Mineyuki Yokoyama

Growth pattern and ginsenoside production of Agrobacterium-transformed Panax ginseng roots

Panax ginseng roots transformed by Agrobacterium rhizogenes grew rapidly in a hormone-free medium. The transformed roots showed biphasic growth: rapid during the first two weeks and slower thereafter. Sucrose in the medium was almost all converted to glucose and fructose during the first two weeks, and the root growth slowed down after the depletion of sucrose in the medium. Periodic changes of the medium maintained the high growth rate, and the dry weight increased by 31 times in 32 days, which is the highest growth rate so far reported for cultured tissues of ginseng. The medium exchange also increased the ginsenoside content in the roots. Effective scale-up of the root culture was achieved in a turbine-blade type bioreactor.

High-level production of arbutin from hydroquinone in suspension cultures of Catharanthus roseus plant cells

SummaryPlant cell suspensions of Catharanthus roseus efficiently converted exogenously supplied hydroquinone (HQ) into arbutin. Arbutin productivity of the cells was strongly influenced by the growth stage of the cultivated cells and by the manner of the addition of HQ. We have developed two methods: (i) cultivating suitable cells for producing arbutin at high density; (ii) efficiently adding toxic HQ to the cells. The yield of arbutin could be increased up to 9.2 g/l (45% of cell dry weight), which is the highest yield in the field of plant biotechnology. Repeated examinations and scaling up to a 20-l jar fermentor suggested that C. roseus cells stably produce arbutin in large amounts under the established conditions.

Enhanced production of saikosaponins by root culture of Bupleurum falcatum L. using two-step control of sugar concentration

Abstract The effect of sugar concentration on the production of saikosaponins was investigated using a root culture of Bupleurum falcatum L. The formation of the lateral roots, which were induced in the presence of indolebutyric acid, was suppressed as the sugar concentration was increased. After the lateral root tips had emerged from the inoculated roots, however, high concentrations of sugar showed no inhibitory effect on the development of the lateral roots. A two-step culture, with 1% sucrose at the beginning of the culture and addition of 6% sucrose at 14 days, when lateral roots have emerged, greatly improved the productivity, affording 0.8 g/l of saikosaponin-a and -d.

In vitro propagation of Iris pallida

Plantlets were regenerated from callus of Iris pallida, an important perfume plant. Only the leaf base attached to the rhizome had the ability to generate yellow-colored callus on LS medium supplemented with 1 mg/l 2,4-D and 0.1 mg/l KT in the dark. Yellow calli grew with partial differentiation into white tissue, probably embryogenic, during subculture on the same medium with a 16-h photoperiod. Only yellow-colored calli with the white tissue could differentiate into plantlets after transfer to kinetin- or gibberellin- supplemented LS medium. Regenerated plantlets which grew on the medium without growth regulators were transferred to the soil. After 2 years of cultivation in soil, the regenerated plants flowered and formed rhizomes. The components of the essential oil in the rhizome of regenerated plants were essentially the same as those in natural plants.