Novel intron length polymorphic (ILP) markers from starch biosynthesis genes reveal genetic relationships in Indian wheat varieties and related species.

Introns experience lesser selection pressure, thus are liable for higher polymorphism. Intron Length Polymorphic (ILP) markers designed from exon-flanking introns exploits this polymorphic potential and have been proved to be a robust co-dominant marker in eukaryotes. Wheat is among the most consumed cereal crop by majority of the word population. It is a rich source of calories in the form of stored starch. In the current study, starch biosynthesis genes were mined for development of ILP markers and their subsequent utilization for genetic characterization of popular Indian wheat varieties and transferability to wild relatives. Sixty-one markers generated 122 alleles and showed 77-88.5% transferability (mean PIC: 0.36) to the related species. A subset of markers showed clear genetic distinctions (Avg. genetic dissimilarity = 0.42) among Indian wheat varieties, signifying the importance of novel ILPs. 'Kenphad25' showed maximum genetic dissimilarity with 'K 8962' (0.82), while maximum genetic similarity was observed between 'Safed Lerma' and 'RAJ 4037' (0.1). This is the first report of ILP markers in wheat and will be a useful genomic resource for future germplasm conservation and molecular breeding studies.