show Abstracthide AbstractThe study aimed to sequence and assemble the high-resolution genome of Fusarium proliferatum (Fp) DSM106835, the fungal pathogen responsible for sudden decline syndrome (SDS) in date palms in the United Arab Emirates (UAE). By generating a high-quality reference genome, the researchers sought to understand the molecular mechanisms of plant-pathogen interactions and identify genes and metabolites associated with pathogenicity. The study also aimed to elucidate the genetic factors responsible for resistance to SDS. This research is highly relevant as SDS has been causing significant economic losses in the date palm industry in the UAE and other Middle Eastern countries. The lack of molecular information about F. proliferatum and SDS has hindered the development of effective genetic control strategies. By shedding light on the genome of Fp DSM106835 and identifying virulence-related genes unique to this strain, the study provides valuable insights that can contribute to the development of molecular solutions for SDS management, such as RNAi or CRISPR Cas-9 gene editing. Ultimately, this research has practical implications for improving date palm cultivation and safeguarding the economic viability of the date palm industry in the UAE and beyond.