Thansgenic peanut plants obtained by particle bombardment via somatic embryogenesis regeneration system

INTRODUCTIONArachiS hypogaea L., Peanut or groundnut, isan importal commercial crop worldwide. It provides an excellellt source of protein and other nutrients. Its production and quality can be severelyimpacted under stressful growing conditions such ascdriate factors, pests and diseajses. Genetic engineering provides a prospective way to reduce certainproblems by transferring individual genes for pestresistance or other traits into elite germplasm of acultiVated species. Thansgenic pea…     

An efficient regeneration system via somatic embryogenesis in olive

Olive is one of the most important oil crops in the Mediterranean area. Biotechnological improvement of this species is hampered by the recalcitrant nature of olive tissue regeneration in vitro. In this investigation, we have developed an efficient regeneration system for juvenile olive explants via somatic embryogenesis. Embryogenic cultures were obtained at a rate of 25% by culturing isolated radicles from mature seeds in a modified olive medium (OMc) containing 2.5 μM 6-(dimethylallylamino) purine (2iP) and 25 μM indole-3-butyric acid (IBA) over 3 weeks and later transferring to the same medium without 2iP and with a lower IBA concentration. Two different basal formulations, OMc and olive cyclic embryogenesis medium (ECO) [1/4 OM macroelements, 1/4 Murashige and Skoog (MS) microelements and 1/2 OM vitamins supplemented with 550 mg l⁻¹ glutamine], were tested for embryogenic callus proliferation and maturation. The growth rate of embryogenic calli was similar in both media. However, the regeneration of mature embryos, achieved by culturing embryogenic masses in the same medium without hormones and supplemented with 1 g l⁻¹ activated charcoal, was significantly higher when embryos were cultured in the ECO basal formulation. Pre-culturing embryogenic masses in liquid medium for up to 4 weeks did not affect subsequent callus proliferation in solid medium. The maturation rate of small globular somatic embryos, 1–3 mm size, obtained after filtering liquid cultures through a 3 × 3 mm mesh, was also similar to control embryos cultured in solid medium. To improve the maturation and germination rates, the effect of culturing globular somatic embryos on semi-permeable cellulose acetate membranes was also tested. Membrane treatments reduced the regeneration of mature embryos from 56.5% in the control treatment to 40.6% when the membrane was applied during the first half of the 8-week maturation phase and to 18% when the membrane was applied during last 4 weeks of the maturation period. However, membrane treatments significantly enhanced the conversion of mature embryos to plants, increasing the embryo conversion rate from 1.5% in the control to an average value of 37.8% in the membrane treatment. Cotyledonary embryos that were matured on the membranes showed lower values of water and solute potential than controls, indicating that this treatment exerted a controlled desiccation rate that enhanced the recovery of plants.     

Transgenic sugarcane plants via microprojectile bombardment

Transgenic sugarcane plants were produced by bombardment of embryogenic callus with high-velocity DNA-coated microprojectiles, followed by a selection and regeneration procedure designed for this target tissue. Optimal bombardment conditions for embryogenic callus required microprojectile velocities higher than those previously found effective for sugarcane suspension culture cells. Bombardment of target tissues twice increased the number of transiently expressing cells in regenerable callus regions, to more than 300 per treated plate. Stable transformants were obtained following bombardment with the neomycin phosphotransferase (npt-II) gene under the control of the Emu strong monocot promoter. Stepped increases in antibiotic concentration during selection and regeneration allowed recovery of actively growing callus and plants on media containing geneticin concentrations completely inhibitory to untransformed controls. NPT-II levels in transformed plants were 20–50 times the background levels in control plants in ELISA assays, and Southern analysis revealed integration of one to three copies of the introduced gene in the sugarcane genome. The procedures described yield one to three transgenic plants per treated plate within 16 weeks of bombardment and provide a simple, efficient and broadly applicable system for genetic transformation of sugarcane. A similar approach should be applicable to other members of the Poaceae able to form embryogenic callus.     

