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1. MetaNovo: An open-source pipeline for probabilistic peptide discovery in complex metaproteomic datasets.

Author

Matthys G Potgieter, Andrew J M Nel, Suereta Fortuin, Shaun Garnett, Jerome M Wendoh, David L Tabb, Nicola J Mulder, and Jonathan M Blackburn

Subjects
Biology (General), QH301-705.5
Abstract

BackgroundMicrobiome research is providing important new insights into the metabolic interactions of complex microbial ecosystems involved in fields as diverse as the pathogenesis of human diseases, agriculture and climate change. Poor correlations typically observed between RNA and protein expression datasets make it hard to accurately infer microbial protein synthesis from metagenomic data. Additionally, mass spectrometry-based metaproteomic analyses typically rely on focused search sequence databases based on prior knowledge for protein identification that may not represent all the proteins present in a set of samples. Metagenomic 16S rRNA sequencing only targets the bacterial component, while whole genome sequencing is at best an indirect measure of expressed proteomes. Here we describe a novel approach, MetaNovo, that combines existing open-source software tools to perform scalable de novo sequence tag matching with a novel algorithm for probabilistic optimization of the entire UniProt knowledgebase to create tailored sequence databases for target-decoy searches directly at the proteome level, enabling metaproteomic analyses without prior expectation of sample composition or metagenomic data generation and compatible with standard downstream analysis pipelines.ResultsWe compared MetaNovo to published results from the MetaPro-IQ pipeline on 8 human mucosal-luminal interface samples, with comparable numbers of peptide and protein identifications, many shared peptide sequences and a similar bacterial taxonomic distribution compared to that found using a matched metagenome sequence database-but simultaneously identified many more non-bacterial peptides than the previous approaches. MetaNovo was also benchmarked on samples of known microbial composition against matched metagenomic and whole genomic sequence database workflows, yielding many more MS/MS identifications for the expected taxa, with improved taxonomic representation, while also highlighting previously described genome sequencing quality concerns for one of the organisms, and identifying an experimental sample contaminant without prior expectation.ConclusionsBy estimating taxonomic and peptide level information directly on microbiome samples from tandem mass spectrometry data, MetaNovo enables the simultaneous identification of peptides from all domains of life in metaproteome samples, bypassing the need for curated sequence databases to search. We show that the MetaNovo approach to mass spectrometry metaproteomics is more accurate than current gold standard approaches of tailored or matched genomic sequence database searches, can identify sample contaminants without prior expectation and yields insights into previously unidentified metaproteomic signals, building on the potential for complex mass spectrometry metaproteomic data to speak for itself.

Published
2023
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2. The Development of Computational Biology in South Africa: Successes Achieved and Lessons Learnt.

Author

Nicola J Mulder, Alan Christoffels, Tulio de Oliveira, Junaid Gamieldien, Scott Hazelhurst, Fourie Joubert, Judit Kumuthini, Ché S Pillay, Jacky L Snoep, Özlem Tastan Bishop, and Nicki Tiffin

Subjects
Biology (General), QH301-705.5
Abstract

Bioinformatics is now a critical skill in many research and commercial environments as biological data are increasing in both size and complexity. South African researchers recognized this need in the mid-1990s and responded by working with the government as well as international bodies to develop initiatives to build bioinformatics capacity in the country. Significant injections of support from these bodies provided a springboard for the establishment of computational biology units at multiple universities throughout the country, which took on teaching, basic research and support roles. Several challenges were encountered, for example with unreliability of funding, lack of skills, and lack of infrastructure. However, the bioinformatics community worked together to overcome these, and South Africa is now arguably the leading country in bioinformatics on the African continent. Here we discuss how the discipline developed in the country, highlighting the challenges, successes, and lessons learnt.

Published
2016
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3. A quick guide for building a successful bioinformatics community.

Author

Aidan Budd, Manuel Corpas, Michelle D Brazas, Jonathan C Fuller, Jeremy Goecks, Nicola J Mulder, Magali Michaut, B F Francis Ouellette, Aleksandra Pawlik, and Niklas Blomberg

Subjects
Biology (General), QH301-705.5
Abstract

"Scientific community" refers to a group of people collaborating together on scientific-research-related activities who also share common goals, interests, and values. Such communities play a key role in many bioinformatics activities. Communities may be linked to a specific location or institute, or involve people working at many different institutions and locations. Education and training is typically an important component of these communities, providing a valuable context in which to develop skills and expertise, while also strengthening links and relationships within the community. Scientific communities facilitate: (i) the exchange and development of ideas and expertise; (ii) career development; (iii) coordinated funding activities; (iv) interactions and engagement with professionals from other fields; and (v) other activities beneficial to individual participants, communities, and the scientific field as a whole. It is thus beneficial at many different levels to understand the general features of successful, high-impact bioinformatics communities; how individual participants can contribute to the success of these communities; and the role of education and training within these communities. We present here a quick guide to building and maintaining a successful, high-impact bioinformatics community, along with an overview of the general benefits of participating in such communities. This article grew out of contributions made by organizers, presenters, panelists, and other participants of the ISMB/ECCB 2013 workshop "The 'How To Guide' for Establishing a Successful Bioinformatics Network" at the 21st Annual International Conference on Intelligent Systems for Molecular Biology (ISMB) and the 12th European Conference on Computational Biology (ECCB).

Published
2015
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4. Information content-based Gene Ontology functional similarity measures: which one to use for a given biological data type?

