High Efficiency Plant Regeneration from Protoplasts of the Indica Cultivar IR58

Procedures have been established for embryogenic cell suspension,protoplast culture, and plant regeneration from the Indica ricecultivar, IR58. Embryogenic cell suspension was establishedin modified R2 medium and maintained in amino acid-based AAmedium. Protoplasts were cultured in R2 basal medium containingB5 vitamins. Plants were regenerated in MS basal medium with3% maltose as carbon source. Selection of embryogenic protoplast-derivedcalli is an important step for high-frequency plant regeneration.More than 900 plants were regenerated through this procedure. Key words: Rice (Oryza sativa, Indica, Protoplast, Maltose     

In vitro Shoot Regeneration from Seedling Root Segments of Brassica oleracea and Brassica napus Cultivars

Root segments taken from aseptically-grown seedlings of Brassicaoleracea var. italica cv. Green Comet were used in an investigationof factors affecting in vitro regeneration. Shoot regenerationwas found to increase with seedling age and to be highest inroot segments adjacent to the hypocotyl and lowest in segmentsadjacent to the root tip. In a comparison of a range of mediaand agar concentrations shoot formation was favoured by complexmedia containing reduced nitrogen and was higher on gelled mediathan in liquid medium. The effects of various cytokinins andauxins were investigated; KN was the best cytokinin and IAAand Picloram the best auxins for shoot induction. Root segmentsfrom six other Brassica cultivars were grown on the medium devisedfor Green Comet; shoots were regenerated from two B. oleraceacultivars and two B. napus cultivars, but not from the B. campestriscultivars tested. Brassica oleracea var. italica, Brassica napus, Brassica campestris, seedling root culture, shoot regeneration     

Efficient plant regeneration from cell cultures of ornamental statice, Limonium sinuatum mill.

Summary A plant regeneration system from cell suspension cultures was established in an important ornamental crop, Limonium sinuatum Mill. cv. ‘Early Rose’. Friable callus was initially induced from leaf segments of in vitro-cultured seedlings on 0.25% gellan gum-solidified half-strength Murashige and Skoog [1/2MS] medium containing 1.0 mg l⁻¹ (4.14 μM) picloram. These calluses were maintained as cell suspension cultures, which showed high proliferation ability with about 80 times increase in fresh weight during the 2-wk interval of subculture. Shoot regeneration from these cell cultures was achieved by cytokinins, especially zeatin, which was the most effective in producing normal shoots with reduced hyperhydration when used in combination with 0.5% gellan gum. Shoot regeneration ability was different among the cell lines originated from each different seedling. Shoot formation was observed at different frequencies on four of five cell lines whereas one cell line showed no shoot differentiation. Regenerated shoots detached from callus readily rooted 1 mo. after the transfer onto 0.5% gellan gum-solidified 1/2MS medium lacking plant growth regulators. The plantets were successfully transferred to the greenhouse after acclimatization. No ploidy changes were observed in the callus induced or in the regenerated plantlets. The regenerated plantlets that were transferred to the greenhouse after acclimatization grew normally and did not any morphological signs of somaclonal variation.     

In Vitro Selection for Salt Tolerance in Brassica juncea L. Using Cotyledon Explants, Callus and Cell Suspension Cultures

Salt-tolerant Brassica juncea L. cell lines or plants have beenselected by screening callus pieces, cell suspension culturesand cotyledon explants in vitro on high concentrations of NaCl.Callus-based selection was unsatisfactory, as only two out ofseven isolated clones retained tolerance after 3 months of subcultureon NaCl-free medium. Selections made via plated cell suspensionswere found to be more stable for salt-tolerance. AH selectedtolerant cell lines, however, failed to regenerate plantlets.A third selection method, employing cotyledon explants was basedon their high potential for regenerating multiple shoots. Outof a total of 2620 explants cultured on high salt media, threesurvived, showed sustained callus proliferation and each regeneratedone shoot. The salt-selected shoots withstood the stabilitytest after 3 months of growth and axillary bud multiplicationon NaCl-free medium. While one of these somaclones was morphologicallyabnormal and sterile, the other two could be reared to maturitywith normal seed set. Brassica juncea, tissue culture, in vitro selection, salt-tolerance, plant regeneration     

