Efficient callus induction and plant regeneration from mature embryo culture of winter wheat (Triticum aestivum L.) genotypes

Immature and mature embryos of 12 common winter wheat (Triticum aestivum) genotypes were cultured in vitro to develop an efficient method of callus formation and plant regeneration from mature embryo culture, and to compare the responses of both embryo cultures. Fifteen days after anthesis, immature embryos were aseptically dissected from seeds and placed with the scutellum upwards on a solid agar medium containing the inorganic components of Murashige and Skoog (MS) and 2 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D). Mature embryos were moved slightly in the imbibed seeds. The seeds with moved embryos were placed furrow downwards in dishes containing 8 mg/l 2,4-D for callus induction. The developed calli and regenerated plants were maintained on 2,4-D-free MS medium. Plants regenerated from both embryo cultures were vernalized and grown to maturity in soil. Regenerated plantlets all maintained the hexaploid chromosome number. A strong genotypic effect on the culture responses was found for both explant cultures. Callus induction rate, regeneration capacity of callus and number of plants regenerated were independent of each other. Mature embryos had a high frequency of callus induction and regeneration capacity, and therefore, being available throughout the year, can be used as an effective explant source in wheat tissue culture. Received: 4 February 1997 / Revision received: 1 April 1997 / Accepted: 5 May 1997     

Embryogenic suspension cultures of Pinus nigra Arn.: growth parameters and maturation ability

Suspension cultures have been established from embryogenic tissues of Pinus nigra initiated from immature zygotic embryos. The growth of tissues in liquid medium has been influenced by initial tissue weight used for the establishment of the cultures as well as by genotype. In most of the cases initial tissue weight 0.5 g was insufficient and the cultures showed poor growth and later degeneration. Higher amount of initial tissues (1 or 2.5 g) was more efficient for the establishment and proliferation of somatic embryos in liquid medium. The growth of suspension cultures was also cell line dependent. Somatic embryo maturation in liquid medium was very limited and no plantlet regeneration occurred. Cotyledonary somatic embryos developed and produced emblings when the suspension was plated on filter paper discs and cultured on solid maturation medium. Based on our experiments we can state that the embryogenic tissues are able to grow and proliferate in liquid medium but somatic embryo maturation and plantlet regeneration occur only on solid medium.     

Compact callus cluster suspension cultures of Catharanthus roseus with enhanced indole alkaloid biosynthesis

Summary Compact callus clusters showing a certain level of cellular or tissue differentiation were established from Catharanthus roseus stem and leaf explants in a modified MS liquid induction medium supplemented with 5.37 μM α-naphthaleneacetic acid and 4.65 μM kinetin. In the induction medium most leaf explants developed into friable half-closed hollow callus clusters, whereas in the same medium containing 2,4-dichlorophenoxyacetic acid instead of α-naphthaleneacetic acid, most leaf explants were induced to form dispersed cell suspension cultures. Characteristics of these different types of suspension cultures were compared, and the results showed that the compact callus clusters could synthesize indole alkaloids 1.9- and 2.4-fold higher than the half-closed hollow callus clusters and dispersed cell cultures, respectively. The degree of compaction expressed by the ratio of fresh weight to dry weight of these suspension cultures was correlated to indole alkaloid production. Our studies also postulated that the level of cellular/tissue differentiation might be responsible for these different alkaloid synthesis capabilities. Sucrose regime affected some properties (the size, degree of compaction, differentiation level) of the compact callus cluster cultures and therefore influenced alkaloid production.     