Author

Gaston K Mazandu and Nicola J Mulder

Subjects
Medicine, Science
Abstract

The current increase in Gene Ontology (GO) annotations of proteins in the existing genome databases and their use in different analyses have fostered the improvement of several biomedical and biological applications. To integrate this functional data into different analyses, several protein functional similarity measures based on GO term information content (IC) have been proposed and evaluated, especially in the context of annotation-based measures. In the case of topology-based measures, each approach was set with a specific functional similarity measure depending on its conception and applications for which it was designed. However, it is not clear whether a specific functional similarity measure associated with a given approach is the most appropriate, given a biological data set or an application, i.e., achieving the best performance compared to other functional similarity measures for the biological application under consideration. We show that, in general, a specific functional similarity measure often used with a given term IC or term semantic similarity approach is not always the best for different biological data and applications. We have conducted a performance evaluation of a number of different functional similarity measures using different types of biological data in order to infer the best functional similarity measure for each different term IC and semantic similarity approach. The comparisons of different protein functional similarity measures should help researchers choose the most appropriate measure for the biological application under consideration.

Published
2014
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5. Predicting and analyzing interactions between Mycobacterium tuberculosis and its human host.

Author

Holifidy A Rapanoel, Gaston K Mazandu, and Nicola J Mulder

Subjects
Medicine, Science
Abstract

The outcome of infection by Mycobacterium tuberculosis (Mtb) depends greatly on how the host responds to the bacteria and how the bacteria manipulates the host, which is facilitated by protein-protein interactions. Thus, to understand this process, there is a need for elucidating protein interactions between human and Mtb, which may enable us to characterize specific molecular mechanisms allowing the bacteria to persist and survive under different environmental conditions. In this work, we used the interologs method based on experimentally verified intra-species and inter-species interactions to predict human-Mtb functional interactions. These interactions were further filtered using known human-Mtb interactions and genes that are differentially expressed during infection, producing 190 interactions. Further analysis of the subcellular location of proteins involved in these human-Mtb interactions confirms feasibility of these interactions. We also conducted functional analysis of human and Mtb proteins involved in these interactions, checking whether these proteins play a role in infection and/or disease, and enriching Mtb proteins in a previously predicted list of drug targets. We found that the biological processes of the human interacting proteins suggested their involvement in apoptosis and production of nitric oxide, whereas those of the Mtb interacting proteins were relevant to the intracellular environment of Mtb in the host. Mapping these proteins onto KEGG pathways highlighted proteins belonging to the tuberculosis pathway and also suggested that Mtb proteins might use the host to acquire nutrients, which is in agreement with the intracellular lifestyle of Mtb. This indicates that these interactions can shed light on the interplay between Mtb and its human host and thus, contribute to the process of designing novel drugs with new biological mechanisms of action.

Published
2013
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6. Determining ancestry proportions in complex admixture scenarios in South Africa using a novel proxy ancestry selection method.

Author

Emile R Chimusa, Michelle Daya, Marlo Möller, Raj Ramesar, Brenna M Henn, Paul D van Helden, Nicola J Mulder, and Eileen G Hoal

Subjects
Medicine, Science
Abstract

Admixed populations can make an important contribution to the discovery of disease susceptibility genes if the parental populations exhibit substantial variation in susceptibility. Admixture mapping has been used successfully, but is not designed to cope with populations that have more than two or three ancestral populations. The inference of admixture proportions and local ancestry and the imputation of missing genotypes in admixed populations are crucial in both understanding variation in disease and identifying novel disease loci. These inferences make use of reference populations, and accuracy depends on the choice of ancestral populations. Using an insufficient or inaccurate ancestral panel can result in erroneously inferred ancestry and affect the detection power of GWAS and meta-analysis when using imputation. Current algorithms are inadequate for multi-way admixed populations. To address these challenges we developed PROXYANC, an approach to select the best proxy ancestral populations. From the simulation of a multi-way admixed population we demonstrate the capability and accuracy of PROXYANC and illustrate the importance of the choice of ancestry in both estimating admixture proportions and imputing missing genotypes. We applied this approach to a complex, uniquely admixed South African population. Using genome-wide SNP data from over 764 individuals, we accurately estimate the genetic contributions from the best ancestral populations: isiXhosa [Formula: see text], ‡Khomani SAN [Formula: see text], European [Formula: see text], Indian [Formula: see text], and Chinese [Formula: see text]. We also demonstrate that the ancestral allele frequency differences correlate with increased linkage disequilibrium in the South African population, which originates from admixture events rather than population bottlenecks.The collective term for people of mixed ancestry in southern Africa is "Coloured," and this is officially recognized in South Africa as a census term, and for self-classification. Whilst we acknowledge that some cultures may use this term in a derogatory manner, these connotations are not present in South Africa, and are certainly not intended here.

Published
2013
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7. Scoring protein relationships in functional interaction networks predicted from sequence data.

Author

Gaston K Mazandu and Nicola J Mulder

Subjects
Medicine, Science
Abstract

UNLABELLED: The abundance of diverse biological data from various sources constitutes a rich source of knowledge, which has the power to advance our understanding of organisms. This requires computational methods in order to integrate and exploit these data effectively and elucidate local and genome wide functional connections between protein pairs, thus enabling functional inferences for uncharacterized proteins. These biological data are primarily in the form of sequences, which determine functions, although functional properties of a protein can often be predicted from just the domains it contains. Thus, protein sequences and domains can be used to predict protein pair-wise functional relationships, and thus contribute to the function prediction process of uncharacterized proteins in order to ensure that knowledge is gained from sequencing efforts. In this work, we introduce information-theoretic based approaches to score protein-protein functional interaction pairs predicted from protein sequence similarity and conserved protein signature matches. The proposed schemes are effective for data-driven scoring of connections between protein pairs. We applied these schemes to the Mycobacterium tuberculosis proteome to produce a homology-based functional network of the organism with a high confidence and coverage. We use the network for predicting functions of uncharacterised proteins. AVAILABILITY: Protein pair-wise functional relationship scores for Mycobacterium tuberculosis strain CDC1551 sequence data and python scripts to compute these scores are available at http://web.cbio.uct.ac.za/~gmazandu/scoringschemes.

