Microspore embryogenesis in anther cultures of two Indian cultivars of Brassica juncea (L.) Czern.

Direct microspore-derived embryo formation in anther cultures of two cultivars of Brassica juncea was obtained. Preliminary culture of anthers at 35°C for 1–5 days prior to maintenance at 25°C stimulated embryogenesis. Embryogenesis was also stimulated by an initial culture at 5°C for 3 days. Analysis of squashed anthers revealed that approximately 10% of the microspores began dividing, but less than 1% developed into macroscopic embryos. All embryos transferred to embryo culture medium survived, but only 30% of these developed directly into normal plantlets. The androgenic plants were haploid (2n=18).     

Production of doubled-haploid plants from tritordeum anther culture

The effects of different media and cold pretreatment of spikes on the androgenic response and regeneration capacity from anther culture of tritordeum was studied. L5 medium gave the highest frequency of anther response. The frequency of cultures regenerating green or albino plantlets was not affected by the composition of the medium tested. Cold pretreatment of the spikes significantly increased the frequency of anther response and also the percentage of cultures giving albino plantlets. A mean of four green plants was obtained per 100 subcultured calli/embryos. The percentage of spontaneous chromosome doubling was only 1%. The addition of colchicine at 0.02% to the induction medium significantly increased the frequency of doubled haploids regenerated without any effect on regeneration capacity. This technique proved more efficient than a conventional chromosome-doubling method.     

Two pathways of plant regeneration in wheat anther culture

The anthers of 10 Polish winter wheat (Triticum aestivum L.) cultivars were used for the induction of androgenesis and plant regeneration. The highest rate of callus induction (9.1%) and green plant production (0.8%) was obtained with the cultivar Apollo that was chosen for histological analysis. The first androgenic division was symmetrical and occurred after 3 weeks of culture. Further divisions of newly formed cells gave rise to multicellular structures which followed two developmental pathways: callus production or direct embryo formation. Plant regeneration was observed in both pathways. Chromosome counting of plantlets regenerated showed that haploid metaphases 2n=3x=21 were the most frequent.     

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.     

Plastid differentiation during androgenesis in albino and non-albino producing cultivars of barley (Hordeum vulgare L.)

In order to better understand androgenic albinism in barley, we compared plastid differentiation during anther culture in two cultivars, an albino (spring cultivar Cork) and a non-albino (winter cultivar Igri) producing cultivar. The ultrastructure of plastids and the relative amount of DNA containing plastids were followed in both cultivars during the androgenic process and correlated with the proportion of regenerated chlorophyllous plantlets. For androgenesis, anthers were collected at the uninucleate stage, during mid- or late-microspore vacuolation. At this stage DNA was detected in 15.3 ± 2. 7% of microspore plastid sections in the winter cultivar Igri, compared to 1.7 ± 0.5% in the spring cultivar Cork. In the winter cultivar Igri, starch was broken down after anther pretreatment but plastids divided rapidly during anther culture and thylakoids developed in the stroma. Prior to regeneration, plastids contained 2.0 ± 0.2 thylakoids per plastid and starch represented 26.1 ± 3.3% of the plastid volume. In the spring cultivar Cork, plastids followed a different developmental pathway. After anther pretreatment, microspore plastids differentiated exclusively into amyloplasts, accumulating starch and losing their thylakoids as well as their capacity to divide. This developmental pattern became progressively more marked, so that by the end of anther culture plastids contained 0.5 ± 0.4 thylakoids per plastid and starch represented up to 90.3 ± 4.3% of plastid volume. Following androgenesis, the response was similar in both cultivars except that the winter cultivar Igri provided 87.8% of chlorophyllous plantlets compared to 99.7% albino plantlets in the cultivar Cork. The results presented here suggest that the exclusive regeneration of albino plantlets in the spring cultivar Cork may be due to degradation of microspore plastid DNA during early pollen development, preventing the plastids from differentiating into chloroplasts under culture conditions. Received: 13 March 2000 / Revision accepted: 6 June 2000     

Experimental induction of triploid plants ofPhysalis through anther culture

Summary Anther culture ofPhysalis minima L. (2 n=48) was successful and embryos and plantlets could be obtained 5–6 weeks after culture. MS medium containing CM was essential for pollen division. 16.7% of the cultured anthers produced plantlets. All the pollen plantlets were triploid (3 n=72). Regeneration of multiple shoot buds was obtained from cultured leaf and stem expiants of pollen plantlets.     

