Cytological and ultrastructural changes induced in anther and isolated-microspore cultures in barley: Fe deposits in isolated-microspore cultures

To gain further insight into the role played by sporophytic anther tissues in the early stages of the androgenic process, we have compared the cytology and ultrastructure of barley embryogenic pollen grains obtained by anther culture with those obtained by isolated-microspore culture. The microspores behaved similarly in both culture systems but ultrastructural studies detected a significant difference: the presence of electron-dense deposits on the intine of embryogenic pollen grains generated by isolated-microspore culture compared to their absence in grains generated by anther culture. To discover the nature of these deposits, we applied proteinase K and EDTA treatments to ultrathin sections. We also subjected the deposits to X-ray microanalysis and found that they contained iron. Anthers and isolated microspores were cultured in media containing different concentrations of iron so as to evaluate the presence of these deposits on the intine. Deposits were not found in anther cultures at any iron concentration used or in microspore cultures when concentrations were lower than 40 mg/L. The Fe deposits on the intine appear to derive from an excess of Fe in the isolated-microspore culture medium which, if allowed to pass through the cell wall, could well be toxic to the embryogenic development of the microspores.     

Effects of light conditions and 2,4-D concentration in soybean anther culture

The morphogenic response of anther walls and connective tissue is the greatest obstacle to androgenesis in soybean anther culture. Whereas induction to microspore embryogenesis occurs in the dark in almost all plant species, soybean anthers have been cultured under light. In an attempt to establish culture conditions that simultaneously stimulate microspore embryogenesis and inhibit epidermal and connective cell proliferation, the effect of light and two 2,4-dichlorophenoxyacetic acid (2,4-D) concentrations (2 and 10 mg l^–1) on the induction process was investigated. Higher 2,4-D concentration speeded up microspore plasmolysis and did not improve androgenesis. Callogenesis and embryogenesis induction from sporophytic cells were significantly lower in the dark, and some microspores showed major alterations in the sporoderm. Auxin 2,4-D and induction under light contributed to the morphogenic response of the anther walls and connective tissue under the conditions previously recommended to trigger microspore embryogenesis.     

Enhanced post-germinative growth of encapsulated somatic embryos of Siberian ginseng by carbohydrate addition to the encapsulation matrix

Based on a protocol for microspore culture in apple (Malus domestica Borkh.), the embryo induction phase has been improved with regard to pretreatment of microspores for initiation of microspore embryogenesis, the concentration of carbon source in the induction medium and the microspore density in the suspension. Furthermore, the effect of the genotype was studied. To determine the efficiency of in vitro androgenesis, both methods, via anther and microspore culture, were investigated using the same bud material. A comparison of the efficiency of embryo induction in anther and microspore cultures showed that microspore culture resulted in an increase up to 10 times, depending on the genotype. The regeneration route in microspore culture is similar to that of androgenic embryos via anther culture and showed adventitious shoot formation in most cases after a long period of secondary embryogenesis.Communicated by H. Lörz     

In vitro androgenesis of triticale in isolated microspore culture

Culture conditions for triticale (X Triticosecale Wittmack) androgenesis were studied using microspore culture. Sporophytic development of isolated triticale microspores in culture is described in five winter hexaploid triticale genotypes. Microspores were isolated using a microblendor, and embryogenesis was induced in modified 190-2 medium both in the presence and absence of growth regulators. The highest induction of microspore embryogenesis was obtained in a growth regulator-free medium. Adventitious embryogenesis was observed during in vitro development of triticale microspores. Albino and green plantlets were regenerated from embryo-like structures. More than 50% of regenerants were albino. In total, 126 green plantlets were produced, transplanted and established in soil. Cytological evidence revealed that 90% of the transplanted regenerants were haploid. This revised version was published online in June 2006 with corrections to the Cover Date.     

Morphological events in cultures of mechanically isolated maize mcirospores

Summary In tis androgenic response, maize is considered to be a recalcitrant plant. We used mechanically isolated microspores of maize genotype A18 to establish a responsive microspore culture of maize. Morphological events occurring during the first days of maize androgenesis in a microspore culture were observed and described, and some morphological markers for distinguishing between embryogenic microspores and nonembryogenic microspores were identified. It was found that the enlargement of microspores during the first days in culture and the ‘star-like’ organization of the cytoplasm inside the microspore are connected with reprogramming of the developmental pathway in maize microspores. Some differences were also found in the surface wall architecture of embryogenic microspores. Fertile plants were successfully recovered from microspore-originated structures.     

