The gene/mutation discovery approaches for inherited retinal diseases (RDs) in the dog model have seen considerable development over the past 25 years. Initial attempts were focused on candidate genes, followed by genome-wide approaches including linkage analysis and DNA-chip-based genome-wide association study. Combined, there are as many as 32 mutations in 27 genes that have been associated with canine retinal diseases to date. More recently, next-generation sequencing has become one of the key methods of choice. With increasing knowledge of the molecular basis of RDs and follow-up surveys in different subpopulations, the conventional understanding of RDs as simple Mendelian traits is being challenged. Modifiers and involvement of multiple genes that alter the disease expression are complicating the prediction of the disease course. In this chapter, advances in the gene/mutation discovery approaches for canine RDs are reviewed, and a multigenic form of canine RD is discussed using a form of canine cone-rod dystrophy as an example.
Keywords: Animal model; Canine; Cone-rod dystrophy; Genome-wide association study; Mapping; Modifier; Multigenic; Next-generation sequencing.