In vitro culture ofBellevalia romana (L.) Rchb.

Summary Bellevalia romana (L.) Rchb., a monocotyledonous plant characterized by few (2 n=2 x=8) and very large chromosomes, is a useful subject for studying developmental problemsin vitro. Cytological analysis of callus revealed that the majority of cells were diploid, but the remaining cells had aneuploid nuclei with a wide range of chromosome numbers, tetraploid and haploid nuclei. The frequency of aneuploid and polyploid cells was higher in callus grown in the presence of 2,4-D than in callus grown in NAA plus BAP. These nuclei seemed to increase with the duration of culture. The chromosome number distribution as determined by chromosome counts in calli at different culture times was confirmed by DNA cytophotometry. Chromosome number mosaicism (mixoploidy and aneusomaty) also occurred in all root apices of 9 out of 46 plantlets regenerated from callusvia adventitious shoots.     

Prospects of androgenetic induction in <Emphasis Type="Italic">Lupinus</Emphasis> spp.

Anthers cultures of six Polish cultivars of pasture lupin (Lupinus L.) were examined for their androgenic response. Anthers with microspores at the uninucleate stage were isolated from flower buds and cultured in liquid media. Better viability of androgenetic structures was obtained when donor plants had grown under field as opposed to greenhouse conditions. A density of five anthers per 0.5 ml medium was more conducive to androgenetic induction than 25 anthers per 0.5 ml medium. Addition of 5% maltose to the induction medium and culture at 25°C without pre-treatment of flowers, buds or anthers promoted microspore release and division. The greatest frequency of androgenic callus, ~70% was developed from cvs. Katon, Wat (white lupin), in contrast to cvs. Legat, Juno (yellow lupin), Polonez and Sonet (narrow-leafed lupin) with callus induction ~30–40%. Despite various combinations of media tested, plant regeneration was not obtained from anther derived callus.     

In vitro induction, regeneration and analysis of autotetraploids derived from protoplasts and callus treated with colchicine in Citrus

In the present paper attempts were made to induce chromosome doubling of ‘Meiwa’ kumquat (Fortunella crassifolia) protoplasts and ‘Frost’ navel orange (Citrus sinensis Osbeck) embryogenic callus via colchicine treatment. Colchicine decreased protoplast viability, delayed protoplast division and inhibited callus growth, indicating presence of toxicity to cells. Cell lines established from ‘Meiwa’ protoplasts treated with 0.01 and 0.1% colchicine for 8, 16 and 24 h at each concentration showed different responses when they were cultured on embryoid-induction medium. Flow cytometry (FCM) demonstrated that tetraploids were detected in cell lines and embryoids from all of the treatments, with the highest frequency being 19.23%. As for ‘Frost’, tetraploid cells were only detected when the callus was treated with 0.1% colchicine for either 4 or 8 days, from which plantlets were regenerated. FCM and chromosome counting confirmed them as true tetraploids. The diploid cells were more active in mitotic division during a 12-day culture and smaller in size than their tetraploid counterpart. Potential applications of the novel tetraploid germplasms obtained through in vitro chromosome doubling to citrus cultivar improvement are discussed.     