Growth and Maintenance of an Embryogenic Cell Culture of Daylily (Hemerocallis) on Hormone-free Medium

Callus cultures of the diploid daylily (Hemerocallis) clone‘Autumn Blaze’ were initiated and maintained inhormone-containing nutrient medium. At various times (from 6weeks to 1 year) after being initiated, hormone-derived cultureswere evaluated for their ability to be maintained and to multiplyon hormone-free medium at low pH (between pH 4 and 4.5). Cultureshad to be exposed to hormone-containing medium for at least12 weeks before they could be maintained on hormone-free mediumat low pH. The transition to maintainability on low pH hormone-freemedium included the production of many aberrant embryonal forms('neomorphs'). However, all hormone-derived cultures testedconsisted entirely of preglobular stage proembryos (PGSPs) after12–24 weeks on low pH hormone-free medium. PGSP cultureshave been maintained and multiplied as such for over 1 yearon low pH hormone-free medium. PGSPs continue their developmentinto various somatic embryo stages when cultured on hormone-freemedium buffered at pH 5.8. The production of well-formed somaticembryos was greatly enhanced when PGSPs were plated on activatedcharcoal impregnated filter papers that were placed on top ofthe agar surface. The gross morphology and histology of thePGSPs and stages of somatic embryo development are presented.The work shows that the ability of hormone-free medium at lowpH to permit PGSP multiplication without development into laterstages of embryo development is not restricted to carrot. Hemerocallis cv, ‘Autumn Blaze’, daylily, somatic embryogenesis, hormone-free medium, tissue culture     

Enhancing initiation and proliferation in radiata pine (<Emphasis Type="Italic">Pinus radiata</Emphasis> D. Don) somatic embryogenesis through seed family screening,zygotic embryo staging and media adjustments

In Pinus spp., initiation of somatic embryogenesis (SE) is influenced by the developmental stage of immature embryos, the genotype of the parent trees and the formulation of tissue culture medium. Optimizing all these factors can lead to improved initiation and proliferation response; however, few studies have focused on improving these stages. For this reason, the objectives of this research were to determine the best immature zygotic embryo developmental stage for initiation and to test the effect of different sources of organic nitrogen in the initiation and proliferation steps in Pinus radiata SE. We have determined and verified the optimum zygotic embryo developmental stages 2–4 for embryogenic tissue (ET) initiation and proliferation and identified the most responsive seed families in two consecutive years. Besides EDM (Walter et al. 1998), medium with high gellan gum content during ET proliferation maintained the embryogenic tissue in a better micro-morphological arrangement for a longer time.     

Somatic embryogenesis and long term maintenance of embryogenic lines from fox grapes

In the present paper, a method for the induction and long-term maintenance embryogenic cultures for Vitis × Labruscana `Niagara' and `Fredonia' is reported. Embryogenic cultures from these two cultivars were induced in an embryogenesis establishment medium (CIM) from ovaries obtained from flowers 10–14 days pre-anthesis. The embryogenic lines obtained in this experiment have been stably maintained for more than 2 years, through repeated subcultures on a long-term maintenance medium (LTMM) without loss of embryogenic competence. Somatic embryo regeneration and maturation have been successfully achieved after 30 days of cultivating embryogenic cultures in an embryo regeneration medium (EDMM), supplemented with charcoal and polyethylene glycol. The somatic embryos were successfully germinated in two different media, `Fredonia' germination medium (FGM) and `Niagara' germination medium (NGM), and converted into normal looking plants on a conversion medium (CM). This revised version was published online in June 2006 with corrections to the Cover Date.     

The rare occurrence of plant tissue culture contamination by Methylobacterium mesophilicum

A pink-pigmented, facultative methylotrophic (PPFM) bacterium, Methylobacterium mesophilicum, which is found on the leaf surface of most plants, has been reported to be a covert contaminant of tissue cultures initiated from Glycine max (soybean) leaves and seeds by Holland and Polacco (1992). The bacteria can be detected as pink colonies when leaves are pressed or tissue culture homogenates are plated on a medium with methanol as the sole carbon source. Since the presence of contaminating bacteria can confound any biochemical results obtained with such cultures (Holland and Polacco 1992), we wanted to determine the extent of the contamination of our tissue cultures of soybean and other species. No PPFMs were detected in any soybean culture we have, and previous results describing the biochemical characteristics of ureide utilization by one of our soybean suspension cultures (27C) also indicates that PPFM bacteria were not present. Analysis of about 200 other strains of 11 different species maintained in this lab showed that only three of about 160 callus cultures, recently initiated from Datura innoxia leaves, contained PPFMs. The D. innoxia leaves did have PPFMs on their surface but in most cases they did not survive the surface disinfestation and culture regimes. Thus PPFM bacterial contamination should not be a serious problem in most plant tissue cultures.Abbreviations AMS ammonium mineral salts medium - PPFM pink-pigmented facultative methylotrophic bacteria     

