Your search keyword '"Guevara EE"' showing total 20 results

1. Defects in immune response to Toxoplasma gondii are associated with enhanced HIV-1-related neurocognitive impairment in co-infected patients.

Author

Escobar-Guevara EE, de Quesada-Martínez ME, Roldán-Dávila YB, Alarcón de Noya B, and Alfonzo-Díaz MA

Subjects

Humans, Immunity, Toxoplasma, HIV-1, Coinfection, HIV Infections complications, Latent Infection

Abstract

Human immunodeficiency virus-1 (HIV-1) and Toxoplasma gondii can invade the central nervous system and affect its functionality. Advanced HIV-1 infection has been associated with defects in immune response to T. gondii, leading to reactivation of latent infections and development of toxoplasmic encephalitis. This study evaluates relationship between changes in immune response to T. gondii and neurocognitive impairment in HIV-1/T. gondii co-infected patients, across different stages of HIV-1 infection. The study assessed the immune response to T. gondii by measuring cytokine production in response to parasite antigens, and also neurocognitive functions by performing auditory and visual P300 cognitive evoked potentials, short term memory (Sternberg) and executive function tasks (Wisconsin Card Sorting Test-WCST) in 4 groups of individuals: HIV-1/T. gondii co-infected (P2), HIV-1-infected/T. gondii-non-infected (P1), HIV-1-non-infected/T. gondii-infected (C2) and HIV-1-non-infected/T. gondii-non-infected (C1). Patients (P1 and P2) were grouped in early/asymptomatic (P1A and P2A) or late/symptomatic (P1B/C and P2B/C) according to peripheral blood CD4+ T lymphocyte counts (>350 or <350/μL, respectively). Groups were compared using T-student or U-Mann-Whitney tests as appropriate, p<0.05 was considered as significantly. For P300 waves, HIV-1-infected patients (P1) had significantly longer latencies and significantly smaller amplitudes than uninfected controls, but HIV-1/T. gondii co-infected patients (P2) had significantly longer latencies and smaller amplitude than P1. P1 patients had significantly poorer results than uninfected controls in Sternberg and WCST, but P2 had significantly worse results than P1. HIV-1 infection was associated with significantly lower production of IL-2, TNF-α and IFN-γ in response to T. gondii from early/asymptomatic stages, when comparing P2 patients to C2 controls. These findings may indicate impairment in anti-parasitic response in co-infected patients, facilitating early limited reactivation of the parasitic latent infection, therefore creating cumulative damage in the brain and affecting neurocognitive functions from asymptomatic stages of HIV-1 infection, as suggested by defects in co-infected patients in this study., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Escobar-Guevara et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

2. Vasopressin, and not oxytocin, receptor gene methylation is associated with individual differences in receptive joint attention in chimpanzees (Pan troglodytes).

Author

Hopkins WD, Staes N, Guevara EE, Mulholland MM, Sherwood CC, and Bradley BJ

Subjects

Child, Animals, Humans, Pan troglodytes genetics, Social Behavior, Individuality, Methylation, Receptors, Vasopressin genetics, Vasopressins, Attention, Oxytocin, Autism Spectrum Disorder genetics

Abstract

Joint attention (JA) is an important milestone in human infant development and is predictive of the onset of language later in life. Clinically, it has been reported that children at risk for or with a diagnosis of autism spectrum disorder (ASD) perform more poorly on measures of JA compared to neurotypical controls. JA is not unique to humans but has also been reported in great apes and to a lesser extent in more distantly related monkeys. Further, individual differences in JA among chimpanzees are associated with polymorphisms in the vasopressin and oxytocin genes, AVPR1A and OXTR. Here, we tested whether individual variation in DNA methylation of OXTR and AVPR1A were associated with performance on JA tasks in chimpanzees. We found that individual differences in JA performance was associated with AVPR1A methylation, but not OXTR methylation in the chimpanzees. The collective results provide further evidence of the role of AVPR1A in JA abilities in chimpanzees. The results further suggest that methylation values for AVPR1A may be useful biomarkers for identifying individuals at risk for ASD or related neurodevelopmental disorders associated with impairments in JA abilities., (© 2023 International Society for Autism Research and Wiley Periodicals LLC.)

