Flavanone glucosides in callus and phloem of Prunus avium: Identification and stimulation of their synthesis

The flavanone glucosides dihydrowogonin-7-glucoside, eriodictyol-7-giucoside and prunin (naringenin-7-glucoside) were isolated, identified and quantitatively determined in callus cultures and phloem of Prunus avium L. cvs. Sam and Schneiders. These substances were isolated from callus tissue, where they were most abundant. The identification included TLC, HPLC and spectrophotometry in conjunction with hydroxylation and benzoylation. Elevation of sucrose concentrations in the media from 1 to 4% (w/w) resulted in a 3- to 4-fold increase in prunin. A similar response, although much less pronounced, was observed for eriodictyol-7-glucoside, while dihydrowogonin-7-glucoside was not enhanced under these conditions. Addition of benzyladenine to media of tissue cultures also caused an increase in prunin and eriodictyol-7-glucoside levels. Both of these flavanones also increased in phloem above and below a constriction of Prunus stems. Administration of benzyladenine into Prunus stems resulted in a 4-fold increase of prunin in the phloem.     

The effect of light and 2,4-D on anthocyanin production in Oxalis reclinata callus

In vitro cultures of O. reclinata accumulate red anthocyanin pigments. Two callus lines were established from O. reclinata, one red and the other non-pigmented. The red callus accumulated cyanidin-3-glucoside as a major pigment. Light irradiation induced anthocyanin synthesis in white callus, resulting in a heterogenous red callus line being formed. The incubation of red and white callus cultures in the dark or at low-light resulted in the repression of red pigment accumulation. The application of 2,4-D (1.0 mg l^-1) inhibited pigment production in the white callus and decreased anthocyanin accumulation in the red callus. The polypeptide composition of the red and white callus lines from O. reclinata were compared using two-dimensional electrophoresis. The red callus had a larger subset of neutral and acidic polypeptides.     

The biological activity of cytokinin derivatives in the soybean callus bioassay

The effect of 28 natural and synthetic cytokinins, including cytokinin nucleotides, the growth of soybean cotyledonary callus was investigated. Generally the nucleosides and nucleotides gave a slightly better response than their respective free bases. The differences in response were, however, not significant and there is a distinct possibility that rapid interconversions between these three types of cytokinin occur within the tissue. The O-glucosides of Z and ZR were the most active. Glucosylation in the 3, 7 and 9 positions reduced activity. In the case of BA-derivatives the order of activity of the N-glucosides was 3G > 9G > 7G. Since iso-pentenyl derivatives had little activity they may be very difficult to detect using the soybean callus bioassay.Abbreviations Z zeatin - DHZ dihydrozeatin - IP iso-pentenyladenine - BA benzyladenine - K Kinetin - R riboside - MP monophosphate - OG 0-glucoside - 3G 3-glucoside - 7G 7-glucoside - 9G 9-glucoside - GC-MS gas chromatography—mass spectrometry     

SOMATIC EMBRYOGENESIS AND PLANT REGENERATION IN TISSUE CULTURES OF PANICUM MAXIMUM JACQ.

Callus tissue cultures were initiated from immature embryos, mature embryos and young inflorescences of Guinea grass (Panicum maximum Jacq.) on Murashige and Skoog's (MS) medium supplemented with 2.5–10 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D). Calluses were transferred onto the same nutrient medium with 0.2 mg/l 2,4-D, or without 2,4-D. In callus cultures derived from immature embryos and young inflorescence segments, plantlets were produced via somatic embryogenesis after 3–5 wk. Young plants were successfully transplanted to pots and grown in the greenhouse. Plant development in callus obtained from mature embryos took place through the organization of shoot meristems. Regenerated plants were shown to have the normal tetraploid chromosome number of 2n = 4x = 32.     

Cytokinin Differences in In Vitro Cultures and Inflorescences from Normal and Mantled Oil Palm (Elaeis guineensis Jacq.)

