Production of flavonoids by Psoralea hairy root cultures

Eighteen transformed root cultures from 7 Psoralea plant species (Leguminosae) were established with the objective of producing daidzein and related flavonoids. All the 18 hairy root lines grew fast and had the same capacities for biomass production. Each of them produced daidzein as an intracellular secondary metabolite. The Lach5 hairy root line, obtained from P. lachnostachys, was a high producing line for daidzein and was further studied for biomass and flavonoid production. This root line showed exponential growth. Chitosan was used for elicitation purposes as well as for its permeabilizing effect. Little elicitation effect could be demonstrated and the metabolite release in the medium was weak (about 1%) and limited to the first 29 h after chitosan addition. Daidzein was demonstrated to be more concentrated in young parts (apexes) whereas coumestrol content was higher in older parts (brown tissues). Compared to callus cultures from the same plant species, hairy roots displayed comparable concentrations. However, high-producing lines were more frequently found with hairy roots (4 out of 18) than with callus cultures (4 out of 217) This revised version was published online in June 2006 with corrections to the Cover Date.     

Methyl jasmonate differentially affects tocopherol content and tyrosine amino transferase activity in cultured cells of Amaranthus caudatus and Chenopodium quinoa

Tocopherols are lipid-soluble compounds synthesised exclusively by photosynthetic organisms. In this study, in vitro callus cultures were established from two plants that are naturally rich in tocopherols, Amaranthus caudatus and Chenopodium quinoa, in order to examine whether callus cultures were able to produce these compounds at levels comparable to those observed in planta . In both species, cotyledon explants produced the best callus induction and, once established, callus cultures were grown under two different hormonal treatments to check for effects of growth and to induce chloroplast differentiation in the cells. A rapid differentiation of chloroplasts occurred only in C. quinoa cell aggregates grown in the presence of benzyladenine, leading to the production of a homogeneous green callus. In both species, only α-tocopherol was produced by callus cultures, although levels were much lower than in planta, and the production was not influenced by the hormonal conditions. Interestingly, cell cultures of the two species responded in different ways to methyl jasmonate (MJ). In A. caudatus cultures, treatment with 100 μ m MJ increased the production of α-tocopherol up to fivefold, and the inductive effect was influenced by the hormonal composition of the medium. This increase in α-tocopherol was associated with a proportional increase in tyrosine aminotransferase (TAT) activity, one of the key enzymes involved in tocopherol biosynthesis. By contrast, in C. quinoa cultures, elicitation with MJ did not have any effect, neither on tocopherol production, nor on TAT activity. These results are discussed in relation to chloroplast differentiation and the interplay between jasmonates and phytohormones.     

Cell line selection through gamma irradiation combined with multi-walled carbon nanotubes elicitation enhanced phenolic compounds accumulation in Salvia nemorosa cell culture

The current study focused on improving the production of phenolic acids in the Woodland Sage cell suspension culture (CSC) through attaining high-yielding cell lines and carboxyl functionalized multi-walled carbon nanotubes (MWCNT-COOH) elicitation. The leaf-derived callus was irradiated at different doses of gamma irradiation 10 to 100 Gy. The maximum content of rosmarinic acid (RA), salvianolic acid B (SAB), ferulic acid (FA), and cinnamic acid (CA) was recorded in callus cultures irradiated with 70 Gy, which was 18.53, 5.21, 1.9, and 7.59 mg/g DW, respectively. The CSC that established from 70 Gy γ-irradiated calli accumulated 1.7-fold RA more higher irradiated callus culture. The CSC elicited with various concentrations of MWCNT-COOH in range 25 to 100 mg/l significantly increased fresh weight (FW), dry weight (DW), and phenolic acid contents of cells. The highest FW with 268.47 g/l and DW with 22.17 g/l was obtained in 100 mg/l MWCNT-COOH treatment. The RA, SAB, CA and FA content of CSC treated with 100 mg/l MWCNT-COOH were 13-fold, 14.2-fold, 20-fold, and 3- fold higher than wild S. nemorosa plant at flowering stage, respectively. The antioxidant activity of cultures significantly enhanced with both gamma and MWCNT-COOH based on DPPH and FRAP assay. Our results showed that the combination of cell line selection and MWCNT-COOH elicitation significantly improved the production of secondary metabolites in Woodland Sage, which is useful for large-scale production of phenolic compounds.

