Abstract
BackgroundTaxol is an efficient anticancer drug accumulated in Taxus species. Pseudotaxus chienii is an important member of Taxaceae, however, the level of six taxoids in P. chienii is largely unknown.ResultsHigh accumulation of 10-DAB, taxol, and 7-E-PTX suggested that P. chienii is a good taxol-yielding species for large-scale cultivation. By the omics approaches, a total of 3,387 metabolites and 61,146 unigenes were detected and annotated. Compared with a representative Taxus tree (Taxus yunnanensis), most of the differentially accumulated metabolites and differential expressed genes were assigned into 10 primary and secondary metabolism pathways. Comparative analyses revealed the variations in the precursors and intermediate products of taxol biosynthesis between P. chienii and T. yunnanensis. Taxusin-like metabolites highly accumulated in P. chienii, suggesting a wider value of P. chienii in pharmaceutical industry.ConclusionsIn our study, the occurrence of taxoids in P. chienii was determined. The differential expression of key genes involved in the taxol biosynthesis pathway is the major cause of the differential accumulation of taxoids. Moreover, identification of a number of differentially expressed transcription factors provided more candidate regulators of taxol biosynthesis. Our study may help to reveal the differences between Pseudotaxus and Taxus trees, and promote resource utilization of the endangered and rarely studied P. chienii.
Highlights
Taxol is an efficient anticancer drug accumulated in Taxus species
Quantitative analysis determined the occurrence of taxol in P. chienii and the variations in taxoids between P. chienii and T. yunnanensis To date, the occurrence of taxol in P. chienii is unknown
A target LC-MS approach was applied to check the occurrence of taxol and other taxoids, such as 7-epi 10desacetyl paclitaxel (7-E-DAP), 10-deacetylbaccatin 10deacetylbaccatin III (III) (10-DAB), baccatin III (BAC), DAP, and 7-E-PTX, in P. chienii
Summary
Taxol is an efficient anticancer drug accumulated in Taxus species. Taxol (generic name paclitaxel) and its related products have been widely adopted and approved for the effective treatments of various types of cancers including breast, lung, non-small cell lung cancers [1]. The barks and twigs of Taxaceae plants, Taxus trees in particular, are the major source of natural product taxol and its derivatives [2, 3]. Taxaceae is the smallest family of conifers, consisting of six genera, including two former genera of Cephalotaxaceae (Amentotaxus and Cephalotaxus) and four so called ‘core’ genera of Taxaceae (Austrotaxus, Pseudotaxus, Taxus and Torreya) [6, 7]. Owing to the economic value of taxol, the study on Taxaceae trees has drawn numerous attentions in the past years [8]
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