Abstract
BackgroundIn South-east Asia, Dipterocarpoideae is predominant in most mature forest communities, comprising around 20% of all trees. As large quantity and high quality wood are produced in many species, Dipterocarpoideae plants are the most important and valuable source in the timber market. The d-borneol is one of the essential oil components from Dipterocarpoideae (for example, Dryobalanops aromatica or Dipterocarpus turbinatus) and it is also an important traditional Chinese medicine (TCM) formulation known as “Bingpian” in Chinese, with antibacterial, analgesic and anti-inflammatory effects and can enhance anticancer efficiency.MethodsIn this study, we analyzed 20 chloroplast (cp) genomes characteristics of Dipterocarpoideae, including eleven newly reported genomes and nine cp genomes previously published elsewhere, then we explored the chloroplast genomic features, inverted repeats contraction and expansion, codon usage, amino acid frequency, the repeat sequences and selective pressure analyses. At last, we constructed phylogenetic relationships of Dipterocarpoideae and found the potential barcoding loci.ResultsThe cp genome of this subfamily has a typical quadripartite structure and maintains a high degree of consistency among species. There were slightly more tandem repeats in cp genomes of Dipterocarpus and Vatica, and the psbH gene was subjected to positive selection in the common ancestor of all the 20 species of Dipterocarpoideae compared with three outgroups. Phylogenetic tree showed that genus Shorea was not a monophyletic group, some Shorea species and genus Parashorea are placed in one clade. In addition, the rpoC2 gene can be used as a potential marker to achieve accurate and rapid species identification in subfamily Dipterocarpoideae.ConclusionsDipterocarpoideae had similar cp genomic features and psbM, rbcL, psbH may function in the growth of Dipterocarpoideae. Phylogenetic analysis suggested new taxon treatment is needed for this subfamily indentification. In addition, rpoC2 is potential to be a barcoding gene to TCM distinguish.
Highlights
In South-east Asia, Dipterocarpoideae is predominant in most mature forest communities, comprising around 20% of all trees
As large quantity and high quality wood are produced in many species of Dipterocarpoideae, they are the most important and valuable source in the timber market [7, 8]
Dipterocapoideae is important to forest ecology, conservation and medicine, little is known about the genetics of those species
Summary
In South-east Asia, Dipterocarpoideae is predominant in most mature forest communities, comprising around 20% of all trees. As large quantity and high quality wood are produced in many species, Dipterocarpoideae plants are the most important and valuable source in the timber market. The d-borneol is one of the essential oil components from Dipterocarpoideae (for example, Dryobalanops aromatica or Dipterocarpus turbinatus) and it is an important traditional Chinese medicine (TCM) formulation known as “Bingpian” in Chinese, with antibacterial, analgesic and anti-inflammatory effects and can enhance anticancer efficiency. In South-east Asia, the dominance of Dipterocarpoideae is evident in most mature forest communities, comprising around 20% of all trees [4, 5] Many members of this subfamily are typically 40-70 m tall, with some plants reaching as high as 85 m [6]. We performed a comprehensive evolutionary analysis of the cp genomes of 20 species from Dipterocapoideae and identified barcoding loci that could be used for species identification
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