Characteristics of the complete chloroplast genome sequences of Stylidium debile and Stylidium petiolare (Stylidiaceae).

ABSTRACT

We report complete chloroplast genome (plastome) sequences of Stylidium debile (150,105 bp) and Stylidium petiolare (150,998 bp). Both plastomes had the typical quadripartite structure, with large single-copy (LSC) and small single-copy (SSC) regions separated by two inverted repeat (IR) regions. Both plastomes have lost the rps19 and ycf15 CDS genes, and had infA-like, rps22-like, and rps7-like pseudogenes. Moreover, IR regions were expanded by having trnH GUG tRNA and the rps22-like pseudogene. Plastome phylogenomic analyses showed that the two Stylidium species formed a monophyletic clade (BS = 100), sister to the Argophyllaceae (BS = 86/83). Sequence differences between the two Stylidium plastomes were 5011 sites, including 2166 variable sites and 2845 indels, with the petA-psbJ spacer the most variable region, followed by the trnK UUU-matK intron and trnG UUG-rps16 spacer.