Improvement in efficiency of microspore culture to produce doubled haploid lines of Ethiopian mustard

Factors affecting microspore embryogenesis of Ethiopian mustard (Brassica carinata A. Braun) were evaluated, including flower bud length, pollen developmental stage, and microspore density. An embryogenic frequency of 300 embryos per Petri plate was observed with NLN (Nitsch-Lichter-Nitsch) medium supplemented with 13% sucrose, 3.0–3.4-mm-long buds, and a plating density of 65,000 microspores/ml. About 65% of the microspores from buds 3.0–3.4-mm long were at the late uninucleate stage. Microspore-derived embryos were successfully transferred to solid medium for germination. After 4 wk, the resulting plantlets were transplanted to a soilless potting mixture and grew well under greenhouse conditions.     

Pollen Protoplast Culture Leading to Embryogenic Divisions in Hemerocollis fufva

Pollen protoplasts were isolated from the cold-pretreated flower buds containing uninucleate microspores and were inoculated in K3 basic medium supplemented with various additives. A part of the pollen protoplasts were triggered to embryogenic divisions and further to formation of proembryos and clusters. Microscopical observations showed that the first cell division might be equal or unequal and the subsequent growth might be organized or unorganized. This is the first example of pollen protoplast culture in which a sporophytic, or embryogenic, pathway is triggered     

Regeneration of Hybrid Plantlets Via Pollen-Hypocotyl Protoplast Fusion in Brassica spp.

It has been reported that "gameto-somatic hybridization" was induced by fusion of microspore tetrad protoplasts with somatic protoplasts in Nicotiana and Petunia. However, since the success of isolation of pollen protoplasts in recent years, the use of protoplasts at pollen stage as one of the fusion partners in such hybridization is a novel experimentation. Young pollen protoplasts were isolated from the pollen grains of Brassica chinensis at mid-late unicellular to early bicellular stage the pollens for 1.5--2.5 h at 25℃ in a CPW solution containing 0.8 % of eellulase, 0.5 % pectinase, 0.1% pectolyase, 1 3 % mannitol, 1 0 % glucose, 0. 3% potassium dextran sulphate and 3 mmol/L MES. The purified pollen protoplasts were then fused with the hypocotyl protoplasts of B. napus by PEG method. Heterokaryons were identified by means of visualization of the fluorescence from FITC-prela-beled pollen protoplasts. In order to increase heterokaryons and reduce hypocotyls homokaryons, the denstity of hypocotyl protoplasts were lowered and the ratio of the number of hypocotyl vs. pollen protoplasts were adjusted from 1 : 3 to 1 : 6. The fusion products were cultured in a liquid KM8p medium supplemented with 0.4 mol/L glucose, 0.8 mg/L 2, 4-D, 0.25 mg/L NAA. 0. 5 mg/L BA, 500 mg/L glutamine and 3 mmol/L MES where cell division and callus formation took place. The calli, after being transferred to a MS medium supplemented with 2.0 mg/L BA, 3 % sucrose and 0.4 % agarose, differentiated into a few shoots. The shoots were transferred onto a half-strength MS medium supplemented with 2% sucrose, 0.1--0. 2 mg/L NAA, 0.5 mg/L IBA and 20% potato juice for root formation. Finally, three plantlets were regenerated. Chromosome counts by roottip squash method revealed that one plantlet was 2n= 48, corresponding to an allotriploid resulted from a fusion between one pollen protoplast of B. chinensis (2n = 20) and one hypocotyl protoplast of B. napus (2n = 38), and the other two plantlets were 2n = 58, which might be an allotetraploid originated from a fusion between two pollen protoplasts and one hypocotyl protoplast. The isozyme patterns of leaf esterases showed that all the three plantlets had bands characteristic of both parents. This is the first case of success in "gameto-somatic hybridization" by using pollen protoplasts rather than tetrad protoplasts as the haploid partner.     