Factors influencing induction and maintenance of <Emphasis Type="Italic">Vitis rotundifolia</Emphasis> Michx. embryogenic cultures

Unopened leaves, petioles and fully opened leaves from micropropagation cultures of five Vitis rotundifolia Michx. varieties were cultured on induction medium to study their embryogenic response. Among the various explants tested, the maximum number of varieties produced embryogenic cultures from unopened leaves followed by fully opened leaves and petioles. Based on morphological differences, two types of embryogenic cultures were identified. Friable cultures typically arose as proembryonic masses (PEM) on induction medium, whereas somatic embryo production without an intervening PEM stage was observed in compact cultures. Of the five varieties tested, the highest frequency of embryogenic response was observed from fully opened leaves of ‘Supreme’ and unopened leaves and petioles of ‘Delicious’. Attempts to initiate suspension cultures from varieties resulted in proliferation and maintenance of ‘Alachua’ and ‘Carlos’ cultures in liquid medium for 16 weeks. Embryogenic potential of varieties was studied on cultures growing on embryo development medium. The maximum number of cotyledonary stage somatic embryos from 0.2 g proembryonic masses were observed in ‘Carlos’ (379.3) followed by ‘Alachua’ (350.0) and ‘Delicious’ (305.0). Cotyledonary stage somatic embryos germinated when cultured on Murashige and Skoog medium containing 1 μM Benzyladenine (BA). Although high embryo germination rates (80–100%) were observed in the varieties tested, plant recovery from germinated somatic embryos ranged from 6–47%. Embryogenic cultures could be maintained on X6 medium and used in genetic engineering studies.     

Induction of somatic embryogenesis and genetic transformation of ohio buckeye (Aesculus glabra willd.)

Summary Mature embryo axes of the Ohio buckeye were germinated on a medium containing 1 mg gibberellic acid (GA) per 1. Three wk following germination, stem, petiole, and leaf blade tissues were excised and placed on media containing either 1 mg (4.5 μM) 2,4-dichlorophenoxy acetic acid (2,4-D) per 1, 1 mg (4.7 μM) kinetin per 1, 1 mg of both 2,4-D (4.5 μM) and kinetin (4.7 μM per 1, or 2 mg of both 2,4-D (9.1 μM) and kinetin (9.3 μM) per 1. Embryogenic tissue was formed only from stem segments after 2–3 mo. of culture on media containing both 2,4-D and kinetin. Embryogenic tissue could be either maintained on solid medium for proliferation of embryogenic callus or placed in liquid medium for proliferation of embryogenic suspension cultures. For transformation of suspension cultures, tissues were inoculated with Agrobacterium EHA105 containing the binary plasmid Vec035, briefly sonicated, and cultured in the presence of 100 μM acetosyringone for 2 d. To eliminate Agrobacterium, tissues were washed and placed in liquid proliferation medium containing either 500 mg Cefotaxime per 1 or 400 mg TimentinŖ per 1. Selection on 20 mg hygromycin per 1 was initiated 2 wk after inoculation, and after an additional 10 wk, hygromycin-resistant tissue was isolated and separately cultured. Although some hygromycinresistant clones were recovered with no sonication treatment, four to five times more clones were obtained following sonication. Putative transformed clones were confirmed to be transgenic via both histochemical β-glucuronidase (GUS) assay and southern hybridization analyses. Development of transgenic embryos occurred on a growth regulator-free medium containing 3% sucrose. After 2 mo. of embryo development, the embryos were transferred to fresh medium for germination.     

