Nocturnal Lemur from Madagascar.

Author

Perry, George H., Reeves, Darryl, Melsted, Páll, Ratan, Aakrosh, Miller, Webb, Michelini, Katelyn, Louis, Edward E., Pritchard, Jonathan K., Mason, Christopher E., and Gilad, Yoav

Subjects

*AYE-aye (Animal), *LEMUR (Genus), *AMINO acid sequence, *GENOMES

Abstract

We present a high-coverage draft genome assembly of the aye-aye (Daubentonia madagascariensis), a highly unusual nocturnal primate from Madagascar. Our assembly totals ∼3.0 billion bp (3.0 Gb), roughly the size of the human genome, comprised of ∼2.6 million scaffolds (N50 scaffold size = 13,597 bp) based on short paired-end sequencing reads. We compared the aye-aye genome sequence data with four other published primate genomes (human, chimpanzee, orangutan, and rhesus macaque) as well as with the mouse and dog genomes as nonprimate outgroups. Unexpectedly, we observed strong evidence for a relatively slow substitution rate in the aye-aye lineage compared with these and other primates. In fact, the aye-aye branch length is estimated to be ∼10% shorter than that of the human lineage, which is known for its low substitution rate. This finding may be explained, in part, by the protracted aye-aye life-history pattern, including late weaning and age of first reproduction relative to other lemurs. Additionally, the availability of this draft lemur genome sequence allowed us to polarize nucleotide and protein sequence changes to the ancestral primate lineage—a critical period in primate evolution, for which the relevant fossil record is sparse. Finally, we identified 293,800 high-confidence single nucleotide polymorphisms in the donor individual for our aye-aye genome sequence, a captive-born individual from two wild-born parents. The resulting heterozygosity estimate of 0.051% is the lowest of any primate studied to date, which is understandable considering the aye-aye's extensive home-range size and relatively low population densities. Yet this level of genetic diversity also suggests that conservation efforts benefiting this unusual species should be prioritized, especially in the face of the accelerating degradation and fragmentation of Madagascar's forests. [ABSTRACT FROM AUTHOR]

Published

2012

12. ASPM and the Evolution of Cerebral Cortical Size in a Community of New World Monkeys.

Author

Villanea, Fernando A., Perry, George H., Gutiérrez-Espeleta, Gustavo A., Dominy, Nathaniel J., and Johnson, Norman

Subjects

*NEW World monkeys, *PRIMATES, *INTELLECT, *SPIDER monkeys, *GENES, *BRAIN research

Abstract

The ASPM (abnormal spindle-like microcephaly associated) gene has been proposed as a major determinant of cerebral cortical size among primates, including humans. Yet the specific functions of ASPM and its connection to human intelligence remain controversial. This debate is limited in part by a taxonomic focus on Old World monkeys and apes. Here we expand the comparative context of ASPM sequence analyses with a study of New World monkeys, a radiation of primates in which enlarged brain size has evolved in parallel in spider monkeys (genus Ateles) and capuchins (genus Cebus). The primate community of Costa Rica is perhaps a model system because it allows for independent pairwise comparisons of smaller- and larger-brained species within two taxonomic families. Accordingly, we analyzed the complete sequence of exon 18 of ASPM in Ateles geoffroyi, Alouatta palliata, Cebus capucinus, and Saimiri oerstedii. As the analysis of multiple species in a genus improves phylogenetic reconstruction, we also analyzed eleven published sequences from other New World monkeys. Our exon-wide, lineage-specific analysis of eleven genera and the ratio of rates of nonsynonymous to synonymous substitutions (dN/dS) on ASPM revealed no detectable evidence for positive selection in the lineages leading to Ateles or Cebus, as indicated by dN/dS ratios of <1.0 (0.6502 and 0.4268, respectively). Our results suggest that a multitude of interacting genes have driven the evolution of larger brains among primates, with different genes involved in this process in different encephalized lineages, or at least with evidence for positive selection not readily apparent for the same genes in all lineages. The primate community of Costa Rica may serve as a model system for future studies that aim to elucidate the molecular mechanisms underlying cognitive capacity and cortical size. [ABSTRACT FROM AUTHOR]

Published

2012

13. A Genome Sequence Resource for the Aye-Aye (Daubentonia madagascariensis), a Nocturnal Lemur from Madagascar.

Author

Perry, George H., Reeves, Darryl, Melsted, Páll, Ratan, Aakrosh, Miller, Webb, Michelini, Katelyn, Louis, Edward E., Pritchard, Jonathan K., Mason, Christopher E., and Gilad, Yoav

Subjects

*AYE-aye (Animal), *PRIMATE genomes, *HUMAN genome, *HETEROZYGOSITY, *AMINO acid sequence, *ANIMALS

Abstract

We present a high-coverage draft genome assembly of the aye-aye (Daubentonia madagascariensis), a highly unusual nocturnal primate from Madagascar. Our assembly totals ∼3.0 billion bp (3.0 Gb), roughly the size of the human genome, comprised of ∼2.6 million scaffolds (N50 scaffold size = 13,597 bp) based on short paired-end sequencing reads. We compared the aye-aye genome sequence data with four other published primate genomes (human, chimpanzee, orangutan, and rhesus macaque) as well as with the mouse and dog genomes as nonprimate outgroups. Unexpectedly, we observed strong evidence for a relatively slow substitution rate in the aye-aye lineage compared with these and other primates. In fact, the aye-aye branch length is estimated to be ∼10% shorter than that of the human lineage, which is known for its low substitution rate. This finding may be explained, in part, by the protracted aye-aye life-history pattern, including late weaning and age of first reproduction relative to other lemurs. Additionally, the availability of this draft lemur genome sequence allowed us to polarize nucleotide and protein sequence changes to the ancestral primate lineage—a critical period in primate evolution, for which the relevant fossil record is sparse. Finally, we identified 293,800 high-confidence single nucleotide polymorphisms in the donor individual for our aye-aye genome sequence, a captive-born individual from two wild-born parents. The resulting heterozygosity estimate of 0.051% is the lowest of any primate studied to date, which is understandable considering the aye-aye's extensive home-range size and relatively low population densities. Yet this level of genetic diversity also suggests that conservation efforts benefiting this unusual species should be prioritized, especially in the face of the accelerating degradation and fragmentation of Madagascar's forests. [ABSTRACT FROM AUTHOR]

Published

2012

14. Genomic-scale capture and sequencing of endogenous DNA from feces.

Author

Perry, George H., Marioni, John C., Melsted, PÁll, and Gilad, Yoav

Subjects

*GENOMICS, *DNA, *FECES examination, *BLOOD testing, *CHIMPANZEES as laboratory animals, *MOLECULAR ecology, *POPULATION genetics, *X chromosome

Abstract

Genomic-level analyses of DNA from non-invasive sources would facilitate powerful conservation and evolutionary studies in natural populations of endangered and otherwise elusive species. However, the typical low quantity and poor quality of DNA that is extracted from non-invasive samples have generally precluded such work. Here we apply a modified DNA capture protocol that, when used in combination with massively-parallel sequencing technology, facilitates efficient and highly-accurate resequencing of megabases of specified nuclear genomic regions from fecal DNA samples. We validated our approach by comparing genetic variants identified from corresponding fecal and blood DNA samples of six western chimpanzees ( Pan troglodytes verus) across more than 1.5 megabases of chromosome 21, chromosome X, and the complete mitochondrial genome. Our results suggest that it is now feasible to conduct genomic studies in natural populations for which constraints on invasive sampling have otherwise long been a barrier. The data we collected also provided an opportunity to examine western chimpanzee genetic diversity at unprecedented scale. Despite high mitochondrial genome diversity (π = 0.585%), western chimpanzees have a low ratio (0.42) of X chromosomal (π = 0.034%) to autosomal (chromosome 21 π = 0.081%) sequence diversity, a pattern that may reflect an unusual demographic history of this subspecies. [ABSTRACT FROM AUTHOR]

Published

2010

15. A rod cell marker of nocturnal ancestry

Author

Perry, George H. and Pickrell, Joseph K.

Published

2010

16. Evolution of the human pygmy phenotype

Author

Perry, George H. and Dominy, Nathaniel J.