Embryogenesis and plant regeneration from isolated microspores of Brassica rapa L. ssp. Oleifera

Summary Conditions favourable to embryogenesis from isolated microspores of Brassica rapa L. ssp. oleifera (canola quality) were identified. A population with enhanced responsiveness for microspore embryogenesis (C200) was synthesized by crossing individual plants showing microspore embryogenic potential. For optimal microspore embryogenesis, buds (2–3mm in length, containing mid-late uninucieate microspores) were collected from older plants (2 months old) and microspores isolated and washed in iron-free B5 medium. NLN medium with its iron content reduced to half was beneficial for initial microspore culture. An elevated temperature(33–35°C) during the first day of culture, followed by maintenance at 25°C resulted in dozens of embryos from each isolation (about 100 buds). Seeds were obtained from plants regenerated from microsporederived embryos after colchicine treatment.     

Protoplast-to-plant regeneration in cotton (Gossypium hirsutum L. cv. Coker 312) using feeder layers

Summary We report the regeneration of protoplasts isolated from two embryogenic cell lines of Gossypium hirsutum L. cv. Coker 312 initiated from hypocotylderived callus. Protoplasts plated on cellulose nitrate filters and placed over feeder layers formed embryogenic callus from which plants were regenerated. Plating efficiency up to 12.8% depended upon the cell line. Addition of phytohormones to the protoplast medium had no stimulating effect on plating efficiency. The influence of feeder cells and conditioned medium on plating efficiency was significantly different for the two cell lines.Abbreviations ACM autoclaved conditioned medium - AFC autoclaved feeder cells - BM basic medium - BM+ basic medium with phytohormones - CM non-autoclaved conditioned medium - FC non-autoclaved feeder cells - FDA fluorescein diacetate - MM maturation medium - NAA 1-naphtaleneacetic acid - PCM protoplast culture medium - PCM+ protoplast culture medium with phytohormones - SC settled cells - 2,4-D 2,4-dichlorophenoxyacetic acid - 6-BAP 6-benzylamino purine     

Stress as the major signal controlling the developmental fate of tobacco microspores: towards a unified model of induction of microspore/pollen embryogenesis

Specific stress treatments (sucrose starvation, alone or combined with a heat shock) applied to isolated tobacco (Nicotiana tabacum L.) microspores irreversibly blocked normal gametophytic development and induced the formation of embryogenic cells, which developed subsequently into pollen-derived embryos by culture at 25°C in a sugar-containing medium. A cold shock at 4°C did not inhibit microspore maturation in vitro and did not induce cell division activity, even when combined with a starvation treatment. In the absence of sucrose, microspores isolated in the G1 phase of the cell cycle replicated their DNA and accumulated in G2. Late microspores underwent miotosis during the first day of culture which resulted in a mixed population of bicellular pollen grains and uninucleate microspores, both embryogenic. After the inductive stress treatments the origin of the first multicellular structures, formed in the sugar-containing medium, could be traced to divisions of the microspore cell or divisions of the vegetative cell of bicellular pollen, indicating that the symmetry of microspore mitosis in vitro is not important for embryogenic induction. These results represent a step forward towards a unified model of induction of embryogenesis from microspores/pollen which, within a relatively wide developmental window, are competent to deviate from normal gametophytic development and initiate the alternative sporophytic programme, in response to specific stress signals.Abbreviation DAPI 4,6-diamidino-2-phenylindole We acknowledge the help of Monica Boscaiu and Zarko Hrzenjak with the artwork, and Michaela Braun-Mayer for growing the tobacco plants. This project was financed by the Austrian Fonds zur Forderung der wissenschaftlichen Forschung, grant S6003-BIO.     

