Through her work, Dr Rebecca O’Connor inside the School of Biosciences, found previously undiscovered, fundamental flaws inside the pig genome, the results of which have contributed to increased mapping of the pig genome.
In pigs – which provide 43 percent of the meat consumed worldwide – a chromosome defect can affect fertility.
With each pig producing as many as 14 piglets per litter, a faulty chromosome can reduce This specific by as much as half, with massive economic costs to the producer.
Dr O’Connor’s research, carried out inside the Griffin Laboratory, has led to the development of chromosome screening devices for both pigs in addition to cattle in addition to a chromosome screening service to multiple agricultural food providers.
at This specific point with 13 clients in eight different countries, the team are screening hundreds of samples a year, as well as adapting the method to screen for chromosome abnormalities in some other species.
The research findings were presented to agricultural industry leaders at the Pig Breeders Round Table Conference, one of the foremost international conferences on livestock genetics, held at the University of Kent in May 2017.
via Mediterranean coasts to Tatra Mountains in addition to beyond: Plant chromosome number variation
R. E. O’Connor et al. Isolation of subtelomeric sequences of porcine chromosomes for translocation screening reveals errors inside the pig genome assembly, Animal Genetics (2017). DOI: 10.1111/age.12548