In vitro plantlet regeneration from cotyledons of the tree-legume Leucaena leucocephala

Two plant regeneration methods applicable to Leucaenaleucocephala were developed. In the first method, involvingorganogenesis via callus formation, cotyledon, hypocotyl and root segments wereinitiated on MS medium containing different concentrations ofN⁶-benzyladenine (BA), 2,4-dichlorophenoxyacetic acid (2,4-D), andnaphthaleneacetic acid (NAA). Both compact (type I) and friable (type II) calliwere obtained from the cotyledon and hypocotyl explants treated with differentconcentrations of the growth regulators. Shoots were generated only from thefriable calli formed from the cotyledon explants. The calli formed from thehypocotyl explants did not generate shoots and the root explants died withoutforming callus. Cotyledon explants from 3–4 day old seedlings showedmaximum callus induction compared to those from older seedlings. In a secondmethod involving direct organogenesis, excised cotyledons were cultured on 1/2MS medium containing 10–35 mg l^–1N⁶-benzyladenine (BA) for 7–14 days. Transfer of thecotyledonsto regeneration medium containing low BA resulted in callus formation andsubsequent shoot regeneration from the base of the excised cotyledon explants,with up to 100% frequency. Regenerated shoots rooted best on a basal mediumcontaining no growth regulators.     

Agrobacterium-mediated genetic transformation of oilseed Brassica campestris: Transformation frequency is strongly influenced by the mode of shoot regeneration

Summary Protocols were developed for efficient shoot regeneration from hypocotyl and cotyledon explants of oilseed Brassica campestris (brown sarson) cv. Pusa Kalyani. These were used for genetic transformation by an Agrobacterium based binary vector carrying neomycin phosphotransferase (npt) gene and -glucuronidase (gus)-intron gene for plant cell specific expression. Transformed plants were recovered from hypocotyl explants at a frequency of 7–13%. Addition of silver nitrate markedly enhanced shoot regeneration in hypocotyl explants under non-selection conditions and was found to be an absolute requirement under selection conditions. Cotyledon explants, inspite of being more regenerative, proved to be highly refractory to transformation. Only two chimeric transformed shoots were obtained from more than 10,000 cotyledons treated with Agrobacterium. In hypocotyl explants, shoot regeneration occurred from the vascular parenchyma both with and without the intervention of callus phase. Only the shoot buds differentiating from callus tissue were positive for GUS activity. In cotyledons, shoot buds originated only directly from the vascular parenchyma, generally at a distance of about 450–625 from the cut surface. Such shoots were negative for GUS activity.     

Ethylene and shoot regeneration: hookless1 modulates de novo shoot organogenesis in Arabidopsis thaliana

We have investigated the role of ethylene in shoot regeneration from cotyledon explants of Arabidopsis thaliana. We examined the ethylene sensitivity of five ecotypes representing both poor and prolific shoot regenerators and identified Dijon-G, a poor regenerator, as an ecotype with dramatically enhanced ethylene sensitivity. However, inhibiting ethylene action with silver nitrate generally reduced shoot organogenesis in ecotypes capable of regeneration. In ecotype Col-0, we found that ethylene-insensitive mutants (etr1-1, ein2-1, ein4, ein7) exhibited reduced shoot regeneration rates, whereas constitutive ethylene response mutants (ctr1-1, ctr1-12) increased the proportion of explants producing shoots. Our experiments with ethylene over-production mutants (eto1, eto2 and eto3) indicate that the ethylene biosynthesis inhibitor gene, ETO1, can act as an inhibitor of shoot regeneration. Pharmacological elevation of ethylene levels was also found to significantly increase the proportion of explants regenerating shoots. We determined that the hookless1 (hls1-1) mutant, a suppressor of the ethylene response phenotypes of ctr1 and eto1 mutants, is capable of dramatically enhancing shoot organogenesis. The effects of ACC and loss of HLS1 function on shoot organogenesis were found to be largely additive.     