Rhizogenesis in callus from Conference pear (Pyrus communis L.) protoplasts

Large numbers (ca 6×10⁶ protoplasts/g f.wt) of viable (80%) protoplasts were isolated from embryo-callus tissues of Conference pear using an enzyme mixture which contained 2.0% (w/v) Meicelase, 2.0% (w/v) Rhozyme HP-150 and 0.03% (w/v) Macerozyme R-10. A medium based on ammonium-free MS salts and supplemented with 2.0 mg/l NAA, 0.5 mg/l BAP and 9% (w/v) mannitol supported protoplast division and the proliferation of multicellular colonies. Colonies were taken to the callus stage on a medium which contained MS salts plus 0.1 mg/l 2,4-D and 0.1 mg/l BAP. Roots were regenerated from these protoplastderived calli on MS medium with 0.1 mg/l NAA, 5.0 mg/l BAP and 50 mg/l casein hydrolysate.Abbreviations BAP 6-benzylaminopurine - CPW13M CPW salts medium [15] with 13% (w/v) mannitol - FDA fluorescein diacetate, f. wt-fresh weight - MS Murashige and Skoog [14] - NAA -naphthaleneacetic acid - PE plating efficiency (%) - 2,4-D 2,4-dichlorophenoxyacetic acid     

Stress-induced microspore embryogenesis in tobacco: an optimized system for molecular studies

Summary Specific stress treatments applied to isolated tobacco (Nicotiana tabacum L.) microspores efficiently induced haploid embryo formation in vitro. A heat shock at 33 or 37°C in the presence of sugar, as well as sucrose-starvation at 25°C, resulted in the formation of embryogenic microspores. A combination of both treatments had an additive effect. Under optimal induction conditions all viable microspores in the culture were embryogenic and developed subsequently into pollen embryos by culture at 25°C in a sugar-containing medium, with induction frequencies of more than 70% with respect to the initial microspore population. A high fraction of the early pollen embryos continued their development in vitro, giving rise to haploid plants. In contrast to other available systems for microspore/pollen embryogenesis, the new protocol allows the production of homogeneous populations of embryogenic microspores and early globular embryos in large-scale cultures, without any purification step, and is therefore well suited for biochemical and molecular work.Abbreviations EDTA ethylenediaminetetraacetate - DAPI 4,6-diamidino-2-phenylindole     

A Comparative Study of Anther and Pollen Development in Male Fertile and Male. Sterile Green Onion (Allium fistulosum L.)

Anther and pollen development in male-fertile and male-sterile green onions was studied. In the male-fertile line, both meiotic microspore mother ceils and tetrads have a callose wall. Mature pollen grains are 2-celled. The elongated generative cell with two bended ends displays a PAS positive cell wall. The tapetum has the character of both secretory and invasive types. From microspore stage onwards, many oil bodies or masses accumulate in the cytoplasm of the tapetal cells. The tapetum degenerates at middle 2-celled pollen stage. In male-sterile line, meiosis in microspore mother cells proceeds normally to form the tetrads. Pollen abortion occurs at microspore with vacuole stage. Two types of pollen abortion were observed. In type I, the protoplasts of the microspores contract and gradually disintegrate. At the same time the cytoplasm of microspores accumulates oil bodies which remain in the empty pollen. The tapetal cells behave normally up to the microspore stage and early stage of microspore abortion, but contain fewer oil bodies or masses than those in the male-fertilt line. At late stage of microspore abortion, three forms of the tapetal ceils can be observed: (1) the tapetal cells with degenerating protoplasts become flattened, (2) the tapetal cells enlarge but protoplasts retractor, (3) the cells break down and tile middle layer enlarges. In type Ⅱ, the cytoplasm degenerates earlier than the nucleus of the microspores and no protoplast is found in the anther locule. There are fibrous thickenings iii the endothecium of both types. It is difficult to verify whether the tapetum behavior and pollen abortion is the cause or the effect.     

Selection of embryogenic pollen from cold-treated buds ofNicotiana tabacum var. badischer burley and their development into embryos in cultures

Summary By using density gradient centrifugation, employing 55% percoll and 4% sucrose as suspension medium, it is possible to select embryogenic pollen from buds after cold treatment at 10 °C for 8 or more days. These buds at the uninucleate stage of pollen were collected from plants grown in 8 hours photocycles at 18 °C and supplied with mineral salts. The embryogenic pollen are small, starch-free with a clear cytoplasm whereas large starch-filled ones are nonembryogenic. The embryogenic pollen regularly form embryos at a frequency of 2% on a mineral medium supplemented with glutamine, asparagine and sucrose at pH 6.5.These results demonstrate, for the first time, that it is possible to have embryos in appreciable frequencies in ab initio pollen cultures raised from cold treated anthers.On leave from University of Delhi.     