Subjects

*BIOLOGICAL evolution, *PHENOTYPES, *PYGMIES, *BODY size, *ANTHROPOMETRY, *GENOTYPE-environment interaction, *HUMAN genetics

Abstract

Small human body size, or the ‘pygmy’ phenotype, is characteristic of certain African, Southeast Asian and South American populations. The convergent evolution of this phenotype, and its strong association with tropical rainforests, have motivated adaptive hypotheses that stress the advantages of small size for coping with food limitation, warm, humid conditions and dense forest undergrowth. Most recently, a life-history model has been used to suggest that the human pygmy phenotype is a consequence of early growth cessation that evolved to facilitate early reproductive onset amid conditions of high adult mortality. As we discuss here, these adaptive scenarios are not mutually exclusive and should be evaluated in consort. Findings from this area of research are expected to inform interpretations of diversity in the hominin fossil record, including the purported small-bodied species Homo floresiensis. [Copyright &y& Elsevier]

Published

2009

17. The Fine-Scale and Complex Architecture of Human Copy-Number Variation.

Author

Perry, George H., Ben-Dor, Amir, Tsalenko, Anya, Sampas, Nick, Rodriguez-Revenga, Laia, Tran, Charles W., Scheffer, Alicia, Steinfeld, Israel, Tsang, Peter, Yamada, N. Alice, Han Soo Park, Jong-Il Kim, Jeong-Sun Seo, Yakhini, Zohar, Laderman, Stephen, Bruhn, Laurakay, and Lee, Charles

Subjects

*HUMAN gene mapping, *HUMAN genome, *COMPARATIVE genomic hybridization, *GENOMICS, *DNA

Abstract

Despite considerable excitement over the potential functional significance of copy-number variants (CNVs), we still lack knowledge of the fine-scale architecture of the large majority of CNV regions in the human genome. In this study, we used a high-resolution array-based comparative genomic hybridization (aCGH) platform that targeted known CNV regions of the human genome at approximately 1 kb resolution to interrogate the genomic DNAs of 30 individuals from four HapMap populations. Our results revealed that 1020 of 1153 CNV loci (88%) were actually smaller in size than what is recorded in the Database of Genomic Variants based on previously published studies. A reduction in size of more than 50% was observed for 876 CNV regions (76%).We conclude that the total genomic content of currently known common human CNVs is likely smaller than previously thought. In addition, approximately 8% of the CNV regions observed in multiple individuals exhibited genomic architectural complexity in the form of smaller CNVs within larger ones and CNVs with interindividual variation in breakpoints. Future association studies that aim to capture the potential influences of CNVs on disease phenotypes will need to consider how to best ascertain this previously uncharacterized complexity. [ABSTRACT FROM AUTHOR]

Published

2008

18. Diet and the evolution of human amylase gene copy number variation.

Author

Perry, George H., Dominy, Nathaniel J., Claw, Katrina G., Lee, Arthur S., Fiegler, Heike, Redon, Richard, Werner, John, Villanea, Fernando A., Mountain, Joanna L., Misra, Rajeev, Carter, Nigel P., Lee, Charles, and Stone, Anne C.

Subjects

*DIET, *AMYLASES, *STARCH, *HYDROLYSIS, *GENOMES, *PROTEINS

Abstract

Starch consumption is a prominent characteristic of agricultural societies and hunter-gatherers in arid environments. In contrast, rainforest and circum-arctic hunter-gatherers and some pastoralists consume much less starch. This behavioral variation raises the possibility that different selective pressures have acted on amylase, the enzyme responsible for starch hydrolysis. We found that copy number of the salivary amylase gene (AMY1) is correlated positively with salivary amylase protein level and that individuals from populations with high-starch diets have, on average, more AMY1 copies than those with traditionally low-starch diets. Comparisons with other loci in a subset of these populations suggest that the extent of AMY1 copy number differentiation is highly unusual. This example of positive selection on a copy number–variable gene is, to our knowledge, one of the first discovered in the human genome. Higher AMY1 copy numbers and protein levels probably improve the digestion of starchy foods and may buffer against the fitness-reducing effects of intestinal disease. [ABSTRACT FROM AUTHOR]

Published

2007

19. Hotspots for copy number variation in chimpanzees and humans.

Author

Perry, George H., Tchinda, Joelle, McGrath, Sean D., Junjun Zhang, Picker, Simon R., Cáceres, Angela M., Iafrate, A. John, Tyler-Smith, Chris, Scherer, Stephen W., Eichler, Evan E., Stone, Anne C., and Lee, Charles

Subjects

*GENOMES, *COMPARATIVE genomic hybridization, *CHIMPANZEES, *PRIMATES, *ANIMAL genetics

Abstract

Copy number variation is surprisingly common among humans and can be involved in phenotypic diversity and variable susceptibility to complex diseases, but little is known of the extent of copy number variation in nonhuman primates. We have used two array-based comparative genomic hybridization platforms to identify a total of 355 copy number variants (CNVs) in the genomes of 20 wild-born chimpanzees (Pan troglodytes) and have compared the identified chimpanzee CNVs to known human CNVs from previous studies. Many CNVs were observed in the corresponding regions in both chimpanzees and humans; especially those CNVs of higher frequency. Strikingly, these loci are enriched 20-fold for ancestral segmental duplications, which may facilitate CNV formation through nonallelic homologous recombination mechanisms. Therefore, some of these regions may be unstable "hotspots" for the genesis of copy number variation, with recurrent duplications and deletions occurring across and within species. [ABSTRACT FROM AUTHOR]

Published

2006

20. Ancient DNA and human evolution.

Author

Perry, George H. and Orlando, Ludovic

Subjects

*FOSSIL DNA, *HUMAN evolution, *PRIMATE evolution, *BIOLOGICAL adaptation, *PALEOENVIRONMENTAL studies

Published

2015

21. Impact of DNA degradation on massively parallel sequencing-based autosomal STR, iiSNP, and mitochondrial DNA typing systems.

Author

Zavala, Elena I., Rajagopal, Swetha, Perry, George H., Kruzic, Ivana, Bašić, Željana, Parsons, Thomas J., and Holland, Mitchell M.

Subjects

*MITOCHONDRIAL DNA, *TANDEM repeats, *MICROSATELLITE repeats, *NUCLEIC acid isolation methods, *NUCLEAR DNA, *BASE pairs, *DNA

Abstract

Biological samples, including skeletal remains exposed to environmental insults for extended periods of time, exhibit increasing levels of DNA damage and fragmentation. Human forensic identification methods typically use a combination of mitochondrial (mt) DNA sequencing and short tandem repeat (STR) analysis, which target segments of DNA ranging from 80 to 500 base pairs (bps). Larger templates are often unavailable as skeletal samples age and the associated DNA degrades. Single-nucleotide polymorphism (SNP) loci target shorter templates and may serve as a solution to the problem. Recently developed assays for STR and SNP analysis using a massively parallel sequencing approach, such as the ForenSeq kit (Verogen, San Diego, CA), offer a means for generating results from degraded samples as they target templates down to 60 to 170 bps. We performed a modeling study that demonstrates that SNPs can increase the significance of an identification when analyzing DNA down to an average size of 100 bps for input amounts between 0.375 and 1 ng of nuclear DNA. Observations from this study were then compared with human skeletal material results (n = 14, ninth to eighteenth centuries), which further demonstrated the utility of the ForenSeq kit for degraded samples. The robustness of the Promega PowerSeq™ Mito System was also tested with human skeletal remains (n = 70, ninth to eighteenth centuries), resulting in successful coverage of 99.29% of the mtDNA control region at 50× coverage or more. This was accompanied by modifications to a mainstream DNA extraction technique for skeletal remains that improved recovery of shorter templates. [ABSTRACT FROM AUTHOR]

Published

2019

22. An environmental DNA sampling method for aye‐ayes from their feeding traces.

Author

Aylward, Megan L., Sullivan, Alexis P., Perry, George H., Johnson, Steig E., and Louis, Edward E.

Subjects

*ANIMAL ecology, *POPULATION genetics, *MITOCHONDRIAL DNA, *RNA probes, *INSECT larvae

Abstract

Noninvasive sampling is an important development in population genetic monitoring of wild animals. Particularly, the collection of environmental DNA (eDNA) which can be collected without needing to encounter the target animal facilitates the genetic analysis of endangered species. One method that has been applied to these sample types is target capture and enrichment which overcomes the issue of high proportions of exogenous (nonhost) DNA from these lower quality samples. We tested whether target capture of mitochondrial DNA from sampled feeding traces of the aye‐aye, an endangered lemur species would yield mitochondrial DNA sequences for population genetic monitoring. We sampled gnawed wood where aye‐ayes excavate wood‐boring insect larvae from trees. We designed RNA probes complementary to the aye‐aye's mitochondrial genome and used these to isolate aye‐aye DNA from other nontarget DNA in these samples. We successfully retrieved six near‐complete mitochondrial genomes from two sites within the aye‐aye's geographic range that had not been sampled previously. Our method demonstrates the application of next‐generation molecular techniques to species of conservation concern. This method can likely be applied to alternative foraged remains to sample endangered species other than aye‐ayes. We applied target capture to obtain mitochondrial DNA sequences from environmental DNA samples from aye‐aye feeding traces. We retrieved six near‐complete mitogenomes from two previously unsampled sites in the aye‐aye's range. This method can likely be applied to other rare and elusive species of conservation concern. [ABSTRACT FROM AUTHOR]

Published

2018

23. Applying an evolutionary mismatch framework to understand disease susceptibility.

Author

Lea, Amanda J., Clark, Andrew G., Dahl, Andrew W., Devinsky, Orrin, Garcia, Angela R., Golden, Christopher D., Kamau, Joseph, Kraft, Thomas S., Lim, Yvonne A. L., Martins, Dino J., Mogoi, Donald, Pajukanta, Päivi, Perry, George H., Pontzer, Herman, Trumble, Benjamin C., Urlacher, Samuel S., Venkataraman, Vivek V., Wallace, Ian J., Gurven, Michael, and Lieberman, Daniel E.