The mantled abnormality phenotype of the oil palm affects fruit development and thus jeopardizes oil yield. Cytokinins have been implicated in the development of the mantled phenotype. Endogenous cytokinin levels in the normal and mantled phenotypes were compared to determine whether levels of specific cytokinins are associated with mantling. Endogenous cytokinins were identified and quantified in in vitro cultures and inflorescences from normal and mantled oil palms. Twenty-two isoprenoid cytokinins, comprising the zeatin, dihydrozeatin, and isopentenyladenine types, were quantified. Total cytokinin levels, particularly of trans-zeatin and isopentenyladenine types, increased during the in vitro culture process, with the highest levels detected at the proliferating polyembryoid stages. The cytokinins were present mainly in their inactive 9-glucoside forms during in vitro culture. On the other hand, the predominant trans-zeatin cytokinins in inflorescences were present mainly in their ribotide forms, suggesting a metabolic pool of cytokinins for conversion to biologically active free bases or ribosides. Levels of specific cytokinins were significantly different in tissues at different stages. Mantled developed inflorescences contained higher levels of isopentenyladenine 9-glucoside compared with normal inflorescences. Mantled-derived callus tissues had higher isopentenyladenine levels but significantly lower levels of trans-zeatin 9-glucoside, dihydrozeatin riboside, and dihydrozeatin riboside 5′-monophosphate cytokinins compared with normal-derived callus. It would be of considerable interest to verify these specific cytokinin differences in more callus cultures and clones.     

Shoot organogenesis and plantlet regeneration from hypocotyl-derived cell suspensions of a tree legume, Dalbergia sissoo Roxb

Summary A complete and efficient protocol is presented for plant regeneration from cell-suspension cultures of Dalbergia sissoo Roxb., an economically important leguminous tree. Factors influencing callus initiation, establishment of cell-suspension culture, callus formation from embredded microcolonies, and shoot organogenesis from suspension-derived callus were identified. Of the two different auxins tested, callus induction was better on a medium containing naphthalene acetic acid (NAA). The percentage of callus induction increased considerably when NAA at 2.0 mg l⁻¹ (10.8 μM) was added in conjunction with 0.5 mg l⁻¹ (2.2 μM) N⁶-benzyladenine (BA). Of the three different explants evaluated for callus induction, hypocotyl segments were most responsive. Friable hypocotyl-derived callus from the second subculture passage was used to initiate the cell-suspension culture. Optimum growth of the cell suspension was observed in MS medium supplemented with the same growth regulators as described above for callus induction, with an initial inoculum cell density of 1%. The plating efficiency of the microcolonies was greatly influenced by harvesting time and the gelling agent used for plating. Efficiency was highest (93%) with cells harvested at their exponential growth phase and plated in 1.2 g l⁻¹ Phytagel. Shoot organogenesis from callus cultures was higher on a medium supplemented with a combination of BA and NAA than on BA alone. Seventy-one per cent of cultures exhibited shoot-bud differentiation on a medium containing 3.0 mg l⁻¹ (13.3 μM) BA and 0.5 mg l⁻¹ (2.7 μM) NAA. Regenerated shoots were rooted on half-strength MS medium containing 1 mg l⁻¹ each of indole-3-acetic acid (5.7 μM), indole-3-butyric acid (4.9 μM) and indole-3-propionic acid (5.3 μM). Plantlets were acclimated and established in soil.     

Apical callus formation in Solieria filiformis (Gigartinales,Rhodophyta) cultured in tanks

Loose-lying wild plants of the carragenophyte Solieria filiformis (Kützing) Gabrielson were cultivated under greenhouse conditions in 600 l tanks in stationary and turbulent cultures, produced either by air bubbling or water jets at the bottom of the tanks. One week after inoculation 90.3% of the apices of the plants grown in air turbulent cultures initiated the formation of callus. The apices were not broken and apparently non-wounded. No callus formation were observed from a few accidentaly broken apices in any culture. Only 4% of the apices in water turbulent cultures induced callus. Reorganization of branches from the calli took place after three weeks. Organogenetic calli detached from the mother plant after four weeks and formed spherical masses of 3 cm in diameter growing as unattached balls. Cellular disorganization (i.e. callus formation) in S. filiformis seems to be a consequence of intermittent abrasion or contact stimuli against tank walls produced by turbulence.     