Plant regeneration from protoplasts isolated from embryogenic calli of the forage legume<Emphasis Type="Italic"> Astragalus melilotoides</Emphasis> Pall.

An efficient and reproducible protocol is described for the regeneration of Astragalus melilotoides protoplasts isolated from hypocotyl-derived embryogenic calli. Maximum protoplast yield (11.74±0.6×10⁵/g FW) and viability (87.07±2.8%) were achieved using a mixture of 2% (w/v) Cellulase Onozuka R10, 0.5% (w/v) Cellulase Onozuka RS, 0.5% (w/v) Macerozyme R10, 0.5% (w/v) Hemicellulase, and 1% (w/v) Pectinase, all dissolved in a cell protoplast wash (CPW) salt solution with 13% (w/v) sorbitol. First divisions occurred 3–7 days following culture initiation. The highest division frequency (9.86±0.68%) and plating efficiency (1.68±0.05%) were obtained in solid-liquid medium (KM8P) supplemented with 1.0 mg/l 2,4-dichlorophenoxyacetic acid, 0.5 mg/l 6-benzylaminopurine (BA), 0.2 mg/l kinetin, 0.2 M glucose, 0.3 M mannitol and 500 mg/l casein hydrolysate. Upon transfer to MS medium with 0.5 mg/l -naphthaleneacetic acid and 1-2 mg/l BA, the protoplast-derived calli produced plantlets via somatic embryogenesis (56.3±4.1%) and organogenesis (21.6±0.6%). Somatic embryos or adventitious shoots developed into well-rooted plantlets on MS medium without any plant growth regulators or supplemented with 3.0 mg/l indole-3-butyric acid, respectively. About 81% of the regenerants survived in soil, and all were normal with respect to morphology and growth characters.Abbreviations BA: 6-Benzylaminopurine - CH: Casein hydrolysate - CPW: Cell protoplast wash - 2,4-D: 2,4-Dichlorophenoxyacetic acid - FDA: Fluorescein diacetate - IBA: Indole-3-butyric acid - KIN: Kinetin - MES: 2-(N-morpholino) Ethanesulphonic acid - NAA: -Naphthaleneacetic acidCommunicated by A. Altman     

Microcallus formation from Hevea brasiliensis protoplasts isolated from embryogenic callus

Conditions for successful culture of rubber tree (Hevea brasiliensis) protoplasts were investigated. Protoplasts, derived from embryogenic callus, regenerated cell walls then underwent division when embedded in alginate and cultivated on a modified Murashige and Sook medium (9 M 2,4-dichlorophenoxyacetic acid, 0.6 M glucose, 0.93 M kinetin, NH ₄ ⁺ reduced by half) in the presence of nurse cells (tobacco feeder cell layer). The presence of nurse cells was essential to maintain viability and sustain protoplast division. Several parameters which influenced the plating efficiency were analysed, such as the density of feeder cells and the duration of contact of the feeder layer.Abbreviations BSA Bovine Serum Albumin - CPW Cell and Protoplast Washing medium (Frearson et al. 1973) - 2,4-D 2,4-dichlorophenoxyacetic acid - 3,4-D 3,4-dichlorophenoxy-acetic acid - PDA Fluorescein diacetate - FW Fresh weight - KIN Kinetin - MES [2N-morpholino] ethane sulfonic acid - MS medium Murashige and Skoog (1962) medium - PE plating efficiency - SAB South American Leaf Blight - WPM] Woody Plant Medium (Russel and Mc Cown 1986)     

An improved procedure for plant regeneration from indica and japonica rice protoplasts