用细胞学方法研究番木瓜组培苗的遗传稳定性

利用细胞学和形态学方法研究组织培养技术生产的番木瓜种苗的遗传稳定性。通过对番木瓜（2n=18）主栽品种蔬罗1号1～38代组培苗体细胞的染色体数的初步观察和统计,发现1～32代苗所观察的体细胞染色体全部为2n=18,大田种植后表型与亲代相比未发生明显的变异。但是在第33,36,37代发现了染色体非整倍性的细胞,田间种植后与亲代相比挂果率和抗病性下降。这一研究结果为番木瓜组培苗的继代培养和规模化生产提供了有价值的理论依据。     

High frequency plant regeneration from protoplasts in cotton <Emphasis Type="Italic">via</Emphasis> somatic embryogenesis

A highly reproducible system for efficient plant regeneration from protoplast via somatic embryogenesis was developed in cotton (Gossypium hirsutum L.) cultivar ZDM-3. Embryogenic callus, somatic embryos and suspension culture cells were used as explants. Callus-forming frequency (82.86 %) was obtained in protoplast cultures from suspension culture cells in KM₈P medium with 0.45 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 0.93 μM kinetin (KIN), 1.5 % glucose and 1.5 % maltose. Protocolonies formed in two months with plating efficiency of 14 %. However, the callus-forming efficiencies from other two explants were low. The calli from protoplast culture were transferred to somatic embryo induction medium and 12.7 % of normal plantlets were obtained on medium contained 3 % maltose or 1 % of each sucrose + maltose + glucose, 2.46 μM indole-3-butyric acid (IBA) and 0.93 μM KIN. Over 100 plantlets were obtained from protoplasts derived from three explants. The regenerated plants were transferred to the soil and the highest survival rate (95 %) was observed in transplanting via a new method.     

The preparation in vitro of chrysanthemum for transplantation to soil

Plantlets of Chrysanthemum x morifolium were grown from nodal sections in cellulose plugs which were saturated with liquid rooting medium containing 1 mg l^–1 paclobutrazol in culture vessels that maintained relative humidities (RH) of 100%, 96% and 94%, respectively. After 4 weeks, plantlets were transferred to compost and exposed to 40% RH at 29°C. Marked differences in wilting were observed that were directly related to the RH of the vessel in which the plantlets had been grown. Thicker leaves, improved closure of stomata and increased thickness of the cuticle were associated with increased resistance to wilting. Reduced RH of the culture vessel was also associated with significantly higher concentrations of chlorophyll in the leaves.     

Production of plantlets of the red alga of Gelidium genus (Rhodophyta) from thallus fragments

Experimental research on production of plantlents from fragments of thallus of the alga Gelidium were carried out. The best results on development of plantlets without rhizoids were achieved with cultivation of fragments of subapical parts of the plant. Thus, the average growth rate of plantlets in the last for 4 weeks of rearing was 6.7 ± 1.2% a day. Gelidium plantlets with rhizoids were grown from the top branches of plants in an intensively stirred culture with shading of the lower parts of the branches. It is suggested to use the same method for obtaining planting material during bottom rearing of Gelidium in the sea as that for intensive culture in tanks.     

Comparison of carbonic anhydrase activity among various species of plantlets

During plant tissue culture, the culture container is small and sealed; the concentration of CO₂ in the microenvironment is relatively low. The plantlet growth is restrained for the shortage of CO₂ in the culture container. Carbonic anhydrase is a zinc-containing metalloenzyme that catalyzes the reversible conversion of bicarbonate to CO₂. The determination of carbonic anhydrase of leaves from Atractylodes lancea (thunb.) DC, Orychophragmus violaceus (L.) O.E. Schulz, Brassica juncea (L.) Czern.et Coss. cv. Luzhousileng, Brassica campestris L. cv. Chuanyou No.8, Brassica napus L cv. Oro, Brassica carinata Braun, Raphanus sativa L. var. raphanistroides Makino and their plantlets indicates that the carbonic anhydrase activity of leaves from both plantlets and fields varies from plant species to plant species, the carbonic anhydrase activity of leaves of Atractylodes lancea (thunb.) DC is the lowest among those plants, and the leaves of all plantlets are lower in carbonic anhydrase activity than the same species of plants from fields. The comparison of the growth rates of those plantlets shows that their relative growth rates are significantly different, plantlets of Atractylodes lancea have the slowest relative growth rate among those plants, and plantlets of Brassica juncea have the greatest relative growth rate. The relationship between RGR of plantlets and their CA activities is a significant linear function. It seems that there was certain correlation between carbonic anhydrase activities of plants and their growth rates. It suggests that in vitro, the greater the carbonic anhydrase activity of plantlet is, the higher its net photosynthetic rate, and the faster its growth rate. Those results offer a foundation to a rational medium choice in plant tissue culture.     