Subjects

*DISEASE susceptibility, *TYPE 2 diabetes, *NON-communicable diseases, *HUMAN ecology

Abstract

Noncommunicable diseases (NCDs) are on the rise worldwide. Obesity, cardiovascular disease, and type 2 diabetes are among a long list of "lifestyle" diseases that were rare throughout human history but are now common. The evolutionary mismatch hypothesis posits that humans evolved in environments that radically differ from those we currently experience; consequently, traits that were once advantageous may now be "mismatched" and disease causing. At the genetic level, this hypothesis predicts that loci with a history of selection will exhibit "genotype by environment" (GxE) interactions, with different health effects in "ancestral" versus "modern" environments. To identify such loci, we advocate for combining genomic tools with partnerships with subsistence-level groups experiencing rapid lifestyle change. In these populations, comparisons of individuals falling on opposite extremes of the "matched" to "mismatched" spectrum are uniquely possible. More broadly, the work we propose will inform our understanding of environmental and genetic risk factors for NCDs across diverse ancestries and cultures. Humans evolved in environments that radically differ from those we currently experience; thus, traits that were once advantageous may now be "mismatched" and disease-causing. In this Essay, the authors advocate for combining genomic tools with partnerships with subsistence-level groups experiencing rapid lifestyle change to identify genetic loci associated with disease risk. [ABSTRACT FROM AUTHOR]

Published

2023

24. Functional preservation and variation in the cone opsin genes of nocturnal tarsiers.

Author

Moritz, Gillian L., Ong, Perry S., Perry, George H., and Dominy, Nathaniel J.

Subjects

*COLOR vision, *NOCTURNAL animals, *TARSIERS, *OPSINS, *PREDATION, *BEHAVIOR, *PRIMATES

Abstract

The short-wavelength sensitive (S-) opsin gene OPN1SW is pseudogenized in some nocturnal primates and retained in others, enabling dichromatic colour vision. Debate on the functional significance of this variation has focused on dark conditions, yet many nocturnal species initiate activity under dim (mesopic) light levels that can support colour vision. Tarsiers are nocturnal, twilight-active primates and exemplary visual predators; they also express different colour vision phenotypes, raising the possibility of discrete adaptations to mesopic conditions. To explore this premise, we conducted a field study in two stages. First, to estimate the level of functional constraint on colour vision, we sequenced OPN1SW in 12 wild-caught Philippine tarsiers (Tarsius syrichta). Second, to explore whether the dichromatic visual systems of Philippine and Bornean (Tarsius bancanus) tarsiers—which express alternate versions of the medium/long-wavelength sensitive (M/L-) opsin gene OPN1MW/OPN1LW—confer differential advantages specific to their respective habitats, we used twilight and moonlight conditions to model the visual contrasts of invertebrate prey. We detected a signature of purifying selection for OPN1SW, indicating that colour vision confers an adaptive advantage to tarsiers. However, this advantage extends to a relatively small proportion of prey–background contrasts, and mostly brown arthropod prey amid leaf litter. We also found that the colour vision of T. bancanus is advantageous for discriminating prey under twilight that is enriched in shorter (bluer) wavelengths, a plausible idiosyncrasy of understorey habitats in Borneo. [ABSTRACT FROM AUTHOR]

Published

2017

25. Human subsistence and signatures of selection on chemosensory genes.

Author

Veilleux, Carrie C., Garrett, Eva C., Pajic, Petar, Saitou, Marie, Ochieng, Joseph, Dagsaan, Lilia D., Dominy, Nathaniel J., Perry, George H., Gokcumen, Omer, and Melin, Amanda D.

Subjects

*SUBSISTENCE farming, *OLFACTORY receptors, *RURAL population, *GENES, *HUNTER-gatherer societies, *AGRICULTURE, *TASTE receptors, *SMELL

Abstract

Chemosensation (olfaction, taste) is essential for detecting and assessing foods, such that dietary shifts elicit evolutionary changes in vertebrate chemosensory genes. The transition from hunting and gathering to agriculture dramatically altered how humans acquire food. Recent genetic and linguistic studies suggest agriculture may have precipitated olfactory degeneration. Here, we explore the effects of subsistence behaviors on olfactory (OR) and taste (TASR) receptor genes among rainforest foragers and neighboring agriculturalists in Africa and Southeast Asia. We analyze 378 functional OR and 26 functional TASR genes in 133 individuals across populations in Uganda (Twa, Sua, BaKiga) and the Philippines (Agta, Mamanwa, Manobo) with differing subsistence histories. We find no evidence of relaxed selection on chemosensory genes in agricultural populations. However, we identify subsistence-related signatures of local adaptation on chemosensory genes within each geographic region. Our results highlight the importance of culture, subsistence economy, and drift in human chemosensory perception. Genetic comparison of rainforest foraging and neighboring agricultural communities in Uganda and the Philippines shows no distinction in the size of olfactory receptor gene repertoires, but there is evidence for subsistence-related local adaptation. [ABSTRACT FROM AUTHOR]

Published

2023

26. Comparative RNA sequencing reveals substantial genetic variation in endangered primates.

Author

Perry, George H., Melsted, Páll, Marioni, John C., Ying Wang, Bainer, Russell, Pickrell, Joseph K., Michelini, Katelyn, Zehr, Sarah, Yoder, Anne D., Stephens, Matthew, Pritchard, Jonathan K., and Gilad, Yoav

Subjects

*COMPARATIVE genomics, *GENOMICS, *GENOMES, *RNA, *GENE expression, *GENES

Abstract

Comparative genomic studies in primates have yielded important insights into the evolutionary forces that shape genetic diversity and revealed the likely genetic basis for certain species-specific adaptations. To date, however, these studies have focused on only a small number of species. For the majority of nonhuman primates, including some of the most critically endangered, genome-level data are not yet available. In this study, we have taken the first steps toward addressing this gap by sequencing RNA from the livers of multiple individuals from each of 16 mammalian species, including humans and 11 nonhuman primates. Of the nonhuman primate species, five are lemurs and two are lorisoids, for which little or no genomic data were previously available. To analyze these data, we developed a method for de novo assembly and alignment of orthologous gene sequences across species. We assembled an average of 5721 gene sequences per species and characterized diversity and divergence of both gene sequences and gene expression levels. We identified patterns of variation that are consistent with the action of positive or directional selection, including an 18-fold enrichment of peroxisomal genes among genes whose regulation likely evolved under directional selection in the ancestral primate lineage. Importantly, we found no relationship between genetic diversity and endangered status, with the two most endangered species in our study, the black and white ruffed lemur and the Coquerel's sifaka, having the highest genetic diversity among all primates. Our observations imply that many endangered lemur populations still harbor considerable genetic variation. [ABSTRACT FROM AUTHOR]

Published

2012

27. Copy number variation: New insights in genome diversity.

Author

Freeman, Jennifer L., Perry, George H., Feuk, Lars, Redon, Richard, McCarroll, Steven A., Altshuler, David M., Aburatani, Hiroyuki, Jones, Keith W., Tyler-Smith, Chris, Hurles, Matthew E., Carter, Nigel P., Scherer, Stephen W., and Lee, Charles

Subjects

*HUMAN genetic variation, *BIOLOGICAL variation, *DNA, *GENES, *HUMAN genome

Abstract

DNA copy number variation has long been associated with specific chromosomal rearrangements and genomic disorders, but its ubiquity in mammalian genomes was not fully realized until recently. Although our understanding of the extent of this variation is still developing, it seems likely that, at least in humans, copy number variants (CNVs) account for a substantial amount of genetic variation. Since many CNVs include genes that result in differential levels of gene expression, CNVs may account for a significant proportion of normal phenotypic variation. Current efforts are directed toward a more comprehensive cataloging and characterization of CNVs that will provide the basis for determining how genomic diversity impacts biological function, evolution, and common human diseases. [ABSTRACT FROM AUTHOR]

Published

2006

28. Potential evolutionary body size reduction in a Malagasy primate (Propithecus verreauxi) in response to human size‐selective hunting pressure.

Author

Sullivan, Alexis P., Godfrey, Laurie R., Lawler, Richard R., Randrianatoandro, Heritiana, Eccles, Laurie, Culleton, Brendan, Ryan, Timothy M., and Perry, George H.