Stable transformation via particle bombardment in two different soybean regeneration systems

The Biolistics^® particle delivery system for the transformation of soybean (Glycine max L. Merr.) was evaluated in two different regeneration systems. The first system was multiple shoot proliferation from shoot tips obtained from immature zygotic embryos of the cultivar Williams 82, and the second was somatic embryogenesis from a long term proliferative suspension culture of the cultivar Fayette. Bombardment of shoot tips with tungsten particles, coated with precipitated DNA containing the gene for -glucuronidase (GUS), produced GUS-positive sectors in 30% of the regenerated shoots. However, none of the regenerants which developed into plants continued to produce GUS positive tissue. Bombardment of embryogenic suspension cultures produced GUS positive globular somatic embryos which proliferated into GUS positive somatic embryos and plants. An average of 4 independent transgenic lines were generated per bombarded flask of an embryogenic suspension. Particle bombardment delivered particles into the first two cell layers of either shoot tips or somatic embryos. Histological analysis indicated that shoot organogenesis appeared to involve more than the first two superficial cell layers of a shoot tip, while somatic embryo proliferation occurred from the first cell layer of existing somatic embryos. The different transformation results obtained with these two systems appeared to be directly related to differences in the cell types which were responsible for regeneration and their accessibility to particle penetration.     

Effects of Culture Conditions on Cell Division and Composition of Regenerated Cell Walls in Vinca rosea Protoplasts

Protoplasts prepared from suspension-cultured Vinca rosea cellswere grown in a liquid medium, and the effects of osmolarityand growth regulators on cell division and on the compositionof regenerated cell walls were investigated. The concentrationof mannitol optimal for cell division was 0.3–0.4 M. Thepresence of 2,4-D was essential for cell division, and 6-benzylaminopurine(BAP) enhanced cell division at concentrations of 0.03–0.1ppm. However, the composition of regenerated cell walls wasabnormal under suspension culture; the predominant sugar wasglucose, indicating that the regenerated cell walls consistedmostly of glucans, and that the other cell-wall components werereleased into the medium. Mannitol, 2,4-D, and BAP at variousconcentrations did not significantly affect the sugar compositionof the regenerated cell walls. Compared with liquid culture,cell division was stimulated when protoplasts were culturedon agar, and their regenerated cell walls had a compositionsimilar to that of the original culture. The importance of thephysical environment for the deposition of polysaccharide componentsin cell walls and the interrelationship between cell divisionand the regeneration of cell walls by protoplasts are discussed. ¹ Present address: Division of Environmental Biology, NationalInstitute for Environmental Studies, Yatabe, Tsukuba, Ibaraki305, Japan. (Received June 10, 1981; Accepted December 12, 1981)     

Zinc tolerance and accumulation in stable cell suspension cultures and in vitro regenerated plants of the emerging model plant Arabidopsis halleri (Brassicaceae)

Arabidopsis halleri is increasingly employed as a model plant for studying heavy metal hyperaccumulation. With the aim of providing valuable tools for studies on cellular physiology and molecular biology of metal tolerance and transport, this study reports the development of successful and highly efficient methods for the in vitro regeneration of A. halleri plants and production of stable cell suspension lines. Plants were regenerated from leaf explants of A. halleri via a three-step procedure: callus induction, somatic embryogenesis and shoot development. Efficiency of callus proliferation and regeneration depended on the initial callus induction media and was optimal in the presence of 1 mg L⁻¹ 2,4-dichlorophenoxyacetic acid, and 0.05 mg L⁻¹ benzylaminopurine. Subsequent shoot and root regeneration from callus initiated under these conditions reached levels of 100% efficiency. High friability of the callus supported the development of cell suspension cultures with minimal cellular aggregates. Characterization of regenerated plants and cell cultures determined that they maintained not only the zinc tolerance and requirement of the whole plant but also the ability to accumulate zinc; with plants accumulating up to 50.0 μmoles zinc g⁻¹ FW, and cell suspension cultures 30.9 μmoles zinc g⁻¹ DW. Together this work will provide the experimental basis for furthering our knowledge of A. halleri as a model heavy metal hyperaccumulating plant.     

