Your search keyword '"Munyard K"' showing total 2 results

1. Analysis of pooled genome sequences from Djallonke and Sahelian sheep of Ghana reveals co-localisation of regions of reduced heterozygosity with candidate genes for disease resistance and adaptation to a tropical environment.

Author

Yaro M, Munyard KA, Morgan E, Allcock RJN, Stear MJ, and Groth DM

Subjects

Animals, Breeding, Chromosomes, Mammalian genetics, Female, Male, Polymorphism, Single Nucleotide, Sheep immunology, Sheep microbiology, Trypanosomiasis immunology, Adaptation, Physiological genetics, Disease Resistance genetics, Genomics, Heterozygote, Sheep genetics, Sheep physiology, Tropical Climate

Abstract

Background: The Djallonke sheep is well adapted to harsh environmental conditions, and is relatively resistant to Haemonchosis and resilient to animal trypanosomiasis. The larger Sahelian sheep, which cohabit the same region, is less well adapted to these disease challenges. Haemonchosis and Trypanosomiasis collectively cost the worldwide animal industry billions of dollars in production losses annually., Results: Here, we separately sequenced and then pooled according to breed the genomes from five unrelated individuals from each of the Djallonke and Sahelian sheep breeds (sourced from Ghana), at greater than 22-fold combined coverage for each breed. A total of approximately 404 million (97%) and 343 million (97%) sequence reads from the Djallonke and Sahelian breeds respectively, were successfully mapped to the sheep reference genome Oar v3.1. We identified approximately 11.1 million and 10.9 million single nucleotide polymorphisms (SNPs) in the Djallonke and Sahelian breeds, with approximately 15 and 16% respectively of these not previously reported in sheep. Multiple regions of reduced heterozygosity were also found; 70 co-localised within genomic regions harbouring genes that mediate disease resistance, immune response and adaptation in sheep or cattle. Thirty- three of the regions of reduced heterozygosity co-localised with previously reported genes for resistance to haemonchosis and trypanosomiasis., Conclusions: Our analyses suggest that these regions of reduced heterozygosity may be signatures of selection for these economically important diseases.

Published

2019

2. Combatting African Animal Trypanosomiasis (AAT) in livestock: The potential role of trypanotolerance.

Author

Yaro M, Munyard KA, Stear MJ, and Groth DM

Subjects

Africa, Animal Husbandry, Animals, Breeding, Trypanosomiasis, African genetics, Disease Resistance genetics, Livestock parasitology, Trypanosomiasis, African veterinary

Abstract

African Animal Trypanosomiasis (AAT) is endemic in at least 37 of the 54 countries in Africa. It is estimated to cause direct and indirect losses to the livestock production industry in excess of US$ 4.5 billion per annum. A century of intervention has yielded limited success, owing largely to the extraordinary complexity of the host-parasite interaction. Trypanotolerance, which refers to the inherent ability of some African livestock breeds, notably Djallonke sheep, N'Dama cattle and West African Dwarf goats, to withstand a trypanosomiasis challenge and still remain productive without any form of therapy, is an economically sustainable option for combatting this disease. Yet trypanotolerance has not been adequately exploited in the fight against AAT. In this review, we describe new insights into the genetic basis of trypanotolerance and discuss the potential of exploring this phenomenon as an integral part of the solution for AAT, particularly, in the context of African animal production systems., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016