Plant regeneration via somatic embryogenesis in sugarcane

Plants, regenerated from callus cultures of sugarcane (Saccharum officinarum L.) clone IJ76-316, originated through somatic embryogenesis. Callus cultures were established from primordial leaves and apical meristems on Murashige and Skoog medium (MS) supplemented with 3 mg 1^?1 2,4-dichlorophenoxy acetic acid and 100 ml 1^?1 coconut water (MSC₃). Nodular calli formed within 2 weeks of culture. Calli were maintained on MSC₃ medium by transfer every 3 to 4 weeks. Somatic embryogenesis occurred after 10 weeks culture of callus on MSC₃ medium. Somatic embryogenesis was also observed in cell suspension cultures initiated from calli maintained on MSC₃ and then cultured in half strength MS liquid medium supplemented with 0.5 mg 1^?1 2,4-D. Somatic embryos produced coleoptiles and shoots 2 to 4 weeks after transfer to MS medium supplemented with 100 ml 1^?1 coconut water (MSC), and produced complete plantlets within 4 weeks of further culture on half-strengh MS medium (half-MS) with 30 g 1^?1 sucrose. Calli grown on MSC₃ medium, when transferred to half-MS medium containing 15 g 1^?1 sucrose, produced tiny plantlets, circa 4–10 mm, without forming coleoptiles, suggesting precocious germination of somatic embryos. The regenerates included morphological variants.     

Plant regeneration via somatic embryogenesis in cotton

An efficient in vitro plant regeneration system characterized by rapid and continuous production of somatic embryos using leaf and stem explants of abnormal seedling as an explant have been developed in Gossypium hirsutum L. Embryogenic callus and somatic embryos have been obtained directly from the explants of cotton abnormal seedlings. Plant growth regulators influenced the induction of cotton somatic embryogenesis. The optimal medium for direct somatic embryogenesis was modified MS medium supplemented with 0.1 mg l^-1 ZT and 2 g l^-1 activated carbon. On this medium, an average of 28.0 and 28.1 matured somatic embryos formed from per leaf and stem explants respectively. The highest frequency of somatic embryogenesis was 100%. The somatic embryos were converted into normal plantlets when cultured on modified MS medium supplemented with 0.1 mg l^-1 ZT. Upon transfer to soil, plants grew well and appeared normal. Plants could be regenerated within 60–80 days. The system of cotton somatic embryogenesis and plant regeneration described here will facilitate the application of plant tissue culture and genetic engineering on cotton genetic improvement. This revised version was published online in June 2006 with corrections to the Cover Date.     

Plant regeneration via somatic embryogenesis in ginger

Embryogenic callus cultures of ginger were induced from young leaf segments taken from in vitro shoot cultures. Among the four auxins tested in Murashige & Skoog medium, dicamba at 2.7 M was most effective in inducing and maintaining embryogenic cultures. Efficient plant regeneration was achieved when embryogenic cultures were transferred to Murashige & Skoog medium containing 8.9 M benzyladenine. Histological studies revealed various stages of somatic embryogenesis characteristic of the monocot system. The in vitro-raised plants have been established in soil.Abbreviations BA benzyladenine - 2,4-d 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - MS Murashige and Skoog - NAA naphthaleneacetic acid     

Transgenic sorghum plants obtained after microprojectile bombardment of immature inflorescences

