Differential carbohydrate metabolism conducts morphogenesis in embryogenic callus of Hevea brasiliensis (Müll. Arg.)

Somatic embryogenesis in Hevea is stimulated when the embryogenesis induction medium contains maltose, rather than glucose, fructose, or sucrose, in equimolarity (Blanc et al., 1999). Kinetic analyses were carried out on various physiological and biochemical indicators over the 8 weeks that the induction phase then expression of somatic embryogenesis can take. Embryogenesis induction in the presence of glucose, fructose or sucrose revealed strong callus growth in the first 3-4 weeks, associated with a high intra- and extracellular hexose content, a high starch content and a substantial decline in protein synthesis. In the presence of maltose, callus growth was slow and only half that seen with sucrose. This morphogenetic behaviour is associated with a drop in endogenous hexose and starch contents, and an increase in protein synthesis in the first three weeks of culture. The induction of embryogenesis in the presence of maltose was uniform and twice as fast as with sucrose supply. At the end of culture, peroxidase activity, antioxidant and membrane protein contents increased in these calluses; these characteristics may be associated with somatic embryo organization and with the maintenance of effective membrane integrity within a nutrient environment that has become limiting. These new results tally with data in the literature on the roles of sugars, and provide some precise information with regard to the 'carbohydrate deficit' hypothesis usually put forward to explain maltose action. An analysis of these results led to the hypothesis that regulation of endogenous hexose contents at a low level, through slow maltose hydrolysis, was a key element of the biochemical signal leading this callus towards somatic embryogenesis.     

Development of shoots and roots in anther-derived callus of Azadirachta indica A. Juss.—a medicinal tree

Callus originated in microsporangial wall layers and connective tissues of anthers containing uninucleate microspores on Nitsch's or Murashige and Skoog's medium supplemented with growth regulators. A higher percentage of cultures (43) produced callus on Nitsch's medium containing 10 M indole-3-acetic acid + 1 M 6-benzyladenine. After 13–15 weeks, green nodular structures and prominent roots developed in 25% of the cultures on Murashige and Skoog's medium + 10 M -naphthaleneacetic acid + 1 M kinetin. Multiple shoots were induced in this anther-derived callus when subcultured on Murashige and Skoog's medium augmented with 4.44 M 6-benzyladenine + 0.53 M -naphthaleneacetic acid along with 18.75 M polyvinylpyrrolidone. The excised shoots formed roots after subculturing on Murashige and Skoog's medium + 4.90 M indole-3-butyric acid + 18.75 M polyvinylpyrrolidone, thus developing complete plantlets. Examination of callusing anthers also revealed two- to multi-celled pollen masses with intact exine.Abbreviations BA 6-benzyladenine - CW coconut water - 2,4-d 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - HCl hydrochloric acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - KMnO₄ potassium permanganate - MS Murashige & Skoog's medium - NAA -naphthaleneacetic acid - NB Nitsch's medium - PVP polyvinylpyrrolidone     

Analysis of capsaicinoid biosynthesis pathway genes expression in callus cultures of Capsicum chinense Jacq. cv. ‘Umorok’

The placental tissue of the highly pungent chilli cultivar, Capsicum chinense Jacq. cv. ‘Umorok’, is used as explants for callus induction. Callus cultures were subcultured after every 32 days and growth curves for a period of six consecutive growth cycles were studied till a stable capsaicinoids producing callus cultures were obtained. The capsaicinoids content in placental tissue explants decreased gradually during the first 2 months of culture as the explants dedifferentiated to form friable callus while the biomass and capsaicinoid content did not show much change in the subsequent growth cycles. The maximum callus biomass of 7.8 g freshweight (FW) or 0.56 g dry weight (DW) per culture were obtained on the 24th day of every growth cycle and the maximum average capsaicinoids content (1.6 mg g^?1 FW capsaicin and 0.78 mg g^?1 FW dihydrocapsaicin) were obtained on the 20th day of every growth cycle. To investigate the underlying dynamics for capsaicinoid biosynthesis during callus formation, comparative gene expression analysis of the genes involved in capsaicinoid biosynthesis pathway were also studied by qRT-PCR analysis. When compared with placental tissue, all the studied genes showed reduced expression during callus formation, especially putative aminotransferase (pAMT) and pungent gene 1 (Pun1), which were extensively down regulated from the 3rd month onwards in the callus cultures. Therefore, the present study revealed that the down-regulated expression of mainly two putative genes in capsaicinoid biosynthetic pathway (pAMT and Pun1) resulted in lower accumulation of capsaicinoids in callus cultures compared to placental tissues of fruits.