Subjects

*BODY size, *HUNTING, *RADIOCARBON dating, *ZOOARCHAEOLOGY, *BIODIVERSITY

Abstract

Objectives: The Holocene arrival of humans on Madagascar precipitated major changes to the island's biodiversity. The now‐extinct, endemic "subfossil" megafauna of Madagascar were likely hunted by early human inhabitants. Perhaps in part due to preferential hunting of larger prey, no surviving endemic species on Madagascar is >10 kg. Moreover, some subfossil bones of extant lemurs are considerably larger than those of the modern members of their species, but subfossil versus modern locale differences for the comparisons conducted to date lead to uncertainty about whether these size differences reflect in situ change or pre‐existing ecogeographic variation. Here, we revisited this question with samples from nearby locales. Materials and Methods: We used high‐resolution 3D scan data to conduct comparative morphological analyses of subfossil and modern skeletal remains of one of the larger extant lemurs, Verreaux's sifakas (Propithecus verreauxi) from subfossil and modern sites only ~10 km apart: Taolambiby (bones dated to 725–560—1075–955 cal. years before present) and Beza Mahafaly Special Reserve, respectively. Results: The mean aggregate score for all subfossil elements (n = 12; 0.089 ± 0.117) is significantly greater than that for the modern individuals (n = 31; 0.009 ± 0.045; t‐test; p = 0.039). We found that the average subfossil sifaka bone is ~9% larger than that of modern sifakas (permutation test p = 0.037). Discussion: We cannot yet conclude whether this size difference reflects evolutionary change or an archaeological aggregation/taphonomic process. However, if this is a case of phyletic dwarfism in response to human size‐selective harvesting pressures then the estimated rate of change is greater than those previously calculated for other archaeological cases of this phenomenon. [ABSTRACT FROM AUTHOR]

Published

2022

29. Common deletion polymorphisms in the human genome.

Author

McCarroll, Steven A., Hadnott, Tracy N., Perry, George H., Sabeti, Pardis C., Zody, Michael C., Barrett, Jeffrey C., Dallaire, Stephanie, Gabriel, Stacey B., Lee, Charles, Daly, Mark J., and Altshuler, David M.

Subjects

*GENETIC polymorphisms, *HUMAN genome, *STEROIDS, *SMELL, *GENETIC mutation, *METABOLISM

Abstract

The locations and properties of common deletion variants in the human genome are largely unknown. We describe a systematic method for using dense SNP genotype data to discover deletions and its application to data from the International HapMap Consortium to characterize and catalogue segregating deletion variants across the human genome. We identified 541 deletion variants (94% novel) ranging from 1 kb to 745 kb in size; 278 of these variants were observed in multiple, unrelated individuals, 120 in the homozygous state. The coding exons of ten expressed genes were found to be commonly deleted, including multiple genes with roles in sex steroid metabolism, olfaction and drug response. These common deletion polymorphisms typically represent ancestral mutations that are in linkage disequilibrium with nearby SNPs, meaning that their association to disease can often be evaluated in the course of SNP-based whole-genome association studies. [ABSTRACT FROM AUTHOR]

Published

2006

30. chromosome-level genome assembly for the eastern fence lizard (Sceloporus undulatus), a reptile model for physiological and evolutionary ecology.

Author

Westfall, Aundrea K, Telemeco, Rory S, Grizante, Mariana B, Waits, Damien S, Clark, Amanda D, Simpson, Dasia Y, Klabacka, Randy L, Sullivan, Alexis P, Perry, George H, Sears, Michael W, Cox, Christian L, Cox, Robert M, Gifford, Matthew E, John-Alder, Henry B, Langkilde, Tracy, Angilletta, Michael J, Leaché, Adam D, Tollis, Marc, Kusumi, Kenro, and Schwartz, Tonia S

Subjects

*ECOPHYSIOLOGY, *PHYSIOLOGICAL models, *EVOLUTIONARY models, *LIZARDS, *GENOMES, *NUCLEOTIDE sequencing

Abstract

Background High-quality genomic resources facilitate investigations into behavioral ecology, morphological and physiological adaptations, and the evolution of genomic architecture. Lizards in the genus Sceloporus have a long history as important ecological, evolutionary, and physiological models, making them a valuable target for the development of genomic resources. Findings We present a high-quality chromosome-level reference genome assembly, SceUnd1.0 (using 10X Genomics Chromium, HiC, and Pacific Biosciences data), and tissue/developmental stage transcriptomes for the eastern fence lizard, Sceloporus undulatus. We performed synteny analysis with other snake and lizard assemblies to identify broad patterns of chromosome evolution including the fusion of micro- and macrochromosomes. We also used this new assembly to provide improved reference-based genome assemblies for 34 additional Sceloporus species. Finally, we used RNAseq and whole-genome resequencing data to compare 3 assemblies, each representing an increased level of cost and effort: Supernova Assembly with data from 10X Genomics Chromium, HiRise Assembly that added data from HiC, and PBJelly Assembly that added data from Pacific Biosciences sequencing. We found that the Supernova Assembly contained the full genome and was a suitable reference for RNAseq and single-nucleotide polymorphism calling, but the chromosome-level scaffolds provided by the addition of HiC data allowed synteny and whole-genome association mapping analyses. The subsequent addition of PacBio data doubled the contig N50 but provided negligible gains in scaffold length. Conclusions These new genomic resources provide valuable tools for advanced molecular analysis of an organism that has become a model in physiology and evolutionary ecology. [ABSTRACT FROM AUTHOR]

Published

2021

31. Modern, archaeological, and paleontological DNA analysis of a human‐harvested marine gastropod (Strombus pugilis) from Caribbean Panama.

Author

Sullivan, Alexis P., Marciniak, Stephanie, O'Dea, Aaron, Wake, Thomas A., and Perry, George H.

Subjects

*DNA analysis, *NUCLEOTIDE sequencing, *FOSSIL corals, *MARINE toxins, *DNA sequencing, *FOSSIL DNA, *CONOTOXINS

Abstract

Although protocols exist for the recovery of ancient DNA from land snail and marine bivalve shells, marine conch shells have yet to be studied from a paleogenomic perspective. We first present reference assemblies for both a 623.7 Mbp nuclear genome and a 15.4 kbp mitochondrial genome for Strombus pugilis, the West Indian fighting conch. We next detail a method to extract and sequence DNA from conch shells and apply it to conch from Bocas del Toro, Panama across three time periods: recently‐eaten and discarded (n = 3), Late Holocene (984–1258 before present [BP]) archaeological midden (n = 5), and mid‐Holocene (5711–7187 BP) paleontological fossil coral reef (n = 5). These results are compared to control DNA extracted from live‐caught tissue and fresh shells (n = 5). Using high‐throughput sequencing, we were able to obtain S. pugilis nuclear sequence reads from shells across all age periods: up to 92.5 thousand filtered reads per sample in live‐caught shell material, 4.57 thousand for modern discarded shells, 12.1 thousand reads for archaeological shells, and 114 reads in paleontological shells. We confirmed authenticity of the ancient DNA recovered from the archaeological and paleontological shells based on 5.7× higher average frequency of deamination‐driven misincorporations and 15% shorter average read lengths compared to the modern shells. Reads also mapped to the S. pugilis mitochondrial genome for all but the paleontological shells, with consistent ratios of mitochondrial to nuclear mapped reads across sample types. Our methods can be applied to diverse archaeological sites to facilitate reconstructions of the long‐term impacts of human behaviour on mollusc evolutionary biology. [ABSTRACT FROM AUTHOR]

Published

2021

32. Evolutionary and phylogenetic insights from a nuclear genome sequence of the extinct, giant, "subfossil" koala lemur Megaladapis edwardsi.

Author

Marciniak, Stephanie, Mughal, Mehreen R., Godfrey, Laurie R., Bankoff, Richard J., Randrianatoandro, Heritiana, Crowley, Brooke E., Bergey, Christina M., Muldoon, Kathleen M., Randrianasy, Jeannot, Raharivololona, Brigitte M., Schuster, Stephan C., Malhi, Ripan S., Yoder, Anne D., Louis Jr, Edward E., Kistler, Logan, and Perry, George H.