Published
2011
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10. A genome-wide association study identifies distinct variants associated with pulmonary function among European and African ancestries from the UK Biobank

Author

Musalula Sinkala, Samar S. M. Elsheikh, Mamana Mbiyavanga, Joshua Cullinan, and Nicola J. Mulder

Subjects
Medicine (miscellaneous), General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology
Abstract

Pulmonary function is an indicator of well-being, and pulmonary pathologies are the third major cause of death worldwide. We analysed the UK Biobank genome-wide association summary statistics of pulmonary function for Europeans and individuals of recent African descent to identify variants associated with the trait in the two ancestries. Here, we show 627 variants in Europeans and 3 in Africans associated with three pulmonary function parameters. In addition to the 110 variants in Europeans previously reported to be associated with phenotypes related to pulmonary function, we identify 279 novel loci, including an ISX intergenic variant rs369476290 on chromosome 22 in Africans. Remarkably, we find no shared variants among Africans and Europeans. Furthermore, enrichment analyses of variants separately for each ancestry background reveal significant enrichment for terms related to pulmonary phenotypes in Europeans but not Africans. Further analysis of studies of pulmonary phenotypes reveals that individuals of European background are disproportionally overrepresented in datasets compared to Africans, with the gap widening over the past five years. Our findings extend our understanding of the different variants that modify the pulmonary function in Africans and Europeans, a promising finding for future GWASs and medical studies.

Published
2023

14. Distinct Genetic Loci and Variations in Blood Pressure and Pulse Rate in Europeans and Africans from the UK Biobank

Author

Musalula Sinkala, Samar S. M. Elsheikh, Mamana Mbiyavanga, Joshua Cullinan, and Nicola J. Mulder

Abstract

Trans-ancestral variations exist for various anthropometric traits. These traits, including cardiovascular traits, are likely associated with different loci in individuals of different ancestry groups. We assessed the difference in systolic blood pressure, diastolic blood pressure, pulse rate and maximum heart rate among African and European ancestry individuals. Furthermore, we conducted a genome-wide association study of cardiovascular traits in 383,471 Europeans and 5,978 Africans represented in the UK Biobank. Here, we report 2 and 1,202 variants associated with cardiovascular traits in Africans and Europeans, respectively. We identify 2 novel variants in Africans, including rs9388010 located in the GJA1 gene previously associated with numerous cardiomyopathies. Remarkably, we find the associated variants are primarily unique to each ancestry group and map to largely different genes. Through integrative enrichment analyses we find that gene sets within each ancestral group are significantly enriched for pathways and phenotypes related to cardiovascular physiology and disease. Our discoveries provide a better understanding of variations in cardiovascular traits and the different associated variants in Africans and Europeans.

Published
2022

15. Genome-wide Association Study of Pulmonary Function in Europeans and Africans from the UK Biobank Identifies Distinct Variants

Author

Musalula Sinkala, Samar S. M. Elsheikh, Mamana Mbiyavanga, Joshua Cullinan, and Nicola J. Mulder

Abstract

Pulmonary function is an indicator of well-being, and pulmonary pathologies are the third major cause of death worldwide. FEV1, FVC, and PEF are quantitively used to assess pulmonary function. We conducted a genome-wide association analysis of pulmonary function in 383,471 individuals of European and 5,978 African descent represented in the UK Biobank. Here, we report 817 variants in Europeans and 3 in Africans associated (p-values < 5 × 10−8) with three pulmonary function parameters; FEV1, FVC and PEF. In addition to 377 variants in Europeans previously reported to be associated with phenotypes related to pulmonary function, we identified 330 novel loci, including an ISX intergenic variant rs369476290 on chromosome 22 in Africans and a KDM2A intron variant rs12790261 on chromosome 11 in Europeans. Remarkably, we find no shared variants among Africans and Europeans. Enrichment analyses of variants separately for each ancestry background revealed significant enrichment for terms related to pulmonary phenotypes in Europeans but not Africans. Further analysis of studies of pulmonary phenotypes revealed individuals of European background are disproportionally overrepresented in datasets compared to Africans, with the gap widening over the past five years. Our findings offer a better understanding of the different variants that modify pulmonary function in Africans and Europeans, a significant finding for future GWAS studies and medicine.

Published
2022

16. The H3ABioNet helpdesk: an online bioinformatics resource, enhancing Africa’s capacity for genomics research

Author

Judit Kumuthini, Lyndon Zass, Sumir Panji, Samson P. Salifu, Jonathan K. Kayondo, Victoria Nembaware, Mamana Mbiyavanga, Ajayi Olabode, Ali Kishk, Gordon Wells, Nicola J. Mulder, and as members of the Sustainability and Outreach Work Package of the H3ABioNet Consortium

Subjects
Computer science, Bioinformatics support, Genomics, Bioinformatics, lcsh:Computer applications to medicine. Medical informatics, Biochemistry, User-Computer Interface, 03 medical and health sciences, 0302 clinical medicine, Resource (project management), Structural Biology, Molecular Biology, lcsh:QH301-705.5, 030304 developmental biology, 0303 health sciences, Research, Applied Mathematics, Genomics support, Computational Biology, Computer Science Applications, H3Africa, lcsh:Biology (General), Africa, Ticket, lcsh:R858-859.7, H3ABioNet, Helpdesk, 030217 neurology & neurosurgery, Research Article
Abstract

Background Currently, formal mechanisms for bioinformatics support are limited. The H3Africa Bioinformatics Network has implemented a public and freely available Helpdesk (HD), which provides generic bioinformatics support to researchers through an online ticketing platform. The following article reports on the H3ABioNet HD (H3A-HD)‘s development, outlining its design, management, usage and evaluation framework, as well as the lessons learned through implementation. Results The H3A-HD evaluated using automatically generated usage logs, user feedback and qualitative ticket evaluation. Evaluation revealed that communication methods, ticketing strategies and the technical platforms used are some of the primary factors which may influence the effectivity of HD. Conclusion To continuously improve the H3A-HD services, the resource should be regularly monitored and evaluated. The H3A-HD design, implementation and evaluation framework could be easily adapted for use by interested stakeholders within the Bioinformatics community and beyond.