     

Flux of nitric oxide between the necrotrophic pathogen Botrytis cinerea and the host plant

Nitric oxide (NO) production by Botrytis cinerea and the effect of externally supplied NO were studied during saprophytic growth and plant infection. Fluorescence analysis with 4,5-diaminofluorescein diacetate and electrochemical studies were conducted in vitro between 4 and 20 h of incubation and in planta between 15 and 75 h post-inoculation. The production of NO by B. cinerea in vitro was detected inside the germinating spores and mycelium and in the surrounding medium. In planta production of NO showed a large variation that was dependent on the host plant and developmental stage of the infection. The induced production of NO was detected from 16 h of in vitro incubation in response to externally added NO. The production of NO by B. cinerea is probably modulated to promote fungal colonization of the plant tissue. The production of NO which diffuses outside the fungal cells and the induction of NO production by exogenous NO open up the possibility of NO cross-talk between the fungus and the plant. Finally, the existence of an NO concentration threshold is proposed, which may increase or reduce the plant defence against necrotrophic fungal pathogens.     

Production of biologically active phenolic acids in Aronia melanocarpa (Michx.) Elliott in vitro cultures cultivated on different variants of the Murashige and Skoog medium

Phenolic acids, both benzoic and cinnamic acid derivatives, are plant metabolites with high therapeutic and cosmetic values. Methanolic extracts from the biomass of shoot and callus cultures of Aronia melanocarpa growing on seven variants of the Murashige and Skoog (MS) medium with different concentrations of plant growth regulators, BA and NAA, ranging from 0.1 to 3.0 mg l^?1, were examined for the production of free phenolic acids and cinnamic acid using the high-performance liquid chromatography (HPLC) method. The extracts from the shoot and callus cultures were confirmed to contain five of the twelve compounds tested for: caffeic, p-coumaric, p-hydroxybenzoic, syringic and vanillic acids. The shoot extracts contained additionally salicylic acid. Both the total amounts and the amounts of individual compounds in either the shoot or callus extracts were dependent on the concentration of cytokinin and auxin in the MS medium variants. The total amounts in the shoot and callus cultures were in the range from 93.52 to 217.00 mg 100 g^?1 DW and from 47.11 to 83.83 mg 100 g^?1 DW, respectively. The amounts of individual compounds showed wide variation, from 1.31 to 91.86 mg 100 g^?1 DW in the shoot extracts, and from 2.58 to 40.16 mg 100 g^?1 DW in the callus extracts. Salicylic acid (max. 91.86 mg 100 g^?1 DW), p-coumaric acid (max. 62.39 mg 100 g^?1 DW) and p-hydroxybenzoic acid (max. 50.66 mg 100 g^?1 DW) dominated in the shoot extracts, while syringic acid (max. 40.16 mg 100 g^?1 DW) and p-hydroxybenzoic acid (max. 23.59 mg 100 g^?1 DW) were the main metabolites in the callus extracts. This is the first report on the quantitative analysis of benzoic and cinnamic acid derivatives in shoot and callus cultures of A. melanocarpa growing on MS-based media with different concentrations of selected plant growth regulators—BA and NAA. The obtained maximum amounts of some metabolites are of interest from a practical perspective.     