Published

2023

3. Chimpanzee Extraversion scores vary with epigenetic modification of dopamine receptor gene D2 ( DRD2 ) and early rearing conditions.

Author

Staes N, White CM, Guevara EE, Eens M, Hopkins WD, Schapiro SJ, Stevens JMG, Sherwood CC, and Bradley BJ

Subjects

Animals, DNA Methylation, Personality genetics, Epigenesis, Genetic, Extraversion, Psychological, Pan troglodytes genetics, Receptors, Dopamine D2 genetics

Abstract

Chimpanzees have consistent individual differences in behaviour, also referred to as personality. Similar to human personality structure, five dimensions are commonly found in chimpanzee studies that show evidence for convergent and predictive validity (Dominance, Openness, Extraversion, Agreeableness, and Reactivity/Undependability). These dimensions are to some extent heritable, indicating a genetic component that explains part of the variation in personality scores, but are also influenced by environmental factors, such as the early social rearing background of the individuals. In this study, we investigated the role of epigenetic modification of the dopamine receptor D2 gene ( DRD2 ) as a potential mechanism underlying personality variation in 51 captive chimpanzees. We used previously collected personality trait rating data and determined levels of DRD2 CpG methylation in peripheral blood samples for these same individuals. Results showed that DRD2 methylation is most strongly associated with Extraversion, and that varying methylation levels at specific DRD2 sites are associated with changes in Extraversion in nursery-reared, but not mother-reared, individuals. These results highlight the role of dopaminergic signalling in chimpanzee personality, and indicate that environmental factors, such as social experiences early in life, can have long-lasting behavioural effects, potentially through modification of the epigenome. These findings add to the growing evidence demonstrating the importance of the experience-dependent methylome for the development of complex social traits like personality.

Published

2022

4. Epigenetic ageing of the prefrontal cortex and cerebellum in humans and chimpanzees.

Author

Guevara EE, Hopkins WD, Hof PR, Ely JJ, Bradley BJ, and Sherwood CC

Subjects

Animals, Humans, Aging genetics, Aging pathology, Prefrontal Cortex, Epigenesis, Genetic, Cerebellum, Biomarkers, Pan troglodytes genetics, DNA Methylation

Abstract

Epigenetic age has emerged as an important biomarker of biological ageing. It has revealed that some tissues age faster than others, which is vital to understanding the complex phenomenon of ageing and developing effective interventions. Previous studies have demonstrated that humans exhibit heterogeneity in pace of epigenetic ageing among brain structures that are consistent with differences in structural and microanatomical deterioration. Here, we add comparative data on epigenetic brain ageing for chimpanzees, humans' closest relatives. Such comparisons can further our understanding of which aspects of human ageing are evolutionarily conserved or specific to our species, especially given that humans are distinguished by a long lifespan, large brain, and, potentially, more severe neurodegeneration with age. Specifically, we investigated epigenetic ageing of the dorsolateral prefrontal cortex and cerebellum, of humans and chimpanzees by generating genome-wide CpG methylation data and applying established epigenetic clock algorithms to produce estimates of biological age for these tissues. We found that both species exhibit relatively slow epigenetic ageing in the brain relative to blood. Between brain structures, humans show a faster rate of epigenetic ageing in the dorsolateral prefrontal cortex compared to the cerebellum, which is consistent with previous findings. Chimpanzees, in contrast, show comparable rates of epigenetic ageing in the two brain structures. Greater epigenetic change in the human dorsolateral prefrontal cortex compared to the cerebellum may reflect both the protracted development of this structure in humans and its greater age-related vulnerability to neurodegenerative pathology.