     

Expression of α-amylase in cultured callus of french bean

α-Amylase (EC 3.2.1.1) expression was found in calli of French bean (Phaseolus vulgaris L. cv Goldstar). We examined enzyme activity in the calli to investigate influence of gibberellin and sugars on enzyme expression. After subculture of the calli, α-amylase activity decreased, and then increased at a stationary phase of callus growth. Exogenous application of gibberellin and an inhibitor of gibberellin synthesis, uniconazole, did not have any significant effects on the enzyme expression. Sugar starvation increased the activity, while addition of metabolizable sugars, such as sucrose, glucose and maltose, to the medium repressed expression. Addition of 6% mannitol, a non-metabolizable sugar, to the medium induced higher α-amylase expression as compared to addition of 3% mannitol. This result suggests that osmotic stress enhances α-amylase activity in the calli. Furthermore, high concentrations of agar in the medium increased α-amylase activity in the calli. It is probable that high concentrations of agar prevented incorporation of nutrient into the calli and induced the α-amylase activity in the calli.     

Metabolism of ribosylzeatin-5′-monophosphate by soybean callus

Using cytokinin dependent soybean callus and HPLC analysis it was shown that soybean callus rapidly metabolises ribosylzeatin-5-monophosphate to biologically active compounds which co-chromatographed with trans-ribosylzeatin and trans-zeatin.Abbreviations Z zeatin - RZ ribosylzeatin - RZMP ribosylzeatin-5-monophosphate     

Formation of β-glucosylpyridoxines in soybean and rice callus

5′-O-(β-Glucosyl)pyridoxine accumulated in soybean calluses and cultured cells grown on a sucrose medium in the presence of pyridoxine. In rice calluses, 5′-O-(β-glucosyl)pyridoxine as the main metabolite was accompanied by small amounts of 4′-O-(β-glucosyl)pyridoxine.     

Regeneration of plants from callus and embryos of ‘Royal’ apricot

Immature embryos of apricot (Prunus armeniaca L.) cv. Royal with a PF index of 25–100 were used to regenerate plants in vitro using two methods. In the first case, callus was initiated on MS medium with 4.5 M 2, 4-D plus 0.44 M BA and regeneration of shoots from the callus occurred on MS medium with 4.4 M BA plus 1.0 M 2, 4-D. In the second case, adventitious buds were directly regenerated from the cotyledons on MS medium with 4.4 M BA plus 1.0 M 2, 4-D.Abbreviations BA 6-benzyladenine - IBA dole-3-butyric acid - NAA -naphthylacetic acid - 2, 4-D 2, 4-dichlorophenoxyacetic acid - PF (embryo length/seed length) x 100     

In vivo observations of nucleolar extrusion in cultured callus cells of a non tumorousNicotiana glauca ×N. langsdorffii hybrid

Summary In vivo observations ofNicotiana glauca ×Nicotiana langsdorffii hybrid callus cells cultured on hanging-drop slides show a continuous pulsating movement of nucleoli containing vesicles from the nucleus into the cytoplasm and the occasional release of the nucleoli into the cytoplasmic stream. The phenomenon is discussed in relation to similar findings in other plant materials, particularly in critical phases of development.Contribution No. 151 from the Laboratorio di Mutagenesi e Differenziamento, Consiglio Nazionale delle Ricerche (C.N.R.), Pisa, Italy. Investigation supported by Consiglio Nazionale delle Ricerche (C.N.R.) under the programme Biology of Reproduction.     

Rhizogenesis in stem discs of Malus pumila rootstock M9 “Jork”: I. Hormonal and environmental effects on root induction and callus formation

To establish a protocol suited for the molecular characterization of root induction the influences of explant position, etiolation state and orientation as well as temperature and light intensity on root and callus formation were investigated. Depending on these factors stem discs of Malus incubated on indole-3-butyric acid containing medium and subsequently on hormone-free medium regenerated roots and callus of filamentous and smooth texture to a varying extent. Concentration and incubation duration of indole-3butyric acid strongly affected rooting and the production of smooth callus. Moreover smooth callus was profuse at the low light levels applied during rooting. Rooting efficiency decreased and filamentous callus increased between 19°C and 25°C. Explants close to the shoot apex displayed reduced rooting efficiency and profuse filamentous callus. There was a strong effect of explant orientation on root and filamentous callus formation.Abbrevations IBA indole-3-butyric acid - IAA indole-3-acetic acid - BA 6-benzylaminopurine - MS Murashigeand Skoog - rts roots - rt rooted - rtd rooted discs     

