Whole‐genome sequencing of a worldwide collection of sugarcane cultivars (Saccharum spp.) reveals the genetic basis of cultivar improvement

SUMMARY Sugarcane is the main source of sugar worldwide, and 80% of the sucrose production comes from sugarcane. However, the genetic differentiation and basis of agronomic traits remain obscure. Here, we sequenced the whole‐genome of 219 elite worldwide sugarcane cultivar accessions. A total of approximately 6 million high‐quality genome‐wide single nucleotide polymorphisms (SNPs) were detected. A genome‐wide association study identified a total of 2198 SNPs that were significantly associated with sucrose content, stalk number, plant height, stalk diameter, cane yield, and sugar yield. We observed homozygous tendency of favor alleles of these loci, and over 80% of cultivar accessions carried the favor alleles of the SNPs or haplotypes associated with sucrose content. Gene introgression analysis showed that the number of chromosome segments from Saccharum spontaneum decreased with the breeding time of cultivars, while those from S. officinarum increased in recent cultivars. A series of selection signatures were identified in sugarcane improvement procession, of which 104 were simultaneously associated with agronomic traits and 45 of them were mainly associated with sucrose content. We further proposed that as per sugarcane transgenic experiments, ShN/AINV3.1 plays a positive role in increasing stalk number, plant height, and stalk diameter. These findings provide comprehensive resources for understanding the genetic basis of agronomic traits and will be beneficial to germplasm innovation, screening molecular markers, and future sugarcane cultivar improvement. Significance Statement By whole‐genome sequencing of 219 worldwide sugarcane cultivars, our study furthers previous understanding of genetic basis of six important agronomic traits and selection signatures between cultivars and wild species, and during sugarcane cultivar improvement. Furthermore, sucrose content‐related loci were relatively fully selected and utilized in modern sugarcane cultivars, then cloning and validation of ShN/AINV3.1 would favor more increase in cane yield.