Transgenic Pinus radiata from Agrobacterium tumefaciens–mediated transformation of cotyledons

A method for Agrobacterium tumefaciens-mediated transformation of Pinus radiata cotyledon explants was developed using commercially available open-pollinated seed. Pinus radiata is the most widely planted commercial conifer species in the Southern Hemisphere. Reports on transformation of this species have relied on particle bombardment of embryogenic callus derived from immature embryos. The main drawback to the method is the small number of genotypes that are amenable to transformation and regeneration. Since more than 80% of genotypes of radiata pine can be regenerated using cotyledons from mature seed, cotyledon explants were cocultivated with A. tumefaciens strain AGL1 containing a plasmid coding for the neomycin phosphotransferase II (nptII) gene and the -glucuronidase (GUS) gene (uidA). Transformed shoots were selected using either geneticin or kanamycin. Critical factors for successful transformation were survival of the cotyledons after cocultivation and selection parameters. Of the 105 putative transformants that were recovered from selection media, 70% were positive for integration of the nptII gene when analysed by PCR. GUS histochemical assay for uidA expression was unreliable because of reaction inhibition by unidentified compounds in the pine needles. Further, only 4 of the 26 independent transformants characterised by PCR and Southern analysis contained an intact copy of both genes. The remaining 22 transformants appeared to have a truncated or rearranged copy of the T-DNA. It is possible that the truncation/rearrangements are due to the Cauliflower mosaic virus (CaMV) 35S promoter. Analysis of the T-DNA junction sites and sequencing of the introduced DNA will help elucidate the nature of T-DNA insertion so that genetic modification of radiata pine can be targeted effectively.Communicated by P. Debergh     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of an endangered plant species, <Emphasis Type="Italic">Thermopsis turcica</Emphasis> (Fabaceae)

This report deals with micropropagation of the critically endangered and endemic Turkish shrub, Thermopsis turcica using callus, root and cotyledonary explants. Callus cultures were initiated from root and cotyledon explants on MS medium supplemented with 0.5–20 μM NAA or 2,4-D. The root explants were found to be better in terms of quick responding and callusing percentages as compared to the cotyledons. Organogenic callus production with adventitious roots and shoots were obtained on MS medium with only NAA. The calli obtained with NAA, root and cotyledonary explants were cultured with BA and kinetin (2–8 μM) alone or in combination with a low level (0.5 μM) of 2,4-D or NAA. The best regeneration of shoots from root explants was observed on hormone-free MS medium. NAA with BA or kinetin in the medium improved shoot induction from the calli obtained with NAA. Maximum percentage of shoots (93.3%), maximum number of shoots (6.2) and maximun length of shoots (8.22 cm) were achieved from cotyledonary explants at 4 μM BA and 0.5 μM NAA. The presence of 0.5 μM or higher levels of 2,4-D in shoot induction medium inhibited the regeneration in T. turcica explants. 83% of in vitro rooting was attained on pulsed-IBA treated shoots. The regenerated plants with well developed shoots and roots were successfully acclimatized. Application of this study’s results has the potential to conserve T. turcica from extinction.     

Plant regeneration via direct embryo axis-like shoot and root formation from excised cotyledon explants of ginseng seedlings

Summary Cotyledon explants of Panax ginseng at various developmental stages were cultured on Murashige and Skoog (MS) medium with 0.5 μM indole butyric acid and 8.8 μM N⁶-benzyladenine. Upon culturing of cotyledon explants from mature zygotic embryos, 34% of the explants formed somatic embryos, and 46% formed adventitious shoots. In the cotyledon explants from 1-wk-old seedlings, embryo axis-like shoots and roots developed at a high frequency (79%) near the excised portion of the cotyledon base. The developmental pattern of embryo axis-like organ formation was structurally different from that of somatic embryos and adventitious shoots but similar to that of parts of the embryo axis of zygotic embryos. In the early stages of embryo axis-like organ formation, epicotyl-like shoot primordia were developed directly from the cotyledon base after 2 wk of culture; subsequently roots developed near the base of the epicotyl-like shoots and eventually regenerated into plantlets with both shoots and roots. The frequency of embryo axis-like organ formation declined as the growth of seedlings proceeded. In addition, the frequency of somatic embryo and adventitious bud formation rapidly declined with the age of the cotyledons. Plant regeneration via embryo axis-like organ formation might be a new pattern of morphogenesis in P. ginseng cotyledon culture.     