Published

2022

5. The Role of Serotonergic Gene Methylation in Regulating Anxiety-Related Personality Traits in Chimpanzees.

Author

Staes N, Guevara EE, Hopkins WD, Schapiro SJ, Eens M, Sherwood CC, and Bradley BJ

Abstract

While low serotonergic activity is often associated with psychological disorders such as depression, anxiety, mood, and personality disorders, variations in serotonin also contribute to normal personality differences. In this study, we investigated the role of blood DNA methylation levels at individual CpG sites of two key serotonergic genes (serotonin receptor gene 1A, HTR1A ; serotonin transporter gene, SLC6A4 ) in predicting the personalities of captive chimpanzees. We found associations between methylation at 9/48 CpG sites with four personality dimensions: Dominance, Reactivity/Dependability, Agreeableness, and Openness. Directionality of effects were CpG location-dependent and confirmed a role of serotonergic methylation in reducing anxiety (Dominance) and aggression-related personality (Reactivity/Undependability) while simultaneously promoting prosocial (Agreeableness) and exploratory personalities (Openness). Although early-life adversity has been shown to impact serotonergic methylation patterns in other species, here, atypical early social rearing experiences only had a modest impact on CpG methylation levels in this chimpanzee sample. The precise environmental factors impacting serotonergic methylation in chimpanzees remain to be identified. Nevertheless, our study suggests a role in shaping natural variation in animal personalities. The results of this study offer a basis for future hypothesis-driven testing in additional populations and species to better understand the impact of ecology and evolution on complex behavioral traits.

Published

2022

6. Comparative neuropathology in aging primates: A perspective.

Author

Freire-Cobo C, Edler MK, Varghese M, Munger E, Laffey J, Raia S, In SS, Wicinski B, Medalla M, Perez SE, Mufson EJ, Erwin JM, Guevara EE, Sherwood CC, Luebke JI, Lacreuse A, Raghanti MA, and Hof PR

Subjects

Alzheimer Disease, Animals, Cerebral Amyloid Angiopathy, Aging, Brain pathology, Primates

Abstract

While humans exhibit a significant degree of neuropathological changes associated with deficits in cognitive and memory functions during aging, non-human primates (NHP) present with more variable expressions of pathological alterations among individuals and species. As such, NHP with long life expectancy in captivity offer an opportunity to study brain senescence in the absence of the typical cellular pathology caused by age-related neurodegenerative illnesses commonly seen in humans. Age-related changes at neuronal population, single cell, and synaptic levels have been well documented in macaques and marmosets, while age-related and Alzheimer's disease-like neuropathology has been characterized in additional species including lemurs as well as great apes. We present a comparative overview of existing neuropathologic observations across the primate order, including classic age-related changes such as cell loss, amyloid deposition, amyloid angiopathy, and tau accumulation. We also review existing cellular and ultrastructural data on neuronal changes, such as dendritic attrition and spine alterations, synaptic loss and pathology, and axonal and myelin pathology, and discuss their repercussions on cellular and systems function and cognition., (© 2021 Wiley Periodicals LLC.)

Published

2021

7. Comparative analysis reveals distinctive epigenetic features of the human cerebellum.

Author

Guevara EE, Hopkins WD, Hof PR, Ely JJ, Bradley BJ, and Sherwood CC

Subjects

ADAM Proteins, Animals, Autoantigens, Carrier Proteins, Chad, CpG Islands, Female, Gene Expression Regulation, Humans, Intracellular Signaling Peptides and Proteins, Macaca mulatta genetics, Male, Microfilament Proteins, Nerve Tissue Proteins, Pan troglodytes genetics, Phosphoinositide Phospholipase C, Protein Serine-Threonine Kinases, Proteins, SAP90-PSD95 Associated Proteins, Species Specificity, Transcription Initiation Site, Cerebellum metabolism, DNA Methylation, Epigenesis, Genetic