Anthocyanin production in callus cultures of Cleome rosea: Modulation by culture conditions and characterization of pigments by means of HPLC-DAD/ESIMS

Leaf and stem explants of Cleome rosea formed calluses when cultured on MS medium supplemented with different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D) or 4-amino-3,5,6-trichloropicolinic acid (PIC). The highest biomass accumulation was obtained in the callus cultures initiated from stem explants on medium supplemented with 0.90 μM 2,4-D. Reddish-pink regions were observed on callus surface after 6–7 months in culture and these pigments were identified as anthocyanins. Anthocyanins production was enhanced by reducing temperature and increasing light irradiation. Pigmented calluses transferred to MS1/2 with a 1:4 ratio NH₄⁺/NO₃⁻, 70 g L⁻¹ sucrose and supplementation with 0.90 μM 2,4-D maintained a high biomass accumulation and showed an increase of 150% on anthocyanin production as compared with the initial culture conditions. Qualitative analysis of calluses was performed by high performance liquid chromatography coupled to diode array detector and electrospray ionization mass spectrometry (HPLC-DAD/ESIMS). Eleven anthocyanins were characterized and the majority of them were identified as acylated cyanidins, although two peonidins were also detected. The major peak was composed by two anthocyanins, whose proposed identity were cyanidin 3-(p-coumaroyl) diglucoside-5-glucoside and cyanidin 3-(feruloyl) diglucoside-5-glucoside.     

IDENTIFICATION OF LATICIFERS IN EMBRYOIDS DERIVED FROM CALLUS AND SUSPENSION CULTURES OF ASCLEPIAS SPECIES (ASCLEPIADACEAE)

Laticifers were identified in frozen sections of embryoids from callus and suspension cultures of Asclepias syriaca (common milkweed) by an indirect fluorescent antibody technique. Sections were treated with the IgG fraction of rabbit anti-latex antiserum, produced with field-collected A. syriaca latex as a source of antigens, and with fluorescein-conjugated IgG fraction goat anti-rabbit IgG. Laticifers were identified by their fluorescence in embryoids dissected from 3–4-month-old callus cultures and in embryoids from 2-month-old suspension cultures. Laticifers are not present in early globular embryoids of A. syriaca but embryoids similar in shape to late globular stage zygotic embryos possess branching laticifers typical of zygotic material. Sections on control slides, treated with whole serum or IgG fraction from whole serum, both from an uninjected rabbit, contained no fluorescent cells. No laticifers were detected with the fluorescent antibody assay in A. tuberosa embryoids.     

Anthocyanin production in selected cell lines of grape (Vitis vinifera L.)

Summary Anthocyanin production of two lines ofVitis vinifera cell cultures, i.e., 5.4 and 13.1, which were obtained from the same starting material after 20 and 37 mo. of clonal selection, respectively, was investigated. Cell suspension cultures of lines 5.4 and 13.1 maintained an anthocyanin content of 0.44 ± 0.15 and 1.02 ± 0.31 mg·g⁻¹ fresh weight during 50 and 32 weekly maintenance subcultures, respectively. Under anthocyanin-promoting culture conditions, both lines showed an enhancement of their anthocyanin level by approximately fourfold. While line 5.4 accumulated peonidin 3-glucoside and cyanidin 3-glucoside in decreasing order, line 13.1 accumulated primarily peonidin 3-p-coumaroylglucoside with lesser amounts of malvidin monoglucoside. Results show that while the anthocyanin content was improved during the course of repeated selections, the anthocyanin composition was modified markedly favoring the accumulation of more metabolically-advanced anthocyanins.     

Callus and cell suspension cultures of Rudgea jasminoides,a tropical woody Rubiaceae

Rudgea jasminoides is a woody Rubiaceae that produces phytoalexins in response to fungal inoculation, the response being dependent of the seasonal conditions. With the aim of studying phytoalexin induction under controlled conditions, callus cultures were established from petiole explants of R. jasminoides on a modified basal MS medium supplemented with picloram alone or in combination with kinetin. The highest frequency of callus formation was observed in solid medium containing 2.22 M kinetin and 2.07 M picloram. Development of fast-growing friable white callus was achieved in the absence of kinetin, in cultures supplemented only with 8.28 M picloram. Cell suspension cultures were established from this friable callus by transferring pieces directly to the same medium without agar. Preliminary experiments revealed that cell suspension cultures of R. jasminoides represent a useful system to analyse induced defensive metabolites produced by this Rubiaceae species.     

