Your search keyword '"Oduaran OH"' showing total 10 results

1. Gut Microbiome Profiling of a Rural and Urban South African Cohort Reveals Biomarkers of a Population in Lifestyle Transition

Author

Oduaran, OH., primary, Tamburini, FB., additional, Sahibdeen, V., additional, Brewster, R., additional, Gómez-Olivé, FX., additional, Kahn, K., additional, Norris, SA., additional, Tollman, SM., additional, Twine, R., additional, Wade, AN., additional, Wagner, RG., additional, Lombard, Z., additional, Bhatt, AS., additional, and Hazelhurst, S., additional

Published

2020

2. Strengthening the foundation of African microbiome research: strategies for standardized data collection.

Author

Kouidhi S and Oduaran OH

Published

2024

3. Microbiome research in Africa must be based on equitable partnerships.

Author

Oduaran OH, Foláyan MO, Kamng'ona AW, Nakimuli A, Mwapagha LM, Setati ME, Owusu M, Mulder N, Makhalanyane TP, and Kouidhi S

Published

2024

4. Advancing microbiome research through standardized data and metadata collection: introducing the Microbiome Research Data Toolkit.

Author

Zass L, Mwapagha LM, Louis-Jacques AF, Allali I, Mulindwa J, Kiran A, Hanachi M, Souiai O, Mulder N, and Oduaran OH

Subjects

Humans, Databases, Factual, Metadata, Microbiota

Abstract

Microbiome research has made significant gains with the evolution of sequencing technologies. Ensuring comparability between studies and enhancing the findability, accessibility, interoperability and reproducibility of microbiome data are crucial for maximizing the value of this growing body of research. Addressing the challenges of standardized metadata reporting, collection and curation, the Microbiome Working Group of the Human Hereditary and Health in Africa (H3Africa) consortium aimed to develop a comprehensive solution. In this paper, we present the Microbiome Research Data Toolkit, a versatile tool designed to standardize microbiome research metadata, facilitate MIxS-MIMS and PhenX reporting, standardize prospective collection of participant biological and lifestyle data, and retrospectively harmonize such data. This toolkit enables past, present and future microbiome research endeavors to collaborate effectively, fostering novel collaborations and accelerating knowledge discovery in the field. Database URL: https://doi.org/10.25375/uct.24218999.v2., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

5. Expanding the human gut microbiome atlas of Africa.

Author

Maghini DG, Oduaran OH, Wirbel J, Olubayo LAI, Smyth N, Mathema T, Belger CW, Agongo G, Boua PR, Choma SS, Gómez-Olivé FX, Kisiangani I, Mashaba GR, Micklesfield L, Mohamed SF, Nonterah EA, Norris S, Sorgho H, Tollman S, Wafawanaka F, Tluway F, Ramsay M, Bhatt AS, and Hazelhurst S

Abstract

Population studies are crucial in understanding the complex interplay between the gut microbiome and geographical, lifestyle, genetic, and environmental factors. However, populations from low- and middle-income countries, which represent ~84% of the world population, have been excluded from large-scale gut microbiome research. Here, we present the AWI-Gen 2 Microbiome Project, a cross-sectional gut microbiome study sampling 1,803 women from Burkina Faso, Ghana, Kenya, and South Africa. By intensively engaging with communities that range from rural and horticultural to urban informal settlements and post-industrial, we capture population diversity that represents a far greater breadth of the world's population. Using shotgun metagenomic sequencing, we find that study site explains substantially more microbial variation than disease status. We identify taxa with strong geographic and lifestyle associations, including loss of Treponema and Cryptobacteroides species and gain of Bifidobacterium species in urban populations. We uncover a wealth of prokaryotic and viral novelty, including 1,005 new bacterial metagenome-assembled genomes, and identify phylogeography signatures in Treponema succinifaciens . Finally, we find a microbiome signature of HIV infection that is defined by several taxa not previously associated with HIV, including Dysosmobacter welbionis and Enterocloster sp . This study represents the largest population-representative survey of gut metagenomes of African individuals to date, and paired with extensive clinical biomarkers, demographic data, and lifestyle information, provides extensive opportunity for microbiome-related discovery and research., Competing Interests: Competing Interests The authors declare no competing interests.