Cell Wall Architecture Prerequisite for the Cell Division in the Protoplasts of White Poplar, Populus alba L.

White poplar (Populus alba L.) protoplasts were investigatedat 0, 3,10, 20 and 30 d after regeneration to visualize thecell wall architecture prerequisite for cell division. The 10day-old cells just before cell division developed a thin walllayer with uneven deposition of cell wall materials and weresaved from bursting by suspension in low osmotic medium. Thethree dimensional architecture of the cell wall, as revealedby rapid-freezing and deep-etching electron microscopy, in 10day-old cells, constituted thin innermost lamellae on the plasmamembrane along with highly extended micronbrillar networks.These results suggest that the deposition of thin lamellae isimportant not only for cells to withstand bursting but alsoto induce cell division. The present investigations give thefirst account of the visualization of the three-dimensionalarchitecture of regenerated cell wall right before cell division. (Received July 31, 1997; Accepted April 6, 1998)     

Plant regeneration from protoplasts of a commercial Asian long-grain javanica rice

A reproducible plant regeneration system has been developed for protoplasts from embryogenic cell suspension cultures of the commercial Asian long-grain javanica rice, Oryza sativa cv. Azucena. Protoplasts were isolated routinely from cell suspensions with yields of 5.5–12.0 × 10⁶ g^-1 fresh weight. A membrane filter nurse-culture method was adopted and was essential to support sustained mitotic division of protoplast-derived cells, leading to cell colony formation. The protoplast plating efficiency was higher when suspension cells of Lolium multiflorum, rather than those of the japonica rice O. sativa L. cv. Taipei 309, were employed as nurse cells. A two-step shoot regeneration procedure, in which protoplast-derived calli were cultured initially on medium semi-solidified with 1% (w/v) agarose followed by culture on medium containing 0.4% (w/v) agarose, induced plant regeneration from protoplast-derived calli. Fifteen percent of protoplast-derived tissues regenerated shoots; tissues not subjected to this treatment failed to develop shoots.     

Visual selection and maintenance of the cell lines with high plant regeneration ability and low ploidy level in Dianthus acicularis by monitoring with flow cytometry analysis

Efficient plant regeneration system from cell suspension cultures was established in D. acicularis (2n=90) by monitoring ploidy level and visual selection of the cultures. The ploidy level of the cell cultures closely related to the shoot regeneration ability. The cell lines comprising original ploidy levels (2C+4C cells corresponding to DNA contents of G1 and G2 cells of diploid plant, respectively) showed high regeneration ability, whereas those containing the cells with 8C or higher DNA C-values showed low or no regeneration ability. The highly regenerable cell lines thus selected consisted of compact cell clumps with yellowish color and relatively moderate growth, suggesting that it is possible to select visually the highly regenerable cell lines with the original ploidy level. All the regenerated plantlets from the highly regenerable cell cultures exhibited normal phenotypes and no variations in ploidy level were observed by flow cytometry (FCM) analysis.     