Published
2019

17. Revealing the Mutational Spectrum in Southern Africans With Amyotrophic Lateral Sclerosis

Author

Melissa Nel, Amokelani C. Mahungu, Nomakhosazana Monnakgotla, Gerrit R. Botha, Nicola J. Mulder, Gang Wu, Evadnie Rampersaud, Marka van Blitterswijk, Joanne Wuu, Anne Cooley, Jason Myers, Rosa Rademakers, J. Paul Taylor, Michael Benatar, and Jeannine M. Heckmann

Subjects
Human medicine, Neurology (clinical), Article, Genetics (clinical)
Abstract

Background and ObjectivesTo perform the first screen of 44 amyotrophic lateral sclerosis (ALS) genes in a cohort of African genetic ancestry individuals with ALS using whole-genome sequencing (WGS) data.MethodsOne hundred three consecutive cases with probable/definite ALS (using the revised El Escorial criteria), and self-categorized as African genetic ancestry, underwent WGS using various Illumina platforms. As population controls, 238 samples from various African WGS data sets were included. Our analysis was restricted to 44 ALS genes, which were curated for rare sequence variants and classified according to the American College of Medical Genetics guidelines as likely benign, uncertain significance, likely pathogenic, or pathogenic variants.ResultsThirteen percent of 103 ALS cases harbored pathogenic variants; 5 different SOD1 variants (N87S, G94D, I114T, L145S, and L145F) in 5 individuals (5%, 1 familial case), pathogenic C9orf72 repeat expansions in 7 individuals (7%, 1 familial case) and a likely pathogenic ANXA11 (G38R) variant in 1 individual. Thirty individuals (29%) harbored ≥1 variant of uncertain significance; 10 of these variants had limited pathogenic evidence, although this was insufficient to permit confident classification as pathogenic.DiscussionOur findings show that known ALS genes can be expected to identify a genetic cause of disease in >11% of sporadic ALS cases of African genetic ancestry. Similar to European cohorts, the 2 most frequent genes harboring pathogenic variants in this population group are C9orf72 and SOD1.

Published
2022

18. Relating Global and Local Connectome Changes to Dementia and Targeted Gene Expression in Alzheimer’s Disease

Author

Samar S. M. Elsheikh, Emile R. Chimusa, Alzheimer's Disease Neuroimaging Initiative, Nicola J. Mulder, and Alessandro Crimi

Subjects
Clinical Dementia Rating, diffusion-weighted imaging, Neurosciences. Biological psychiatry. Neuropsychiatry, Disease, PLAU, Behavioral Neuroscience, 03 medical and health sciences, 0302 clinical medicine, Neuroimaging, Betweenness centrality, medicine, Dementia, Biological Psychiatry, Original Research, 030304 developmental biology, 0303 health sciences, Fusiform gyrus, connectome, Human Neuroscience, Alzheimer's disease, medicine.disease, Psychiatry and Mental health, Neuropsychology and Physiological Psychology, Neurology, connectivity metrics, gene expression, Connectome, Psychology, Neuroscience, 030217 neurology & neurosurgery, MRI, dementia, RC321-571, Tractography
Abstract

Networks are present in many aspects of our lives, and networks in neuroscience have recently gained much attention leading to novel representations of brain connectivity. Indeed, there is still room for investigation of the genetic contribution to brain connectivity. The integration of neuroimaging and genetics allows a better understanding of the effects of the genetic variations on brain structural and functional connections, but few studies have successfully investigated the longitudinal association of such a mutual interplay. Nevertheless, several Alzheimer’s disease-associated genetic variants have been identified through omic studies, and the current work uses whole-brain tractography in a longitudinal case-control study design and measures the structural connectivity changes of brain networks to study the neurodegeneration of Alzheimer’s. This is performed by examining the effect of targeted genetic risk factors on local and global brain connectivity. We investigated the degree to which changes in brain connectivity are affected by gene expression. More specifically, we used the most common brain connectivity measures such as efficiency, characteristic path length, betweenness centrality, Louvain modularity and transitivity (a variation of clustering coefficient). Furthermore, we examined the extent to which Clinical Dementia Rating reflects brain connections longitudinally and genetic variation. Here, we show that the expression of PLAU and HFE genes increases the change in betweenness centrality related to the fusiform gyrus and clustering coefficient of cingulum bundle over time, respectively. APP and BLMH gene expression associates with local connectivity. We also show that betweenness centrality has a high contribution to dementia in distinct brain regions. Our findings provide insights into the complex longitudinal interplay between genetics and neuroimaging characteristics and highlight the role of Alzheimer’s genetic risk factors in the estimation of regional brain connection alterations. These regional relationship patterns can be useful for early disease treatment and neurodegeneration prediction.