Published

2024

6. The African Human Microbiome Portal: a public web portal of curated metagenomic metadata.

Author

Kiran A, Hanachi M, Alsayed N, Fassatoui M, Oduaran OH, Allali I, Maslamoney S, Meintjes A, Zass L, Rocha JD, Kefi R, Benkahla A, Ghedira K, Panji S, Mulder N, Fadlelmola FM, and Souiai O

Subjects

Humans, Metagenome, Databases, Factual, Metagenomics, Metadata, Microbiota genetics

Abstract

There is growing evidence that comprehensive and harmonized metadata are fundamental for effective public data reusability. However, it is often challenging to extract accurate metadata from public repositories. Of particular concern is the metagenomic data related to African individuals, which often omit important information about the particular features of these populations. As part of a collaborative consortium, H3ABioNet, we created a web portal, namely the African Human Microbiome Portal (AHMP), exclusively dedicated to metadata related to African human microbiome samples. Metadata were collected from various public repositories prior to cleaning, curation and harmonization according to a pre-established guideline and using ontology terms. These metadata sets can be accessed at https://microbiome.h3abionet.org/. This web portal is open access and offers an interactive visualization of 14 889 records from 70 bioprojects associated with 72 peer reviewed research articles. It also offers the ability to download harmonized metadata according to the user's applied filters. The AHMP thereby supports metadata search and retrieve operations, facilitating, thus, access to relevant studies linked to the African Human microbiome. Database URL:  https://microbiome.h3abionet.org/., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

7. Equitable partnerships and the path to inclusive, innovative and impactful human microbiome research.

Author

Oduaran OH and Bhatt AS

Subjects

Humans, Microbiota

Published

2022

8. Short- and long-read metagenomics of urban and rural South African gut microbiomes reveal a transitional composition and undescribed taxa.

Author

Tamburini FB, Maghini D, Oduaran OH, Brewster R, Hulley MR, Sahibdeen V, Norris SA, Tollman S, Kahn K, Wagner RG, Wade AN, Wafawanaka F, Gómez-Olivé FX, Twine R, Lombard Z, Hazelhurst S, and Bhatt AS

Subjects

Adult, Female, Humans, Metagenomics, Rural Population, South Africa, Gastrointestinal Microbiome genetics, Microbiota

Abstract

Human gut microbiome research focuses on populations living in high-income countries and to a lesser extent, non-urban agriculturalist and hunter-gatherer societies. The scarcity of research between these extremes limits our understanding of how the gut microbiota relates to health and disease in the majority of the world's population. Here, we evaluate gut microbiome composition in transitioning South African populations using short- and long-read sequencing. We analyze stool from adult females living in rural Bushbuckridge (n = 118) or urban Soweto (n = 51) and find that these microbiomes are taxonomically intermediate between those of individuals living in high-income countries and traditional communities. We demonstrate that reference collections are incomplete for characterizing microbiomes of individuals living outside high-income countries, yielding artificially low beta diversity measurements, and generate complete genomes of undescribed taxa, including Treponema, Lentisphaerae, and Succinatimonas. Our results suggest that the gut microbiome of South Africans does not conform to a simple "western-nonwestern" axis and contains undescribed microbial diversity., (© 2022. The Author(s).)