Isolated microspore culture and plant regeneration in rye (Secale cereale L.)

 An isolated microspore culture and green plant regeneration method for rye (Secale cereale L.) was established. Rye isolated microspore androgenesis was genotype-dependent. PG-96M medium supplemented with 6% maltose gave the highest microspore survival rate after 48 h of culture and the highest embryo/callus yield (930 embryos/calli per 100 anthers from cv. Florida 401). Osmotic pressure in the induction medium played an important role. Pretreatment of the anthers with mannitol was beneficial for the microspore culture. Embryos/calli of a relatively younger age and smaller size had a higher regeneration ability, with the best green plant regeneration rate being 6%. Over 150 microspore-derived green plants have been obtained so far. About 90% of the regenerated plants were spontaneous doubled haploids. This is the first report of isolated microspore culture in true rye resulting in androgenic embryogenesis and plant regeneration. Received: 26 April 1999 / Accepted: 23 November 1999     

Production of doubled haploids in durum wheat (Triticum turgidum L.) through isolated microspore culture

The objective of this work was to produce doubled haploid plants from durum wheat through the induction of androgenesis. A microspore culture technique was developed and used to produce fertile doubled haploid plants of agronomic interest. Five cultivars, one selected line, plus a collection of 20 F₁ crosses between different genotypes of high breeding value were used. Studies on several factors such as pre-treatments and media components were carried out in order to develop a protocol to regenerate green haploid plantlets. Anthers were pre-treated in 0.7 M mannitol. Microspores, from anther maceration, were plated on a C₁₇ induction culture medium with ovary co-culture. The optimum regeneration medium J25–8 was used. From 35 microspore isolations, 407 green plantlets were obtained. With this technique mature embryos were obtained. Green plants were regenerated from all genotypes used and approximately 67% of them were spontaneously doubled haploids. Some haploids and a very few polyploids plants were obtained. From the 407 plants, 275 were completely fertile and gave enough seeds to be assayed in the field. This protocol could be used complementary to or instead of the intergeneric crossing with maize as an economically feasible method to obtain doubled haploids from most durum wheat genotypes.     

Induction of in vitro androgenesis in anther and isolated microspore culture of different spelt wheat (<Emphasis Type="Italic">Triticum spelta</Emphasis> L.) genotypes

This is the first report on isolated microspore culture—derived spelt wheat. The efficiency of anther- and isolated microspore was compared using four genotypes (‘Franckenkorn’, ‘GK Fehér’, ‘Mv Martongold’, ‘Oberkulmer Rotkorn’). In anther culture, genotype dependency was observed, and cold pre-treatment enhanced the efficiency of the method. In isolated microspore culture, the ovary co-culture supported the development of embryo-like structures. The presence of growth regulators (0.5 mg/l 2,4-D and 0.5 mg/l kinetin) were not essential for the induction of androgenesis, but these increased the production of embryo-like structures, green and albino plantlets. The low plant regeneration rate and high number of albinos hinder the practical application of isolated microspore culture while anther culture was efficient for in vitro green plantlets production in spelt wheat. The mean of green plantlets production was 41.45/100 anthers (from 20.93 to 83.07 depending on genotype). The phenomenon of albinism was mitigated in anther culture (3.48 albinos/100 anthers). Altogether, 1720 anther culture—derived green plantlets were produced from the four genotypes.     

Time-lapse tracking of barley androgenesis reveals position-determined cell death within pro-embryos