Bioreactor studies of the effect of medium pH on carrot (Daucus carota L.) somatic embryogenesis

Daucus carota cell differentiation was examined under different medium pH conditions in a controlled bioreactor. Somatic embryogenesis was affected by pH changes. Embryo production was greatest when the pH of the hormone-free medium was maintained at 4.3. However, the same level was not favourable to development since most embryos did not progress to the torpedo and plantlet stages. In contrast, although there was about a threefold decrease in embryo yield in cultures on the same free 2,4-dichlorophenoxyacetic acid medium maintained at pH 5.8, cells differentiated into fully developed plantlets. Changes in embryo development appeared to be associated with alterations in ammonium loss from the medium and sugar uptake.Abbreviation 2,4-D 2,4-dichlorophenoxyacetic acid     

Somatic embryogenesis in pumpkin (Cucurbita pepo L.): control of somatic embryo development by nitrogen compounds

Embryogenic cultures of pumpkin (Cucurbita pepo L.) were initiated from mechanically wounded mature zygotic embryos on 2,4-D-containing MS medium, and on hormone-free, semisolid modified MS medium containing NH4Cl as the sole source of nitrogen. The habituated line was derived from the embryogenic tissue induced with 2,4-D and maintained on medium without growth regulators. Sustained subculturing of the three embryogenic lines on a medium with NH4Cl as the sole source of nitrogen enabled the establishment of highly uniform cultures in which no further development into mature embryo stages occurred. The tissue consisting of proembryogenic globules or globular stage embryos was maintained, without decline, for over six years. Globular embryos proceeded to maturity when a combination of reduced (NH4) and unreduced (NO3) forms of nitrogen was provided in the medium. Different nitrogen sources in the medium caused changes of medium pH during subculture in the pH range of 4.0-6.5. The tissue growth and embryo development were blocked on medium with pH adjusted and stabilized at 4.0 or at 3.2.     

Embryogenic suspensions of adult cork oak: the first step towards mass propagation

Protocols have been established to clone adult cork oak trees by somatic embryogenesis using semisolid medium. However, for economically viable mass propagation, embryogenic cultures in liquid medium need to be developed. In this study, suspension cultures were initiated from embryo clusters obtained by secondary embryogenesis on a gelled medium lacking plant growth regulators. After 6 days of culture, these embryo clusters generated high cell density suspensions that also contained small organized structures (embryos and embryogenic clumps). As the culture duration increased, tissue necrosis and fewer embryogenic structures were observed and the establishment of suspension cultures failed. An alternative method was found adequate for initiation of embryogenic suspensions: embryo clusters from gelled medium were briefly shaken in liquid medium and detached cells and embryogenic masses of 41–800 μm were used as inoculum. Maintenance of embryogenic suspensions was achieved using a low-density inoculum (43 mg l^?1) by subculturing four embryogenic clumps of 0.8–1.2 mm per 70 ml of medium. Proliferation ability was maintained for almost 1 year through ten consecutive subcultures. The initiation and maintenance protocols first developed for a single genotype were effective when tested on 11 cork oak genotypes.     

Repetitive somatic embryogenesis from peanut cultures in liquid medium

Summary A regeneration system based on repetitive somatic embryogenesis was developed for peanut (Arachis hypogaea L.). Embryogenic suspension cultures were initiated using individual somatic embryos induced from immature cotyledons cultured on a modified Murashige and Skoog medium containing 40 mg/l 2,4-D for 30 days. After transfer to a modified MS liquid medium, the somatic embryos produced masses of secondary and tertiary embryos which continued to proliferate following manual separation and subculture of the embryogenic clumps. The cultures exhibited exponential growth, and have been maintained for over one year without apparent loss of embryogenic potential. Further embryo development, germination, and conversion were achieved by placing embryo clumps onto hormone-free, solid medium. The inclusion of a desiccation period during embryo development enhanced conversion four-fold. Plants have been established in soil and appear to be phenotypically normal.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - NAA 1-naphthaleneacetic acid - BA 6-benzylaminopurine - MSO Modified Murashige and Skoog basal medium - EM embryogenic masses     

Cryopreservation of Embryogenic Culture of Pinus roxburghii

Embryogenic cultures of chir pine (Pinus roxburghii Sarg.) were cryopreserved successfully in liquid nitrogen. It was found that using sorbitol and dimethyl sulfoxide (DMSO) as cryoprotectants was essential for the survival of the tissue. Among the different concentrations of the cryoprotectants used, the most effective treatment was observed to be 0.3 M sorbitol and 5 % DMSO. On staining the cryopreserved tissue with fluorescein diacetate, it was observed that only a few meristematic embryo heads survived and resumed growth after a very short initial lag phase. The recovered cultures showed normal regrowth on proliferation medium and, it was also observed that washing off the cryoprotectants was necessary for the cultures to survive. The results indicate that cryopreservation can be used for conserving the germplasm, and in maintaining the embryogenic capacity of the tissue. This revised version was published online in July 2006 with corrections to the Cover Date.     