High-frequency Organogenesis from Direct Seed Culture in Lathyrus

Culture conditions were developed for inducing a high frequencyof direct shoot morphogenesis and whole plant regeneration incultures of intact seedlings of Lathyrus cicera L., L. ochrus(L.) DC., L. sativus L., and L. tingitanus L. The procedureof shoot regeneration involved culturing of whole, mature seedson MS medium containing cytokinins, or thidiazuron (TDZ), asubstituted phenylurea with cytokinin-like activity. Differentiationof shoots occurred without an intervening callus phase fromthe cotyledonary node and surrounding tissues of the intactseedlings developed from seeds germinated on media containingkinetin, BAP or TDZ. An average of 19·0, 15·8,28·8 and 43·0 shoots were regenerated at optimalconcentrations of 50·0, 50·0 and 80·0 µMBAP in L. cicera, L. tingitanus, L. ochrus and L. sativus, respectively.TDZ enhanced the shoot formation at the concentration of 10µM to an average of 33·1 and 33·7 shootsper seedling in L. cicera and L. tingitanus and at 50 µM,to 57·4 shoots per seedling in L. sativus. Regeneratedshoots developed roots on a modified MS medium containing 2·5µM NAA and the surviving plantlets were transferred tosoil. Histological studies revealed de novo formation of shoot budsfrom the epidermal or subepidermal cells of the basal and nodalregion of multiple epicotyls. Several meristematic centres consistingof actively-dividing cells developed in the subepidermal celllayer of the nodal tissue and adjacent areas within 7 d of seedculture on a cytokinin- or TDZ-supplemented medium. The patternof the development of these meristematic centres and shoot developmentwas similar in all four species.Copyright 1993, 1999 AcademicPress Seed culture, direct shoot morphogenesis, Lathyrus, thidiazuron, grass pea, vetch ochrus     

Establishment of embryogenic callus and high protoplast yielding suspension cultures of sugarcane (Saccharum spp. hybrids)

For 18 sugarcane cultivars, four distinct callus types developed on leaf explant tissue cultured on modified MS medium, but only Type 3 (embryogenic) and Type 4 (organogenic) were capable of plant regeneration. Cell suspension cultures were initiated from embryogenic callus incubated in a liquid medium. In stage one the callus adapted to the liquid medium. In stage two a heterogeneous cell suspension culture formed in 14 cultivars after five to eight weeks of culture. In stage three a homogeneous cell suspension culture was developed in six cultivars after 10 to 14 weeks by selective subculturing to increase the proportion of actively dividing cells from the heterogeneous cell suspension culture. Plants were regenerated from cell aggregates in heterogeneous cell suspension cultures for up to 148 days of culture but plants could not be regenerated from homogeneous cell suspension cultures. High yields of protoplasts were obtained from homogeneous cell suspension cultures (3.4 to 5.2 × 10⁶ protoplasts per gram fresh weight of cells [gfwt^-1]) compared to heterogeneous cell suspension cultures (0.1 × 10⁶ protoplasts gfwt^-1). Higher yields of protoplasts were obtained from homogeneous cell suspension cultures for cultivars Q63 and Q96 after regenerating callus from the cell suspension cultures, then recycling this callus to liquid medium (S-cell suspension cultures). This process increased protoplast yield to 9.4 × 10⁶ protoplasts gfwt^-1. Protoplasts isolated from S-cell suspension cultures were regenerated to callus and recycled to produce SP-cell suspension cultures yielding 6.4 to 13.2 × 10⁶ protoplasts gfwt^-1. This recycling of callus to produce S-cell suspension cultures allowed protoplasts to be isolated for the first time from cell lines of cultivars Q110 and Q138.     

Plant regeneration from leaf petioles in <Emphasis Type="Italic">Camptotheca acuminata</Emphasis>

Summary Camptothecin, produced by Camptotheca acuminata, is a pharmaceutically important compound. Transgenic technology has potential uses for the enhancement of camptothecin production; however, an efficient plant regeneration protocol for C. acuminata is not currently available. Factors that affected successful seedling germination were evaluated. The regeneration potential of various parts of seedlings was tested. Camptothecin production in regenerated plants was compared to its production in calluses and the original seedlings. Dark incubation and seed coat removal led to a higher germination rate and a higher survival rate after germination. The best shoot induction medium was found to be Gamborg's B5 medium+8.9 μM benzyladenine. Among the calluses induced from various parts of seedlings, leaf petiole calluses, leaf dise calluses, and cotyledon calluses regenerated shoots, but internode calluses did not. Furthermore, leaf petiole calluses and leaf dise calluses regenerated normal shoots, while cotyledon calluses regenerated hyperhydric shoots. Moreover, leaf petiole calluses had a higher shoot regeneration rate, 50% versus 9%, and a higher shoot number, 6.2±0.5 versus 2.0±0.3, than did leaf dise calluses on the best shoot induction medium. It took 4–6 wk to regenerate shoots after transfer into shoot induction media. Camptothecin concentration in the regenerated plants was significantly higher than that in the calluses and similar to that in the original seedlings. In conclusion, leaf petioles provide efficient plant regeneration of C. acuminata.     