Production of vigorous,desiccation tolerant white spruce (Picea glauca [Moench.] Voss.) synthetic seeds in a bioreactor

Summary This report describes a low-cost method for generating large numbers of high quality mature white spruce (Picea glauca [Moench.] Voss) somatic embryos which survived desiccation and grew to plantlets more vigorously than excised zygotic embryos cultured in vitro. Somatic embryos from suspension culture were supported within a culture chamber on a flat absorbent pad above the surface of a liquid culture medium containing 20–50 M abscisic acid and 7.5 % polyethylene glycol. Throughout a 7 week culture period 3 L of fresh medium was pumped into one end of the chamber, while the spent medium exited by gravity from the opposite end. Over 6,300 cotyledonary stage white spruce somatic embryos were recovered after this time from a single culture chamber without manual manipulation. The somatic embryos were of excellent appearance with well developed cotyledons, and possessed high levels of storage lipids. They survived drying to about 8 % moisture content following treatment for 4 weeks at 63 % relative humidity, and following imbibition converted to normal plantlets at a frequency of 92 %, compared to 80 % for embryos grown in Petri dishes. Somatic embryos cultured within the bioreactor developed to plantlets that were 20 % longer than zygotic embryos excised from mature seed and grown in vitro, and were 38 % longer than somatic embryos cultured upon agar medium in Petri dishes.Plant Research Centre contribution No. 1523     

Long term plant regeneratin from callus cultures of haploid wheat

A one-step method to rescue immature embryos of eastern cottonwood (Populus deltoides Bartr.) is described. Plantlets developed from 83% of 25-day-old embryos grown in shaken culture on Murashige and Skoog (MS) liquid medium with 2.2 m indole-3-acetic acid (IAA) and from 86% of embryos not supplemented with IAA. In contrast, when the MS medium was solidified with 0.8% agar, plantlets developed from 25% of 25-day-old embryos cultured on medium supplemented with IAA and from 28% of embryos in medium not supplemented with IAA. Eighty eight percent of all plantlets survived a gradual acclimitization to peat plugs in a greenhouse. The one-step liquid-culture method is an effective means of rescuing immature embryos by ovule culture from excised artificially-pollinated female branches in our cottonwood breeding program.     

Ploidy stability in embryogenic cultures and regenerated plantlets of tamarillo

Ploidy levels of short-term (1 and 2 years) and long-term (7 and 10 years) embryogenic cultures as well as of regenerated plantlets of tamarillo were analyzed by flow cytometry and chromosome counts. Embryogenic cultures were induced from expanding leaves cultured in the presence of Picloram or 2,4-dichlorophenoxyacetic acid (2,4-D) and monthly subcultured on the same media. Embryo development and plantlets were obtained following subculture of the embryogenic tissue in auxin free medium containing gibberellic acid (GA₃). Seedlings and rooted shoots from axillary shoot proliferation were used as controls. The results showed that in long-term embryogenic cultures the ability to develop somatic embryos and plantlets was reduced. Embryogenic tissues maintained for 10 years were mostly aneuploids of the tetraploid (2n = 4x = 48) level whereas those kept in culture for 7 years or less were also mostly aneuploids but of the diploid (2n = 2x = 24) level. The results obtained by flow cytometry were, in general, consistent with those obtained by chromosome counts. The chromosome alteration observed in the embryogenic tissues was already present after 1 year of culture and increased with culture age, hence impairing the maintenance of these tissues for long periods without affecting chromosome stability of the regenerated plantlets. However, the occurrence of triploids and tetraploids as well as aneuploids can be useful for breeding purposes. A value around 23 pg/2C was found for the genome size of tamarillo largely exceeding the value previously published (15.50 pg/2C).     