Developmental pathways of somatic embryogenesis

Somatic embryogenesis is defined as a process in which a bipolar structure, resembling a zygotic embryo, develops from a non-zygotic cell without vascular connection with the original tissue. Somatic embryos are used for studying regulation of embryo development, but also as a tool for large scale vegetative propagation. Somatic embryogenesis is a multi-step regeneration process starting with formation of proembryogenic masses, followed by somatic embryo formation, maturation, desiccation and plant regeneration. Although great progress has been made in improving the protocols used, it has been revealed that some treatments, coinciding with increased yield of somatic embryos, can cause adverse effects on the embryo quality, thereby impairing germination and ex vitro growth of somatic embryo plants. Accordingly, ex vitro growth of somatic embryo plants is under a cumulative influence of the treatments provided during the in vitro phase. In order to efficiently regulate the formation of plants via somatic embryogenesis it is important to understand how somatic embryos develop and how the development is influenced by different physical and chemical treatments. Such knowledge can be gained through the construction of fate maps representing an adequate number of morphological and molecular markers, specifying critical developmental stages. Based on this fate map, it is possible to make a model of the process. The mechanisms that control cell differentiation during somatic embryogenesis are far from clear. However, secreted, soluble signal molecules play an important role. It has long been observed that conditioned medium from embryogenic cultures can promote embryogenesis. Active components in the conditioned medium include endochitinases, arabinogalactan proteins and lipochitooligosaccharides.     

Characteristic symptoms of photosynthesis inhibition by herbicides are expressed in photomixotrophic tissue cultures of Nicotiana

A photomixotrophic tissue culture system for Nicotiana plumbaginifolia and N. tabacum has been developed in which a primary symptom (bleching) of the inhibition of photosynthetic electron transport by herbicides can be observed. Photomixotrophic cultures were initiated and maintained in the light on medium containing 0.2–0.3% sucrose or glucose (low-sugar medium) as sole source of respirable carbohydrate. The usual medium for growing heterotrophic cultures contains 2–3% sucrose or glucose (high-sugar medium). Callus grown on low-sugar medium achieved a fresh weight three to four times greater in the light than in the dark and reached about half that of callus grown on high-sugar medium. Carbon-dioxide fixation rates were an order of magnitude higher in cultures grown on low-sugar medium in the light than in those grown on high-sugar medium or in any of the dark-grown cultures. The lightdependent growth and CO₂-fixation rates of cultures grown on low-sugar medium indicated that a major proportion of the weight increase resulted from photosynthesis. Under these photomixotrophic conditions it was found that a number of photosystem-II herbicides, at concentrations which inhibit photosynthetic electron transport, also inhibited the light-dependent component of callus growth, and caused bleaching. These effects could not be demonstrated on high-sugar medium.Abbreviations PSII photosystem II For common names of the herbicides the reader is referred to Weed Res. 19, 401–406 (1979)     

Long-term cultures of chick embryo fibroblasts transformed by the Schmidt-Ruppin strain (D) of Rous sarcoma virus.

Attempts have been made to keep in vitro, for extended periods of time, cultures of chick embryo fibroblasts transformed by the Schmidt-Ruppin strain of Rous sarcoma virus, subgroup D. Roller cultures of transformed chick cells kept in serum-deficient medium can be maintained without subcultivation for up to 6 months. The confluent cultures continuously release viruses and viable tumor cells into the medium. The released cells can be plated and have characteristics of growth and morphology which are relatively stable with time until the culture degenerates. Cells released at later stages of the culture produced substantially more viruses than those released earlier, suggesting that cell selection or differentiation occurs during long-term cultivation in low serum concentration. Long-term cultures of untransformed chick embryo fibroblasts can also be maintained in the same way. The release of viable cells by these confluent cultures, however, is negligible.     