The influence of the rolC gene on isoflavonoid production in callus cultures of Maackia amurensis

The polyphenolic complex of Maackia amurensis, as well as a complex of isoflavonoids from M. amurensis callus cultures, display strong hepatoprotective effects in experimental animal and human studies. To increase the yield of polyphenols in cultures of M. amurensis, calli were transformed with the rolC gene as well as with an empty vector that was used as a control. HPLC analysis revealed that the transgenic cultures produced the same complex of isoflavonoids. The complex consisted of 20 compounds, including isoflavones and their glucosides as well as pterocarpans and their glucosides. The cultures transformed with either the empty vector or the rolC gene construct produced on average 1.22 % dry weight (DW) and 1.39 % DW of isoflavonoids, respectively. Isoflavonoid production in the transformed callus lines carrying the empty vector and the rolC gene construct reached 106 and 146 mg/L, respectively. Moreover, the rolC gene construct promoted cell growth and overall cell productivity. The transgenic callus lines expressing the rolC gene exhibited higher levels of the following six isoflavonoids: daidzein, calycosin, formononetin, 4′-Ο-β-glucopyranosyldaidzin, maackiain and 6′-O-malonyl-3-O-β-D-glucopyranosylmaackiain. However, lower levels of genistin were observed in rolC calli than in those carrying the empty vector.     

Isoflavonoids production in callus culture of Pueraria tuberosa, the Indian kudzu

Isoflavonoid contents of different plant parts and callus tissues of the Indian Kudzu, Pueraria tuberosa (Roxb.ex.Willd.) DC are presented. The initial cultures were slow growing, associated with browning of the tissues. The production of four isoflavonoids (puerarin, genistin, genistein and daidzein) in the callus cultures of P. tuberosa was studied by manipulating the plant growth regulators and sucrose concentration in the medium. Organogenesis was not recorded in callus on any of these treatments. Tuber and stem accumulated puerarin, a glycoside of daidzein, at high amounts, 0.65% and 0.054% respectively. However, the daidzein content of the callus tissues grown on Murashige and Skoog medium containing BA (20.9 microM) and sucrose (60 gl(-1)) was significantly higher (0.056%) than in vivo plant material (0.02%) and other comparable culture systems like Genista and Pueraria lobata.     

Biosynthesis of precious metabolites in callus cultures of <Emphasis Type="Italic">Eclipta alba</Emphasis>

Eclipta alba (False daisy) is an important medicinal plant with well-known antihepatotoxic activity. However, no previous in vitro studies are available for its callus culture for increased production of antioxidant secondary metabolites. Herein, we maintained a competent protocol for callus culture of E. alba using stem and leaf explants grown on MS medium containing various concentrations of thidiazuron, 6-benzylaminopurine (BAP) either alone or in association with α-naphthalene acetic acid (NAA). Among all the applied plant growth regulators, BAP along with NAA resulted in maximal dry biomass of 18.0 and 13.8 g/l for stem and leaf explants, respectively. Furthermore, the highest production of phenolics (375.7 mg/l for stem-associated callus and 298 mg/l for leaf-associated callus) and flavonoids (62.0 and 52.3 mg/l for stem- and leaf-associated callus, respectively) were found to be present in optimized callus culture. Antioxidant activity was also elucidated for both stem and leaf derived calli. The highest antioxidant activities (~?93.5%) were witnessed for stem and leaf associated calli at set concentrations of 3.0 mg/l BAP?+?1.0 mg/l NAA and 4.0 mg/l BAP, respectively. High-performance liquid chromatography analyses revealed optimum accumulation of coumarin (1.98 mg/g DW) and wedelolactone (49.63 mg/g DW) in leaf associated callus and desmethylwedelolactone (69.96 mg/g DW), β-amyrin (0.8179 mg/g DW) and eclalbatin (0.3202 mg/g DW) in stem associated callus at optimized concentration.     