Published
2019

19. Ten simple rules for organizing a webinar series

Author

Anita Ghansah, Faisal M. Fadlelmola, Ozlem Tastan Bishop, Nicola J Mulder, Ahmed Moussa, Sumir Panji, Jean-Baka Domelevo Entfellner, Azza Ahmed, Balkiss BOUHAOUALA-ZAHAR, Souiai Oussama, Melek Chaouch, and Stochastic Studies and Statistics

Subjects
0301 basic medicine, Shared space, Computer science, media_common.quotation_subject, Target audience, World Wide Web, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Genetics, Conversation, Social media, lcsh:QH301-705.5, Molecular Biology, Computer communication networks, Ecology, Evolution, Behavior and Systematics, media_common, User Friendly, Ecology, SIMPLE (military communications protocol), business.industry, 030104 developmental biology, lcsh:Biology (General), Computational Theory and Mathematics, Modeling and Simulation, The Internet, business, 030217 neurology & neurosurgery
Abstract

The webinars series form part of the regular activities of any scientific consortium that aims to strengthen research activities and foster collaborations amongst the different partners. The webinars are intended to foster the exchange of ideas, build potential collaborations across multiple disciplines and enabling the participation and sharing of knowledge in current research. The Ten Simple Rules for organizing a webinar series can be summarized as follow: The webinar coordination team assists with all the planning and logistics for hosting a webinar (Rule 1); Choosing webinar themes requires mapping of the target audience needs and interest (Rule 2); Drafting a webinar planning checklist through regular planning meetings as well as post webinar meetings (Rule 3); Decentralized webinar organization of tasks and resources through accessible shared space (Rule 4); Planing early and settling on the provisional dates and times of the webinar events along with their themes (Rule 5); Choosing and settling on convenient and user friendly webinar platform (Rule 6); Approaching and confirming potential speakers (Rule 7); Obtaining the webinar title, abstract and presenter’s biography for creating the webinar announcement through emails and social media channels (Rule 8); Allocating time for the platform orientation (Rule 9); and Keeping close-up track of webinar metrics for regular assessment and evaluation (Rule 10). These Ten Simple Rules shared with the computational biology community will help those who have not yet ventured into training through webinars to learn from our experience. In our experience, the feedback from the post-webinar surveys clearly demonstrate that webinars are an effective way to create a two-way conversation between presenters and participants via a web-based platform.

Published
2019

20. H3ABioNet, a sustainable pan-African bioinformatics network for human heredity and health in Africa

Author

Samson Pandam Salifu, Radhika Khetani, Jelili Oyelade, Anmol Kiran, Cornelis Victor Jongeneel, Raphael Zozimus Sangeda, Kais Ghedira, Faisal M. Fadlelmola, Ayton Pierre Meintjes, Jen Cornick, Daniel Masiga, Khalid SADKI, Shakuntala Baichoo, Samar Kamal Kassim, Scott Hazelhurst, Azeddine Ibrahimi, Ozlem Tastan Bishop, Judit Kumuthini, Arox Wadson Kamng'ona, Rehab Ahmed, Nicola J Mulder, Dean Everett, Ahmed Moussa, Julie Makani, Chimusa Emile Rugamika, Jean-Baka Domelevo Entfellner, Phelelani Mpangase, Marion Adebiyi, Mohamed Alibi, Peter Van Heusden, Winston Hide, Victor Osamor, Hugh-George Patterton, Christopher Fields, Benjamin Kumwenda, Itunuoluwa Isewon, Souiai Oussama, Niklas Blomberg, Bruno Mmbando, Benard Kulohoma, Nicki Tiffin, Zahra Mungloo-Dilmohamud, Shaun Aron, Patrick Musicha, Stochastic Studies and Statistics, University of Cape Town, Department of Computer and Information Sciences, Covenant University, Centre National de Transfusion Sanguine, Rabat, Institut Pasteur de Tunis, Réseau International des Instituts Pasteur (RIIP), Noguchi Memorial Institute for Medical Research [Accra, Ghana] (NMIMR), University of Ghana, University of Sciences, Techniques and Technology of Bamako, University of Liverpool, University of Khartoum, Institut National de Recherche Agronomique, Rabat, Botswana Harvard AIDS Institute Partnership, Université Mohammed Premier [Oujda], University of the Witwatersrand [Johannesburg] (WITS), University of Sheffield, Sheffield Institute for Translational Neuroscience, Department of Biotechnology Laboratory (Med-Biotech), Mohammed V University in Rabat, University of Mauritius, University of Illinois at Urbana-Champaign [Urbana], University of Illinois System, Université Grenoble Alpes - UFR Médecine (UGA UFRM), Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Medical Biochemistry and Molecular Biology Department, Faculty of Medicine, Ain Shams University, Cairo, Egypt, Uganda Virus Research Institute, Entebbe, Uganda, Centre for Proteomic and Genomic Research, Cape Town, South Africa, University of Dar es Salaam, Dar es Salaam, Tanzania, Muhimbili University of Health and Allied Sciences, Zagazig University, International Centre of Insect Physiology and Ecology, Nairobi, Kenya, Institut de Chimie de Strasbourg, Université de Strasbourg (UNISTRA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), National Biotechnology Development Agency, Abuja, Nigeria, Centre de Recherche Médicale et Sanitaire (Niamey, Niger) (CERMES), Kumasi Centre for Collaborative Research in Tropical Medicine (KCCR), Department of Biomedical Sciences, University of Cape Town, Faculty of Health Sciences, University of the Free State [South Africa], Institut Pasteur du Maroc, Faculty of Sciences of Rabat, University Mohammed V of Rabat, Rabat, Morocco, Institut National d'Hygiène, Rabat, Morocco, Rhodes University, Grahamstown, University of the Western Cape, Cape Town, Management and Development for Health, Dar es Salaam, Tanzania, and Musicha, P