Plant regeneration from protoplasts of two commercially cultivated Indian indica rice varieties, Pusa Basmati 1 and Java, has been accomplished by plating embryogenic cell suspension-derived protoplasts on the surface of filter membranes overlying agarose-embedded feeder cells of Lolium multltiflorum and Oryza ridleyi, combined with the use of a maltose-containing shoot regeneration medium. Embryogenic cell suspension cultures of Pusa Basmati 1 and Jaya were initiated from mature seed scutellum-derived calli in liquid R₂ medium modified by the addition of 560 mg l^–1 of proline and 1.0 % (w/v) maltose. In both varieties, protoplast plating efficiencies up to 0.4 % were obtained, depending on the nature of the feeder cells. L. multiflorum feeder cells induced a 6-fold higher plating efficiency than feeder cells of O. ridleyi. In combination, O. ridleyi and L. multiflorum feedercells further enhanced protoplast plating efficiency. Protoplast-derived cell colonies were not obtained from protoplasts of either indica varieties in the absence of feeder cells. MS-based medium containing kinetin (2.0 mg l^–1) and -naphthaleneacetic acid (0.5 mg 1^–1), together with sucrose and maltose both at 1.5 % (w/v), induced green shoot regeneration in 44 % of protoplast-derived tissues, depending on the feeder cells used for protoplast culture. In both varieties, tissues obtained using O. ridleyi feeder cells were more morphogenic than tissues obtained using L. multiflorum feeder cells, either alone or in combination with cells of O. ridleyi. In the japonica rice variety Taipei 309, this new procedure resulted in a 30-fold increase in plant regeneration from protoplasts compared to previous published procedures.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - FDA fluorescein diacetate - GPFs growth promoting factors - NAA -naphthaleneacetic acid On leave from Department of Genetics, Haryana Agricultural University, Hisar, IndiaOn leave from Biotechnology Centre, Punjab Agricultural University, Ludhiana, India     

Plant regeneration from embryogenic cell suspensions and protoplasts in sugarcane (Saccharum spp.hybrid cv. CoL-54)

Embryogenic callus was developed from young leaves of sugarcane (Saccharum spp.hybrid, cv. CoL-54). A good embryogenic callus response was achieved using MS basal medium containing 2.0 mol (0.5 mg l^-1) picloram under dark conditions at 27±1°C. Initiation of fast growing homogeneous cell suspension cultures was achieved in MS and AA media, both supplemented with g mol (2 mg l^-1) 2,4-d and 500 mg l^-1 CH. Embryogenic callus was reinitiated from embryogenic cell suspension cultures using MS medium containing 30 g l^-1 sucrose, 500 mg l^-1 CH and 2.26 mol (0.5 mg l^-1) 2,4-d after 4–6 weeks of culture under 16-h photoperiod conditions. Plant regeneration was achieved after about 4 weeks in MS medium lacking growth regulators but containing CH (500 mg l^-1) and sucrose (60 g l^-1). Rooting was enhanced by transferring regenerated plantlets to half strength MS basal medium.Totipotent protoplasts with an average yield of 2.0×10⁷ to 1.0×10⁸ ml^-1 were obtained from embryogenic cell suspension cultures at log phase, i.e., 4–5 days after transfer to fresh media. The best growth response was achieved when protoplasts were cultured in a modifed KM8P medium at the density of 2.0×10⁵ m l^-1. Protoplasts were mainly embedded in 0.8% sea plaque agarose. Division efficiency of 22.2% was achieved after 20 days of culture and 0.26% of microcolonies continued growth and formed microcalluses after 30 days of culture under dark conditions. Microcalluses were proliferated in MS medium having 2,4-d (2 mg l^-1) under 16-h photoperiod. Transferring these embryogenic calluses in MS medium +9.29 mol kinetin (2 mg l^-1) +5.37 mol NAA (1.0 mg l^-1) + activated charcoal (200 mg l^-1) for 5 weeks favoured plant regeneration. Shoots and roots were further proliferated in half strength MS basal medium for 2–4 weeks. Regenerated plants were transferred to autoclaved sand for 2 weeks under 16-h photoperiod in growth room and transferred to soil in a greenhouse to raise to maturity.Abbreviations MS salts of Murashige & Skoog (1962) basal medium - AA salts of Muller & Grafe (1978) basal medium - N6 saits of Chuet al. (1975) basal medium - 2,4-d 2,4-dichlorophenoxyacetic acid - CH casein hydrolysate - KM8P protoplast culture medium of Kao & Michayluk (1975) - KPR protoplast culture medium of Kao (1977) - P9 protoplast culture medium (Chen & Shih, 1983) - BA Benzyladenine - Picloram 4-amino-3,5,6-trichloropicolinic acid - NAA Naphthalene acetic acid     