Genetic Study of the Rice Embryo Culture In Vitro

The embryo culture in vitro response was examined among ten rice (Oryza sativa L.) cultivars and 26 cross combinations to evaluate the correlation between callus induction rate and differentiation rate with plantlet regeneration rate, the influence of parents to hybrid Fl embryo culture in vitro as well as the cytoplasmic effects. Plantlet regeneration rate was used as the product of callus production and regeneration capacity. The ten pure-lines, the five F1s and their reciprocal hybrid as well as the ten F1s among the ten lines were evaluated for callus production and regeneration capaticy. Significant variation was observed among the 36 genotypes in callus induction rate, callus differentiation rate and plantlet regeneration rate on embryo culture in vitro. The positive correlation between general callus induction rate and differentiation rate with plantlet regeneration rate was significant. There was a similar trend for callus induction rate between maternal parents and Fis during mature embryo culture in vitro. However, parent-offspring correlation for callus differentiation rate and plantlet regeneration rate were nonsignificant. Whether cytoplasmic effects for embryo culture response exist among the six pure-lines was examined py the differences between reciprocal F1 hybrids. The extent of cytoplasmic effects depended on cross combination.     

Enhanced production of phytoestrogenic isoflavones from hairy root cultures of Psoralea corylifolia L. Using elicitation and precursor feeding

The effect of biotic elicitors (yeast extract, chitosan), signaling molecule (salicylic acid), and polyamines (putrescine and spermidine) was studied with respect to isoflavones accumulation in hairy root cultures of Psoralea corylifolia L. Untreated hairy roots (control) accumulated 1.55% dry wt of daidzein and 0.19% dry wt of genistein. In precursor feeding experiment, phenylalanine at 2 mM concentration led to 1.3 fold higher production of daidzein (1.91% dry wt) and genistein (0.27% dry wt). In biotic elicitors, chitosan (2 mg/L) was found to be the most efficient elicitor to induce daidzein (2.78% dry wt) and genistein (0.279% dry wt) levels in hairy roots. Salicylic acid at 1 mM concentration stimulated the maximum accumulation of daidzein (2.2% dry wt) and genistein (0.228% dry wt) 2 days after elicitation. In case of polyamines, putrescine (50 mM) resulted in highest accumulation of daidzein (3.01% dry wt) and genistein (0.227% dry wt) after 5 days of addition. Present results indicated the effectiveness of elicitation and precursor feeding on isoflavones accumulation in hairy roots of P. corylifolia. This is the first report of elicitation on isoflavones production by hairy roots of P. corylifolia.     

Protein variation accompanies leaf dedifferentiation in sugarcane (Sacchamm officinarum) and is influenced by genotype

Tissue culture lines (morphogenic and nonmorphogenic) were established in five genotypes of Saccharum officinarum L. Changes in protein expression after dedifferentiation of leaf tissue into callus were investigated by two-dimensional gel electrophoresis of cellular proteins. The findings demonstrated that protein expression was regulated both quantitatively and qualitatively in all five genotypes of sugarcane. Sixty-three dedifferention-proteins were identified, of which thirty-three were common to all genotypes. The expression of the remainder was dependent on the genotype, suggesting that the genotype within the same sugarcane species plays an important role in dedifferentiation. Three of the dedifferentiation-proteins were specific to morphogenic callus lines and one to nonmorphogenic callus lines. These proteins can be useful in characterizing the biochemical, molecular, and genetic properties of cultured cells in sugarcane, and in understanding the influence of genotype in the induction of dedifferentiation-proteins and their role in morphogenesis.     

Genetic analysis of the anther-culture response of three spring wheat crosses

Summary Anther-culture response was examined among three spring wheat (Triticum aestivum L.) cultivars to evaluate the genetic component of response and to determine whether androgenetic performance could be improved by selection. The three lines, the three possible F₁'s among the three lines, their F₂'s, and the backcrosses to the parents were evaluated for callus production and regeneration capacity. Significant variation was observed among the generations of the three crosses for callus formation. Genetic variation for regenerability was nonsignificant. Callus production was negatively correlated (-0.24) with regeneration capacity. The random variation in the study was too great to determine whether major-gene differences for antherculture response exist among the three lines by examining population distributions. When the material was evaluated for quantitative gene effects, the estimates for the additive gene effects were generally greater than the estimates for the dominance gene effects for callus formation. Only the Pavon x Chris cross, however, exhibited a significant narrow sense heritability estimate for callusing response (0.94). Due to the large component of random variation and the varying selection potential among crosses for androgenetic performance, improving anther-culture response in wheat by selection could prove difficult unless the anther-culture process itself selects for response traits at the gametic level.     