Subjects

*KOALA, *ENDEMIC animals, *PLANT toxins, *BIOLOGICAL extinction, *CONVERGENT evolution, *COMMERCIAL products

Abstract

No endemic Madagascar animal with body mass >10 kg survived a relatively recent wave of extinction on the island. From morphological and isotopic analyses of skeletal "subfossil" remains we can reconstruct some of the biology and behavioral ecology of giant lemurs (primates; up to ~160 kg) and other extraordinary Malagasy megafauna that survived into the past millennium. Yet, much about the evolutionary biology of these now-extinct species remains unknown, along with persistent phylogenetic uncertainty in some cases. Thankfully, despite the challenges of DNA preservation in tropical and subtropical environments, technical advances have enabled the recovery of ancient DNA from some Malagasy subfossil specimens. Here, we present a nuclear genome sequence (~2x coverage) for one of the largest extinct lemurs, the koala lemur Megaladapis edwardsi (~85 kg). To support the testing of key phylogenetic and evolutionary hypotheses, we also generated high-coverage nuclear genomes for two extant lemurs, Eulemur rufifrons and Lepilemur mustelinus, and we aligned these sequences with previously published genomes for three other extant lemurs and 47 nonlemur vertebrates. Our phylogenetic results confirm that Megaladapis is most closely related to the extant Lemuridae (typified in our analysis by E. rufifrons) to the exclusion of L. mustelinus, which contradicts morphology-based phylogenies. Our evolutionary analyses identified significant convergent evolution between M. edwardsi and an extant folivore (a colobine monkey) and an herbivore (horse) in genes encoding proteins that function in plant toxin biodegradation and nutrient absorption. These results suggest that koala lemurs were highly adapted to a leaf-based diet, which may also explain their convergent craniodental morphology with the small-bodied folivore Lepilemur. [ABSTRACT FROM AUTHOR]

Published

2021

33. Patterns of recent natural selection on genetic loci associated with sexually differentiated human body size and shape phenotypes.

Author

Arner, Audrey M., Grogan, Kathleen E., Grabowski, Mark, Reyes-Centeno, Hugo, and Perry, George H.

Subjects

*NATURAL selection, *PHENOTYPES, *BODY size, *HUMAN body, *SINGLE nucleotide polymorphisms

Abstract

Levels of sex differences for human body size and shape phenotypes are hypothesized to have adaptively reduced following the agricultural transition as part of an evolutionary response to relatively more equal divisions of labor and new technology adoption. In this study, we tested this hypothesis by studying genetic variants associated with five sexually differentiated human phenotypes: height, body mass, hip circumference, body fat percentage, and waist circumference. We first analyzed genome-wide association (GWAS) results for UK Biobank individuals (~194,000 females and ~167,000 males) to identify a total of 114,199 single nucleotide polymorphisms (SNPs) significantly associated with at least one of the studied phenotypes in females, males, or both sexes (P<5x10-8). From these loci we then identified 3,016 SNPs (2.6%) with significant differences in the strength of association between the female- and male-specific GWAS results at a low false-discovery rate (FDR<0.001). Genes with known roles in sexual differentiation are significantly enriched for co-localization with one or more of these SNPs versus SNPs associated with the phenotypes generally but not with sex differences (2.73-fold enrichment; permutation test; P = 0.0041). We also confirmed that the identified variants are disproportionately associated with greater phenotype effect sizes in the sex with the stronger association value. We then used the singleton density score statistic, which quantifies recent (within the last ~3,000 years; post-agriculture adoption in Britain) changes in the frequencies of alleles underlying polygenic traits, to identify a signature of recent positive selection on alleles associated with greater body fat percentage in females (permutation test; P = 0.0038; FDR = 0.0380), directionally opposite to that predicted by the sex differences reduction hypothesis. Otherwise, we found no evidence of positive selection for sex difference-associated alleles for any other trait. Overall, our results challenge the longstanding hypothesis that sex differences adaptively decreased following subsistence transitions from hunting and gathering to agriculture. Author summary: There is uncertainty regarding the evolutionary history of human sex differences for quantitative body size and shape phenotypes. In this study we identified thousands of genetic loci that differentially impact body size and shape trait variation between females and males using a large sample of UK Biobank individuals. After confirming the biological plausibility of these loci, we used a population genomics approach to study the recent (over the past ~3,000 years) evolutionary histories of these loci in this population. We observed significant increases in the frequencies of alleles associated with greater body fat percentage in females. This result is contradictory to longstanding hypotheses that sex differences have adaptively decreased following subsistence transitions from hunting and gathering to agriculture. [ABSTRACT FROM AUTHOR]

Published

2021

34. The genomics of ecological flexibility, large brains, and long lives in capuchin monkeys revealed with fecalFACS.

Author

Orkin, Joseph D., Montague, Michael J., Tejada-Martinez, Daniela, de Manuel, Marc, del Campo, Javier, Hernandez, Saul Cheves, Di Fiore, Anthony, Fontsere, Claudia, Hodgson, Jason A., Janiak, Mareike C., Kuderna, Lukas F. K., Lizano, Esther, Martin, Maria Pia, Yoshihito Niimura, Perry, George H., Soto Valverde, Carmen, Jia Tang, Warren, Wesley C., Pedro de Magalhães, João, and Shoji Kawamura

Subjects

*CAPUCHIN monkeys, *GENOMICS, *TROPICAL dry forests, *SIZE of brain, *COMPARATIVE genomics

Abstract

Ecological flexibility, extended lifespans, and large brains have long intrigued evolutionary biologists, and comparative genomics offers an efficient and effective tool for generating new insights into the evolution of such traits. Studies of capuchin monkeys are particularly well situated to shed light on the selective pressures and genetic underpinnings of local adaptation to diverse habitats, longevity, and brain development. Distributed widely across Central and South America, they are inventive and extractive foragers, known for their sensorimotor intelligence. Capuchins have among the largest relative brain size of any monkey and a lifespan that exceeds 50 y, despite their small (3 to 5 kg) body size. We assemble and annotate a de novo reference genome for Cebus imitator. Through high-depth sequencing of DNA derived from blood, various tissues, and feces via fluorescence-activated cell sorting (fecal-FACS) to isolate monkey epithelial cells, we compared genomes of capuchin populations from tropical dry forests and lowland rainforests and identified population divergence in genes involved in water balance, kidney function, and metabolism. Through a comparative genomics approach spanning a wide diversity of mammals, we identified genes under positive selection associated with longevity and brain development. Additionally, we provide a technological advancement in the use of noninvasive genomics for studies of free-ranging mammals. Our intra- and interspecific comparative study of capuchin genomics provides insights into processes underlying local adaptation to diverse and physiologically challenging environments, as well as the molecular basis of brain evolution and longevity. [ABSTRACT FROM AUTHOR]

Published

2021

35. Subfossil lemur discoveries from the Beanka Protected Area in western Madagascar.

Author

Burney, David A., Andriamialison, Haingoson, Andrianaivoarivelo, Radosoa A., Bourne, Steven, Crowley, Brooke E., de Boer, Erik J., Godfrey, Laurie R., Goodman, Steven M., Griffiths, Christine, Griffiths, Owen, Hume, Julian P., Joyce, Walter G., Jungers, William L., Marciniak, Stephanie, Middleton, Gregory J., Muldoon, Kathleen M., Noromalala, Eliette, Pérez, Ventura R., Perry, George H., and Randalana, Roger

Subjects

*TAPHONOMY, *STRONTIUM isotopes, *LEMURS, *PALEONTOLOGICAL excavations, *HIPPOPOTAMUS, *PRIMATES, *CARBON isotopes

Abstract

A new fossil site in a previously unexplored part of western Madagascar (the Beanka Protected Area) has yielded remains of many recently extinct vertebrates, including giant lemurs (Babakotia radofilai , Palaeopropithecus kelyus , Pachylemur sp., and Archaeolemur edwardsi), carnivores (Cryptoprocta spelea), the aardvark-like Plesiorycteropus sp., and giant ground cuckoos (Coua). Many of these represent considerable range extensions. Extant species that were extirpated from the region (e.g., Prolemur simus) are also present. Calibrated radiocarbon ages for 10 bones from extinct primates span the last three millennia. The largely undisturbed taphonomy of bone deposits supports the interpretation that many specimens fell in from a rock ledge above the entrance. Some primates and other mammals may have been prey items of avian predators, but human predation is also evident. Strontium isotope ratios (87Sr/86Sr) suggest that fossils were local to the area. Pottery sherds and bones of extinct and extant vertebrates with cut and chop marks indicate human activity in previous centuries. Scarcity of charcoal and human artifacts suggests only occasional visitation to the site by humans. The fossil assemblage from this site is unusual in that, while it contains many sloth lemurs, it lacks ratites, hippopotami, and crocodiles typical of nearly all other Holocene subfossil sites on Madagascar. [ABSTRACT FROM AUTHOR]

Published

2020

36. Primate Conservation Genomics and Paleogenomics.

Author

Bankoff, Richard J., Randrianatoandro, Heritiana D. D., and Perry, George H.

Subjects

*GENOMICS, *PRIMATE genomes, *FOSSIL DNA, *FOSSIL collection, *GOVERNMENT policy

Abstract

The article discusses the analysis and methods used for conservation of genomic data of non-human primates. Topics include result of paleogenomic analyses of data recovered from fossil of extinct or prehistoric population, economic aid for tools related to collection of data from direct species for conservation and formulation of conservation policy.

Published

2015

37. Island-wide aridity did not trigger recent megafaunal extinctions in Madagascar.

Author

Crowley, Brooke E., Godfrey, Laurie R., Bankoff, Richard J., Perry, George H., Culleton, Brendan J., Kennett, Douglas J., Sutherland, Michael R., Samonds, Karen E., and Burney, David A.