Effect of various exogenous and endogenous factors on microspore embryogenesis in Indian mustard (<Emphasis Type="Italic">Brassica juncea</Emphasis> (L.) Czern and Coss)

Summary The influence of donor plant growth environment, microspore development stage, culture media and incubation conditions on microspore embryogenesis was studied in three Indian B. juncea varieties. The donor plants were grown under varying environments: field conditions, controlled conditions, or a combination of the two. The correlation analysis between the bud size and microspore development stage revealed that the bud size is an accurate marker for donor plants grown under controlled conditions, however, the same does not hold true for the field-grown plants. The buds containing late uninucleate microspores collected from plants grown under normal field conditions up to bolting stage and then transferred to controlled environment were observed to be most responsive with genotypic variability ranging from 10 to 35 embryos per Petri dish, irrespective of the other factors. NLN medium containing 13% sucrose was found to be most suitable for induction of embryogenesis The fortification of this medium with activated charcoal, polyvinylpyrrolidone, colchicine, or growth regulators (6-benzylaminopurine and 1-naphthaleneacetic acid) was observed to be antagonistic for microspore embryogenesis, while silver nitrate (10 μM) had a significant synergistic effect. A post-culture high-temperature incubation of microspores at 32.5±1°C for 10–15 d was found most suitable for high-frequency production of microspore embryos. The highest frequency of microspore embryogenesis (78 embryos per Petri dish) was observed from the late uninucleate microspores (contained in bud sizes 3.1–3.5 nm irrespective of genotype) cultured on NLN medium containing 13% sucrose and silver nitrate (10 μM), and incubated at 32.5°C for 10–15 d.     

Nuclear DNA synthesis during the induction of embryogenesis in cultured microspores and pollen of Brassica napus L.

The dynamics of nuclear DNA synthesis were analysed in isolated microspores and pollen of Brassica napus that were induced to form embryos. DNA synthesis was visualized by the immunocytochemical labelling of incorporated Bromodeoxyuridine (BrdU), applied continuously or as a pulse during the first 24 h of culture under embryogenic (32 °C) and non-embryogenic (18 °C) conditions. Total DNA content of the nuclei was determined by microspectrophotometry. At the moment of isolation, microspore nuclei and nuclei of generative cells were at the G1, S or G2 phase. Vegetative nuclei of pollen were always in G1 at the onset of culture. When microspores were cultured at 18 °C, they followed the normal gametophytic development; when cultured at 32 °C, they divided symmetrically and became embryogenic or continued gametophytic development. Because the two nuclei of the symmetrically divided microspores were either both labelled with BrdU or not labelled at all, we concluded that microspores are inducible to form embryos from the G1 until the G2 phase. When bicellular pollen were cultured at 18 °C, they exhibited labelling exclusively in generative nuclei. This is comparable to the gametophytic development that occurs in vivo. Early bicellular pollen cultured at 32 °C, however, also exhibited replication in vegetative nuclei. The majority of vegetative nuclei re-entered the cell cycle after 12 h of culture. Replication in the vegetative cells preceded division of the vegetative cell, a prerequisite for pollen-derived embryogenesis.     

Selection of Brassica napus L. embryogenic microspores by flow sorting

Flow cytometry can be used to select and sort microspore subpopulations of Brassica napus cv. Topas. Data obtained from embryogenic microspore populations were used to identify potentially embryogenic microspores from developmentally heterogeneous microspore populations based on differences in forward light scatter and green autofluorescence. Culture enrichment for embryogenic microspores is possible. Frequencies of 8 and 14% microspore embryogenesis were obtained when selected 16 h and 72 h after culture initiation. This represents 5- and 13-fold increase in microspore embryogenesis compared to non-sorted controls.     