Following abiotic stress to induce barley (Hordeum vulgare L.) androgenesis, the development of 794 enlarged microspores in culture was monitored by time-lapse tracking. In total, 11% of the microspores tracked developed into embryo-like structures (type-I pathway), 36% formed multicellular structures (type-II pathway) and 53% of the microspores followed gametophytic divisions, accumulated starch and died in the first days of tracking (type-III pathway). Despite the microspore fate, enlarged microspores showed similar morphologies directly after stress treatment. Ultrastructural analysis, however, revealed two morphologically distinct cell types. Cells with a thin intine layer and an undifferentiated cytoplasm after stress treatment were associated with type-I and type-II pathways, whereas the presence of differentiated amyloplasts and a thick intine layer were associated with the type-III pathway. Tracking revealed that the first morphological change associated with embryogenic potential was a star-like morphology, which was a transitory stage between uninucleate vacuolated microspores after stress and the initiation of cell division. The difference between type-I and type-II pathways was observed during the time they displayed the star-like morphology. During the transition phase, embryo-like structures in the type-I pathway were always released out of the exine wall at the opposite side of the pollen germ pore, whereas in the type-II pathway multicellular structures were unable to break the exine and to release embryo-like structures. Moreover, by combining viability studies with cell tracking, we show that release of embryo-like structures was preceded by a decrease in viability of the cells positioned at the site of exine wall rupture. These cells were also positively stained by Sytox orange, a cell death indicator. Thereby, we demonstrate, for the first time, that a position-determined cell death process marks the transition from a multicellular structure into an embryo-like structure during barley androgenesis.     

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.     

Barley anther culture: assessment of carbohydrate effects on embryo yield, green plant production and differential plastid development in relation with albinism

Sugars and polyols were tested at different steps of anther culture in barley (Hordeum vulgare L.) to elucidate their influence on both the overall yield of androgenesis and the structure of plastids in relation to albinism. During the pretreatment period, the osmotic regulation in the medium was beneficial to microspore embryogenesis regardless of the type and concentration of the tested osmoticum. The use of mannitol (300 mOsm/kg), sorbitol (180 mOsm/kg), PEG (240 mOsm/kg) and sucrose (180 mOsm/kg) gave the best results in terms of green plant production, although the influence of each substance differed according to the studied parameter. Similarly, during anther culture the regulation of the osmotic pressure in the medium had various effects, according to the osmoticum used. The best results were obtained using mannitol (364 mOsm/kg), providing 139.7 green plants per 100 plated anthers. Plastids were examined by electron microscopy following both pretreatment and culture. In the presence of mannitol and PEG, plastids did not accumulate starch at any stage of the protocol but they started to differentiate into chloroplasts in the microspore-derived embryos. Using sorbitol and sucrose, plastids differentiated poorly but accumulated large amounts of starch, suggesting that these sugars are metabolized by micropores and microspore derived structures. However, the accumulation of starch was not correlated with the occurrence of albinism. These results indicated that, in barley, the osmotic regulation was favourable to switch the microspore gametophytic program toward a sporophytic program regardless of the nature of the osmoticum. In addition, during the pretreatment period, mannito was found to be the most suitable osmoticum for subsequent embryo development.     

Impact of abscisic acid in overcoming the problem of albinism in horse chestnut androgenic embryos

Horse chestnut (Aesculus hyppocastanum L., Hyppocastanacea) is a relict species with a slow and complex reproductive cycle considered to have horticultural and medical importance. The cycle maybe circumvented via in vitro androgenesis. Androgenesis of horse chestnut was induced in microspores and anther culture on MS media. Some of the horse chestnut androgenic embryos were albinos. Addition of abscisic acid in media (in concentrations of 0.01, 0.1, 0.5, 1, 2, 5, 10, and 20 mg l^?1) with horse chestnut androgenic embryos has circumvented the reproduction cycle barriers. The best results were achieved on medium with the lowest abscisic acid concentration (0.01 mg l^?1) in microspore culture. The microspore culture proved to be a better model system for embryo production and albino embryo reduction than anther culture. Flow cytometry analysis after maturation treatments induced by ABA showed that 88 % of green embryos originating from microspore culture were haploid. However, 50 % of green embryos from anther culture were haploid. The remaining analyzed androgenic embryos, from both types of cultures were diploid.     

Colchicine Induced Embryogenesis in Maize

The present study involves in vitro androgenesis of Zea mays L. using anther culture. We tested combinations of single factors and their influence on microspore induction. Embryogenic induction of microspores within anthers in in vitro conditions was the best when combination of cold treatment, TIBA (0.1 mg l^–1) in media and colchicine (0.02% during first 3 days of culture) was applied, but colchicine alone can be factor, which can stimulate or initiate embryogenesis in anther culture of maize.     

Doubled haploid production via anther culture in annual,winter type of caraway (<Emphasis Type="Italic">Carum carvi</Emphasis> L.)

