*Article* **The Complete Chloroplast Genomes of** *Punica granatum* **and a Comparison with Other Species in Lythraceae**

**Ming Yan 1,2, Xueqing Zhao 1,2, Jianqing Zhou 1,2, Yan Huo 1,3, Yu Ding 1,2 and Zhaohe Yuan 1,2,\***


Received: 7 April 2019; Accepted: 4 June 2019; Published: 13 June 2019

**Abstract:** Pomegranates (*Punica granatum* L.) are one of the most popular fruit trees cultivated in arid and semi-arid tropics and subtropics. In this study, we determined and characterized three complete chloroplast (cp) genomes of *P. granatum* cultivars with different phenotypes using the genome skimming approach. The complete cp genomes of three pomegranate cultivars displayed the typical quadripartite structure of angiosperms, and their length ranged from 156,638 to 156,639 bp. They encoded 113 unique genes and 17 are duplicated in the inverted regions. We analyzed the sequence diversity of pomegranate cp genomes coupled with two previous reports. The results showed that the sequence diversity is extremely low and no informative sites were detected, which suggests that cp genome sequences may be not be suitable for investigating the genetic diversity of pomegranate genotypes. Further, we analyzed the codon usage pattern and identified the potential RNA editing sites. A comparative cp genome analysis with other species within Lythraceae revealed that the gene content and organization are highly conserved. Based on a site-specific model, 11 genes with positively selected sites were detected, and most of them were photosynthesis-related genes and genetic system-related genes. Together with previously released cp genomes of the order Myrtales, we determined the taxonomic position of *P. granatum* based on the complete chloroplast genomes. Phylogenetic analysis suggested that *P. granatum* form a single clade with other species from Lythraceae with a high support value. The complete cp genomes provides valuable information for understanding the phylogenetic position of *P. gramatum* in the order Myrtales.

**Keywords:** pomegranate; chloroplast genome; sequence diversity; site-specific selection; phylogeny
