The chloroplast genome sequence of the green macroalga Caulerpa okamurae (Ulvophyceae, Chlorophyta): Its structural features, organization and phylogenetic analysis

Abstract

To clarify evolutionary characteristics, phylogenetic relationships as well as species identification of C. okamurae, we determined the cpDNA sequence of Caulerpa okamurae using de novo sequencing in the present study. The cpDNA of C. okamurae was 148,274 bp in length, and it lacked the inverted repeat commonly found in vascular green plants. The cpDNA of C. okamurae was highly compact with a gene density of 71.7%. Moreover, it was an AT-rich genome (65.5%) consisting 76 protein-coding genes (PCGs), 27 transfer RNA (tRNA) genes, three ribosomal RNA (rRNA) genes, 32 putative open reading frames (ORFs) and six introns. Additionally, the six introns were annotated in six genes as follows: psbA, rpoB, ftsH, psbD, atpF and cysA. The overall base composition of its cpDNA was 65.46% for AT. A total of 56 genes were encoded on the light strand, while all the other 50 chloroplast genes were encoded on the heavy strand. All of the PCGs had ATG as their start codon and employed TAA, TGA or TAG as their termination codon. Phylogenetic analyses suggested that the complete cpDNA sequence of C. okamurae fell in the Chlorophyta, Ulvophyceae, Bryopsidales, and Caulerpaceae and more resembled the cpDNAs of C. racemosa, C. cliftonii voucher and Tydemania expeditionis. Taken together, our data offered useful information for the studies of C.okamurae on evolutionary characteristics, phylogenetic relationships as well as species identification.