Micropropagation, Acclimatization, and Greenhouse Culture of Veratrum californicum.

Micropropagation and production of Veratrum californicum is most successful when using a premixed Murishage and Skoog basal medium with vitamins and a 5-week subculture cycle at 16 °C for multiplication. These culture conditions provide the best percent survival after acclimatization in the greenhouse. However, clone response to temperature and light quality within culture conditions varies. Micropropagated plants have mass and morphology similar to 2- or 3-year-old seedlings. Acclimatized plantlets can then be grown in the greenhouse using sub-irrigation (ebb and flood) to maintain substrate volumetric water content > 44 %. Growth cycle in the greenhouse must be about 100 days, followed by dormancy for 5 months at 5 °C.

Increased maleness at flowering stage and femaleness at fruiting stage with size in an andromonoecious perennial, Veratrum nigrum.

Theory predicts that cosexual plants should adjust their resource investment in male and female functions according to their size if female and male fitness are differentially affected by size. However, few empirical studies have been carried out at both the flowering and fruiting stages to adequately address size-dependent sex allocation in cosexual plants. In this paper, we investigated resource investment between female and male reproduction, and their size-dependence in a perennial andromonoecious herb, Veratrum nigrum L. We sampled 192 flowering plants, estimated their standardized phenotypic gender, and assessed the resource investment in male and female functions in terms of absolute dry biomass. At the flowering stage, male investment increased with plant size more rapidly than female investment, and the standardized phenotypic femaleness (ranging from 0.267 to 0.776) was negatively correlated with plant size. By contrast, female biased allocation was found at the fruiting stage, although both flower biomass and fruit biomass were positively correlated with plant size. We propose that increased maleness with plant size at the flowering stage may represent an adaptive strategy for andromonoecious plants, because male flowers promote both male and female fertility by increasing pollinator attraction without aggravating pollen discounting.

Development of in vitro techniques for the important medicinal plant Veratrum californicum.

VERATRUM CALIFORNICUM (Liliaceae) is an important monocotyledonous medicinal plant which is the only source of the anticancer compound cyclopamine. An IN VITRO culture system for somatic embryogenesis and green plant regeneration of VERATRUM CALIFORNICUM was developed. Embryogenic calli were induced from mature embryos on induction medium. Five basal media supplemented with different growth regulators were evaluated for embryogenic callus induction, modified MS medium with 4 mg/L picloram showing the best result for embryogenic callus production. Fine suspension cell lines were established by employing friable embryogenic calli as starting material and AA medium and L2 medium as culture media. The suspension cell lines cultured in AA medium with 4 mg/L NAA appeared to be fresh yellow and fast growing. The suspension cells were cryopreserved successfully and recovered at a high rate. Green plants were regenerated from embryogenic calli maintained on solid medium with 73 % regeneration ability (green plants/100 calli) in 27-month-old culture. The IN VITRO plantlets contained the steroid alkaloids cyclopamine and veratramine. This IN VITRO system will form the basis for metabolic engineering of VERATRUM cells in the context of biotechnological production of pharmaceutically important secondary metabolites. DMSO:dimethyl sulfoxide fw:fresh weight NAA:naphthaleneacetic acid 2,4-D:2,4-dichlorophenoxyacetic acid picloram:4-amino-3,5,6-trichloro-2-pyridinecarboxylic acid dicamba:3,6-dichloro-2-methoxybenzoic acid.

The importance of nitrogen and carbohydrate storage for plant growth of the alpine herb Veratrum album.

We examined whether nitrogen (N) and carbohydrates reserves allow Veratrum album, an alpine forb, to start spring growth earlier than the neighbouring vegetation and to survive unpredictable disturbances resulting in loss of above-ground biomass. * Seasonal dynamics of plant reserves, soil N availability and vegetation growth were monitored. Veratrum album shoots were experimentally removed when carbohydrate reserves were at a seasonal minimum and the subsequent changes in biomass and reserves were compared with those in control plants. Reserves did not give V. album a competitive advantage in spring; however, they did function as a buffer against the impact of calamities. Shoot removal resulted in significantly lower root dry weight, higher N concentration in rhizome and roots and lower starch concentrations in rhizome and roots but no plant mortality was observed. Veratrum album used stored N reserves to supplement N uptake and establish high leaf N concentrations, which facilitated a rapid refilling of depleted carbohydrate reserves. The primary function of N reserves appears to be to allow V. album to complete the growing cycle in as short a period as possible, thus minimizing exposure to above-ground risks.