Abstract

Identifying the molecular underpinnings of the neural specializations that underlie human cognitive and behavioral traits has long been of considerable interest. Much research on human-specific changes in gene expression and epigenetic marks has focused on the prefrontal cortex, a brain structure distinguished by its role in executive functions. The cerebellum shows expansion in great apes and is gaining increasing attention for its role in motor skills and cognitive processing, including language. However, relatively few molecular studies of the cerebellum in a comparative evolutionary context have been conducted. Here, we identify human-specific methylation in the lateral cerebellum relative to the dorsolateral prefrontal cortex, in a comparative study with chimpanzees (Pan troglodytes) and rhesus macaques (Macaca mulatta). Specifically, we profiled genome-wide methylation levels in the three species for each of the two brain structures and identified human-specific differentially methylated genomic regions unique to each structure. We further identified which differentially methylated regions (DMRs) overlap likely regulatory elements and determined whether associated genes show corresponding species differences in gene expression. We found greater human-specific methylation in the cerebellum than the dorsolateral prefrontal cortex, with differentially methylated regions overlapping genes involved in several conditions or processes relevant to human neurobiology, including synaptic plasticity, lipid metabolism, neuroinflammation and neurodegeneration, and neurodevelopment, including developmental disorders. Moreover, our results show some overlap with those of previous studies focused on the neocortex, indicating that such results may be common to multiple brain structures. These findings further our understanding of the cerebellum in human brain evolution., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

8. Comparative genomic analysis of sifakas ( Propithecus ) reveals selection for folivory and high heterozygosity despite endangered status.

Author

Guevara EE, Webster TH, Lawler RR, Bradley BJ, Greene LK, Ranaivonasy J, Ratsirarson J, Harris RA, Liu Y, Murali S, Raveendran M, Hughes DST, Muzny DM, Yoder AD, Worley KC, and Rogers J

Abstract

Sifakas (genus Propithecus ) are critically endangered, large-bodied diurnal lemurs that eat leaf-based diets and show corresponding anatomical and microbial adaptations to folivory. We report on the genome assembly of Coquerel's sifaka ( P. coquereli ) and the resequenced genomes of Verreaux's ( P. verreauxi ), the golden-crowned ( P. tattersalli ), and the diademed ( P. diadema ) sifakas. We find high heterozygosity in all sifakas compared with other primates and endangered mammals. Demographic reconstructions nevertheless suggest declines in effective population size beginning before human arrival on Madagascar. Comparative genomic analyses indicate pervasive accelerated evolution in the ancestral sifaka lineage affecting genes in several complementary pathways relevant to folivory, including nutrient absorption and xenobiotic and fatty acid metabolism. Sifakas show convergent evolution at the level of the pathway, gene family, gene, and amino acid substitution with other folivores. Although sifakas have relatively generalized diets, the physiological challenges of habitual folivory likely led to strong selection., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2021

9. The Pan social brain: An evolutionary history of neurochemical receptor genes and their potential impact on sociocognitive differences.

Author

Staes N, Guevara EE, Helsen P, Eens M, and Stevens JMG

Subjects

Animals, Brain metabolism, Pan paniscus metabolism, Pan troglodytes metabolism, Receptors, Dopamine genetics, Receptors, Dopamine metabolism, Receptors, Oxytocin genetics, Receptors, Oxytocin metabolism, Receptors, Serotonin genetics, Receptors, Serotonin metabolism, Receptors, Vasopressin genetics, Receptors, Vasopressin metabolism, Evolution, Molecular, Pan paniscus genetics, Pan troglodytes genetics, Social Cognition

