Fully Phased Population‐Prevalent East African Cattle BoLA‐I Alleles Determined Using PacBio HiFi Long‐Read Sequencing Represent Five Novel Specificities With Distinctive Peptide Binding Potential
Isaiah Obara, Andreotti Sandro, Khawla Elati, Timothy Conneley, Morten Nielsen, Naftaly Githaka, Anne Nanteza, Richard Bishop, Ard Nijhof

TL;DR
Researchers identified five new MHC alleles in East African cattle that could help improve vaccine design against pathogens.
Contribution
Discovery of five novel BoLA-I allele specificities with distinct peptide binding potential in African cattle.
Findings
Fully phased BoLA-I alleles from East African cattle reveal five novel specificities.
African cattle MHC alleles show high polymorphism in peptide-binding pockets compared to European cattle.
Novel alleles could enhance vaccine coverage against intracellular pathogens in African cattle.
Abstract
Due to factors such as lower biosecurity, greater wildlife/farm animal interfaces, and environmental challenges, cattle in sub‐Saharan Africa are exposed to more diverse and intensive bacterial, viral and protozoan pathogen challenges than cattle in Europe and other high‐income regions of the world. Classical class I genes of the major histocompatibility complex (MHC) contribute to protection from diseases caused by these pathogens by refining a huge pool of potential pathogen‐derived peptide ligands into a smaller ensemble for presentation to CD8+ T cells. Knowledge of population‐prevalent MHC alleles is therefore critical for evidence‐based approaches to vaccine design and improved understanding of pathogen resistance. Whereas variation in MHC molecules is understood in most detail for European Bos taurus , the alleles expressed by Africa's cattle remain poorly defined. We have…
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Taxonomy
Topicsvaccines and immunoinformatics approaches · T-cell and B-cell Immunology · Microbial infections and disease research