Regenerative callus of <Emphasis Type="Italic">Dianthus</Emphasis> ‘Telstar Scarlet’ showing mixoploidy produce diploid plants

Highly regenerative callus was isolated from the base of adventitious shoots on cotyledon explants of Dianthus hybrida Telstar Scarlet cultured on MS medium supplemented with 1 mg l⁻¹ TDZ and 0.1 mg l⁻¹ NAA. Flow cytometric analysis showed that cotyledon tissue is a mixture of diploid and tetraploid cells. Whereas the regenerative callus consisted of cells showing various ploidy levels of 2C to 16C, their regeneration ability was maintained as long as they were sub-cultured onto fresh media. More than 93% of regenerated shoots from the calluses were diploid. Only a few shoots were revealed as tetraploids and octoploids, suggesting that diploid cells had higher regeneration ability.     

Agrobacterium tumefaciens-mediated transformation of Rhipsalidopsis gaertneri

A protocol for Agrobacterium tumefaciens-mediated genetic transformation of Rhipsalidopsis cv. CB5 was developed. Calluses derived from phylloclade explants and sub-cultured onto fresh callus induction medium over a period of 9–12 months were co-cultivated with A. tumefaciens LBA4404. Plasmid constructs carrying the nptII gene, as a selectable marker, and the reporter uidA gene were used. Transformed Rhipsalidopsis calluses with a vigorous growth phenotype were obtained by extended culture on media containing 600 mg l⁻¹ kanamycin. After 9 months of a stringent selection pressure, the removal of kanamycin from the final medium together with the culture of the transformed calluses under nutritional stress led to the formation of several transgenic adventitious shoots. Transformation was confirmed by GUS staining (for uidA gene), ELISA analysis and Southern blot hybridization (for the nptII gene). With this approach, a transformation efficiency of 22.7% was achieved. Overall results described in this study demonstrate that Agrobacterium-mediated transformation is a promising approach for this cactus species.     

<Emphasis Type="Italic">Organogenic callus</Emphasis> as the target for plant regeneration and transformation via <Emphasis Type="Italic">Agrobacterium</Emphasis> in soybean (<Emphasis Type="Italic">Glycine max</Emphasis> (L.) Merr.)

A regeneration and transformation system has been developed using organogenic calluses derived from soybean axillary nodes as the starting explants. Leaf-node or cotyledonary-node explants were prepared from 7 to 8-d-old seedlings. Callus was induced on medium containing either Murashige and Skoog (MS) salts or modified Finer and Nagasawa (FNL) salts and B5 vitamins with various concentrations of benzylamino purine (BA) and thidiazuron (TDZ). The combination of BA and TDZ had a synergistic effect on callus induction. Shoot differentiation from the callus occurred once the callus was transferred to medium containing a low concentration of BA. Subsequently, shoots were elongated on medium containing indole-3-acetic acid (IAA), zeatin riboside, and gibberellic acid (GA). Plant regeneration from callus occurred 90 ∼ 120 d after the callus was cultured on shoot induction medium. Both the primary callus and the proliferated callus were used as explants for Agrobacterium-mediated transformation. The calluses were inoculated with A. tumefaciens harboring a binary vector with the bar gene as the selectable marker gene and the gusINT gene for GUS expression. Usually 60–100% of the callus showed transient GUS expression 5 d after inoculation. Infected calluses were then selected on media amended with various concentrations of glufosinate. Transgenic soybean plants have been regenerated and established in the greenhouse. GUS expression was exhibited in various tissues and plant organs, including leaf, stem, and roots. Southern and T₁ plant segregation analysis of transgenic events showed that transgenes were integrated into the soybean genome with a copy number ranging from 1–5 copies.     