Subjects
Resource, 0301 basic medicine, Genetics, Medical, Genomic research, [SDV]Life Sciences [q-bio], Black People, Genomics, Health Promotion, Biology, MESH: Africa, SUSCEPTIBILITY, ANCESTRY, Bioinformatics, TUBERCULOSIS, DISEASE, 03 medical and health sciences, Human health, Computer Systems, Genetics, Humans, MESH: Genetics, Medical, MESH: Genetic Variation, GENOME-WIDE ASSOCIATION, Human heredity, Genetics (clinical), 2. Zero hunger, MESH: Humans, Pan african, MESH: Genomics, 1. No poverty, MESH: Computer Systems, Computational Biology, Genetic Variation, Popularity, Human genetics, 3. Good health, 030104 developmental biology, Health promotion, Africa, MESH: Health Promotion, MESH: African Continental Ancestry Group, MESH: Computational Biology
Abstract

International audience; The application of genomics technologies to medicine and biomedical research is increasing in popularity, made possible by new high-throughput genotyping and sequencing technologies and improved data analysis capabilities. Some of the greatest genetic diversity among humans, animals, plants, and microbiota occurs in Africa, yet genomic research outputs from the continent are limited. The Human Heredity and Health in Africa (H3Africa) initiative was established to drive the development of genomic research for human health in Africa, and through recognition of the critical role of bioinformatics in this process, spurred the establishment of H3ABioNet, a pan-African bioinformatics network for H3Africa. The limitations in bioinformatics capacity on the continent have been a major contributory factor to the lack of notable outputs in high-throughput biology research. Although pockets of high-quality bioinformatics teams have existed previously, the majority of research institutions lack experienced faculty who can train and supervise bioinformatics students. H3ABioNet aims to address this dire need, specifically in the area of human genetics and genomics, but knock-on effects are ensuring this extends to other areas of bioinformatics. Here, we describe the emergence of genomics research and the development of bioinformatics in Africa through H3ABioNet.

Published
2016

21. Development of Bioinformatics Infrastructure for Genomics Research

Author

Nicola J. Mulder, Ezekiel Adebiyi, Marion Adebiyi, Seun Adeyemi, Azza Ahmed, Rehab Ahmed, Bola Akanle, Mohamed Alibi, Don L. Armstrong, Shaun Aron, Efejiro Ashano, Shakuntala Baichoo, Alia Benkahla, David K. Brown, Emile R. Chimusa, Faisal M. Fadlelmola, Dare Falola, Segun Fatumo, Kais Ghedira, Amel Ghouila, Scott Hazelhurst, Itunuoluwa Isewon, Segun Jung, Samar Kamal Kassim, Jonathan K. Kayondo, Mamana Mbiyavanga, Ayton Meintjes, Somia Mohammed, Abayomi Mosaku, Ahmed Moussa, Mustafa Muhammd, Zahra Mungloo-Dilmohamud, Oyekanmi Nashiru, Trust Odia, Adaobi Okafor, Olaleye Oladipo, Victor Osamor, Jellili Oyelade, Khalid Sadki, Samson Pandam Salifu, Jumoke Soyemi, Sumir Panji, Fouzia Radouani, Oussama Souiai, Özlem Tastan Bishop, The HABioNet Consortium, as Members of the HAfrica Consortium, University of Cape Town, Department of Computer and Information Sciences, Covenant University, Covenant University Bioinformatics Research (CUBRe), University of Khartoum, Laboratoire de Bioinformatique, biomathématiques, biostatistiques (BIMS) (LR11IPT09), Institut Pasteur de Tunis, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Université de Tunis El Manar (UTM), University of Illinois at Urbana-Champaign [Urbana], University of Illinois System, University of the Witwatersrand [Johannesburg] (WITS), Federal Ministry of Science and Technology [Abuja] (FMST), University of Mauritius, Rhodes University, Grahamstown, Institute of Infectious Diseases and Molecular Medicine (IDM), Future University of Sudan, Laboratoire de Transmission, Contrôle et Immunobiologie des Infections - Laboratory of Transmission, Control and Immunobiology of Infection (LR11IPT02), Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP), Computation Institute [Chicago], University of Chicago, Université Ain Shams, Uganda Virus Research Institute (UVRI), Laboratoire des Technologies de l'Information et de la Communication [Tanger] (Labtic), Ecole Nationale des Sciences Appliquées [Tanger] (ENSAT), Landmark University [Omu-Aran], Université Mohammed V, Kwame Nkrumah University of Science and Technology [GHANA] (KNUST), École polytechnique fédérale d'Ilaro, Institut Pasteur du Maroc, Réseau International des Instituts Pasteur (RIIP), and H3ABioNet is supported by the National Institutes of Health Common Fund (grant number U41HG006941)

Subjects
0301 basic medicine, MESH: Genomics/methods, Epidemiology, Computer science, [SDV]Life Sciences [q-bio], media_common.quotation_subject, Genomics, MESH: Africa, Bioinformatics, Data type, 03 medical and health sciences, 0302 clinical medicine, Excellence, Controlled vocabulary, media_common, MESH: Computational Biology/trends, Community and Home Care, Spatial data infrastructure, MESH: Humans, Data collection, MESH: Biomedical Research/methods, Data science, Metadata, 030104 developmental biology, Workflow, Cardiology and Cardiovascular Medicine, 030217 neurology & neurosurgery
Abstract