Actinidia deliciosa C.F. Liang in vitro

In vitro growth of Actinidia deliciosa C.F. Liang, cv Hayward and changes in mineral composition of the medium and in the different parts of the explants (callus, stem and leaves), were analyzed after 0, 15, 30, 45 and 60 days of culturing in each of three successive 60 days subcultures.Fresh (FW) and dry weight (DW) of the explants increased mainly during the first 30 days of culturing, with a predominant increase of FW in leaves and an equal distribution in DW in callus and leaves. Stem FW and DW changes were lower than those observed with callus and leaves. As FW and DW of the explants increased the FW and DW of the medium decreased.The presence of the explants induced a large decrease of medium pH during the first 15 days of culturing followed by a return to the initial level at the end of the culturing.The initial P content of the MS medium was insufficient for the long term culturing, as after 30 days of culturing almost all (94.5%) the P present in the medium was absorbed by the explants and evenly distributed in their different parts. During the first month, 85% of the initial N was absorbed. At the end of the culture only 2% of the initial P and 5% of N remained in the medium. These two elements were equally distributed in callus and leaves during the first month of culturing, while in the last 30 days they increased only in the callus.MS medium initial concentrations of K, Mg, Ca, Fe, Zn, Mn and Cu were sufficient for 60 days explants growth. Almost all these elements were absorbed during the first 30 days of culturing. Their distribution in the different parts of the explant was uneven throughout the culture period. Callus tissue was the main site for accumulation of all these mineral elements.     

Influence of thidiazuron on callus induction and crocin production in corm and style explants of <Emphasis Type="Italic">Crocus sativus</Emphasis> L.

Crocus sativus L., mostly famous as saffron, has gained more attention due to its crocin (crocetin ester) pigment responsible for its extensive pharmaceutical properties. In this study, we established two different callus cultures from corm and style explants of saffron to find out the best explant as a suitable source for crocin production. Comparative analyses of total phenolic, flavonoid, carotenoid and anthocyanin contents were also performed in the two callus cultures. For callus induction, different combinations of MS medium with name thidiazuron (TDZ), benzylaminopurine (BA), 1-naphthaleneacetic acid (NAA), and 2,4-dichlorophenoxyacetic acid (2,4-D) alone or in combination were tested. Of the used media, all the combinations containing TDZ and NAA gave 100% callus induction. HPLC-DAD and HPLC–ESI-MS analysis were used for identification of crocin esters in established callus cultures. The highest amount of 0.35 mg g^?1 DW crocin was detected in style originated calli grown on the medium containing 3 mg L^?1 NAA?+?1 mg L^?1 TDZ while the corm calli showed the most abundant total carotenoid (0.73 mg g^?1 DW), phenolic (15.04 mg gallic acid equivalent g^?1 DW) and flavonoid (0.76 mg rutin equivalent g^?1 DW) contents. In general, style-derived calli showed longer time survival with a fine texture and good quality compared to corm-derived calli.     