Direct Organogenesis and Plant Regeneration in Preconditioned Tissue Cultures of Lathyrus cicera L., L. ochrus (L.)DC. and L. sativus L.

This study demonstrates the importance of preconditioning ofsource tissue in regeneration of multiple shoot buds from severalspecies of Lathyrus. Preconditioned multiple shoots of Lathyruscicera L., L. ochrus (L.) DC. and L. sativus L. were obtainedby germinating seeds on Murashige and Skoog (MS) medium containing50 µM N⁵-benzylaminopurine (BAP) for 2 to 3 weeks. Multipleshoot bud formation occurred when epicotyl explants of preconditionedshoots were cultured on MS medium containing 5–50 µMBAP. No shoot regeneration was observed from epicotyl explantswhich were obtained from non-preconditioned shoots. Shoot budswere formed directly on explants without an intervening callusphase after 2 to 3 weeks of culture. Regenerated shoot budsformed healthy shoots which developed prolific and strong rootswhen transferred to MS medium supplemented with 2.5 µMnaphthaleneacetic acid (NAA). Lathyrus cicera L., L. ochrus (L.) DC., Ochrus Vetch, L. sativus L., Lathyrus pea, de novo differentiation, epicotyl, preconditioning with BAP     

Plant regeneration of Solanum lycopersicoides Dun. from stem explants,callus and suspension cultures

Protocols were established for achieving plant regeneration from stem internode, callus, and cell suspension cultures of Solanum lycopersicoides Dun. Two accessions of S. lycopersicoides exhibited different responses as to callus formation on various media, requirement of gibberellic acid for shoot regeneration, and ability to grow in suspension culture. The optimum medium for initiation and maintenance of cell suspension cultures was Murashige and Skoog [9] medium with 15 mg l^– NAA. For shoot regeneration, of three cytokinins tested, zeatin was found most effective relative to number, rapidity of response and overall quality of shoots. Shoot regeneration from stem explants, callus and suspension cultures was optimum on MS + 3.0 mg l^–1 zeatin + 0.1 mg l^–1 gibberellic acid.Michigan Agricultural Experiment Station Journal Article No. 11589.     

Recovery of Totipotent Cells and Plantlet Production from Daylily Protoplasts

The release of protoplasts by means of enzymes from a totipotentcell suspension of a diploid daylily (Hemerocallis cv. ‘AutumnBlaze’), their collection and distribution in plasticculture vessels and their subsequent regeneration is described.Attention is given to aggregation and to the different formsof growth during the initial stages of culture. The methodsfor the subsequent multiplication of the regenerated cells intomorphogenetically competent compact clusters and the manipulationof these clusters to yield embryo-plantlets are also outlined.The implications of all this in terms of potential for the geneticmodification of daylily is discussed. Hemerocallis, cloning, protoplasts     

Miscanthus×giganteus plant regeneration: effect of callus types,ages and culture methods on regeneration competence

The perennial rhizomatous grass, Miscanthus×giganteus is an ideal biomass crop due to its rapid vegetative growth and high biomass yield potential. As a naturally occurring sterile hybrid, M. ×giganteus must be propagated vegetatively by mechanically divided rhizomes or from micropropagated plantlets. Plant regeneration through somatic embryogenesis is a viable approach to achieve large‐scale production of plantlets in tissue culture. Effect of the callus types, ages and culture methods on the regeneration competence was studied to improve regeneration efficiency and shorten the period of tissue culture in M. ×giganteus. Shoot‐forming calli having a yellow or white compact callus with light‐green shoot‐like structures showed the highest regeneration frequency. Percentage of shoot‐forming callus induction from immature inflorescence explants was 41% on callus induction medium containing 13.6 μM 2,4‐d and 0.44 μM benzyladenine (BA). The use of a regeneration medium containing 1.3 μM NAA and 22 μM BA was effective at shortening the incubation period required for plantlet regeneration, with 69% of total regenerated plantlets obtained within 1 month of incubation on regeneration medium. Embryogenic‐like callus morphotype could maintain regeneration competency for up to 1 year as suspension cultures. Field grown regenerated plants showed normal phenotypic development with DNA content and plant heights comparable to rhizome propagated plants. Winter survival rates of the regenerated plants planted in 2006 and 2007 at the University of Illinois South Farm, Urbana‐Champaign, Illinois, were 78% and 56%, respectively.     