Abstract

Humans have unique cognitive capacities that, compared with apes, are not only simply expressed as a higher level of general intelligence, but also as a quantitative difference in sociocognitive skills. Humans' closest living relatives, bonobos (Pan paniscus), and chimpanzees (Pan troglodytes), show key between-species differences in social cognition despite their close phylogenetic relatedness, with bonobos arguably showing greater similarities to humans. To better understand the evolution of these traits, we investigate the neurochemical mechanisms underlying sociocognitive skills by focusing on variation in genes encoding proteins with well-documented roles in mammalian social cognition: the receptors for vasopressin (AVPR1A), oxytocin (OXTR), serotonin (HTR1A), and dopamine (DRD2). Although these genes have been well studied in humans, little is known about variation in these genes that may underlie differences in social behavior and cognition in apes. We comparatively analyzed sequence data for 33 bonobos and 57 chimpanzees, together with orthologous sequence data for other apes. In all four genes, we describe genetic variants that alter the amino acid sequence of the respective receptors, raising the possibility that ligand binding or signal transduction may be impacted. Overall, bonobos show 57% more fixed substitutions than chimpanzees compared with the ancestral Pan lineage. Chimpanzees, show 31% more polymorphic coding variation, in line with their larger historical effective population size estimates and current wider distribution. An extensive literature review comparing allelic changes in Pan with known human behavioral variants revealed evidence of homologous evolution in bonobos and humans (OXTR rs4686301(T) and rs237897(A)), while humans and chimpanzees shared OXTR rs2228485(A), DRD2 rs6277(A), and DRD2 rs11214613(A) to the exclusion of bonobos. Our results offer the first in-depth comparison of neurochemical receptor gene variation in Pan and put forward new variants for future behavior-genotype association studies in apes, which can increase our understanding of the evolution of social cognition in modern humans., Competing Interests: Conflicts of interest The authors declare that there are no conflicts of interest to report., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

10. Age-associated epigenetic change in chimpanzees and humans.

Author

Guevara EE, Lawler RR, Staes N, White CM, Sherwood CC, Ely JJ, Hopkins WD, and Bradley BJ

Subjects

Animals, Humans, Methylation, Aging, Blood metabolism, Epigenesis, Genetic physiology, Pan troglodytes genetics

Abstract

Methylation levels have been shown to change with age at sites across the human genome. Change at some of these sites is so consistent across individuals that it can be used as an 'epigenetic clock' to predict an individual's chronological age to within a few years. Here, we examined how the pattern of epigenetic ageing in chimpanzees compares with humans. We profiled genome-wide blood methylation levels by microarray for 113 samples from 83 chimpanzees aged 1-58 years (26 chimpanzees were sampled at multiple ages during their lifespan). Many sites (greater than 65 000) showed significant change in methylation with age and around one-third (32%) of these overlap with sites showing significant age-related change in humans. At over 80% of sites showing age-related change in both species, chimpanzees displayed a significantly faster rate of age-related change in methylation than humans. We also built a chimpanzee-specific epigenetic clock that predicted age in our test dataset with a median absolute deviation from known age of only 2.4 years. However, our chimpanzee clock showed little overlap with previously constructed human clocks. Methylation at CpGs comprising our chimpanzee clock showed moderate heritability. Although the use of a human microarray for profiling chimpanzees biases our results towards regions with shared genomic sequence between the species, nevertheless, our results indicate that there is considerable conservation in epigenetic ageing between chimpanzees and humans, but also substantial divergence in both rate and genomic distribution of ageing-associated sites. This article is part of the theme issue 'Evolution of the primate ageing process'.

Published

2020

11. Evolution of ASPM coding variation in apes and associations with brain structure in chimpanzees.

Author

Singh SV, Staes N, Guevara EE, Schapiro SJ, Ely JJ, Hopkins WD, Sherwood CC, and Bradley BJ

Subjects

Animals, Brain anatomy & histology, Female, Male, Pan paniscus genetics, Brain diagnostic imaging, Evolution, Molecular, Microtubule-Associated Proteins genetics, Nerve Tissue Proteins genetics, Pan troglodytes genetics, Polymorphism, Genetic