Phenylpropanoid production in callus and cell suspension cultures of <Emphasis Type="Italic">Buddleja cordata</Emphasis> Kunth

Plant tissue cultures represent a potential source for producing secondary metabolites. In this work, Buddleja cordata tissue cultures were established in order to produce phenylpropanoids (verbascoside, linarin and hydroxycinnamic acids), as these metabolites are credited with therapeutic properties. Highest callus induction (76.4–84.3%) was obtained in five treatments containing 2,4-Dichlorophenoxyacetic acid (2,4-d: 0.45–9.05 μM) with Kinetin (KIN: 2.32, 4.65 μM), whereas highest root induction (79.6%) corresponded to the α-Naphthaleneacetic acid (9.05 μM) with KIN (2.32 μM) treatment. Verbascoside was the major phenylpropanoid produced in in vitro cultures (root, white and green callus) [66.24–86.26 mg g⁻¹ dry weight (DW)], while linarin and hydroxycinnamic acid production was low (0.95–3.01 mg g⁻¹ DW). Verbascoside and linarin production were improved in cell suspension culture (116 mg g⁻¹ DW and 8.12 mg g⁻¹ DW, respectively).     

Transcriptomics analysis investigates sesquiterpenoids accumulation pattern in different tissues of <Emphasis Type="Italic">Atractylodes lancea</Emphasis> (Thunb.) DC. plantlet

Linum usitatissimum: L. is well-known for production of pharmacologically important secondary metabolites. Due to their tremendous beneficial effects on human health, these compounds are receiving greater attention throughout the World, especially in the treatment of various types of cancers. In present study, we have developed an efficient protocol for production of lignans like secoisolariciresinol diglucoside (SDG) and lariciresinol diglucoside (LDG) and neo-lignans like dehydrodiconiferyl alcohol glucoside (DCG) and guaiacylglycerol-β-coniferyl alcohol ether glucoside (GGCG) by exploiting in vitro callus cultures of Flax. These cultures were established from stem and leaf explants, inoculated on Murashige and Skoog (MS) media supplemented with various concentrations of α-naphthalene acetic acid (NAA), thidiazuron (TDZ) and 6-benzyl adenine (BA). Results revealed that the leaf-derived calli (1.0 mg/l NAA) accumulated highest levels of biomass (DW; 15.7 g/l) and antioxidant activity, while highest production of total phenolics (111.09 mg/l) and flavonoids (45.02 mg/l) were observed in stem-derived calli (1.0 mg/l NAA). The high-performance liquid chromatography (HPLC) analysis revealed that the stem-derived calli (1.0 mg/l NAA) accumulated optimum concentrations of SDG (2.7?±?0.021 mg/g DW), LDG (9.8?±?0.062 mg/g DW) and DCG (13.8?±?0.076 mg/g DW), while leaf-derived calli (1.0 mg/l NAA) showed optimum accumulation of GGCG (3.8?±?0.022 mg/g DW) as compared to all other treatments. These results provided definite evidence that the NAA differentially influence the production of lignans and neo-lignans in callus culture of Flax. This study opens new dimensions to devise strategies to enhance the production of these valuable metabolites.     

Alkaloid biosynthesis in Papaver sp. cells in culture and during organogenesis

In vitro cell cultures of two Papaver species, P. somniferum and P. bracteatum initiated from mature seeds were screened for their ability to produce alkaloids. Protocols for callus induction, somatic embryogenesis and organogenesis were established. The alkaloid contents were analysed by high-performance-liquid chromatography, thin-layer chromatography and spectrophotometric assays. Undifferentiated callus produced small amounts of sanguinarine, which increased with the degree of tissue differentiation. Embryogenic calli were maintained in culture for more than 2 years, retaining a high regeneration capability. Thin-layer chromatography analysis revealed variations in alkaloid spectrum between parallel cell lines. The morphinan alkaloid, thebaine, was found to be accumulated exclusively in morphogenous strains of P. bracteatum, and morphine was the major alkaloid in the spectrum of P. somniferum dedifferentiated callus. Regenerant plants synthesized thebaine and sanguinarine at the same level as juvenile plants grown from P. bracteatum seeds. We revealed differences in the ability to produce different types of alkaloids: seed-derived plants were able to accumulate thebaine while undifferentiated primary cell cultures produced only sanguinarine. The production of either sanguinarine and morphinan alkaloids are found in regenerants showing that both metabolic pathways were active in young plantlets.     