Subjects

*GRASS pollen, *RADIOCARBON dating, *NITROGEN isotopes, *AGROPASTORAL systems, *MALAGASY

Abstract

Researchers are divided about the relative importance of people versus climate in triggering the Late Holocene extinctions of the endemic large-bodied fauna on the island of Madagascar. Specifically, a dramatic and synchronous decline in arboreal pollen and increase in grass pollen ca 1000 yr ago has been alternatively interpreted as evidence for aridification, increased human activity, or both. As aridification and anthropogenic deforestation can have similar effects on vegetation, resolving which of these factors (if either) led to the demise of the megafauna on Madagascar has remained a challenge. We use stable nitrogen isotope (δ15N) values from radiocarbon-dated subfossil vertebrates to disentangle the relative importance of natural and human-induced changes. If increasing aridity were responsible for megafaunal decline, then we would expect an island-wide increase in δ15N values culminating in the highest values at the time of proposed maximum drought at ca 1000 yr ago. Alternatively, if climate were relatively stable and anthropogenic habitat alteration explains the palynological signal, then we would anticipate little or no change in habitat moisture, and no systematic, directional change in δ15N values over time. After accounting for the confounding influences of diet, geographic region, and coastal proximity, we find no change in δ15N values over the past 10 000 yr, and no support for a period of marked, geographically widespread aridification culminating 900-950 yr ago. Instead, increases in grasses at around that time may signal a transition in human land use to a more dedicated agro-pastoralist lifestyle, when megafaunal populations were already in decline. Land use changes ca 1000 yr ago would have simply accelerated the inevitable loss of Madagascar's megafauna. [ABSTRACT FROM AUTHOR]

Published

2017

38. Testing Convergent Evolution in Auditory Processing Genes between Echolocating Mammals and the Aye-Aye, a Percussive-Foraging Primate.

Author

Bankoff, Richard J., Jerjos, Michael, Hohman, Baily, Lauterbur, M. Elise, Kistler, Logan, and Perry, George H.

Subjects

*TAXONOMY, *CETACEA, *ECHOLOCATION (Physiology), *AMINO acids, *LEMUR (Genus), *MAMMALS

Abstract

Several taxonomically distinct mammalian groups—certain microbats and cetaceans (e.g., dolphins)—share both morphological adaptations related to echolocation behavior and strong signatures of convergent evolution at the amino acid level across seven genes related to auditory processing. Aye-ayes (Daubentonia madagascariensis) are nocturnal lemurs with a specialized auditory processing system. Aye-ayes tap rapidly along the surfaces of trees, listening to reverberations to identify the mines of wood-boring insect larvae; this behavior has been hypothesized to functionally mimic echolocation. Here we investigated whether there are signals of convergence in auditory processing genes between aye-ayes and known mammalian echolocators. We developed a computational pipeline (Basic Exon Assembly Tool) that produces consensus sequences for regions of interest from shotgun genomic sequencing data for nonmodel organisms without requiring de novo genome assembly. We reconstructed complete coding region sequences for the seven convergent echolocating bat–dolphin genes for aye-ayes and another lemur. We compared sequences from these two lemurs in a phylogenetic framework with those of bat and dolphin echolocators and appropriate nonecholocating outgroups. Our analysis reaffirms the existence of amino acid convergence at these loci among echolocating bats and dolphins; some methods also detected signals of convergence between echolocating bats and both mice and elephants. However, we observed no significant signal of amino acid convergence between aye-ayes and echolocating bats and dolphins, suggesting that aye-aye tap-foraging auditory adaptations represent distinct evolutionary innovations. These results are also consistent with a developing consensus that convergent behavioral ecology does not reliably predict convergent molecular evolution. [ABSTRACT FROM AUTHOR]

Published

2017

39. An evolutionary medicine perspective on Neandertal extinction.

Author

Sullivan, Alexis P., de Manuel, Marc, Marques-Bonet, Tomas, and Perry, George H.

Subjects

*DARWINIAN medicine, *NEANDERTHALS, *BIOLOGICAL extinction, *SYMPATRY (Ecology), *HUMAN evolution, *ANTHROPOLOGY

Abstract

The Eurasian sympatry of Neandertals and anatomically modern humans – beginning at least 45,000 years ago and possibly lasting for more than 5000 years – has sparked immense anthropological interest into the factors that potentially contributed to Neandertal extinction. Among many different hypotheses, the “differential pathogen resistance” extinction model posits that Neandertals were disproportionately affected by exposure to novel infectious diseases that were transmitted during the period of spatiotemporal sympatry with modern humans. Comparisons of new archaic hominin paleogenome sequences with modern human genomes have confirmed a history of genetic admixture – and thus direct contact – between humans and Neandertals. Analyses of these data have also shown that Neandertal nuclear genome genetic diversity was likely considerably lower than that of the Eurasian anatomically modern humans with whom they came into contact, perhaps leaving Neandertal innate immune systems relatively more susceptible to novel pathogens. In this study, we compared levels of genetic diversity in genes for which genetic variation is hypothesized to benefit pathogen defense among Neandertals and African, European, and Asian modern humans, using available exome sequencing data (three individuals, or six chromosomes, per population). We observed that Neandertals had only 31–39% as many nonsynonymous (amino acid changing) polymorphisms across 73 innate immune system genes compared to modern human populations. We also found that Neandertal genetic diversity was relatively low in an unbiased set of balancing selection candidate genes for primates, those genes with the highest 1% genetic diversity genome-wide in non-human hominoids (apes). In contrast, Neandertals had similar or higher levels of genetic diversity than humans in 12 major histocompatibility complex ( MHC ) genes. Thus, while Neandertals may have been relatively more susceptible to some novel pathogens and differential pathogen resistance could be considered as one potential contributing factor in their extinction, the expectations of this model are not universally met. [ABSTRACT FROM AUTHOR]

Published

2017

40. Dispersals and genetic adaptation of Bantu-speaking populations in Africa and North America.

Author

Patin, Etienne, Lopez, Marie, Grollemund, Rebecca, Verdu, Paul, Harmant, Christine, Quach, Hélène, Laval, Guillaume, Perry, George H., Barreiro, Luis B., Froment, Alain, Heyer, Evelyne, Massougbodji, Achille, Fortes-Lima, Cesar, Migot-Nabias, Florence, Bellis, Gil, Dugoujon, Jean-Michel, Pereira, Joana B., Fernandes, Verónica, Pereira, Luisa, and Van der Veen, Lolke

Subjects

*BANTU languages, *BANTU-speaking peoples, *AFRICAN Americans, *SINGLE nucleotide polymorphisms, *GENETIC polymorphisms, *HISTORY

Abstract

Bantu languages are spoken by about 310 million Africans, yet the genetic history of Bantu-speaking populations remains largely unexplored. We generated genomic data for 1318 individuals from 35 populations in western central Africa, where Bantu languages originated. We found that early Bantu speakers first moved southward, through the equatorial rainforest, before spreading toward eastern and southern Africa. We also found that genetic adaptation of Bantu speakers was facilitated by admixture with local populations, particularly for the HLA and LCT loci. Finally, we identified a major contribution of western central African Bantu speakers to the ancestry of African Americans, whose genomes present no strong signals of natural selection. Together, these results highlight the contribution of Bantu-speaking peoples to the complex genetic history of Africans and African Americans. [ABSTRACT FROM AUTHOR]

Published

2017

41. Extending Genome-wide Association Study Results to Test Classic Anthropological Hypotheses: Human Third Molar Agenesis and the “Probable Mutation Effect”.

Author

Vukelic, Adrijana, Cohen, Jacob A., Sullivan, Alexis P., and Perry, George H.

Abstract

A genome-wide association study (GWAS) identifijies regions of the genome that likely afffect the variable state of a phenotype of interest. These regions can then be studied with population genetic methods to make inferences about the evolutionary history of the trait. There are increasing opportunities to use GWAS results—even from clinically motivated studies—for tests of classic anthropological hypotheses. One such example, presented here as a case study for this approach, involves tooth development variation related to dental crowding. Specifijically, more than 10% of humans fail to develop one or more permanent third molars (M3 agenesis). M3 presence/absence variation within human populations has a signifijicant genetic component (heritability estimate h2 = 0.47). The evolutionary signifijicance of M3 agenesis has a long history of anthropological speculation. First, the modern frequency of M3 agenesis could reflect a relaxation of selection pressure to retain larger and more teeth following the origins of cooking and other food-softening behaviors (i.e., the genetic drift hypothesis or, classically, the “probable mutation efffect”). Alternatively, commensurate with increasing hominin brain size and facial shortening, M3 agenesis may have conferred an adaptive fijitness advantage if it reduced the risk of M3 impaction and potential health complications (i.e., the positive selection hypothesis). A recent GWAS identifijied 70 genetic loci that may play a role in human M3 presence/absence variation. To begin evaluating the contrasting evolutionary scenarios for M3 agenesis, we used the integrated haplotype score (iHS) statistic to test whether those 70 genetic regions are enriched for genomic signatures of recent positive selection. None of our fijindings are inconsistent with the null hypothesis of genetic drift to explain the high prevalence of human M3 agenesis. This result might suggest that M3 impaction rates for modern humans do not accurately retrodict those of the preagricultural past. Alternatively, the absence of support for the positive selection hypothesis could reflect a lack of power; this analysis should be repeated following the completion of more comprehensive GWAS analyses for human M3 agenesis. [ABSTRACT FROM AUTHOR]

Published

2017

42. Phylogenomic Reconstruction of Sportive Lemurs (genus Lepilemur) Recovered from Mitogenomes with Inferences for Madagascar Biogeography.