Production of interspecific somatic hybrids between tuber mustard (<Emphasis Type="Italic">Brassica</Emphasis><Emphasis Type="Italic">juncea</Emphasis>) and red cabbage (<Emphasis Type="Italic">Brassica oleracea</Emphasis>)

In the present investigation, the interspecific somatic hybridization between tuber mustard and red cabbage was established in order to introduce valuable genes from red cabbage (Brassica oleracea) into Brassica juncea. Prior to fusion treatment, protoplasts of red cabbage were inactivated with 2 mM iodoacetamide to inhibit cell division. Micro-calluses were obtained at a frequency of 10.3% after approximately 5 weeks culture following protoplast fusion. Some of the fusion-derived calluses possessed red pigmented cells after being transferred to proliferation medium, and they were presumably considered to be somatic hybrid cell lines. Plantlets were regenerated from 12 cell lines, of which nine plantlets exhibited characteristics intermediate of both parents in terms of plant morphology. With the exception of common protein bands featured by two parents, there were unique banding patterns produced in the hybrids by using SDS-PAGE analysis. By chromosome countings, it was showed that they ranged approximately from 2n=30 to 42 in chromosome numbers. Their hybridity were further confirmed by RAPD analysis revealing that genes of both parents were partially incorporated into the hybrids. Positively, all these hybrids were capable of seed-setting. The pod-setting was 4.2 in somatic hybrid H₇ when backcrossed with tuber mustard.     

High irradiance can minimize the negative effect of exogenous sucrose on the photosynthetic capacity of <Emphasis Type="Italic">in vitro</Emphasis> grown coconut plantlets

There is increasing evidence that the sucrose normally added to the culture medium affects negatively the photosynthetic capacity of plantlets. At the same time, however, sucrose cannot be eliminated from the medium, as it is required for normal in vitro growth. We argue that this is true only under the conventional light conditions of growth-rooms. In the present paper irradiance of growth-rooms was increased 10 times and although the sucrose-inhibitory effect was found at high sucrose concentrations, it was possible to grow coconut (Cocos nucifera L.) plantlets without sucrose. Those plantlets showed both high photosynthetic capacity and comparable in vitro growth to those grown with sucrose in the medium under conventional growth-room irradiance. Nevertheless, the best growth was achieved under mixotrophic conditions where at high irradiance and moderate sucrose concentrations plantlets accumulated 27 % more biomass than plantlets grown without sucrose under high irradiance and 43 and 73 % more biomass than their counterparts at low irradiance with or without sucrose, respectively.     

Somatic embryogenesis,encapsulation, and plant regeneration of <Emphasis Type="Italic">Rotula aquatica</Emphasis> lour., a rare rhoeophytic woody medicinal plant

Summary Indirect somatic embryogenesis, encapsulation, and plant regeneration was achieved with the rare rhoeophytic woody medicinal plant Rotula aquatica Lour. (Boraginaceae). Friable callus developed from leaf and internode explants on Murashige and Skoog (MS) medium with 0.45 μM 2,4-dichlorophenoxyacetic, acid (2,4-D) was most effective for the induction of somatic embryos. Subculture of the callus onto half-strength MS medium with the same concentration of 2,4-D resulted in highly embryogenic callus. Suspension culture was superior to solid medium culture for somatic embryogenesis. Embryogenic callus.during subsequent transfer to suspension cultures of half-strength MS medium having 0.23 μM 2,4-D induced the highest number of somatic embryos (a mean of 25.6 embryos per 100 mg callus) and the embryos were grown up to the torpedo stage. Transfer of embryos to half-strength MS basal solid medium allowed development, of 50% of the embryos to the cotyledonary stage. Of the cotyledonary embryos, 90% underwent conversion to plantlets on the same medium. Encapsulated cotyledonary embryos exhibited 100% conversion to plantlets. Ninety-five percent of the plantlets established in field conditions survived, and were morphologically identical to the mother plant.