Production of bakuchiol by in vitro systems of <Emphasis Type="Italic">Psoralea drupacea</Emphasis> Bge

In vitro production of the meroterpene bakuchiol by Psoralea drupacea Bge (Fabaceae) has been studied using aseptically-grown plants, callus cultures of different origin, cell suspensions and transgenic hairy root cultures. The effect of phytohormones and methyl jasmonate on bakuchiol production was also investigated. Bakuchiol was not detected in cell suspensions or hairy root preparations of P. drupacea. In contrast, aerial parts of P. drupacea grown in vitro were found to accumulate up to 11% dry weight of bakuchiol and can therefore be regarded as a potentially useful source of this antimicrobial compound.     

In vitro propagation of <Emphasis Type="Italic">Psoralea corylifolia</Emphasis> L. by somatic embryogenesis in cell suspension culture

An effective protocol was developed for in vitro propagation of Psoralea corylifolia via somatic embryogenesis in cell suspension culture. Embryogenic callus was obtained on Murashige and Skoog (MS) medium supplemented with 6 μM naphthaleneacetic acid (NAA) and 30 μM glutamine from transverse TCLs from 10-day-old hypocotyl explants with a 96.4% frequency. Embryogenic callus produced a higher number of somatic embryos (123.7 ± 1.24 per gram fresh weight callus) on MS medium containing 30 g l^?1 sucrose, 1 μM NAA, 4 μM benzyladenine (BA), 15 μM glutamine and 2 μM abscisic acid (ABA) after 4 weeks of culture. Somatic embryos successfully germinated (97.6%) on ½ MS medium containing 20 g l^?1 sucrose, 8 g l^?1 agar and supplemented with 2 μM BA, 1 μM ABA and 2 μM gibberellic acid (GA₃) within 2 weeks of culture. Somatic embryos developed into normal plants, which hardened with 100% efficiency in soil in a growth chamber. Plants were successfully transferred to greenhouse and subsequently established in the field. Plant survival percentage in the field differed with seasonal variations. Average psoralen content of 12.9 μg g^?1 DW was measured in different stages of somatic embryo development by high-performance liquid chromatography (HPLC). This protocol will be helpful for efficient propagation of elite clones on a mass scale, conservation efforts of this species and for secondary metabolites production studies.     

Peg-mediated fusion of Rubus idaeus (raspberry) and R. fruticosus (blackberry) protoplasts,selection and characterisation of callus lines

ABSTRACT

Cell suspension-derived protoplasts of two cultivated Rubus species, Rubus idaeus-raspberry (subgenus Idaeobatus 2n=2x=14) and R. fruticosus-blackberry (a complex species aggregate within the subgenus Eubatus, 2n=4x=28) were fused using different polyethylene glycol (PEG) fusion treatments. Duration of PEG treatment and choice of culture media influenced the rate of cell divisions and plating efficiency. Colony formation was initiated on solid media for the production of several callus lines. Cytological analyses were performed on selected callus lines with hexaploid chromosome number. Two hexaploid fusion callus lines, selected for their homogeneity in growth and ploidy level, were examined by molecular cytogenetic techniques of fluorescent in situ hybridisation (FISH) and genomic in situ hybridisation (GISH). GISH revealed the presence of the heterokaryon within the fusion callus lines. FISH probed with ribosomal DNA (rDNA) showed variable numbers and sizes of loci. Aberrant distribution and condensation of rDNA were common in interphase cells. FISH results suggest that large karyotype rearrangements occurred, including variation in chromosome number and rDNA loci translocations. Attempts to regenerate plants from the hexaploid callus lines following several applications of plant growth regulator combinations were unsuccessful. This may be attributed to the genomic reorganisation and instability of these long-term fusion callus cultures.