Your search keyword '"Derek Micholson"' showing total 2 results

1. Peptide biomarkers used for the selective breeding of a complex polygenic trait in honey bees

Author

Michael Peirson, Stephen F. Pernal, Leonard J. Foster, Robert W. Currie, Kyung-Mee Moon, Shelley E Hoover, Andony P. Melathopoulos, Heather Higo, Dominik Domanski, Christoph H. Borchers, Abdullah Ibrahim, Rick White, Miriam E. F. Bixby, Suresh D. Desai, Elizabeth Huxter, Derek Micholson, and Maria Marta Guarna

Subjects

0106 biological sciences, 0301 basic medicine, Multifactorial Inheritance, Genotype, Science, Biology, Selective breeding, 01 natural sciences, Article, 03 medical and health sciences, Animals, Genetics, Multidisciplinary, Bacterial disease, Honey bee, Bees, Phenotype, Breed, 010602 entomology, 030104 developmental biology, Polygene, Trait, Medicine, Peptides, Biomarkers, Selective Breeding

Abstract

We present a novel way to select for highly polygenic traits. For millennia, humans have used observable phenotypes to selectively breed stronger or more productive livestock and crops. Selection on genotype, using single-nucleotide polymorphisms (SNPs) and genome profiling, is also now applied broadly in livestock breeding programs; however, selection on protein/peptide or mRNA expression markers has not yet been proven useful. Here we demonstrate the utility of protein markers to select for disease-resistant hygienic behavior in the European honey bee (Apis mellifera L.). Robust, mechanistically-linked protein expression markers, by integrating cis- and trans- effects from many genomic loci, may overcome limitations of genomic markers to allow for selection. After three generations of selection, the resulting marker-selected stock outperformed an unselected benchmark stock in terms of hygienic behavior, and had improved survival when challenged with a bacterial disease or a parasitic mite, similar to bees selected using a phenotype–based assessment for this trait. This is the first demonstration of the efficacy of protein markers for industrial selective breeding in any agricultural species, plant or animal.

Published

2017

2. Expression biomarkers used for the selective breeding of complex polygenic traits

Author

Shelley E Hoover, Heather Higo, Robert W. Currie, Elizabeth Huxter, Derek Micholson, Suresh D. Desai, Miriam E. F. Bixby, Kyung-Mee Moon, Stephen F. Pernal, Dominik Domanski, Michael Peirson, Christoph H. Borchers, Abdullah Ibrahim, Maria Marta Guarna, Rick White, Andony P. Melathopoulos, and Leonard J. Foster

Subjects

Genetics, Polygene, fungi, Genotype, Trait, Single-nucleotide polymorphism, Quantitative trait locus, Biology, Selective breeding, Phenotype, Breed

Abstract

We present a novel way to select for highly polygenic traits. For millennia, humans have used observable phenotypes to selectively breed stronger or more productive livestock and crops. Selection on genotype, using single-nucleotide polymorphisms (SNPs) and quantitative trait loci (QTLs), is also now applied broadly in livestock breeding programs; however, selection on protein or mRNA expression markers have not been proved useful yet. Here we demonstrate the utility of protein markers to select for disease-resistant behaviour in the European honey bees (Apis melliferaL.). Robust, mechanistically-linked protein expression markers, by integrating cis and trans effects from many genomic loci, may overcome limitations of genomic markers to allow for selection. After three generations of selection, the resulting stock performed as well or better than bees selected using phenotype–based assessment of this trait, when challenged with disease. This is the first demonstration of the efficacy of protein markers for selective breeding in any agricultural species, plant or animal.Significance statementThe honey bee has been in the news a lot recently, largely because of world-wide die-offs due to the parasitic Varroa mite, which is becoming resistant to the chemical controls the bee industry uses. In this study, we show that robust expression biomarkers of a disease-resistance trait can be used, in an out-bred population, to select for that trait. After three generations of selection, the resulting stock performed as well or better than bees selected using the phenotypic best method for assessing this trait when challenged with disease. This is the first demonstration of an expression marker for selective breeding in any agricultural species, plant or animal. This also represents a completely novel way to select for highly polygenic traits.

Published

2016