Background: Although pockets of bioinformatics excellence have developed in Africa, generally, large-scale genomic data analysis has been limited by the availability of expertise and infrastructure. H3ABioNet, a pan-African bioinformatics network, was established to build capacity specifically to enable H3Africa (Human Heredity and Health in Africa) researchers to analyze their data in Africa. Since the inception of the H3Africa initiative, H3ABioNet’s role has evolved in response to changing needs from the consortium and the African bioinformatics community.Objectives: H3ABioNet set out to develop core bioinformatics infrastructure and capacity for genomics research in various aspects of data collection, transfer, storage, and analysis.Methods and Results: Various resources have been developed to address genomic data management and analysis needs of H3Africa researchers and other scientific communities on the continent. NetMap was developed and used to build an accurate picture of network performance within Africa and between Africa and the rest of the world, and Globus Online has been rolled out to facilitate data transfer. A participant recruitment database was developed to monitor participant enrollment, and data is being harmonized through the use of ontologies and controlled vocabularies. The standardized metadata will be integrated to provide a search facility for H3Africa data and biospecimens. Because H3Africa projects are generating large-scale genomic data, facilities for analysis and interpretation are critical. H3ABioNet is implementing several data analysis platforms that provide a large range of bioinformatics tools or workflows, such as Galaxy, the Job Management System, and eBiokits. A set of reproducible, portable, and cloud-scalable pipelines to support the multiple H3Africa data types are also being developed and dockerized to enable execution on multiple computing infrastructures. In addition, new tools have been developed for analysis of the uniquely divergent African data and for downstream interpretation of prioritized variants. To provide support for these and other bioinformatics queries, an online bioinformatics helpdesk backed by broad consortium expertise has been established. Further support is provided by means of various modes of bioinformatics training.Conclusions: For the past 4 years, the development of infrastructure support and human capacity through H3ABioNet, have significantly contributed to the establishment of African scientific networks, data analysis facilities, and training programs. Here, we describe the infrastructure and how it has affected genomics and bioinformatics research in Africa.HighlightsH3ABioNet is building capacity to enable analysis of genomic data in Africa.Infrastructure has been built for clinical and genomic data storage, management, and analysis.New algorithms and pipelines for African genomic data analysis have been developed.Data are being harmonized using ontologies to enable easy search and retrieval.Genomics training is implemented using various online and face-to-face approaches.

Published
2017

22. Protein domain architectures

Author

Nicola J, Mulder

Subjects
Models, Molecular, Internet, Protein Folding, Protein Conformation, Systems Biology, Molecular Sequence Data, Proteins, Protein Structure, Tertiary, Systems Integration, Structure-Activity Relationship, User-Computer Interface, Terminology as Topic, Protein Interaction Mapping, Computer Graphics, Animals, Data Mining, Humans, Amino Acid Sequence, Databases, Protein, Software
Abstract

Proteins are composed of functional units, or domains, that can be found alone or in combination with other domains. Analysis of protein domain architectures and the movement of protein domains within and across different genomes provide clues about the evolution of protein function. The classification of proteins into families and domains is provided through publicly available tools and databases that use known protein domains to predict other members in new proteins sequences. Currently at least 80% of the main protein sequence databases can be classified using these tools, thus providing a large data set to work from for analyzing protein domain architectures. Each of the protein domain databases provide intuitive web interfaces for viewing and analyzing their domain classifications and provide their data freely for downloading. Some of the main protein family and domain databases are described here, along with their Web-based tools for analyzing domain architectures.

Published
2010

23. InterPro

Author

Nicola J. Mulder and Rolf Apweiler

Published
2006

24. The Gene Ontology (GO) project in 2006

Author

Rex Chisholm, Valerie Wood, Nicola J Mulder, Shengqiang Shu, Midori Harris, Matthew Berriman, Kara Dolinski, Petra Fey, J. Michael Cherry, Warren Kibbe, Jane Lomax, and Alexander Diehl

Subjects
Quality Control, 0303 health sciences, Internet, Gene Expression, Article, 03 medical and health sciences, User-Computer Interface, 0302 clinical medicine, Genes, Vocabulary, Controlled, 030220 oncology & carcinogenesis, Databases, Genetic, Genetics, Database Management Systems, Sequence Analysis, Caltech Library Services, Software, 030304 developmental biology
Abstract

The Gene Ontology (GO) project (http://www.geneontology.org) develops and uses a set of structured, controlled vocabularies for community use in annotating genes, gene products and sequences (also see http://song.sourceforge.net/). The GO Consortium continues to improve to the vocabulary content, reflecting the impact of several novel mechanisms of incorporating community input. A growing number of model organism databases and genome annotation groups contribute annotation sets using GO terms to GO's public repository. Updates to the AmiGO browser have improved access to contributed genome annotations. As the GO project continues to grow, the use of the GO vocabularies is becoming more varied as well as more widespread. The GO project provides an ontological annotation system that enables biologists to infer knowledge from large amounts of data.

Published
2005

25. InterPro

Author

Nicola J Mulder

Published
2005

26. Tools and resources for identifying protein families, domains and motifs

Author

Nicola J, Mulder and Rolf, Apweiler

Subjects
Internet, Binding Sites, Amino Acid Motifs, Tutorial, Proteins, Databases, Protein, Sequence Alignment, Software
Abstract

With the large influx of raw sequence data from genome sequencing projects, there is a need for reliable automatic methods for protein sequence analysis and classification. The most useful tools use various methods for identifying motifs or domains found in previously characterized protein families. This article reviews the tools and resources available on the web for identifying signatures within proteins and discusses how they may be used in the analysis of new or unknown protein sequences.