Regeneration from Isolated Portions of the Shoot Apex of Trachymene coerulea R. C. Grah

To test the morphogenettc capacity of parts of the shoot apexof Trachymene coerulea after explanting from the subjacent tissues,explants of decreasing sizes, comprising different regions ofthe menstem, were made. Growth was on culture medium withoutexogenous growth regulators. The centre of the shoot apex producedfewer mature leaves and fewer embryos from the basal tissuesthan did the flanks when separated from any continuing influencefrom the subjacent tissues. This result is interpreted as dueto physiological differences between the regions of the shootapex. While regeneration from the flanks was greater than thatfrom the centres, the latter can be regarded as morphogeneticallycompetent and physiologically active. The lesser regenerationfrom the centres is regarded as the result of greater dominanceover the basal tissues than that exerted by the flanks. Trachymene coerulea R. C. Grah, blue lace flower, shoot apex culture, regeneration of portions of shoot apex, morphogenesis     

Experimentally Synthesized Plant Chimeras I. In vitro Recovery of Nicotiana tabacum L. Chimeras from Mixed Callus Cultures

Experiments were conducted to develop techniques for synthesizingchimeras between plants of known genotype by utilizing in vitrotechniques Chimeral calli composed of green and albino tobaccocells were obtained by initiating callus tissue from mixturesof albino and green cotyledons, hypocotyls, callus culturesand cell suspensions The most effective mixing of genotypesoccurred when callus was derived from mixed filtered cell suspensionsUpon shoot regeneration, chimeral calli yielded 1317 non-chimeraland four chimeral plants Chimeras may have arisen as a resultof experimental procedures or possibly from spontaneous chromosomalabnormalities since leaves of some albino control plants occasionallyproduced small green islands of cells Explanations for the recoveryof a high percentage of non-chimeral shoots are presented Tobacco, callus cultures, cell suspensions, tissue culture, shoot apical meristems, somatic-crossing over     

Histology of the Morphogenic Response in Thin Cell Layer Explants from Vegetative Tobacco Plants

The morphogenic response of thin cell layers (TCLs) from vegetativetobacco (Nicotiana tabacum L.) plants can be directed very preciselyby varying the concentrations of benzyladenine (BA) and -naphthaleneacetic acid (NAA) in the culture medium. Medium containing 1·6µM BA and 0·5 µM NAA was optimal for shootformation, concentrations of 0·5 µM BA and 1·6µM NAA were optimal for the induction of shoots and rootson the same explant, whereas concentrations of NAA higher than16 µM resulted in callus proliferation only. Polarityin the distribution of the shoot buds was observed, i.e. a switchfrom basal to apical shoot formation occurred with increasingNAA concentrations, suggesting basipetal transport of NAA. Histologicalexamination of TCLs on shoot induction medium revealed thatfirst cell divisions occurred within 2 d in cortical cells whichwere directly in contact with the medium along the longitudinalcut surface, and after 2 d in subepidermal cells along the lateraledges of the explants. Individual lateral buds originated fromone subepidermal and one or more epidermal cells, while apicalbuds originated from single subepidermal or cortical cells locateddirectly at the apical end of the explant. After culture ofTCLs for 2-3 d on root/shoot induction medium cells in the regeneration-competentsubepidermis elongated, while on callus induction medium subepidermalcells elongated and dedifferentiated. The regeneration systemas described in this study will be used to identify cells competentfor regeneration as well as for transformation.Copyright 1994,1999 Academic Press Nicotiana tabacum L., tobacco, thin cell layer explants, cell competence, shoot development, polarity