A high-quality genome assembly of Annona squamosa (custard apple) provides functional insights into an emerging fruit crop.

Annona squamosa, also known as custard apple, is an emerging fruit crop with medicinal significance. We constructed a high-quality genome of A. squamosa along with transcriptome data to gain insights into its phylogeny, evolution, and demographic history. The genome has a size of 730.4 Mb with an N50 value of 93.2 Mb assembled into seven pseudochromosomes. The demographic history showed a continuous decline in the effective population size of A. squamosa. Phylogenetic analysis revealed that magnoliids were sister to eudicots. Genome syntenic and Ks distribution analyses confirmed the absence of a recent whole-genome duplication event in the A. squamosa. Gene families related to photosynthesis, oxidative phosphorylation, and plant thermogenesis were found to be highly expanded in the genome. Comparative analysis with other magnoliids revealed the adaptive evolution in the genes of flavonoid biosynthesis pathway, amino sugar, nucleotide sugar and sucrose metabolism, conferring medicinal value, and enhanced hexose sugar accumulation. In addition, we performed genome-wide identification of SWEET genes. Our high-quality genome and evolutionary insights of this emerging fruit crop, thus, serve as a valuable resource for advancing studies in functional genomics, evolutionary biology, and crop improvement.