Summary Transgenic sorghum plants (Sorghum bicolor L. Moench, cv. SRN39) were obtained by microprojectile-mediated DNA delivery (Bio-Rad PDS 1000/He Biolistic Delivery System) to explants derived from immature inflorescences. Explants were precultured on medium supplemented with 2.5 mg/l (11.31 μM) 2,4-D, 0.5 mg/l (2.32 μM) kinetin, and 60 g/l sucrose for 1 to 2 wk prior to bombardment. Bialaphos selectron pressure was imposed 2 wk after bombardment and maintained throughout all the culture stages leading to plant regeneration. More than 2500 explants from 1.5 to 3.0 cm inflorescences were bombarded and subjected to bialaphos selection. Out of more than 190 regenerated plants, 5 were determined to be Ignite resistant. Southern analyses confirmed the likelihood that the 5 herbicide resistant plants derived from two independent transformation events. The phosphinothricin acetyltransferase gene (bar) was inherited by and functionally expressed in T₁ progeny. However, no β-glucuronidase (GUS) activity could be detected in T₁ plants that contained uidA restriction fragments. Histological analyses indicated that in the absence of bialaphos morphogenesis was primarily via embryogenesis while organogenesis was more predominant in callus maintained with herbicide selection.     

湿地松体细胞胚胎发生和植株再生

以湿地松的未成熟合子胚为外植体,在附加８ｍｇ／Ｌ,２,４－Ｄ和４ｍｇ／Ｌ ＢＡ的ＬＰ培养基上诱导出胚性愈伤组织。在含１ｍｇ／Ｌ,２,４－Ｄ和０．５ｍｇ／Ｌ ＢＡ的培养基上保持并增殖。提高培养基的渗透压后,愈伤组织内大量的胚性胚柄细胞团和早期原胚。     

Plant regeneration via somatic embryogenesis in Drimia robusta

A simple efficient in vitro plant regeneration system was developed by direct and indirect somatic embryogenesis of Drimia robusta, a medicinal plant extensively used in South African traditional medicine. Different developmental stages of somatic embryos (SEs: globular embryos, partial pear-shaped embryos and club-shaped embryos), club-shaped cotyledon initiation, plumule initiation and plantlets were directly obtained from leaf explants on Murashige and Skoog (MS) medium containing 3.5 % (w/v) sucrose and different plant growth regulators (PGRs). In MS medium containing 3.5 % (w/v) sucrose and supplemented with 10 μM picloram, 1 μM thidiazuron (TDZ) and 20 μM glutamine, a higher number of SEs and plantlets were achieved. These were established onto half-strength MS medium followed by successful acclimatization (100 %) in the greenhouse. Liquid somatic embryo medium (SEM_L) containing 500 mg of friable embryogenic callus on MS medium supplemented with different concentrations and combinations of PGRs and organic elicitors produced different stages of SEs. Somatic embryo production was enhanced by 0.5 μM picloram, 1 μM TDZ and mebendazole treatment. The highest number of plantlets (9.0 ± 0.70) was obtained in SEM_L containing 0.5 μM picloram, 1 μM TDZ and 25 mg l^?1 haemoglobin. All the cotyledon and plumule embryos germinated on half-strength MS medium, however 90 % of SEs germinated on half-strength MS medium containing 0.5 μM naphthaleneacetic acid. All plantlets were successfully acclimatized in the greenhouse. This first report of D. robusta somatic embryogenesis provides an opportunity to control extinction threats, ensure germplasm conservation and provides a system for analysis of bioactive compounds and bioactivity.     

