Comparative Genomic and Phylogenetic Analysis of Chloroplasts in Mac.cv. Cocktail.

Mac. cv. Cocktail is globally valued for its abundant nutrients and bioactive compounds, particularly in tropical and subtropical regions. A novel albino phenotype mutant of Mac. cv. Cocktail (designated WT) was identified in Quzhou and subsequently named Mac. cv. Cocktail mosaic mutant (MT). To distinguish Mac. cv. Cocktail from conventional grapefruit cultivars and to elucidate genomic differences between WT and MT, this study conducted a comprehensive comparison of their chloroplast genomes with those of previously reported species. The complete chloroplast genomes of WT and MT were assembled through Illumina PE150 sequencing, enabling detailed comparative genomic and evolutionary studies. The results revealed that both WT and MT chloroplast genomes exhibit a conserved quadripartite structure. Each genome measures 160,186 base pairs in length, with a uniform GC content of 38.5%. Annotation revealed 138 genes (91 protein-coding, 10 rRNA, 37 tRNA), 82 repeats, and A/U-biased codons. Genome boundaries and genome comparison showed WT and MT were identical but divergent from other . The 52 conserved protein-coding genes showed comparable selection pressures in both WT and MT. Phylogenetically, WT and MT are closely related and are distinguished from all of the traditional grapefruits. The albino phenotype of MT is unrelated to chloroplast variations. Chloroplast genomics supports cv. Cocktail's differentiation from conventional grapefruits. This study expands the chloroplast genomic resources for and establishes a theoretical framework for future research on cv. Cocktail and related varieties.