Dispersed growth of Streptomyces in liquid culture

Summary The study of the physiology of the filamentous bacterium Streptomyces is inhibited by its formation of mycelial pellets in liquid cultures. It is demonstrated that dispersed growth may be achieved by the addition of polymers to the culture medium. Uncharged polymers, such as polyethylene glycol, are relatively ineffective but polyanions such as agar, Carbopol and Junlon produce dispersed cultures when included in a defined growth medium at low concentrations. Junlon-containing media enable optical density measurements to be used to follow batch growth of Streptomyces. Improvements in both biomass yield and product yield of the pigmented antibiotic actinorhodin were found to result from the incorporation of Junlon into minimal medium.     

Transient reduction in secreted 32 kD chitinase prevents somatic embryogenesis in the carrot (Daucus carota L.) variant ts11

At the nonpermissive temperature, somatic embryos of the temperature-sensitive (ts) carrot (Daucus carota L.) cell variant ts11 only proceed beyond the globular embryo stage in the presence of medium conditioned by wild-type cells. The causative component in the conditioned medium has been identified as an acidic 32 kD endochitinase. An antiserum raised against the 32 kD chitinase detected this protein in culture medium from ts11 embryo cultures grown at the permissive temperature as well as at the nonpermissive temperature. No difference in biochemical characteristics or in effect on ts11 embryo development could be detected between the 32 kD chitinase purified from wild-type cultures and the chitinase from ts11 cultures grown at the permissive or at the nonpermissive temperature. Compared to the amount present in a ts11 embryo culture at the permissive temperature, a reduction in the amount of 32 kD chitinase was observed during the temperature-sensitive period at the nonpermissive temperature. These results imply that the arrested embryo phenotype of ts11 is not the result of a structural difference in its 32 kD chitinase, but is the result of a transient decrease in the amount of 32 kD chitinase present. Morphological observations indicate that the ts11 phenotype is pleiotropic and also affects the cell wall of nonembryogenic cells. © 1995 Wiley-Liss, Inc.     

Multiplication and germination of somatic embryos of American ginseng derived from suspension cultures and biochemical and molecular analyses of plantlets

Summary Seedlings from 11 seed sources (lines) of American ginseng from different geographic regions were evaluated on Murashige and Skoog medium (MS) containing 10 μM α-naphthaleneacetic acid (NAA) and 9 μM 2,4-dichlorophenoxyacetic acid (2,4-D) for callus development and somatic embryo formation. Leaf and stem explants callused at a frequency of 18.2–100%, while somatic embryos were produced from these calluses at a frequency of 25–87.5% after 5 mo. Suspension cultures of nine lines were established by transferring embryogenic callus to MS liquid medium with NAA and 2,4-D at 2.5 and 2.25 μM, respectively, and maintained by subcultures every 8 wk. Globular somatic embryos from these cultures were germinated on half-strength MS containing 1% activated charcoal, and roots >5 mm in length developed within 3 wk. A 7-d exposure to 3 μM gibberellic acid and 5 μM 6-benzylaminopurine significantly enhanced shoot development and promoted further root development. The chromosome number, profiles of the common triterpenoid saponins (ginsenosides), and random amplified polymorphic DNA (RAPD) banding patterns in plantlets derived from suspension culture were compared to those of zygotic seedlings. The chromosome number in root tip cells and suspension cultured cells was 48. Patterns of the six major ginsenosides, determined by thin-layer chromatography, in leaves of tissue culture-derived plantlets were identical to those in seedlings. RAPD patterns among plantlets originating from the same tissue-cultured line were mostly identical; however, altered patterns were observed in some lines that had been maintained in suspension culture for almost 4 yr. The results from this study indicate that propagation of desired ginseng genotypes in suspension culture can be achieved, and that biochemical and molecular markers can be used for authentication of resulting plantlets.