Plant regeneration via somatic embryogenesis in Schlumbergera truncata

Somatic embryogenesis was induced from phylloclade explants of Schlumbergera truncata cv. Russian Dancer. Callus developed on phylloclade explants and sub-cultured over a period of 16 months on MS medium containing mainly cytokinins was superior for the induction of somatic embryos compared to callus grown for a shorter time in the establishment medium. Sub-culture of callus grown in SH-or MS-based liquid media supplemented with 7.0 μM kinetin and transferred onto solid MS-based medium with either 0.45 μM 2,4-D or without hormones resulted in the differentiation into somatic embryos. SH-based medium proved better than MS-based medium when used as the first medium for the induction of somatic embryogenesis. However, somatic embryogenesis, contrary to adventitious shoot formation, was reduced when 2,4-D was included in the MS-based medium used for final transfer compared to the medium without growth regulators, indicating that a critical hormonal balance was reached. Somatic embryos developed root and shoot poles when grown on G medium. On this medium approximately 70% germination was recorded in the embryos that were differentiated earlier from the callus that was grown for a longer time in the establishment medium. This callus was grown on either SH- or MS-based medium supplemented with 7.0 μM kinetin, and then transferred after 30 days (from SH medium) onto MS medium without hormones or after 40 days (from MS medium) onto MS medium with 0.45 μM 2,4-D. Furthermore, plants from somatic embryos were successfully potted in soil and showed further growth and formation of a second set of phylloclades (secondary phylloclades). Histological studies showed that somatic embryos had no detectable connection with the mother explants and that advanced stages of somatic embryos had a contained vascular system. In addition to the normal dicotyledonous embryos, anomalous embryos with multiple cotyledons and vase-like embryos were observed. Secondary embryos were also recorded in this study.     

Plant regeneration of Chorispora bungeana via somatic embryogenesis

Summary A method was developed for in vitro regeneration of plants via somatic embryogenesis in Chorispora bungeana, an alpine plant with freeze-tolerance, using cell suspensions initiated from leaf-derived callus. Primary calli were induced from leaves of C. bungeana grown on Murashige and Skoog (MS) media supplemented with 4.0 mg l⁻¹ gibberellic acid (GA₃), 0.2 mgl⁻¹ α-naphthaleneacetic acid (NAA) and 0.2 mgl⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D). Suspension culture was initiated by incubating the callus particulates in liquid MS medium supplemented with 1.0 mgl⁻¹ kinetin (KT) and 0.2 mgl⁻¹ NAA. Individual early cotyledonary-stage somatic embryos isolated from cell suspension developed into whole plants on medium containing high levels of sucrose (60 and 90 gl⁻¹), whereas lower sucrose concentrations (0 and 30 gl⁻¹) were inhibitory to main root development. On the MS medium with 90 gl⁻¹ sucrose, one regenerated plant exhibited hetero-morphologic leaves, while other plants grown on different media showed a transformation from stem to root.     

Regeneration via somatic embryogenesis from leaf basal segments and genetic transformation of bread and emmer wheat by particle bombardment

Direct gene transformation methods such as microprojectile bombardment have been successfully employed for obtaining transgenics in cereals in general and wheat in particular. As success of any transformation strategy depends largely upon the regeneration capability of the target explant, the present investigation employs leaf basal segments to achieve high regeneration response via somatic embryogenesis. Basal segments of 5-day-old seedlings of T. aestivum var. CPAN1676 and T. dicoccum var. DDK1001 were cultured on callusing medium for 3 weeks at 26 ± 1 °C, discontinuous light followed by a culture period of 15 days at 21 ± 1 °C in continuous light. The calli were then transferred to auxin-free medium for regeneration in discontinuous light at 26 ± 1 °C. Regeneration via somatic embryogenesis was observed within 2 weeks in T. aestivum var. CPAN1676 and T. dicoccum var. DDK1001 (68 and 82%, respectively). This embryogenic calli were employed further to obtain hygromycin resistance by particle bombardment in T. aestivum and T. dicoccum. A transformation efficiency of 8.6, 7.5 and 4.9% was obtained in T. aestivum var. CPAN1676, PBW343 and T. dicoccum DDK1001, respectively. Presence of the transgene hptII (hygromycin) in T ₀ plants was confirmed by Southern hybridization.     