Propagation and xanthone content of <Emphasis Type="Italic">Gentianella austriaca</Emphasis> shoot cultures

Shoot cultures of Gentianella austriaca (A. & J. Kerner) Dostal established from seedling epicotyls were maintained on MS medium supplemented with 2.22 μM BA and 0.54 μM NAA. A characteristic feature of these cultures was precocious flowering, which appeared in all rapidly elongating shoots. Flower development arrested shoot elongation and multiplication of shoot cultures. Continuous shoot propagation was possible only by use of small axillary or adventitious buds as explants for subculturing. Flowering could not be suppressed by GA₃ addition or by cultivation in short-day conditions. The highest rooting percentage (47.3% with 7.83 roots per explant) was achieved on media with 4.92 μM IBA. Shoot cultures contained the same types of secondary metabolites as plants from nature. Xanthones were the major constituents, with DMB (demethylbellidifolin), DGL (demethylbellidifolin-8-O-glucoside) and BGL (bellidifolin-8-O-glucoside) present at roughly two times lower concentrations than in samples from nature. Secondary metabolite production was strongly affected by the presence of BA in the medium.     

Compact callus cluster suspension cultures of Catharanthus roseus with enhanced indole alkaloid biosynthesis

Summary Compact callus clusters showing a certain level of cellular or tissue differentiation were established from Catharanthus roseus stem and leaf explants in a modified MS liquid induction medium supplemented with 5.37 μM α-naphthaleneacetic acid and 4.65 μM kinetin. In the induction medium most leaf explants developed into friable half-closed hollow callus clusters, whereas in the same medium containing 2,4-dichlorophenoxyacetic acid instead of α-naphthaleneacetic acid, most leaf explants were induced to form dispersed cell suspension cultures. Characteristics of these different types of suspension cultures were compared, and the results showed that the compact callus clusters could synthesize indole alkaloids 1.9- and 2.4-fold higher than the half-closed hollow callus clusters and dispersed cell cultures, respectively. The degree of compaction expressed by the ratio of fresh weight to dry weight of these suspension cultures was correlated to indole alkaloid production. Our studies also postulated that the level of cellular/tissue differentiation might be responsible for these different alkaloid synthesis capabilities. Sucrose regime affected some properties (the size, degree of compaction, differentiation level) of the compact callus cluster cultures and therefore influenced alkaloid production.     

Cyanidin 3-glucoside accumulation in plane tree (Platanus acerifolia) cell-suspension cultures

The accumulation of only one anthocyanin, cyanidin 3-glucoside, in cell-suspension cultures of plane tree (Platanus aceriflia) is reported for the first time. During a time span of 6 years, no new anthocyanin was detected and cyanidin 3-glucoside was maintained at about 35 mg l^–1 cell culture medium. This stable cell culture system could therefore be used for the biotechnological production of cyanidin 3-glucoside.     

American and korean ginseng tissue cultures: Growth,chemical analysis,and plantlet production

Summary Roots, stems, or leaves of American (Panax quinquefolium) and Korean (Panax ginsing) ginseng were grown as callus or supension tissue cultures. Tissue cultures ofP. ginseng would occasionally form plantlets. The fundamental chemical composition, inorganic analysis, and saponin (panaquilin) content of American and Korean ginseng plants and tissue cultures were determined. The crude saponin content is very similar to, but approximately one-half (1.3%, fresh weight) of that present in ginseng roots. Two-dimensional thin layer chromatographic analysis revealed minor differences in the panaquilins present in American and Korean ginseng tissue cultures. The sapogenin, panaxadiol, was isolated from Korean ginseng callus.     

Biosynthesis and accumulation of a medicinal compound,Picroside-I,in cultures of <Emphasis Type="Italic">Picrorhiza kurroa</Emphasis> Royle ex Benth

Establishment of callus cultures and plant regeneration from different explants coupled with estimation of Picrosides in morphogenetically different developmental stages showed that Picroside-I accumulates in shoot cultures of Picrorhiza kurroa with no detection of Picroside-II. The Picroside-I content was 1.9, 1.5, and 0.04 mg/g in leaf discs, stem and root segments, respectively. The Picroside-I content declined to almost non- detectable levels in callus cultures derived from leaf discs, stem segments with no change in Picroside-I content in root segments or calli derived thereof. The biosynthesis and accumulation of Picroside-I started in callus cultures differentiating into shoot primordia and reached to the concentrations comparable to original explants of leaf discs and stem segments in fully developed shoots with contents of 2.0 and 1.5 mg/g, respectively. The shoots formed from root-derived callus cultures were relatively slow in growth as well as the amount of Picroside-I content was comparatively low (1.0 mg/g) compared to shoots derived from callus cultures of leaf and stem segments, respectively. The current study concludes that the biosynthesis and accumulation of Picroside-I is developmentally regulated in different morphogenetic stages of P. kurroa tissue cultures.     

