Towards a global perspective for Salvia L.: Phylogeny, diversification and floral evolution

Autecology and determination of relationships between nutrients in soil and sage plant (Salvia eremophila Boiss.) in the south of Yazd province

This study aims to investigate the autecology and determine the relationship between the nutritional elements in the soil and the Sage plant (Salvia eremophila Boiss.) in the south of Yazd province. The main habitats were determined, which contained various ecological characteristics. Total potassium (K), total nitrogen (N), total phosphorus (P), total sugar content (TSC), and proline content of the plants were determined. In addition, macro and microelement contents such as total N, extractable K, extractable magnesium (Mg), available P, available iron (Fe), and available manganese (Mn) of the study areas were determined. The highest concentrations of TSC (72.90 mg kg-1 ± 3.87) and TN (0.265 g kg-1 ± 0.021) of the plant, and also the highest extractable Mg (26.60 mg kg-1 ± 1.70) and available Fe (0.44 mg kg-1 ± 0.19), of soil were related to the Qavam Abad habitat. The highest concentrations of total K (17.495 g kg-1 ± 4.91) and total P (1.206 g kg-1 ± 0.257) of plants, and the highest extractable K (356.68 g kg-1 ± 63.53) of soil belonged to the Tang Chenar Station. The highest TN content (6.3 g kg-1 ± 1.21) of soil and the highest proline content (0.015 g kg-1 ± 0.003) of plants was related to the Damgahan habitat. Also, the concentrations of soil available Mn and available P had the highest levels in the Damgahan (0.60 g kg-1 ± 0.34) and Qavam Abad habitats (0.075 g kg-1 ± 30.74), respectively. There was no significant difference between the amount of nutrients and soil elements in the studied stations (p < 0.05). There was a positive and significant correlation between the amount of soil TN and plant TN (Pvalues = 0.001, R2 = 0.87). An inverse and significant correlation was also observed between the amount of soil available P and plant total P (Pvalues = 0.014, R2 = - 0.72). This study highlights the various environmental controls over soil's physicochemical properties, which have significant implications for the management of soil nutrients.

Salviapenghuana (Lamiaceae), a new species from Guizhou, China

Salviapenghuana, a new species from Guizhou Province of southwestern China, is described and illustrated. Morphologically, Salviapenghuana is similar to S.filicifolia, but can be easily distinguished from the latter by ovate-lanceolate bracts, purple corolla, and foot-shaped fused lower arms of connective. In addition, S.penhuana is morphologically similar to S.cavaleriei, but differs by having 3-4-pinnate leave, ovate-lanceolate bracts, puberulent calyx, and longer upper arms of connective. Based on the fibril root, small calyx and corolla, and completely reduced posterior thecae, S.penghuana should be placed in section Sobiso of subg. Glutinaria.

Cytotoxic diterpenoids from Salvia glutinosa and comparison with the tanshinone profile of danshen (Salvia miltiorrhiza)

The roots of Salvia miltiorrhiza are the source of the traditional Chinese medicine danshen and the class of tanshinones, particular quinoid nor-diterpenoids of the abietane type. Of these compounds, cryptotanshinone, dihydrotanshinone I, tanshinone I, and tanshinone IIA, have been extensively studied for their anticancer potential, not only but as well because of their high abundance in S. miltiorrhiza and their thus easy availability. However, also additional Salvia species are known to contain tanshinones, mainly such of the subgenus Glutinaria, of which S. glutinosa is the only species widely occurring in Europe. Using UHPLC-DAD-MS, the tanshinone profile of S. glutinosa roots collected from two different locations was compared to the profile in S. miltiorrhiza roots. In addition, tanshinone IIA and another six diterpenoids from S. glutinosa were investigated for their antiproliferative and cytotoxic potential against MDA-MB-231 and HL-60 cells. Apart from dihydrotanshinone I, which has been previously characterized due to its anticancer properties, we determined danshenol A as a highly antiproliferative and cytotoxic agent, significantly surpassing the effects of dihydrotanshinone I. With regard to the diterpenoid profile, S. miltiorrhiza showed a higher concentration for most of the tanshinones, except for (+)-danshexinkun A, which was present in comparable amounts in both species. Danshenol A, in contrast, was only present in S. glutinosa as were dehydroabietic acid and (+)-pisiferic acid. The results of our study underlines the long traditional use of danshen due to its high amount on tanshinones, but also demonstrates the potential value of investigating closely related species for the discovery of new biologically active lead compounds.

Functional divergence of CYP76AKs shapes the chemodiversity of abietane-type diterpenoids in genus Salvia

The genus Salvia L. (Lamiaceae) comprises myriad distinct medicinal herbs, with terpenoids as one of their major active chemical groups. Abietane-type diterpenoids (ATDs), such as tanshinones and carnosic acids, are specific to Salvia and exhibit taxonomic chemical diversity among lineages. To elucidate how ATD chemical diversity evolved, we carried out large-scale metabolic and phylogenetic analyses of 71 Salvia species, combined with enzyme function, ancestral sequence and chemical trait reconstruction, and comparative genomics experiments. This integrated approach showed that the lineage-wide ATD diversities in Salvia were induced by differences in the oxidation of the terpenoid skeleton at C-20, which was caused by the functional divergence of the cytochrome P450 subfamily CYP76AK. These findings present a unique pattern of chemical diversity in plants that was shaped by the loss of enzyme activity and associated catalytic pathways.