Abstract

Studying genetic mechanisms underlying primate brain morphology can provide insight into the evolution of human brain structure and cognition. In humans, loss-of-function mutations in the gene coding for ASPM (Abnormal Spindle Microtubule Assembly) have been associated with primary microcephaly, which is defined by a significantly reduced brain volume, intellectual disability and delayed development. However, less is known about the effects of common ASPM variation in humans and other primates. In this study, we characterized the degree of coding variation at ASPM in a large sample of chimpanzees (N = 241), and examined potential associations between genotype and various measures of brain morphology. We identified and genotyped five non-synonymous polymorphisms in exons 3 (V588G), 18 (Q2772K, K2796E, C2811Y) and 27 (I3427V). Using T1-weighted magnetic resonance imaging of brains, we measured total brain volume, cerebral gray and white matter volume, cerebral ventricular volume, and cortical surface area in the same chimpanzees. We found a potential association between ASPM V588G genotype and cerebral ventricular volume but not with the other measures. Additionally, we found that chimpanzee, bonobo, and human lineages each independently show a signature of accelerated ASPM protein evolution. Overall, our results suggest the potential effects of ASPM variation on cerebral cortical development, and emphasize the need for further functional studies. These results are the first evidence suggesting ASPM variation might play a role in shaping natural variation in brain structure in nonhuman primates., (© 2019 John Wiley & Sons Ltd and International Behavioural and Neural Genetics Society.)

Published

2019

12. Epigenetic Clocks.

Author

Guevara EE and Lawler RR

Subjects

Animals, Humans, Primates, Biological Clocks, Epigenesis, Genetic

Abstract

Recent research has revealed clock-like patterns of epigenetic change across the life span in humans. Models describing these epigenetic changes have been dubbed "epigenetic clocks," and they can not only predict chronological age but also reveal biological age, which measures physiological homeostasis and deterioration over the life span. Comparative studies of the epigenetic clocks of different primate species are likely to provide insights into the evolution of life history schedules, as well as shed light on the physiological and genetic bases of aging and aging-related diseases. Chronological age estimation using clock-based calculators may also offer biological anthropologists a useful tool for applying to forensic and demographic studies., (© 2018 Wiley Periodicals, Inc.)

Published

2018

13. FOXP2 variation in great ape populations offers insight into the evolution of communication skills.

Author

Staes N, Sherwood CC, Wright K, de Manuel M, Guevara EE, Marques-Bonet T, Krützen M, Massiah M, Hopkins WD, Ely JJ, and Bradley BJ

Subjects

Amino Acid Sequence, Animals, Biological Evolution, Forkhead Transcription Factors chemistry, Forkhead Transcription Factors metabolism, Gene Frequency, Gorilla gorilla genetics, Hominidae, Microsatellite Repeats genetics, Pan paniscus genetics, Pan troglodytes genetics, Polymorphism, Single Nucleotide, Pongo abelii genetics, Pongo pygmaeus genetics, Protein Structure, Secondary, Sequence Alignment, Forkhead Transcription Factors genetics, Genetic Variation, Vocalization, Animal physiology

Abstract

The gene coding for the forkhead box protein P2 (FOXP2) is associated with human language disorders. Evolutionary changes in this gene are hypothesized to have contributed to the emergence of speech and language in the human lineage. Although FOXP2 is highly conserved across most mammals, humans differ at two functional amino acid substitutions from chimpanzees, bonobos and gorillas, with an additional fixed substitution found in orangutans. However, FOXP2 has been characterized in only a small number of apes and no publication to date has examined the degree of natural variation in large samples of unrelated great apes. Here, we analyzed the genetic variation in the FOXP2 coding sequence in 63 chimpanzees, 11 bonobos, 48 gorillas, 37 orangutans and 2 gibbons and observed undescribed variation in great apes. We identified two variable polyglutamine microsatellites in chimpanzees and orangutans and found three nonsynonymous single nucleotide polymorphisms, one in chimpanzees, one in gorillas and one in orangutans with derived allele frequencies of 0.01, 0.26 and 0.29, respectively. Structural and functional protein modeling indicate a biochemical effect of the substitution in orangutans, and because of its presence solely in the Sumatran orangutan species, the mutation may be associated with reported population differences in vocalizations.

Published

2017

14. Celebrating fifty years of research at the Duke Lemur Center.

Author

Guevara EE, Chen-Kraus C, Jacobs RL, and Baden AL

Published

2017

15. Non-human primates avoid the detrimental effects of prenatal androgen exposure in mixed-sex litters: combined demographic, behavioral, and genetic analyses.

