Enhanced plumbagin production in elicited Plumbago indica hairy root cultures.

Elicitation of Plumbago indica hairy roots with yeast carbohydrate fraction, chitosan, manganese chloride, copper chloride and methyl jasmonate exhibited significant elevation (~1.2 to 2 fold) of plumbagin production in shake flask culture as compared with control. Chitosan and methyl jasmonate elicitation also caused simultaneous plumbagin leaching into culture media. Three days' exposure of chitosan (200 mg l(-1)) and methyl jasmonate (80 µM) together synergized total plumbagin yield to its maximum 11.96 ± 0.76 mg g(-l) DW in shake flask culture. In bioreactor cultivation, a significant raise in fresh root biomass was recorded on day 20 as compared with control shake flask culture. Three days' exposure of chitosan (200 mg l(-1)) and methyl jasmonate (80 µM) with 20 days old bioreactor-culture significantly improved total plumbagin production to 13.16 ± 1.72 mg g(-l) DW with simultaneous plumbagin leaching into bioreactor media.

Encapsulation and regeneration of in vitro derived Zephyranthes grandiflora: an effective way for exchange of germplasm.

An attempt was made to develop a protocol for the preparation of synthetic seeds using in vitro regenerated, genetically identical bulbs of Zephyranthes grandiflora. Encapsulation was standardized with 4% sodium alginate and 1% sucrose for uniform bulb size with high conversion potential. An optimum storage temperature was found to be 4 degrees C. Synthetic seeds were germinated in MS medium supplemented with benzyladenine (2 mg dm(-3)) and rooted in the presence of indole-3-butyric acid (1 mg dm(-3)) in MS medium. Well-rooted plants were transferred to the experimental field with 80% survival after hardening. This study elucidated an efficient technique for exchange of germplasm and ex situ conservation method.

In Vitro propagation of Jasminum officinale L.: a woody ornamental vine yielding aromatic oil from flowers.

The growing demand for flower extracts in perfume trade can primarily be met by increasing flower production and multiplying planting material. The major commercial aromatic flower yielding plants including Jasminum officinale L., a member of the Family Oleaceae have drawn the attention of a large section of the concerned sectors leading to a thrust upon developing advanced propagation technologies for these floral crops, in addition to conventional nature-dependent agro-techniques. This chapter describes concisely and critically, a protocol developed for in vitro propagation of Jasminum officinale by shoot regeneration from existing as well as newly developed adventitious axillary buds via proper phytohormonal stimulation. To start with nodal segments as explants, March-April is the most ideal time of the year when planting material suitable for in vitro multiplication is abundantly available. Prior to inoculation of explants in the culture medium, special care is needed to reduce microbial contamination by spraying on selected spots of the donor plant with anti-microbial agents 24 h prior to collection; treatment with antiseptic solution after final cleaning and surface sterilization by treating explants with mercuric chloride. Inoculated explants are free from brown leaching from cut ends by two consecutive subcultures within 48 h in MS basal medium. Multiplication of shoots, average 4-5 at each node, takes place in MS medium containing 4.0 mg/L BAP, 0.1 mg/L NAA, and 40 g/L sucrose over a period of 8 weeks. For elongation of regenerated shoots, cultures are transferred to MS medium, supplemented with a single growth hormone, kinetin at 2.0 mg/L. Emergence and elongation of roots from shoot base is facilitated by placing on the notch of a filter paper bridge. The hardened in vitro propagated plants are able to grow normally in soil like other conventionally propagated Jasminum officinale.

Effect of different strains of Agrobacterium rhizogenes and nature of explants on Plumbago indica hairy root culture with special emphasis on root biomass and plumbagin production.

The aim of the present study was to determine the effect of three strains of Agrobacterium rhizogenes (ATCC 15834, A4 and LBA 9402) and the nature of explants (leaf and stem) on hairy root induction, growth and plumbagin production in Plumbago indica. The first appearance of hairy roots, the transformation frequency, dry root biomass and plumbagin accumulation were found to be maximum in hairy roots induced in leaf explants infected with A. rhizogenes ATCC 15834 as compared with the other two bacterial strains. The hairy roots generated from stem explants infected with all three strains were not found to be productive in terms of the selected parameters. Finally, the insertion of the rolB gene of A. rhizogenes ATCC 15834 in hairy roots of P. indica derived from leaf explants was confirmed by PCR analysis.

Cryopreservation of in vitro grown nodal segments of Rauvolfia serpentina by PVS2 vitrification.

This paper describes the cryopreservation by PVS2 vitrification of Rauvolfia serpentina (L.) Benth ex kurz, an important tropical medicinal plant. The effects of type and size of explants, sucrose preculture (duration and concentration) and vitrification treatment were tested. Preliminary experiments with PVS1, 2 and 3 produced shoot growth only for PVS2. When optimizing the PVS2 vitrification of nodal segments, those of 0.31 - 0.39 cm in size were better than other nodal sizes and or apices. Sucrose preculture had a positive role in survival and subsequent regrowth of the cryopreserved explants. Seven days on 0.5 M sucrose solution significantly improved the viability of nodal segments. PVS2 incubation for 45 minutes combined with a 7-day preculture gave the optimum result of 66 percent. Plantlets derived after cryopreservation resumed growth and regenerated normally.