Callus production,suspension culture and in vitro alkaloid yields of Ephedra

The effects of a range of plant growth regulators on callus production in various Ephedra species were examined. Species examined were E. andina, E. distachya, E. equisitina, E. fragilis var, camplyopoda, E. gerardiana, E. intermedia, E. major ssp procera, E. minima and E. saxatilis. All species produced callus on modified MS medium supplemented with 0.25 M kinetin and 5.0 M 2,4-dichlorophenoxyacetic acid or 1-naphthaleneacetic acid. Neither indole-3-acetic acid nor 3-indolebutyric acid induced significant callus formation but the latter maintained growth of established callus cultures in several species. Suspension cultures of several species were established in MS medium supplemented with 0.25 M kinetin and 5.0 M 2,4-dichlorophenoxyacetic acid or 1-naphthaleneacetic acid. Sustained fresh weight doubling times of 70±7h were recorded for cell suspension cultures of E. andina grown in a semi-continous air-lift bubble bioreactor and a minimum doubling time of 56 h was recorded for E. andina in batch culture. It also proved possible to immobilise E. andina batch cultures in sodium alginate beads.Neither parent plants or in vitro cultures of E. distachya, E. fragilis or E. saxatilis produced alkaloids. Trace quantities of 1-ephedrine and trace-0.14% dwt d-pseudoephedrine were produced by in vitro cultures of other species. The ability to produce alkaloid diminished to zero with successive subcultures.Abbreviations Eph 1-ephedrine - Peph d-pseudoephedrine - RGR relative growth rate - KIN kinetin - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA 1-naphthaleneacetic acid - IBA 3-in-dolebutyric acid - IAA indole-3-acetic acid     

Role of origin and endophyte infection in browning of bud-derived tissue cultures of Scots pine (Pinus sylvestris L.)

Callus tissues originating from buds of mature Scots pine (Pinus sylvestris L.) trees exhibit the typical problem of browning, which leads to degeneration and death of the tissues. The effects of medium, origin (tree and location) and endophyte infection were studied on the browning and growth of bud-derived tissue cultures. The calli growing on medium with higher kinetin content and source of organic nitrogen, and originating from the southern location grew better and exhibited less browning. Endophytic microbial cells were detected in the brown callus tissues by transmission electron microscopy. The natural endophyte infection frequency of Scots pine buds was studied and found dependent on the tree, but not on the location. A well-growing, green callus line was artificially infected by an endophytic strain of Methylobacterium extorquens, and browning was not observed on solid media compared to the uninfected control clones of the same callus. However, suspension cultures started from the infected callus died faster than cultures started from the uninfected callus. The endophyte species composition and plant genotype together with tissue culture conditions are the key factors for gaining plant tissue cultures with high regeneration capacity.     

Development of haploid cell lines from immature barley,Hordeum vulgare,embryos

Callus and suspension cell lines were derived from haploid barley embryos produced by the Bulbosum method. Embryos 1 to 2 mm long callused on medium containing a low concentration of 2,4-dichlorophenoxyacetic acid (2,4-D). Fast-growing nodular, beige callus (Type 1), slow-growing, light brown, watery callus (Type 2) and a dense, light yellow, nodular callus (Type 3) were recovered. Type 3 callus was embryogenic and was produced on embryos 1 to 2 mm in length. Although callus cultures gradually became polyploid, a small proportion of haploid cells was retained and the majority of regenerated plantlets were haploid. The organogenic potential of long-term (Type 1) callus cultures was generally low and decreased with time. Attempts to inducede novo shoot formation in Type 1 cultures were not successful.     

Regeneration of garlic callus as affected by clonal variation, plant growth regulators and culture conditions over time

 A long-term regeneration system for garlic (Allium sativum L.) clones of diverse origin was developed. Callus was initiated on a modified Gamborg's B-5 medium supplemented with 4.5 μM 2,4-D and maintained on the same basal medium with 4.7 μM picloram+0.49 μM 2iP. Regeneration potential of callus after 5, 12 and 16 months on maintenance medium was measured using several plant growth regulator treatments. The 1.4 μM picloram+13.3 μM BA treatment stimulated the highest rate of shoot production. Regeneration rate decreased as callus age increased, but healthy plantlets from callus cultures up to 16-months-old were produced for all clones. Regeneration of long-term garlic callus cultures could be useful for clonal propagation and transformation. Received: 24 September 1998 / Revision received: 27 January 1999 / Accepted: 26 February 1999