Author

Lei, Runhua, Frasier, Cynthia L., Hawkins, Melissa T. R., Engberg, Shannon E., Bailey, Carolyn A., Johnson, Steig E., McLain, Adam T., Groves, Colin P., Perry, George H., Nash, Stephen D., Mittermeier, Russell A., and Louis Jr, Edward E.

Subjects

*LEPILEMURIDAE, *BIOGEOGRAPHY, *PRIMATE behavior, *PLEISTOCENE Epoch, *WATERSHEDS

Abstract

The family Lepilemuridae includes 26 species of sportive lemurs, most of which were recently described. The cryptic morphological differences confounded taxonomy until recent molecular studies; however, some species' boundaries remain uncertain. To better understand the genus Lepilemur, we analyzed 35 complete mitochondrial genomes representing all recognized 26 sportive lemur taxa and estimated divergence dates. With our dataset we recovered 25 reciprocally monophyletic lineages, as well as an admixed clade containing Lepilemur mittermeieri and Lepilemur dorsalis. Using modern distribution data, an ancestral area reconstruction and an ecological vicariance analysis were performed to trace the history of diversification and to test biogeographic hypotheses. We estimated the initial split between the eastern and western Lepilemur clades to have occurred in the Miocene. Divergence of most species occurred from the Pliocene to the Pleistocene. The biogeographic patterns recovered in this study were better addressed with a combinatorial approach including climate, watersheds, and rivers. Generally, current climate and watershed hypotheses performed better for western and eastern clades, while speciation of northern clades was not adequately supported using the ecological factors incorporated in this study. Thus, multiple mechanisms likely contributed to the speciation and distribution patterns in Lepilemur. [ABSTRACT FROM AUTHOR]

Published

2017

43. Implications of lemuriform extinctions for the Malagasy flora.

Author

Federman, Sarah, Dornburg, Alex, Daly, Douglas C., Downie, Alexander, Perry, George H., Yoder, Anne D., Sargis, Eric J., Richard, Alison F., Donoghue, Michael J., and Baden, Andrea L.

Subjects

*LEMUR behavior, *ANIMAL feeding behavior, *MAMMAL extinction, *SEED dispersal by animals, *MOLECULAR phylogeny

Abstract

Madagascar's lemurs display a diverse array of feeding strategies with complex relationships to seed dispersal mechanisms in Malagasy plants. Although these relationships have been explored previously on a case-by-case basis, we present here the first comprehensive analysis of lemuriform feeding, to our knowledge, and its hypothesized effects on seed dispersal and the long-term survival of Malagasy plant lineages. We used a molecular phylogenetic framework to examine the mode and tempo of diet evolution, and to quantify the associated morphological space occupied by Madagascar's lemurs, both extinct and extant. Using statistical models and morphometric analyses, we demonstrate that the extinction of large-bodied lemurs resulted in a significant reduction in functional morphological space associated with seed dispersal ability. These reductions carry potentially far-reaching consequences for Malagasy ecosystems, and we highlight large-seeded Malagasy plants that appear to be without extant animal dispersers. We also identify living lemurs that are endangered yet occupy unique and essential dispersal niches defined by our morphometric analyses. [ABSTRACT FROM AUTHOR]

Published

2016

44. Gourds and squashes (Cucurbita spp.) adapted to megafaunal extinction and ecological anachronism through domestication.

Author

Kistler, Logan, Newsom, Lee A., Ryan, Timothy M., Clarke, Andrew C., Smith, Bruce D., and Perry, George H.

Subjects

*CUCURBITA, *DOMESTICATION of plants, *PROGENITOR cells, *HOLOCENE Epoch, *SYMBIOSIS, *PLASTIDS

Abstract

The genus Cucurbita (squashes, pumpkins, gourds) contains numerous domesticated lineages with ancient New World origins. It was broadly distributed in the past but has declined to the point that several of the crops' progenitor species are scarce or unknown in the wild. We hypothesize that Holocene ecological shifts and megafaunal extinctions severely impacted wild Cucurbita, whereas their domestic counterparts adapted to changing conditions via symbiosis with human cultivators. First, we used high-throughput sequencing to analyze complete plastid genomes of 91 total Cucurbita samples, comprising ancient (n = 19), modern wild (n = 30), andmodern domestic (n = 42) taxa. This analysis demonstrates independent domestication in eastern North America, evidence of a previously unknown pathway to domestication in northeastern Mexico, and broad archaeological distributions of taxa currently unknown in the wild. Further, sequence similarity between distant wild populations suggests recent fragmentation. Collectively, these results point to wild-type declines coinciding with widespread domestication. Second, we hypothesize that the disappearance of large herbivores struck a critical ecological blowagainstwild Cucurbita, and we take initial steps to consider this hypothesis through crossmammal analyses of bitter taste receptor gene repertoires. Directly, megafauna consumed Cucurbita fruits and dispersed their seeds; wild Cucurbita were likely left without mutualistic dispersal partners in the Holocene because they are unpalatable to smaller surviving mammals with more bitter taste receptor genes. Indirectly, megafauna maintained mosaic-like landscapes ideal for Cucurbita, and vegetative changes following the megafaunal extinctions likely crowded out their disturbed-ground niche. Thus, anthropogenic landscapes provided favorable growth habitats and willing dispersal partners in the wake of ecological upheaval. [ABSTRACT FROM AUTHOR]

Published

2015

45. Comparative and population mitogenomic analyses of Madagascar's extinct, giant ‘subfossil’ lemurs.

Author

Kistler, Logan, Ratan, Aakrosh, Godfrey, Laurie R., Crowley, Brooke E., Hughes, Cris E., Lei, Runhua, Cui, Yinqiu, Wood, Mindy L., Muldoon, Kathleen M., Andriamialison, Haingoson, McGraw, John J., Tomsho, Lynn P., Schuster, Stephan C., Miller, Webb, Louis, Edward E., Yoder, Anne D., Malhi, Ripan S., and Perry, George H.

Subjects

*MITOCHONDRIA, *GENOMICS, *LEMUR (Genus), *HABITAT destruction, *COMPARATIVE studies

Abstract

Humans first arrived on Madagascar only a few thousand years ago. Subsequent habitat destruction and hunting activities have had significant impacts on the island's biodiversity, including the extinction of megafauna. For example, we know of 17 recently extinct ‘subfossil’ lemur species, all of which were substantially larger (body mass ∼11–160 kg) than any living population of the ∼100 extant lemur species (largest body mass ∼6.8 kg). We used ancient DNA and genomic methods to study subfossil lemur extinction biology and update our understanding of extant lemur conservation risk factors by i) reconstructing a comprehensive phylogeny of extinct and extant lemurs, and ii) testing whether low genetic diversity is associated with body size and extinction risk. We recovered complete or near-complete mitochondrial genomes from five subfossil lemur taxa, and generated sequence data from population samples of two extinct and eight extant lemur species. Phylogenetic comparisons resolved prior taxonomic uncertainties and confirmed that the extinct subfossil species did not comprise a single clade. Genetic diversity estimates for the two sampled extinct species were relatively low, suggesting small historical population sizes. Low genetic diversity and small population sizes are both risk factors that would have rendered giant lemurs especially susceptible to extinction. Surprisingly, among the extant lemurs, we did not observe a relationship between body size and genetic diversity. The decoupling of these variables suggests that risk factors other than body size may have as much or more meaning for establishing future lemur conservation priorities. [ABSTRACT FROM AUTHOR]

Published

2015

46. Regulatory element copy number differences shape primate expression profiles.

Author

lskow, Rebecca C., Gokcumen, Omer, Abyzov, Alexej, Malukiewicz, Joanna, Qihui Zhu, Sukumar, Ann T., Pai, Athma A., Mills, Ryan E., Habegger, Lukas, Cusanovich, Darren A., Rubel, Meagan A., Perry, George H., Gerstein, Mark, Stone, Anne C., Gilad, Yoav, and Charles Lee

Subjects

*GENETIC regulation, *GENE expression, *ANIMAL species, *GENETIC code, *DEVELOPMENTAL biology, *PHENOTYPES

Abstract

Gene expression differences are shaped by selective pressures and contribute to phenotypic differences between species. We identified 964 copy number differences (CNDs) of conserved sequences across three primate species and examined their potential effects on gene expression profiles. Samples with copy number different genes had significantly different expression than samples with neutral "copy number. Genes encoding regulatory molecules differed in copy number and were associated with significant expression differences. Additionally, we identified 127 CNDs that were processed pseudogenes and some of which were expressed. Furthermore, there were copy number-different regulatory regions such as ultraconserved elements and long intergenic noncoding RNAs with the potential to affect expression. We postulate that CNDs of these conserved sequences fine-tune developmental pathways by altering the levels of RNA. [ABSTRACT FROM AUTHOR]

Published

2012

47. PhyloMarker—A Tool for Mining Phylogenetic Markers Through Genome Comparison: Application of the Mouse Lemur (Genus Microcebus) Phylogeny.

