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Utilizing DNA testing in identifying multiple gene traits Prof Norman Maiwashe1,2 (PhD, Pri Sci Nat) 1ARC-Animal Production Institute Animal Breeding and Genetics Private Bag X2, Irene, 0062 2 Dept. of Animal, Wildlife and Grassland Sciences University of the Free State Bloemfontein, 9300 Stud Game Industry Workshop – 15 March 2013 – Bela-Bela Off with a disclaimer • I am a livestock geneticist and therefore do not claim any expertise about game • BUT, I think we can compare notes • Genetics is genetics anyway The purpose of presentation • To highlight the importance of phenotypic and DNA data as raw materials for application of biotechnology in genetic improvement programmes Presentation Outline 1. Genetics of complex traits 2. Genetics versus environment 3. Horn length: A Soay Sheep example 4. Using DNA in selection for complex traits 5. Concluding Remarks What are complex traits? These are traits or characteristics influenced by: multiple genes and often by the environment P=G+E Distinguishing genetic from environmental effects is therefore difficult Improvement of these traits through selection is a challenge A good phenotype does not necessarily mean good genetics and vice versa Genetics versus Environment Heritability provides an indication of the proportion of the total variation that is due to genetics Example Trait: horn length Has a heritability of 33% in Soay Sheep Thus, environment account for 67% of the variation in horn length It can be concluded that horn length is under genetic control Question? How many genes are involved? Using DNA to find genes or markers Genetic markers Part of DNA that does not affect the trait Widespread in the genome Easy to stumble on a genetic marker than a gene Large numbers of genetic markers (SNPs) have been discovered recently Since some of these markers are in close proximity to genes, markers can be used as proxies (indicators) for genes We have been quite successful in finding genetic markers but not the genes themselves Genetic markers for horn length • Soay sheep: – Genetic marker or region in DNA associated with horn length found in Chromosome 1 (Johnston et al., 2010) – Differences in this piece of DNA explains almost all the genetic variation (additive ) in horn length • What does this mean? – Genetic markers can be used to select for horn length Finding genetic markers and using them • What is required? – Discovery population of animals • Phenotypic data (measurements) • Genotypic data on genetic markers (DNA) – Validation population • The associations between phenotypes and genotypes should be validated in independent populations (validation) • Once the genetic markers are identified and validated genetic tests are commercialised How does it work in practice? 1. Collected biological sample – Hair, blood, etc. 2. Send the sample to the laboratory 3. DNA extraction and sample analyses 4. Report on the genetic status sent back to farm 5. Information used for selection What should the game industry do to benefit from DNA technology? • Set-up a programme for: – Data collection on traits of economic importance – Collection of biological samples • Invest in R & D – In genetics underlying expression of phenotypes – In biotechnology Summary • Our knowledge of genetics underlying important traits in game species is at its infancy • The game industry is well-positioned to provide leadership in R & D in game species – Investment in R & D would ensure long-term sustainability of the game industry • The ARC is committed to positively contribute to R & D efforts for the benefit of the game industry Thanks For You Attention