The complete plastomes of red fleshed pitaya (Selenicereus monacanthus) and three related Selenicereus species: insights into gene losses, inverted repeat expansions and phylogenomic implications

Selenicereus is a genus of perennial shrub from the family Cactaceae, and some of them play an important role in the food industry, pharmaceuticals, cosmetics and medicine. To date, there are few reports on Selenicereus plastomes, which limits our understanding of this genus. Here, we have reported the complete plastomes of four Selenicereus species ( S. monacanthus , S. annthonyanus , S. grandifloras, and S. validus) and carried out a comprehensive comparative analysis. All four Selenicereus plastomes have a typical quartile structure. The plastome size ranged from 133,146 to 134,450 bp, and contained 104 unique genes, including 30 tRNA genes, 4 rRNA genes and 70 protein-coding genes. Comparative analysis showed that there were massive losses of ndh genes in Selenicereus . Besides, we observed the inverted repeat regions had undergone a dramatic expansion and formed a previously unreported small single copy/inverted repeat border in the intron region of the atp F gene. Furthermore, we identified 6 hypervariable regions ( trn F-GAA- rbc L, ycf 1, acc D, clp P- trn S-GCU, clp P- trn T-CGU and rpl 22- rps 19) that could be used as potential DNA barcodes for the identification of Selenicereus species. Our study enriches the plastome in the family Cactaceae, and provides the basis for the reconstruction of phylogenetic relationships.