Published
2002

28. Relating Global and Local Connectome Changes to Dementia and Targeted Gene Expression in Alzheimer's Disease

Author

Samar S. M. Elsheikh, Emile R. Chimusa, Alzheimer's Disease Neuroimaging Initiative, Nicola J. Mulder, and Alessandro Crimi

Subjects
Alzheimer's disease, connectome, gene expression, connectivity metrics, diffusion-weighted imaging, dementia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Networks are present in many aspects of our lives, and networks in neuroscience have recently gained much attention leading to novel representations of brain connectivity. The integration of neuroimaging characteristics and genetics data allows a better understanding of the effects of the gene expression on brain structural and functional connections. The current work uses whole-brain tractography in a longitudinal setting, and by measuring the brain structural connectivity changes studies the neurodegeneration of Alzheimer's disease. This is accomplished by examining the effect of targeted genetic risk factors on the most common local and global brain connectivity measures. Furthermore, we examined the extent to which Clinical Dementia Rating relates to brain connections longitudinally, as well as to gene expression. For instance, here we show that the expression of PLAU gene increases the change over time in betweenness centrality related to the fusiform gyrus. We also show that the betweenness centrality metric impact dementia-related changes in distinct brain regions. Our findings provide insights into the complex longitudinal interplay between genetics and brain characteristics and highlight the role of Alzheimer's genetic risk factors in the estimation of regional brain connectivity alterations.

Published
2021
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29. Proposed Guideline for Minimum Information Stroke Research and Clinical Data Reporting

Author

Judit Kumuthini, Lyndon Zass, Melek Chaouch, Michael Thompson, Paul Olowoyo, Mamana Mbiyavanga, Faniyan Moyinoluwalogo, Gordon Wells, Victornia Nembeware, Nicola J. Mulder, Mayowa Owolabi, and H3ABioNet Consortium’s Data and Standard Working Group as members of the H3Africa Consortium

Subjects
Stroke, minimum information requirement guideline, standardization, reporting guideline, data reporting, H3ABioNet, Science (General), Q1-390
Abstract

The management and analyses of large datasets is one of the grand challenges of modern biomedical research. Establishing methods to harmonise and standardise data collection, reporting, sharing and the employed data dictionaries, can support the resolution of these challenges whilst improving research quality, data quality and integrity, allowing sustainable knowledge transfer through re-usability, interoperability, reproducibility. The current project aimed to develop and propose a standardised reporting guideline for stroke research and clinical data reporting. Through systematic consolidation and harmonization of published data collection and reporting standards, several recommendations were drafted for the proposed guideline. These recommendations were reviewed by domain-researchers and clinicians using an online survey, developed in REDCap. The survey was completed by 20 international stroke-specialists, majority of respondents were based in Africa (10), followed by America, Europe and Australia (10). Of these respondents; the majority were working as dual clinician-researchers (57%) with more than 10 years’ experience in the field (78%). Data elements within the reporting standard were classified as participant-, study- and experiment-level information, further subdivided into essential or optional information, and defined using existing ontologies. The proposed reporting guideline can be employed for research utility and adapted for clinical utility as well. It is accompanied with an associated XML schema for REDCap implementation, to increase the user friendliness of data capturing, sharing, reporting and governance. Ultimately, the adoption of common reporting in stroke research has the potential to ensure that researchers gain the maximum benefit from their generated data and data collections.

Published
2019
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30. Using biological networks to improve our understanding of infectious diseases

Author

Nicola J. Mulder, Richard O. Akinola, Gaston K. Mazandu, and Holifidy Rapanoel

Subjects
Biological networks, Tuberculosis, Pathogen, Evolution, Protein–protein interaction, Biotechnology, TP248.13-248.65
Abstract

Infectious diseases are the leading cause of death, particularly in developing countries. Although many drugs are available for treating the most common infectious diseases, in many cases the mechanism of action of these drugs or even their targets in the pathogen remain unknown. In addition, the key factors or processes in pathogens that facilitate infection and disease progression are often not well understood. Since proteins do not work in isolation, understanding biological systems requires a better understanding of the interconnectivity between proteins in different pathways and processes, which includes both physical and other functional interactions. Such biological networks can be generated within organisms or between organisms sharing a common environment using experimental data and computational predictions. Though different data sources provide different levels of accuracy, confidence in interactions can be measured using interaction scores. Connections between interacting proteins in biological networks can be represented as graphs and edges, and thus studied using existing algorithms and tools from graph theory. There are many different applications of biological networks, and here we discuss three such applications, specifically applied to the infectious disease tuberculosis, with its causative agent Mycobacterium tuberculosis and host, Homo sapiens. The applications include the use of the networks for function prediction, comparison of networks for evolutionary studies, and the generation and use of host–pathogen interaction networks.

Published
2014
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31. Function Prediction and Analysis of Mycobacterium tuberculosis Hypothetical Proteins

Author

Gaston K. Mazandu and Nicola J. Mulder

Subjects
hypothetical protein, tuberculosis, genome analysis, function prediction, interaction network, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

High-throughput biology technologies have yielded complete genome sequences and functional genomics data for several organisms, including crucial microbial pathogens of humans, animals and plants. However, up to 50% of genes within a genome are often labeled “unknown”, “uncharacterized” or “hypothetical”, limiting our understanding of virulence and pathogenicity of these organisms. Even though biological functions of proteins encoded by these genes are not known, many of them have been predicted to be involved in key processes in these organisms. In particular, for Mycobacterium tuberculosis, some of these “hypothetical” proteins, for example those belonging to the Pro-Glu or Pro-Pro-Glu (PE/PPE) family, have been suspected to play a crucial role in the intracellular lifestyle of this pathogen, and may contribute to its survival in different environments. We have generated a functional interaction network for Mycobacterium tuberculosis proteins and used this to predict functions for many of its hypothetical proteins. Here we performed functional enrichment analysis of these proteins based on their predicted biological functions to identify annotations that are statistically relevant, and analysed and compared network properties of hypothetical proteins to the known proteins. From the statistically significant annotations and network information, we have tried to derive biologically meaningful annotations relatedto infection and disease. This quantitative analysis provides an overview of the functional contributions of Mycobacterium tuberculosis “hypothetical” proteins to many basic cellular functions, including its adaptability in the host system and its ability to evade the host immune response.

Published
2012
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