Regeneration of flax plants transformed by Agrobacterium rhizogenes

Regeneration of flax (Linum usitatissimum) following transformation by either Agrobacterium tumefaciens carrying a disarmed Ti-plasmid vector, or Agrobacterium rhizogenes carrying an unmodified Ri plasmid, was examined. Hypocotyl and cotyledon explants inoculated with A. tumefaciens formed transformed callus, but did not regenerate transformed shoots either directly or via callus. However, cotyledon explants inoculated with A. rhizogenes formed transformed roots which did regenerate transformed shoots. Ri T-DNA encoded opines were detected in the transformed plantlets and Southern hybridization analysis confirmed the presence of T-DNA from the Ri plasmid in their DNA. Transformed plantlets had curled leaves, short internodes and some had a more developed root system characterized by plagiotropic behaviour.     

In vitro plant regeneration from cotyledon explants of Swainsona salsula Taubert

An effective protocol has been developed for plant regeneration from cotyledon explants of Swainsona salsula Taubert (Saline swainsona), a medicinal and agronomic shrub. Adventitious shoots were obtained from 83.2% of cotyledon explants from 3-day seedlings cultured on Murashige and Skoog (MS) medium containing 2.0 mg l⁻¹ thidiazuron (TDZ), with an average of 9.3 shoots per explant. Individual elongated shoots were rooted on half strength MS medium supplemented with 2.0 mg l⁻¹ indole-3-butyric acid (IBA), with 59.3% success. Regenerated plants with well developed shoots and roots were successfully transferred to soil, without detectable variants. Histological observation revealed that shoots developed from cotyledon explants via organogenesis, with little callus. This revised version was published online in June 2006 with corrections to the Cover Date.     

Genetic tranformation of cotyledon explants of cowpea (Vigna unguiculata L. Walp) using Agrobacterium tumefaciens

Mature de-embryonated cotyledons with intact proximal end of Vigna unguiculata were cultured on B5 basal medium containing varying concentrations of BAP. Thirty-six percent of the explants produced shoots on B5 medium supplemented with 8× 10^–6 M BAP. Cotyledon explants were pre-incubated for 24 h, inoculated with A. tumefaciens pUCD2614 carrying pUCD2340, co-cultivated for 48 h and transferred to hygromycin-B (25 mg/l) containing shoot induction medium. Approximately 15–19% of the explants produced shoots on the selection medium. The elongated shoots were subsequently rooted on B5 basal medium containing hygromycin. The transgenic plants were later established in pots. The presence of hpt gene in the transgenic plants was confirmed by Southern blot hybridization.Abbreviations BAP 6-Benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - hpt hygromycin phosphotransferase - IAA Indole-3-acetic acid - NAA 1-naphthaleneacetic acid     

Shoot regeneration from seedling explants of Acacia mangium Willd

Summary Regeneration of adventitious shoots was obtained in over 80% of explants, consisting of wounded cotyledonary nodes of Acacia mangium, by culturing germinated seedlings on DKW medium with combinations of N⁶-benzyladenine and either thidiazuron or N-(2-chloro-4-pyridyl)-N-phenylurea. Electron microscopy showed the presence of adventitious buds arising from wound tissue of the cotyledons and cotyledonary nodes. Shoot regeneration was also obtained at lower frequency in isolated cotyledon explants cultured with 6% sucrose alone (10%), or with 3% sucrose and 30.0 mg l⁻¹ (0.1 μM) 2–4-dichlorophenoxyacetic acid (2,4-D; 16%). With 2,4-D,>60% of explants produced organized structures but these did not develop into shoots or somatic embryos. Shoot formation was not induced in either hypocotyl or root explants.     

