Your search keyword '"R. S. Mututua"' showing total 6 results

1. Gut microbiome heritability is nearly universal but environmentally contingent

Author

Ran Blekhman, Tim L. Wango, Susan C. Alberts, Jean-Christophe Grenier, Luis B. Barreiro, Jacob B. Gordon, Trevor J. Gould, Niki H. Learn, Vania Yotova, Johannes R. Björk, Laura E. Grieneisen, David A. W. A. M. Jansen, R. S. Mututua, Jack A. Gilbert, Jenny Tung, J. Kinyua Warutere, Mauna Dasari, Laurence R. Gesquiere, Elizabeth A. Archie, Neil Gottel, and Long'ida Siodi

Subjects

Male, 0301 basic medicine, Aging, Genotype, Firmicutes, Environment, Biology, Feces, 03 medical and health sciences, 0302 clinical medicine, Animals, Humans, Microbiome, Social Behavior, Multidisciplinary, Bacteria, Bacteroidetes, Extramural, Host (biology), Heritability, Phenotype, Gut microbiome, Diet, Gastrointestinal Microbiome, Large sample, Actinobacteria, 030104 developmental biology, Evolutionary biology, Female, Seasons, 030217 neurology & neurosurgery, Papio

Abstract

Baboons inform on human gut microbiota Commensal bacteria are found throughout an organism, but it is not known whether associations between gut bacteria and their host are heritable. Grieneisen et al. examined changes in the microbiomes of 585 wild baboons from fecal samples collected over 14 years (see the Perspective by Cortes-Ortiz and Amato). Almost all microbiome traits tested demonstrated some level of statistically significant heritability. Most heritability values were low but varied over time correlating with the age of the host. Baboons live in an environment similar to that postulated for early humans and have a microbiome similar to that of humans. Thus, this heritability of the microbiome may reflect similar genetic determinants in humans, for which similar datasets are not available. Science , aba5483, this issue p. 181 ; see also abj5287, p. 159

Published

2021

2. Synchrony and idiosyncrasy in the gut microbiome of wild baboons

Author

Jean-Christophe Grenier, David J Jansen, Sayan Mukherjee, L.I. Siodi, K. Roche, Vania Yotova, Laurence R. Gesquiere, Luis B. Barreiro, Jenny Tung, Laura E. Grieneisen, Jack A. Gilbert, Ran Blekhman, Neil Gottel, Jacob B. Gordon, R. S. Mututua, Johannes R. Björk, Niki H. Learn, Susan C. Alberts, Mauna Dasari, J.K. Warutere, Trevor J. Gould, Elizabeth A. Archie, and Tim L. Wango

Subjects

Idiosyncrasy, Ecology, biology, Bacteria, Microbiota, Gut flora, biology.organism_classification, Gut microbiome, Diet, Gastrointestinal Microbiome, Human gut, Evolutionary biology, Animals, Humans, Microbiome, Ecology, Evolution, Behavior and Systematics, Papio

Abstract

Human gut microbial dynamics are highly individualized, making it challenging to link microbiota to health and to design universal microbiome therapies. This individuality is typically attributed to variation in host genetics, diets, environments and medications but it could also emerge from fundamental ecological forces that shape microbiota more generally. Here, we leverage extensive gut microbial time series from wild baboons-hosts who experience little interindividual dietary and environmental heterogeneity-to test whether gut microbial dynamics are synchronized across hosts or largely idiosyncratic. Despite their shared lifestyles, baboon microbiota were only weakly synchronized. The strongest synchrony occurred among baboons living in the same social group, probably because group members range over the same habitat and simultaneously encounter the same sources of food and water. However, this synchrony was modest compared to each host's personalized dynamics. In support, host-specific factors, especially host identity, explained, on average, more than three times the deviance in longitudinal dynamics compared to factors shared with social group members and ten times the deviance of factors shared across the host population. These results contribute to mounting evidence that highly idiosyncratic gut microbiomes are not an artefact of modern human environments and that synchronizing forces in the gut microbiome (for example, shared environments, diets and microbial dispersal) are not strong enough to overwhelm key drivers of microbiome personalization, such as host genetics, priority effects, horizontal gene transfer and functional redundancy.

Published

2021

3. Selection against admixture and gene regulatory divergence in a long-term primate field study

Author

L.I. Siodi, So Young Kim, R. S. Mututua, Arielle S. Fogel, Jacqueline Robinson, Jenny Tung, J.K. Warutere, Tauras P. Vilgalys, Elizabeth A. Archie, Jeffrey D. Wall, Susan C. Alberts, Tawni Voyles, and Jordan A Anderson

Subjects

education.field_of_study, Hybrid zone, Evolutionary biology, Lineage (evolution), Population, Introgression, Biology, education, Genome, Gene, Selection (genetic algorithm), Hybrid