基因枪轰击谷子幼穗获得转基因植株

以ＪＱ－７００型国产基因枪轰击豫谷２号谷子幼穗,在１５０ｍｇ／Ｌ卡那霉素选择培养基上筛选到９０８块抗性愈伤组织,其中,绿芽块愈伤５块,共分化出１６株绿苗,组织化学检测ＧＵＳ表达,获得３株阳性植株,Ｓｏｕｔｈｅｒｎ杂交证明１株为阳性。以轰击总外植体计算的转基因植株频率为０．０５％。     

Effects of brassinosteroid on cotton regeneration via somatic embryogenesis

Brassinolide (BR), which is the most biologically active brassinosteroid, was used to examine the potential effect of hormone on cotton somatic embryogenesis. Ten-day-old cotton (Gossypium hirsutum L., cv. Cooker) seedlings were used for explant source and hypocotyls were removed and cultured on MS basal medium with B₅ vitamins supplemented with 1 mg/L 6-benzylaminopurine + 0.5 mg/L kinetin for callus induction. After one month proliferating calli pieces were collected and cultured on MS basal medium containing various concentrations of BR (0.1, 0.5, 1.0 μM) with their controls. BR treatments were negatively effective on the fresh weight of calli when compared to control. Differential somatic embryogenesis maturation rates due to BR treatment were observed. Somatic embryogenesis was stimulated especially for transition to cotyledonary phase at 0.5 mg/L BR. Histological preparations from embryogenic calli and somatic embryos at different stages of development revealed the spontaneous polyploidisation during early somatic embryogenesis on BR-treated calli. Present results suggest that BR negatively effected calli growth, however, had a stimulating role in maturation of somatic embryos.     

Efficient plant regeneration of Mesembryanthemum crystallinum via somatic embryogenesis

 An efficient plant regeneration procedure has been established from hypocotyl explants of the common ice plant, Mesembryanthemum crystallinum L, a halophytic leaf succulent that exhibits a stress-induced switch from C3 photosynthesis to crassulacean acid metabolism (CAM). Somatic embryos were initiated and developed up to globular and heart stages in Murashige and Skoog (MS) media supplemented with 3% sucrose, 0.6% bacto-agar, 80 mM NaCl, 5 μM 2,4-D and 1 μM kinetin. High frequency regeneration occurred when somatic embryos were germinated on media that lacked 2,4-D. High cytokinin treatment suppressed normal growth of embryos and favored abnormal embryo proliferation. Without growth regulators, regenerated plants rooted on MS medium with 100% efficiency. Mature, regenerated plants were fertile and morphologically identical to seed-derived plants. Received: 29 April 1999 / Revision received: 2 July 1999 · Accepted: 12 July 1999     

Plant regeneration through somatic embryogenesis in peanut (Arachis hypogaea L.)

Somatic embryos were induced from immature cotyledons and immature embryonal axis ofArachis hypogaea L. on L-6 basal medium supplemented with NAA, picloram or 2,4-D at 5–50 mg 1^-1. Immature embryonal axis produced a higher number of somatic embryos in comparison with immature cotyledons. The highest number of responding cultures was produced on medium supplemented with NAA (50 mg 1^-1), while the highest average number of somatic embryos per culture was produced on medium with 2,4-D (10 or 20 mg 1^-1) and picloram (30 mg 1^-1) from cotyledons. The somatic embryos developed into plants on basal medium supplemented with activated charcoal and about 100 plants were successfully transferred to the field. Acknowledgement: The authors wish to thank Nuclear Agriculture Division, BARC for supplyingA. hypogaea seeds and Mr. R.M. Mudliar for photography.     

Plant regeneration via direct somatic embryogenesis in Panax japonicus

Panax japonicus is one of the important medicinal plants. Here, we established the protocol for plant regeneration of P. japonicus via direct somatic embryogenesis. Somatic embryos were directly obtained from the segments of zygotic embryos on MS medium with 4.4 μM 2,4-D. Thereafter, somatic embryos were produced by repetitive secondary somatic embryogenesis. The secondary somatic embryo formation was enhanced by plasmolyzing pretreatment (1.0 M mannitol for 10 h). Frequency of secondary somatic embryo formation from cotyledon segments was lowered by plasmolyzing pretreatment, but the number of somatic embryos per explants was greatly increased. Plasmolyzing pretreatment resulted in retardation of embryo growth and required subculture to fresh medium for further growth of embryos into cotyledonary stage. Without plasmolyzing pretreatment, cotyledonary embryos were obtained after 8 weeks of culture. All the cotyledonary somatic embryos germinated by 5 μM GA₃ treatment, but only 15.3% were germinated on hormone-free medium. After 2 months of culture on 1/2 strength WPM medium, plantlets produced flowers spontaneously. In the anthers of in vitro flowers, microsporogenesis occurred normally with low number of pollen grains.     