In vitro plantlet regeneration from cotyledon, hypocotyl and root explants of hybrid seed geranium

In vitro plantlet regeneration systems for the seed geranium (Pelargonium x hortorum Bailey) using cotyledon, hypocotyl and root explants were optimized by studying the influence of seedling age, growth regulators and excision orientation on organogenesis. Indole-3-acetic acid combined with zeatin yielded the highest rate of shoot production on cotyledon explants (0.2–2 shoots per explant). More shoots were produced on explants cut from the most basal region of cotyledons from 2 to 4-day-old seedlings than from older seedlings or more distal cut sites. Hypocotyl explants produced the highest number of shoots, up to 40 shoots per explant, on indole-3-acetic acid (2.8–5.6 mM) + zeatin (4.6 mM) or thidiazuron (4.5 mM). Maximum shoot formation (0.3–1.4 shoots per explant) on root explants occurred when they were cultured on medium containing zeatin. Regenerated shoots rooted best on a basal medium containing no growth regulators. There were substantial differences among cultivars in shoot formation from each of the explant systems.Abbreviations BA 6-benzylaminopurine - 2,4-d 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - NAA naphthaleneacetic acid - TDZ thidiazuron     

In vitro regeneration and Agrobacterium-mediated genetic transformation of Euonymus alatus

An in vitro plant regeneration method and an Agrobacterium tumefaciens-mediated genetic transformation protocol were developed for Euonymus alatus. More than 60% of cotyledon and 70% of hypocotyl sections from 10-day-old seedlings of E. alatus produced 2–4 shoots on woody plant medium (WPM) supplemented with 5.0 mg/l 6-benzylaminopurine (BA) plus 0.2 mg/l α-naphthalene acetic acid (NAA), and 77% of shoots produced roots on WPM medium with 0.3 mg/l NAA and 0.5 mg/l Indole-3-butyricacid (IBA). On infection with Agrobacterium tumefaciens strain EHA105 harboring a gusplus gene that contained a plant recognizable intron from the castor bean catalase gene to ensure plant-specific β-glucuronidase (GUS) expression, 16% of cotyledon and 15% of hypocotyl explants produced transgenic shoots using kanamycin as a selection agent, and 67% of these shoots rooted. Stable insertion of T-DNA into the host genome was determined with organ- and tissue-specific expression of the gusplus gene and further confirmed with a PCR-based molecular analysis.     

Agrobacterium rhizogenes-mediated transformation of Brassica oleracea var. sabauda and B. oleracea var. capitata

Agrobacterium rhizogenes A4M70GUS-mediated transformation of Savoy cabbage (Brassica oleracea L. var. sabauda) and two local lines of cabbage (B. oleracea L. var. capitata) was obtained using hypocotyl and cotyledon explants. The percentage of explants which formed roots was very high in all genotypes: 92.3 % in Savoy Gg-1, 64.4 % in cabbage P₂₂I₅, and 87.2 % in P₃₄I₅. Spontaneous shoot regeneration of excised root cultures grown on the hormone-free medium occurred in all three genotypes. In cabbage lines P₂₂I₅ and P₃₄I₅ shoot regeneration was higher (9.3 and 2.6 % respectively) than in Savoy cabbage Gg-1 (1.3 %). Transgenic nature of hairy root-derived plants was evaluated by GUS histological test and PCR analysis. All the tested cabbage shoots were GUS positive whilst in a Savoy cabbage GUS expression was registered only in 55 % of tested clones. PCR analysis demonstrated the presence of the GUS gene in regenerated shoot clones and in T₁ progeny.     