Author

Runhua Lei, Rowley, Thaine W., Lifeng Zhu, Bailey, Carolyn A., Engberg, Shannon E., Wood, Mindy L., Christman, Mary C., Perry, George H., Louis Jr., Edward E., and Guoqing Lu

Subjects

*MOLECULAR phylogeny, *GENETIC markers, *MOUSE lemurs, *GENOMES, *BIOINFORMATICS

Abstract

Molecular phylogeny is a fundamental tool to understanding the evolution of all life forms. One common issue faced by molecular phylogeny is the lack of sufficient molecular markers. Here, we present PhyloMarker, a phylogenomic tool designed to find nuclear gene markers for the inference of phylogeny through multiple genome comparison. Around 800 candidate markers were identified by PhyloMarker through comparison of partial genomes of Microcebus and Otolemur. In experimental tests of 20 randomly selected markers, nine markers were successfully amplified by PCR and directly sequenced in all 17 nominal Microcebus species. Phylogenetic analyses of the sequence data obtained for 17 taxa and nine markers confirmed the distinct lineage inferred from previous mtDNA data. PhyloMarker has also been used by other projects including the herons (Ardeidae, Aves) phylogeny and the Wood mice (Muridae, Mammalia) phylogeny. All source code and sample data are made available at http://bioinfo-srv1.awh.unomaha.edu/phylomarker/. [ABSTRACT FROM AUTHOR]

Published

2012

48. Identification of the Imprinted KLF14 Transcription Factor Undergoing Human-Specific Accelerated Evolution.

Author

Parker-Katiraee, Layla, Carson, Andrew R., Yamada, Takahiro, Arnaud, Philippe, Feil, Robert, Abu-Amero, Sayeda N., Moore, Gudrun E., Kaneda, Masahiro, Perry, George H., Stone, Anne C., Lee, Charles, Meguro-Horike, Makiko, Sasaki, Hiroyuki, Kobayashi, Keiko, Nakabayashi, Kazuhiko, and Scherer, Stephen W

Subjects

*TRANSCRIPTION factors, *GENETIC transcription, *GENOMES, *CHROMOSOMES, *CHROMATIN, *GENE expression

Abstract

Imprinted genes are expressed in a parent-of-origin manner and are located in clusters throughout the genome. Aberrations in the expression of imprinted genes on human Chromosome 7 have been suggested to play a role in the etiologies of Russell-Silver Syndrome and autism. We describe the imprinting of KLF14, an intronless member of the Kruüppel-like family of transcription factors located at Chromosome 7q32. We show that it has monoallelic maternal expression in all embryonic and extra-embryonic tissues studied, in both human and mouse. We examine epigenetic modifications in the KLF14 CpG island in both species and find this region to be hypomethylated. In addition, we perform chromatin immunoprecipitation and find that the murine Klf14 CpG island lacks allele-specific histone modifications. Despite the absence of these defining features, our analysis of Klf14 in offspring from DNA methyltransferase 3a conditional knockout mice reveals that the gene's expression is dependent upon a maternally methylated region. Due to the intronless nature of Klf14 and its homology to Klf16, we suggest that the gene is an ancient retrotransposed copy of Klf16. By sequence analysis of numerous species, we place the timing of this event after the divergence of Marsupialia, yet prior to the divergence of the Xenarthra superclade. We identify a large number of sequence variants in KLF14 and, using several measures of diversity, we determine that there is greater variability in the human lineage with a significantly increased number of nonsynonymous changes, suggesting human-specific accelerated evolution. Thus, KLF14 may be the first example of an imprinted transcript undergoing accelerated evolution in the human lineage. [ABSTRACT FROM AUTHOR]

Published

2007

49. Global variation in copy number in the human genome.

Author

Redon, Richard, Ishikawa, Shumpei, Fitch, Karen R., Feuk, Lars, Perry, George H., Andrews, T. Daniel, Fiegler, Heike, Shapero, Michael H., Carson, Andrew R., Wenwei Chen, Eun Kyung Cho, Dallaire, Stephanie, Freeman, Jennifer L., González, Juan R., Gratacòs, Mònica, Jing Huang, Kalaitzopoulos, Dimitrios, Komura, Daisuke, MacDonald, Jeffrey R., and Marshall, Christian R.

Subjects

*NUCLEOTIDE sequence, *HUMAN genome, *GENETIC polymorphisms, *CLONING, *COMPARATIVE genomic hybridization

Abstract

Copy number variation (CNV) of DNA sequences is functionally significant but has yet to be fully ascertained. We have constructed a first-generation CNV map of the human genome through the study of 270 individuals from four populations with ancestry in Europe, Africa or Asia (the HapMap collection). DNA from these individuals was screened for CNV using two complementary technologies: single-nucleotide polymorphism (SNP) genotyping arrays, and clone-based comparative genomic hybridization. A total of 1,447 copy number variable regions (CNVRs), which can encompass overlapping or adjacent gains or losses, covering 360 megabases (12% of the genome) were identified in these populations. These CNVRs contained hundreds of genes, disease loci, functional elements and segmental duplications. Notably, the CNVRs encompassed more nucleotide content per genome than SNPs, underscoring the importance of CNV in genetic diversity and evolution. The data obtained delineate linkage disequilibrium patterns for many CNVs, and reveal marked variation in copy number among populations. We also demonstrate the utility of this resource for genetic disease studies. [ABSTRACT FROM AUTHOR]

Published

2006

50. Genomic Evidence for Local Adaptation of Hunter-Gatherers to the African Rainforest.

Author

Lopez, Marie, Choin, Jeremy, Sikora, Martin, Siddle, Katherine, Harmant, Christine, Costa, Helio A., Silvert, Martin, Mouguiama-Daouda, Patrick, Hombert, Jean-Marie, Froment, Alain, Le Bomin, Sylvie, Perry, George H., Barreiro, Luis B., Bustamante, Carlos D., Verdu, Paul, Patin, Etienne, and Quintana-Murci, Lluís

Subjects

*HUNTER-gatherer societies, *BONE growth, *PHYSIOLOGICAL adaptation, *HEART development, *GENE flow

Abstract

African rainforests support exceptionally high biodiversity and host the world's largest number of active hunter-gatherers [ 1–3 ]. The genetic history of African rainforest hunter-gatherers and neighboring farmers is characterized by an ancient divergence more than 100,000 years ago, together with recent population collapses and expansions, respectively [ 4–12 ]. While the demographic past of rainforest hunter-gatherers has been deeply characterized, important aspects of their history of genetic adaptation remain unclear. Here, we investigated how these groups have adapted—through classic selective sweeps, polygenic adaptation, and selection since admixture—to the challenging rainforest environments. To do so, we analyzed a combined dataset of 566 high-coverage exomes, including 266 newly generated exomes, from 14 populations of rainforest hunter-gatherers and farmers, together with 40 newly generated, low-coverage genomes. We find evidence for a strong, shared selective sweep among all hunter-gatherer groups in the regulatory region of TRPS1 —primarily involved in morphological traits. We detect strong signals of polygenic adaptation for height and life history traits such as reproductive age; however, the latter appear to result from pervasive pleiotropy of height-associated genes. Furthermore, polygenic adaptation signals for functions related to responses of mast cells to allergens and microbes, the IL-2 signaling pathway, and host interactions with viruses support a history of pathogen-driven selection in the rainforest. Finally, we find that genes involved in heart and bone development and immune responses are enriched in both selection signals and local hunter-gatherer ancestry in admixed populations, suggesting that selection has maintained adaptive variation in the face of recent gene flow from farmers. • A strong selective sweep at TRPS1 occurred in African rainforest hunter-gatherers • Pleiotropic height genes lead to polygenic selection signals for reproductive age • Pathogen-driven selection, mostly viral, has been pervasive among hunter-gatherers • Post-admixture selection has maintained adaptive variation in hunter-gatherers Lopez et al. search for genomic evidence of local adaptation of hunter-gatherers to the African rainforest. They find signals of classic sweeps, polygenic adaptation, and post-admixture selection at height, development, and immune response genes. They show that pleiotropy of height genes leads to polygenic selection signals for life-history traits. [ABSTRACT FROM AUTHOR]

Published

2019