Abstract

<i>Prunus mume</i> Sieb. et Zucc., <i>P</i>. <i>armeniaca</i> L., and <i>P</i>. <i>salicina</i> L. are economically important fruit trees in temperate regions. These species are taxonomically perplexing because of shared interspecific morphological traits and variation, which are mainly attributed to hybridization. The chloroplast is cytoplasmically inherited and often used for evolutionary studies. We sequenced the complete chloroplast genomes of <i>P. mume, P. armeniaca</i>, and <i>P. salicina</i> using Illumina sequencing followed by de novo assembly. The three chloroplast genomes exhibit a typical quadripartite structure with conserved genome arrangement, structure, and moderate divergence. The lengths of the genomes are 157,815, 157,797, and 157,916 bp, respectively. The length of the large single-copy region (LSC) region is 86,113, 86,283, and 86,122 bp, and the length of the SSC region is 18,916, 18,734, and 19,028 bp; the IR region is 26,393, 26,390, and 26,383 bp, respectively. Each of the three chloroplast genomes encodes 133 genes, including 94 protein-coding, 31 tRNA, and eight rRNA genes. Differential gene analysis for the three species revealed that <i>trnY-ATA</i> is a unique gene in <i>P. armeniaca</i>; in contrast, the gene <i>trnI-TAT</i> is only present in <i>P. mume</i> and <i>P. salicina</i>, though the position of the gene in these chloroplast genomes differs. Further comparative analysis of the complete chloroplast genome sequences revealed that the ORF genes and the sequences of linked regions <i>rps16</i> and <i>atpA</i>, <i>atpH</i> and <i>atpI</i>, <i>trnc-GCA</i> and <i>psbD</i>, <i>ycf3</i> and <i>atpB</i>, and <i>rpL32</i> and <i>ndhD</i> are significantly different and may be used as molecular markers in taxonomic studies. Phylogenetic evolution analysis of the three species suggests that <i>P. mume</i> has a closer genetic relationship to <i>P. armeniaca</i> than to <i>P. salicina</i>.