Haplotype specific analyses in the phased genomes era: the case of apple cv "Golden Delicious"

Apple is one of the major cultivated fruit crops in temperate regions. To better support breeding programs and facilitate the development of improved cultivars, we generated a new haplotype-resolved version of the Golden Delicious genome, one of the major founders of many modern apple lineages. The assembly features the separation of the two haplotypes, with a total size of 647.3 Mb and 649.2 Mb, respectively. The phasing was accurately validated with 10,321 curated SNPs. Telomere-to-telomere continuity was verified by the analysis of telomeric sequence composition at the end of each chromosome. Gene prediction identified a total of 45,116 genes in haplotype 1 and 45,063 genes in haplotype 2. A pangenome analysis employing 6 haplotype resolved genomes identified both common and unique gene families. The availability of a phased genome enabled the assessment of genome-wide allelic specific expression. Our case study, focusing on Md-PG1 (a key regulator of fruit softening), revealed that the allelic form on haplotype 2 (GDH2-10g24673) was the dominant contributor to total gene expression. In addition, the phased genome also showed specific miRNA chromosomal distribution patterns, as well as a distinct methylation profile. Altogether, these genomic resources provide new insights into the allelic regulation of key agronomic traits and represent a valuable tool to accelerate apple breeding.