A chromosome-level genome assembly for Chinese plum ‘Wushancuili' reveals the molecular basis of its fruit color and susceptibility to rain-cracking

Chinese plum(Prunus salicina Lindl.) originates from China and makes a large contribution to the global production of plums. The P. salicina‘Wushancuili’ has a green coloration and high fruit quality and is economically important in eliminating poverty and protecting ecology in the Yangtze River Three Gorges Reservoir. However, rain-induced cracking(rain-cracking, literally skin cracking caused by rain) is a limitation to‘Wushancuili’ fruit production and causes severe losses. This study reported a high-quality ‘Wushancuili’ genome assembly consisting of a 302.17-Mb sequence with eight pseudo-chromosomes and a contig N50 of 23.59 Mb through the combination of Illumina sequencing, Pacific Biosciences HiFi Ⅲ sequencing, and high-throughput chromosome conformation capture technology. A total of 25 109 protein-coding genes are predicted and 54.17% of the genome is composed of repetitive sequences. ‘Wushancuili’ underwent a remarkable orthoselection during evolution. Gene identification revealed that loss-of-function in four core MYB10 genes results in the anthocyanin deficiency and absence of red color, revealing the green coloration due to the residual high chlorophyll in fruit skin. Besides, the occurrence of cracking is assumed to be closely associated with cell wall modification and frequently rain-induced pathogen enrichment through transcriptomic analysis. The loss of MYB10 genes might render fruit more susceptible to pathogen-mediated cracking by weakening the epidermal strength and reactive oxygen species(ROS) scavenging. Our findings provided fundamental knowledge regarding fruit coloration and rain-cracking and will facilitate genetic improvement and cultivation management in Chinese plums.