Comparative analysis of transgenic rice plants obtained by Agrobacterium-mediated transformation and particle bombardment

We compared rice transgenic plants obtained by Agrobacterium-mediated and particle bombardment transformation by carrying out molecular analyses of the T₀, T₁ and T₂ transgenic plants. Oryza sativa japonica rice (c.v. Taipei 309) was transformed with a construct (pWNHG) that carried genes coding for neomycin phosphotransferase (nptII), hygromycin phosphotransferase (Hyg^r), and -glucuronidase (GUS). Thirteen and fourteen transgenic lines produced via either method were selected and subjected to molecular analysis. Based on our data, we could draw the following conclusions. Average gene copy numbers of the three transgenes were 1.8 and 2.7 for transgenic plants obtained by Agrobacterium and by particle bombardment, respectively. The percentage of transgenic plants containing intact copies of foreign genes, especially non-selection genes, was higher for Agrobacterium-mediated transformation. GUS gene expression level in transgenic plants obtained from Agrobacterium-mediated transformation was more stable overall the transgenic plant lines obtained by particle bombardment. Most of the transgenic plants obtained from the two transformation systems gave a Mendelian segregation pattern of foreign genes in T₁ and T₂ generations. Co-segregation was observed for lines obtained from particle bombardment, however, that was not always the case for T₁ lines obtained from Agrobacterium-mediated transformation. Fertility of transgenic plants obtained from Agrobacterium-mediated transformation was better. In summary, the Agrobacterium-mediated transformation is a good system to obtain transgenic plants with lower copy number, intact foreign gene and stable gene expression, while particle bombardment is a high efficiency system to produce large number of transgenic plants with a wide range of gene expression.     

Regeneration of pineapple plants via somatic embryogenesis and organogenesis

Summary We have developed efficient methods for plant regeneration, via both embryogenesis and organogenesis, of Smooth Cayenne pineapple, Ananas comosus (L.) Merr. Leaf bases and core (stem) sections of in vitro shoots, produced from culture of crown tip meristem, were used as explants for plant regeneration as follows: (1) Leaf base and core section explants cultured on Murashige and Skoog (MS) medium containing 41 μM 4-amino-3,5,6-trichloropicolinic acid (picloram, P) or thidiazuron (T)/P combinations produced embryogenic tissues. Different types of embryogenic tissues (friable emryogenic tissue, embryogenic cell cluster, and chunky embryogenic tissue) have been developed with varying properties in terms of growth rate and state of development. The embryogenic tissues regenerated shoots upon culture on MS medium containing 13 μM 6-benzylaminopurine (BA) and 1μM α-naphthaleneacetic acid (NAA) followed by culture on MS medium containing 4 μM BA. (2) Crown tip meristems cultured on MS medium containing 13 μM BA followed by leaf explants cultured on MS medium with 27 μM NAA and 1 μM BA produced shoots via direct organogenesis. (3) Explants cultured on MS medium containing 5 μM T and 0.5 μM indole-3-butyric acid (IBA) produced nodular globular structures, which produced shoots upon culture on MS medium containing 1 μM BA and 1 μM gibberellic acid. Shoots obtained from all of the above methods were rooted in half-strength MS medium containing 3 μM NAA and 2.5 μM IBA. Plants were transferred to the greenhouse or shipped to Costa Rica for field trials. Somatic embryo-derived plants exhibited 21 % spininess, and organogenic-derived plants exhibited 5% spininess in the field trials.