The aim of the project has been to demonstrate how the farm animal breeding industry can utilise gene mapping technology to accelerate genetic improvement. Previous theoretical studies had suggested that the use of marker assisted selection could potentially increase the annual improvement for quantitative traits like backfat with about 10% and for more difficult traits such as meat quality and reproduction by as much as 40-60% compared with existing technology. The work has comprised two major tasks: 1. Commercially relevant populations have been screened for segregation at QTLs identified in experimental populations. The aim has been to establish optimal strategies for QTL detection in commercial pig populations and the extent to whi...
The improvement of meat quality and production traits has high priority in the pork industry. Many o...
The Illinois Meat Quality Pedigree (IMQP), a three-generation Berkshire x Duroc resource population,...
Genome scans can be used to identify chromosomal regions and eventually genes (called quantitative t...
Over the past 15 years advances in the porcine genetic linkage map and discovery of useful candidate...
Genetic improvement of carcass quality in pig implies traits measurements on related animals. In suc...
The profitability of using DNA markers linked to quantitative trait loci (QTL) in a pig enterprise i...
Pig domestication started around 10,000 years ago during the Neolithic age, independently in Europe...
Knowing the large difference in daily feed intake (DFI) between Large White (LW) and Piétrain (PI) g...
Background: In previous studies, a major QTL affecting fatness and growth has been mapped to pig chr...
Background - In pig, a number of experiments have been set up to identify QTL and a multitude of chr...
The pig has several advantages for QTL mapping including three-generation pedigrees that can be gene...
The techniques of molecular biology and molecular genetics have rapidly progressed. These methods, c...
A QTL study for carcass composition and meat quality traits was conducted on finisher pigs of a cros...
Abstract Background In pig, a number of experiments have been set up to identify QTL and a multitude...
Improving pork quality is a high priority and a challenging task for the current pig industry. Beca...
The improvement of meat quality and production traits has high priority in the pork industry. Many o...
The Illinois Meat Quality Pedigree (IMQP), a three-generation Berkshire x Duroc resource population,...
Genome scans can be used to identify chromosomal regions and eventually genes (called quantitative t...
Over the past 15 years advances in the porcine genetic linkage map and discovery of useful candidate...
Genetic improvement of carcass quality in pig implies traits measurements on related animals. In suc...
The profitability of using DNA markers linked to quantitative trait loci (QTL) in a pig enterprise i...
Pig domestication started around 10,000 years ago during the Neolithic age, independently in Europe...
Knowing the large difference in daily feed intake (DFI) between Large White (LW) and Piétrain (PI) g...
Background: In previous studies, a major QTL affecting fatness and growth has been mapped to pig chr...
Background - In pig, a number of experiments have been set up to identify QTL and a multitude of chr...
The pig has several advantages for QTL mapping including three-generation pedigrees that can be gene...
The techniques of molecular biology and molecular genetics have rapidly progressed. These methods, c...
A QTL study for carcass composition and meat quality traits was conducted on finisher pigs of a cros...
Abstract Background In pig, a number of experiments have been set up to identify QTL and a multitude...
Improving pork quality is a high priority and a challenging task for the current pig industry. Beca...
The improvement of meat quality and production traits has high priority in the pork industry. Many o...
The Illinois Meat Quality Pedigree (IMQP), a three-generation Berkshire x Duroc resource population,...
Genome scans can be used to identify chromosomal regions and eventually genes (called quantitative t...