Author

Bradley BJ, Snowdon CT, McGrew WC, Lawler RR, Guevara EE, McIntosh A, and O'Connor T

Subjects

Animals, Female, Litter Size, Male, Mammals, Pregnancy, Sex Ratio, Androgens physiology, Prenatal Exposure Delayed Effects, Primates physiology, Reproduction

Abstract

Producing single versus multiple births has important life history trade-offs, including the potential benefits and risks of sharing a common in utero environment. Sex hormones can diffuse through amniotic fluid and fetal membranes, and females with male littermates risk exposure to high levels of fetal testosterone, which are shown to have masculinizing effects and negative fitness consequences in many mammals. Whereas most primates give birth to single offspring, several New World monkey and strepsirrhine species regularly give birth to small litters. We examined whether neonatal testosterone exposure might be detrimental to females in mixed-sex litters by compiling data from long-term breeding records for seven primate species (Saguinus oedipus; Varecia variegata, Varecia rubra, Microcebus murinis, Mirza coquereli, Cheirogaleus medius, Galago moholi). Litter sex ratios did not differ from the expected 1:2:1 (MM:MF:FF for twins) and 1:2:2:1 (MMM:MMF:MFF:FFF for triplets). Measures of reproductive success, including female survivorship, offspring-survivorship, and inter-birth interval, did not differ between females born in mixed-sex versus all-female litters, indicating that litter-producing non-human primates, unlike humans and rodents, show no signs of detrimental effects from androgen exposure in mixed sex litters. Although we found no evidence for CYP19A1 gene duplications-a hypothesized mechanism for coping with androgen exposure-aromatase protein evolution shows patterns of convergence among litter-producing taxa. That some primates have effectively found a way to circumvent a major cost of multiple births has implications for understanding variation in litter size and life history strategies across mammals., (© 2016 Wiley Periodicals, Inc.)

Published

2016

16. Potential arms race in the coevolution of primates and angiosperms: brazzein sweet proteins and gorilla taste receptors.

Author

Guevara EE, Veilleux CC, Saltonstall K, Caccone A, Mundy NI, and Bradley BJ

Subjects

Animals, Anthropology, Physical, Humans, Primates genetics, Primates physiology, Seed Dispersal, Biological Evolution, Gorilla gorilla genetics, Gorilla gorilla physiology, Magnoliopsida physiology, Plant Proteins physiology, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled physiology, Taste genetics, Taste physiology

Abstract

Objectives: We explored whether variation in the sweet taste receptor protein T1R3 in primates could contribute to differences in sweet taste repertoire among species, potentially reflecting coevolution with local plants. Specifically, we examined which primates are likely to be sweet "tasters" of brazzein, a protein found in the fruit of the African plant Pentadiplandra brazzeana that tastes intensely sweet to humans, but provides little energy. Sweet proteins like brazzein are thought to mimic the taste of sugars to entice seed dispersers. We examined the evolution of T1R3 and assessed whether primates are likely "deceived" by such biochemical mimicry., Methods: Using published and new sequence data for TAS1R3, we characterized 57 primates and other mammals at the two amino acid sites necessary to taste brazzein to determine which species are tasters. We further used dN/dS-based methods to look for statistical evidence of accelerated evolution in this protein across primate lineages., Results: The taster genotype is shared across most catarrhines, suggesting that most African primates can be "tricked" into eating and dispersing P. brazzeana's seeds for little caloric gain. Western gorillas (Gorilla gorilla), however, exhibit derived mutations at the two brazzein-critical positions, and although fruit is a substantial portion of the western gorilla diet, they have not been observed to eat P. brazzeana. Our analyses of protein evolution found no signature of positive selection on TAS1R3 along the gorilla lineage., Discussion: We propose that the gorilla-specific mutations at the TAS1R3 locus encoding T1R3 could be a counter-adaptation to the false sweet signal of brazzein., (© 2016 Wiley Periodicals, Inc.)