Callus,shoot and hairy root formation in vitro as affected by the sensitivity to auxin and ethylene in tomato mutants

We analyzed the impact of ethylene and auxin disturbances on callus, shoots and Agrobacterium rhizogenes-induced hairy root formation in tomato (Solanum lycopersicum L.). The auxin low-sensitivity dgt mutation showed little hairy root initiation, whereas the ethylene low-sensitivity Nr mutation did not differ from the control Micro-Tom cultivar. Micro-Tom and dgt hairy roots containing auxin sensitivity/biosynthesis rol and aux genes formed prominent callus onto media supplemented with cytokinin. Under the same conditions, Nr hairy roots did not form callus. Double mutants combining Rg1, a mutation conferring elevated shoot formation capacity, with either dgt or Nr produced explants that formed shoots with little callus proliferation. The presence of rol + aux genes in Rg1 hairy roots prevented shoot formation. Taken together, the results suggest that although ethylene does not affect hairy root induction, as auxin does, it may be necessary for auxin-induced callus formation in tomato. Moreover, excess auxin prevents shoot formation in Rg1.     

Genetic analysis of involvement of ETR1 in plant response to salt and osmotic stress

The involvement of ethylene and ethylene receptor Ethylene Response 1 (ETR1) in plant stress responses has been highlighted. However, the physiological processes involved remain unclear. In this study, we have investigated the physiological response of two alleles etr1-1 and etr1-7 mutants during germination and post-germination seedling development in response to salt and osmotic stress. The etr1-1 mutants showed increased sensitivity to osmotic (200 mM or higher mannitol) and salt stress (50 mM NaCl or higher) during germination and seedling development, whereas the etr1-7 mutants displayed enhanced tolerance to the severe stresses (500 mM mannitol or 200 mM NaCl). These results provide physiological and genetic evidence that ethylene receptor ETR1 modulates plant response to abiotic stress. Furthermore, the etr1-1 and etr1-7 mutants showed different responses to exogenous abscisic acid (ABA) inhibition. The etr1-1 mutants were more sensitive to ABA than the wild type during germination, and young seedling development. In sharp contrast, the etr1-7 mutants showed enhanced insensitivity to ABA treatment (>1 μM ABA) in post-germination development including root elongation and greening of cotyledons of the treated seedlings, although the germination was not greatly altered at the tested doses of ABA. The results suggest that ETR1-modulated stress response may mediate ABA. Youning Wang and Tao Wang contributed equally to this report.     

High-frequency regeneration and transformation ofRaphanus savus

We have achieved high-frequency shoot regeneration in radish(Raphanus sativus). Cotyledon explants from four-day-old seedlings were suitable for the effective induction of shoots on Murashige and Skoog’s (MS) medium containing 3.0 mg/L kinetin. We also determined that it was essential to include 1- to 2-ram petiole segments with the cotyledons for efficient induction. When the regenerated shoots were transferred to an MS liquid medium containing 0.1 mg/L NAA, roots formed within four weeks, and normal plant development ensued. We established a transformation protocol using anAgrobacterium binary vector that carries the GUS reporter gene. Preculturing the explants for I d in an MS medium containing 3.0 mg/L kinetin also increased efficiency. Five days of cocultivation proved best for delivering T-DNA into radish. Transformation frequencies of up to 52% were obtained in shoot induction media that contained 3.0 mg/L kinetin.     

High efficiency <Emphasis Type="Italic">In vitro</Emphasis> plant regeneration from cotyledon explants of <Emphasis Type="Italic">Incarvillea sinensis</Emphasis>

Summary A simple and effective procedure has been developed for plantlet regeneration from cotyledon-derived callus of the medicinally important herb and ornamental species, Incarvillea sinensis. An average of 18.4 adventitious shoots per explant were obtained from 100% cotyledon explants cultured on half-strength Murashige and Skoog (MS) medium containing 1.0 mg l⁻¹ 6-benzylaminopurine for 3 wk, followed by another 4 wk on hormone-free 1/2×MS medium. The cotyledon explants continued to expand and regenerate new shoots upon repeated subculturing onto fresh medium. Most regenerated shoots (66.9%) were rooted on 1/4×MS mediumcontaining 1.0 mg l⁻¹ indole-3-acetic acid, with an average of about 3.8 roots per shoot. Regenerated plants with well developed shoots and roots were successfully acclimatized in soil and were normal phenotypically.