Activated charcoal induced high frequency microspore embryogenesis and efficient doubled haploid production in Brassica juncea

Three Indian Brassica juncea cultivars were studied for embryogenic response of microspores, microspore embryo regeneration, ploidy assessment of microspore-derived plants and their diploidization. Genotype dependence for microspore totipotency was observed and a significant effect of genotype by bud size selection was established. The addition of activated charcoal in NLN medium containing 13% (w/v) sucrose and 10 μM silver nitrate resulted in a fourfold increase in microspore embryogenesis, ranging from 100 to 405 embryos per Petri dish corresponding to 2,700–10,935 embryos per 100 buds. Conversion/germination of embryos produced in presence or absence of activated charcoal was similar but air-drying of microspore embryos was essential. Incubation of microspore embryos at 4 ± 1°C for 10 days in dark resulted in 82.3% conversion. The majority of plants produced from these embryos was haploid. Treating microspore-derived plants at the 3–4 leaf growth stage with 0.34% colchicine for 2–3 h resulted in greatest survival (70%) and chromosome doubling (75%) frequencies. Doubled haploid plants were self-pollinated and grown to maturity under field conditions.     

Plant regeneration of rose (Rosa hybridia) from embryogenic cell-derived protoplasts

Culture conditions are described for sustained cell division and plant regeneration from protoplasts of rose (Rosa hybrida L. `Sumpath'). Protoplasts were enzymatically isolated from 2-week-old embryogenic cell suspension cultures. Freshly isolated protoplasts were plated as a thin layer onto protoplast culture medium (half-strength 21 Murashige and Skoog's medium containing 60 g l^–1 myo-inositol, 4.4 M BA, and 1.4 M 2,4-D) at a density of 5×10⁴ protoplasts ml^–1. The plating efficiency reached 3.9% after 2 weeks of culture. However, few protoplasts underwent cell division when cultured in protoplast culture medium in which 60 g l^–1 myo-inositol was replaced with the same osmolarity of 90 g l^–1 mannitol, indicating that myo-inositol is essential for sustained cell division of protoplasts. Colonies were formed after 8 weeks of culture at a frequency of 0.2%. Colonies were then transferred to colony culture medium (0.4% Gelrite-solidified protoplast culture medium) and maintained by subculturing at 4-week intervals to form embryogenic calluses. Upon transfer to half-strength MS basal medium, embryogenic calluses gave rise to numerous somatic embryos. Somatic embryos were transferred to half-strength MS basal medium containing 48 mg l^–1 ferric ethylenediamine di-(o-hydroxyphenylacetate), where they subsequently developed into plantlets at a frequency of 30.9%. The plantlets had the same chromosome number of 2n=3x=21 as the source plant. They were successfully transplanted to potting soil and grown to maturity in a greenhouse.     

Induction of embryogenesis with colchicine instead of heat in microspores ofBrassica napus L. cv. Topas

Prior to this report, heat treatment (32.5°C, 24 h) was the method used to induce embryogenesis fromBrassica napus microspores. Continuous culture at 25°C results in pollen development. This study shows that colchicine alone, at the non-inductive temperature of 25°C, can induce embryogenesis, thus demonstrating that heat shock is not required for embryogenic induction inB. napus cv. Topas. Embryogenic frequencies of over 15% were obtained by culturing isolated microspores with 25 M colchicine for 42 h at 25°C. The microspore developmental stages responsive to colchicine were unicellular vacuolate and late unicellular, somewhat earlier stages than the population responsive to heat induction. Other groups have reported that heat-shock proteins are essential to the induction of embryogenesis. The present study offers a method of embryogenic induction without the use of heat which will allow discrimination between the factors associated with response to heat shock and those involved with changing cell development.Abbreviations LU Late-unicellular - PPB Preprophase band - UV unicellular-vacuolate The authors wish to thank C. Bornman for his interest and encouragement. We gratefully acknowledge support from the School of Graduate Studies and Research, Queen's University to J.-P. Z., from Hilleshog AB, Sweden to D.H.S., and from the Natural Sciences and Engineering Research Council of Canada to D.H.S. and W.N. Plant Research Centre contribution No. 1595.