Published

2016

17. Life's a peach for anthropologists in atlanta.

Author

Perlman RF, Nishimura AC, Mongle CS, Kling K, Guevara EE, and Arslanian K

Subjects

Animals, Georgia, Humans, Anthropology, Biological Evolution, Hominidae, Research

Published

2016

18. The gateway to anthropology in St. Louis.

Author

Perlman RF, de Vries D, Jacobs RL, Holowka NB, Pain EL, Guevara EE, and Thompson NE

Subjects

Humans, Anthropology, Physical

Published

2015

19. Molecular phylogenetic analysis of the Papionina using concatenation and species tree methods.

Author

Guevara EE and Steiper ME

Subjects

Animals, DNA, Concatenated genetics, Molecular Sequence Data, Sequence Analysis, DNA, Sequence Homology, Cell Nucleus genetics, Cercopithecinae genetics, DNA, Mitochondrial genetics, Evolution, Molecular, Phylogeny

Abstract

The Papionina is a geographically widespread subtribe of African cercopithecid monkeys whose evolutionary history is of particular interest to anthropologists. The phylogenetic relationships among arboreal mangabeys (Lophocebus), baboons (Papio), and geladas (Theropithecus) remain unresolved. Molecular phylogenetic analyses have revealed marked gene tree incongruence for these taxa, and several recent concatenated phylogenetic analyses of multilocus datasets have supported different phylogenetic hypotheses. To address this issue, we investigated the phylogeny of the Lophocebus + Papio + Theropithecus group using concatenation methods, as well as alternative methods that incorporate gene tree heterogeneity to estimate a 'species tree.' Our compiled DNA sequence dataset was ∼56 kb pairs long and included 57 independent partitions. All analyses of concatenated alignments strongly supported a Lophocebus + Papio clade and a basal position for Theropithecus. The Bayesian concordance analysis supported the same phylogeny. A coalescent-based Bayesian method resulted in a very poorly resolved species tree. The topological agreement between concatenation and the Bayesian concordance analysis offers considerable support for a Lophocebus + Papio clade as the dominant relationship across the genome. However, the results of the Bayesian concordance analysis indicate that almost half the genome has an alternative history. As such, our results offer a well-supported phylogenetic hypothesis for the Papio/Lophocebus/Theropithecus trichotomy, while at the same time providing evidence for a complex evolutionary history that likely includes hybridization among lineages., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2014

20. [Meanings of sexuality and reproductive health in adolescents from Bogota].

Author

Pacheco-Sánchez CI, Rincón-Suárez LJ, Guevara EE, Latorre-Santos C, Enríquez-Guerrero C, and Nieto-Olivar JM

Subjects

Adolescent, Child, Colombia, Female, Humans, Interviews as Topic, Male, Urban Population, Reproduction, Sexuality psychology

Abstract

Objective: To describe and understand the meanings that adolescents give to sexuality and how they are created and influence adolescents' reproductive health and sexual practices., Material and Methods: The research was conducted in three different regions within Bogoá city. Twenty focus groups were selected and 20 life stories of boys and girls between 10 and 14 years old were transcribed. From inductive and deductive categorization of the transcripts of the oral histories, an interpretative analysis was carried out in order to generate concepts and relations that comprise plausible hypotheses about the meanings that circulate in the adolescents' symbolic universe., Results: There are notable differences between the meanings that boys and girls give to sexuality, the ways in which such meanings are created, and the factors that contribute to its configuration. These findings imply dissimilar constructions related with reproductive and sexual health risks., Conclusions: The cultural constructions resulting from sexual differences that is, gender suggest the meanings that are given to sexuality in the groups studied and define ways of interacting with the social environment. Girls relate sexuality with reproduction and they experience it as negative. For boys, the possibility of a positive and pleasant experience of sexuality exists, marked by a context that encourages having sexual relations as a way of maintaining manhood.

Published

2007