Abstract

Admixture has profoundly influenced evolution across the tree of life, including in humans and other primates1,2. However, we have limited insight into the genetic and phenotypic consequences of admixture in primates, especially during its key early stages. Here, we address this gap by combining 50 years of field observations with population and functional genomic data from yellow (Papio cynocephalus) and anubis (P. anubis) baboons in Kenya, in a longitudinally studied population that has experienced both historical and recent admixture3. We use whole-genome sequencing to characterize the extent of the hybrid zone, estimate local ancestry for 442 known individuals, and predict the landscape of introgression across the genome. Despite no major fitness costs to hybrids, we identify signatures of selection against introgression that are strikingly similar to those described for archaic hominins4–6. These signatures are strongest near loci with large ancestry effects on gene expression, supporting the importance of gene regulation in primate evolution and the idea that selection targeted large regulatory effects following archaic hominin admixture7,8. Our results show that genomic data and field observations of hybrids are important and mutually informative. They therefore demonstrate the value of other primates as living models for phenomena that we cannot observe in our own lineage.

Published

2021

4. Higher dominance rank is associated with lower glucocorticoids in wild female baboons: A rank metric comparison

Author

S.N. Sayialel, Laurence R. Gesquiere, Jeanne Altmann, Vivian K. Oudu, Tim L. Wango, Emily M. McLean, Emily J. Levy, Susan C. Alberts, Mathias Franz, J. Kinyua Warutere, R. S. Mututua, and Elizabeth A. Archie

Subjects

Dominance-Subordination, Male, Competitive Behavior, Relative rank, Biology, Article, Fight-or-flight response, 03 medical and health sciences, Behavioral Neuroscience, Feces, 0302 clinical medicine, Endocrinology, medicine, Animals, Glucocorticoids, Dominance (genetics), Behavior, Animal, Endocrine and Autonomic Systems, Stressor, Feeding Behavior, 030227 psychiatry, Glucocorticoid secretion, Social Dominance, Female, Food Deprivation, 030217 neurology & neurosurgery, Glucocorticoid, medicine.drug, Demography, Papio

Abstract

In vertebrates, glucocorticoid secretion occurs in response to energetic and psychosocial stressors that trigger the hypothalamic-pituitary-adrenal (HPA) axis. Measuring glucocorticoid concentrations can therefore shed light on the stressors associated with different social and environmental variables, including dominance rank. Using 14,172 fecal samples from 237 wild female baboons, we test the hypothesis that high-ranking females experience fewer psychosocial and/or energetic stressors than lower-ranking females. We predicted that high-ranking females would have lower fecal glucocorticoid (fGC) concentrations than low-ranking females. Because dominance rank can be measured in multiple ways, we employ an information theoretic approach to compare 5 different measures of rank as predictors of fGC concentrations: ordinal rank; proportional rank; Elo rating; and two approaches to categorical ranking (alpha vs non-alpha and high-middle-low). Our hypothesis was supported, but it was also too simplistic. We found that alpha females exhibited substantially lower fGCs than other females (typical reduction = 8.2%). If we used proportional rank instead of alpha versus non-alpha status in the model, we observed a weak effect of rank such that fGCs rose 4.2% from the highest- to lowest-ranking female in the hierarchy. Models using ordinal rank, Elo rating, or high-middle-low categories alone failed to explain variation in female fGCs. Our findings shed new light on the association between dominance rank and the stress response, the competitive landscape of female baboons as compared to males, and the assumptions inherent in a researcher's choice of rank metric.

Published

2020

5. Seasonality and long-term change in a savanna environment

Author

Philip Muruthi, Jeanne Altmann, R. S. Mututua, S.N. Sayialel, Susan C. Alberts, Julie A. Hollister-Smith, and J. Kinyua Warutere

Subjects

Habitat change, Geography, Ecology, Savanna Baboons, Plant productivity, Foraging, medicine, Seasonality, medicine.disease, Food scarcity, Analysis method, Term (time)

Published

2005

6. Behavior predicts genes structure in a wild primate group

Author

David J. Cheesman, Philip Muruthi, Eli Geffen, Jean Dubach, Robert C. Lacy, Michael William Bruford, Susan A. Haines, Robert K. Wayne, Susan C. Alberts, R. S. Mututua, Jeanne Altmann, Serah N. Saiyalel, and Trevor Coote

Subjects

Genetics, Male, Primates, Multidisciplinary, biology, Reproductive success, Behavior, Animal, Paternity, Molecular analysis, Social group, Genetics, Population, Evolutionary biology, biology.animal, Genetic structure, Animals, Primate, Female, Gene, Dominance (genetics), Baboon, Research Article

Abstract

The predictability of genetic structure from social structure and differential mating success was tested in wild baboons. Baboon populations are subdivided into cohesive social groups that include multiple adults of both sexes. As in many mammals, males are the dispersing sex. Social structure and behavior successfully predicted molecular genetic measures of relatedness and variance in reproductive success. In the first quantitative test of the priority-of-access model among wild primates, the reproductive priority of dominant males was confirmed by molecular genetic analysis. However, the resultant high short-term variance in reproductive success did not translate into equally high long-term variance because male dominance status was unstable. An important consequence of high but unstable short-term variance is that age cohorts will tend to be paternal sibships and social groups will be genetically substructured by age.

Published

1996