Fine mapping of the locus controlling self-incompatibility in European hazelnut

Abstract

Incompatibility in European hazelnut (Corylus avellana L.) is sporophytic and under the control of a single locus on linkage group 5 between markers G05-510 and AU02-1350. In this study, two rounds of marker development and a population of 192 seedlings with known S-alleles that showed recombination between the flanking markers were used for fine mapping. Using the sequences of random amplified polymorphic DNA and simple sequence repeat (SSR) markers and bacterial artificial chromosome end sequences, 36 contigs from the genome sequence of “Jefferson” hazelnut were identified for pursuit. Di-nucleotide SSR markers in those contigs were developed, characterized, and mapped. This reduced the size to a region of 500 kb that contained the S-locus and 50 predicted genes, in which single-nucleotide polymorphism and additional SSR markers were developed. When the new markers were used in fine mapping, they fully exploited all recombination in the fine mapping population and reduced the region to 193.5 kb containing 18 genes. This 193.5-kb region most likely contains the S1 haplotype. A second region, 2 Mbp away from the first in the “Jefferson” genome (V3), is predicted to represent the S3 haplotype based on SSR marker allele sizes and the ratio of parental reads that align to them. Although they appear side-by-side in the “Jefferson” genome (V3), the mapped markers appear in both sequences in the same order. Gene annotations in the S1 and S3 haplotypes are highly similar and include five probable leucine-rich repeat receptor-like protein kinases with homology to Arabidopsis thaliana genes At1g35710 and three probable receptor-like serine/threonine protein kinases with homology to At5g15080 (PIX7).