Effect of picloram and methyl jasmonate on growth and taxane accumulation in callus culture of Taxus × media var. Hatfieldii

We have analysed the effect of some culture conditions and media components on callus growth rate and production of taxanes in callus of Taxus × media var. Hatfieldii. For callus induction and maintenance a Gamborg B5 medium and a White - Rangaswamy medium (WR) with different modifications were used. On an improved WR medium (containing 10 μM picloram) the callus growth factor increased up to 5.8 fold (fresh weight). Picloram only enhanced the growth of callus, but not taxane production. On WR medium with (100 μM) methyl jasmonate the paclitaxel content increased from 2.37 μg g-1 to 90 μg g-1 and cephalomannine from 5.14 μg g-1 to 29.14 μg g-1 (dry weight), whereas growth of the cultures ceased. The presence of paclitaxel and cephalomannine was established by high performance liquid chromatography. This revised version was published online in June 2006 with corrections to the Cover Date.     

Induction of petal-bearing embryos from root-derived callus of Oncidium ‘Gower Ramsey’

A repeatable in vitro culture method was established and it could induce a series of abnormal embryos by which their scale leaves were substituted by petals. These petal-bearing embryos were derived from long-term root calli of an orchid cultivar, Oncidium ??Gower Ramsey??. The calli were induced and subcultured on a modified 1/2MS medium supplemented with five combinations of TDZ and dicamba. When 1-year-old callus, which induced and subcultured at 3?mg/l TDZ and 5?mg/l dicamba (line 13 callus), was transferred onto 1/2MS medium supplemented with 0.1?ml/l NAA and 3?mg/l TDZ, it gave the highest number of petal-bearing embryos. However, line 13 root explants gave one of the lowest percentage of callus formation (12.5%) and the number of somatic embryos per callus was also one of the lowest (along with lines 10, 11 and 12). The efficiency of embryogenesis decreased with age of callus and the significant decrease was started from the third year of culturing. Flowering characteristics of plantlets from normal embryos and petal-bearing embryos were both evaluated after 3?years of culture in the greenhouse. Parameters including length of the longest inflorescence, numbers of flowers per plant, length of flowers and width of flowers were all not significantly different between abnormal embryo-derived plants and normal embryo-derived plants.     

Microbial transformation ofβ-sitosterol byNocardia sp. M 29

Summary The degradation and conversion of -sitosterol to C-17-ketosteroids byNocardia sp. M 29 was studied. Maximal enzymatic activity was found after 24 h of incubation. Although the key enzymes involved in the decomposition of -sitosterol were inducible, no separate induction of side chain hydroxylase or 9-hydroxylase was possible. Inhibition of the steroid ring cleaving enzyme by ,-dipyridyl resulted in low yields of 4-androstene-3,17-dione and 1,4-androstadiene-3,17-dione (total yield 22%). Addition of lipophilic organic adsorbents (Amberlite XAD-2 and XAD-4) stimulated the 1,4-androstadiene-3,17-dione formation (maximal 50% within 120 h of incubation). Furthermore, 3-oxo-23,24-dinor-1,4-choladienic acid and 3-oxo-23,24-dinor-1,4-choladienic acid methyl ester were accumulated in the presence of Amberlite XAD-2 in moderate yields (total 11%).     

Somatic embryogenesis and shoot regeneration from leaf derived callus of Hypericum perforatum var. angustifolium (sin. Fröhlich) Borkh

Abstract

The development of in vitro regeneration systems for Hypericum perforatum var. angustifolium (sin. Fröhlich) Borkh, a medicinal plant used for treating neurological disorders, is described. For the first time in this variety, somatic embryogenesis and shoot regeneration were induced from leaf-derived callus. Well-formed plantlets were obtained through both shoot regeneration and somatic embryogenesis, with separate morphogenetic programmes. Proembryogenic masses were obtained in liquid MS and B5 media supplemented with 5.8 μM 2,4-D, 1.34 μM NAA, and 1.16 μM Kin; after being transferred onto hormone-free medium, they formed whitish and spherical structures that subsequently developed into the heart and torpedo stages.

On MS agarized medium containing thidiazuron (TDZ) at different concentrations (3, 6, 9, 12 μM) combined with 2 μM IBA, only shoot regeneration, and not somatic embryogenesis, was obtained. The mean number of shoots increased significantly when the concentration of TDZ was 3 μM.