Published

2022

9. Non-communicable diseases pandemic and precision medicine: Is Africa ready?

Author

Chikowore T, Kamiza AB, Oduaran OH, Machipisa T, and Fatumo S

Subjects

Africa epidemiology, Epigenomics, Genome-Wide Association Study, Humans, Noncommunicable Diseases epidemiology, Pandemics, Noncommunicable Diseases prevention & control, Precision Medicine

Abstract

Non-communicable diseases (NCDs) kill more than 41 million people every year, accounting for 71% of all deaths globally. The prevalence of NCDs is estimated to be higher than that of infectious diseases in Africa by 2030. Precision medicine may help with early identification of cases, resulting in timely prevention and improvement in the efficacy of treatments. However, Africa has been lagging behind in genetic research, a key component of the precision medicine initiative. A number of genomic research initiatives which could lead to translational genomics are emerging on the African continent which includes the Non-communicable Diseases Genetic Heritage Study (NCDGHS) and the Men of African Descent and Carcinoma of the Prostate (MADCaP) Network. These offer a promise that precision medicine can be applied in African countries. This review evaluates the advances of genetic studies for cancer, hypertension, type 2 diabetes and body mass index (BMI) in Africa., Competing Interests: Declaration of Interests We have none to declare., (Copyright © 2021 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

10. Gut microbiome profiling of a rural and urban South African cohort reveals biomarkers of a population in lifestyle transition.

Author

Oduaran OH, Tamburini FB, Sahibdeen V, Brewster R, Gómez-Olivé FX, Kahn K, Norris SA, Tollman SM, Twine R, Wade AN, Wagner RG, Lombard Z, Bhatt AS, and Hazelhurst S

Subjects

Adult, Aged, Bacteria genetics, Biomarkers, Cohort Studies, Diet, Feces microbiology, Female, Humans, Middle Aged, Obesity microbiology, Pilot Projects, RNA, Ribosomal, 16S genetics, Rural Population, South Africa ethnology, Gastrointestinal Microbiome genetics, Life Style ethnology, Microbiota genetics

Abstract

Background: Comparisons of traditional hunter-gatherers and pre-agricultural communities in Africa with urban and suburban Western North American and European cohorts have clearly shown that diet, lifestyle and environment are associated with gut microbiome composition. Yet, little is known about the gut microbiome composition of most communities in the very diverse African continent. South Africa comprises a richly diverse ethnolinguistic population that is experiencing an ongoing epidemiological transition and concurrent spike in the prevalence of obesity, largely attributed to a shift towards more Westernized diets and increasingly inactive lifestyle practices. To characterize the microbiome of African adults living in more mainstream lifestyle settings and investigate associations between the microbiome and obesity, we conducted a pilot study, designed collaboratively with community leaders, in two South African cohorts representative of urban and transitioning rural populations. As the rate of overweight and obesity is particularly high in women, we collected single time-point stool samples from 170 HIV-negative women (51 at Soweto; 119 at Bushbuckridge), performed 16S rRNA gene sequencing on these samples and compared the data to concurrently collected anthropometric data., Results: We found the overall gut microbiome of our cohorts to be reflective of their ongoing epidemiological transition. Specifically, we find that geographical location was more important for sample clustering than lean/obese status and observed a relatively higher abundance of the Melainabacteria, Vampirovibrio, a predatory bacterium, in Bushbuckridge. Also, Prevotella, despite its generally high prevalence in the cohorts, showed an association with obesity. In comparisons with benchmarked datasets representative of non-Western populations, relatively higher abundance values were observed in our dataset for Barnesiella (log 2 fold change (FC) = 4.5), Alistipes (log 2 FC = 3.9), Bacteroides (log 2 FC = 4.2), Parabacteroides (log 2 FC = 3.1) and Treponema (log 2 FC = 1.6), with the exception of Prevotella (log 2 FC = - 4.7)., Conclusions: Altogether, this work identifies putative microbial features associated with host health in a historically understudied community undergoing an epidemiological transition. Furthermore, we note the crucial role of community engagement to the success of a study in an African setting, the importance of more population-specific studies to inform targeted interventions as well as present a basic foundation for future research.

Published

2020