Caraway (Carum carvi L.) is a traditional medicinal and spice cross-pollinated plant species. Although in vitro techniques are recently extensively applied in plant breeding programmes, these are not commonly utilized in caraway. Therefore, based on the protocol for anther culture in carrot (Daucus carota L., a closely related species of caraway in Daucaceae family), in vitro androgenesis in caraway has been studied with the aim to produce completely homozygous inbred lines. Various induction conditions, such as temperature pretreatments, carbon sources and combination of growth regulators in a culture medium as well as the effect of genotype on in vitro androgenesis were examined. Ten breeding lines of winter caraway representing third generation of forced (artificial) self-pollination were used as donor plant material. Cultured anthers produced embryogenic calli, and subsequently two types of regenerated plants were obtained, namely haploids with evident microspore origin, and diploids which may represent somatic (anther wall) regenerants or spontaneous doubled haploids. The ploidy status of regenerated plants was determined by flow cytometry. This is the first report on androgenic doubled haploid production in caraway.     

PCIB an Antiauxin Enhances Microspore Embryogenesis in Microspore Culture of Brassica juncea

An efficient protocol to improve microspore embryogenesis is established in an important oleiferous crop, Brassica juncea (Indian mustard). Colchicine was used for enhancing microspore embryogenesis and also to obtain doubled haploid embryos. Colchicine at high concentrations (>10 mg l⁻¹), for 24 h, proved convenient for direct recovery of diploid embryos. Higher temperature treatment and an antiauxin PCIB (p-chlorophenoxyisobutyric acid) enhanced microspore embryogenesis significantly as compared to colchicine. An increase in temperature from 32°C to 35°C proved very efficient in increasing embryogenesis by 10-fold. The highest embryogenesis rate was obtained when PCIB was added at 35°C in the culture after 1 day of culture initiation. 20 μM PCIB could enhance microspore embryogenesis by 5-fold. Different abnormal shapes of embryos like lemon, banana, flask and fused cotyledons were observed. Both normal and fused cotyledonous embryos showed normal germination when transferred on the B₅ basal medium.     

Microspore culture of small grain cereals

Androgenesis of wheat, rice and triticale was studied in isolated microspore culture. It is the first publication which studies microspore culture reaction of Hungarian rice varieties. The effect of different basic media, lack and absence of growth regulators in culture media were tested on important parameters of microspore culture. Direct embryogenesis was observed in microspore culture of wheat and triticale genotypes. In the case of rice, calli were induced in isolated rice microspore culture and haploid rice plantlets were regenerated via organogenesis.In wheat, the effect of basic media (W₁₄, A2, CHB₃, P4-m) was compared and among them the W₁₄, and A2 had a superior effect on embryo production and albino and green plantlet regeneration. In rice the C, CHB₃ and MS_m media were tested in microspore culture and the significantly highest numbers of calli were achieved by using C and CHB₃ media depending on the genotypes. The lack of exogenous growth regulators was observed in isolated microspore culture of triticale and rice. Growth regulator-free medium had a positive effect on embryo production and plant regeneration of triticale genotypes, whereas in rice microspore culture multicellular structures did not continue their division without growth regulators from the third week of microspore culture. Developing of microspore-origin calli was maintained by supplement of 2,4-D and Kinetin combination in the microspore culture medium.     

Microspore ofSecale cereale as a transfer cell type

Summary In the mature microspore ofSecale cereale, a set of wall ingrowths deposited as the first (outer) intine layer between exine and the microspore plasma membrane, are revealed by electron microscopy. The wall ingrowths form a girdle in the vicinity of the apertural region at the external pole of microspore which is in contact with the tapetum, so the microspore can be considered as a transfer cell which is polarized. After microspore division the second (inner) intine layer is deposited by the vegetative cell and forms a labyrinth of branched wall ingrowths. As a result, the periphery of a vegetative cell is also irregular and appears as very thin plasmatubules or evaginations delimited by plasma membrane and penetrating the pollen wall.The possible functions of the microspore as a transfer cell and the wall-membrane system of the vegetative cell are discussed.     

Effect of growth regulators on microspore embryogenesis in coconut anthers

The effect of growth regulators on induction of androgenesis in coconut was investigated using seven different growth regulators at various concentrations and combinations. Three auxins (1-naphthalene acetic acid—NAA, indoleacetic acid—IAA, picloram) and three cytokinins (2-isopentyl adenine-2-iP, kinetin, zeatin) were tested either alone or in combination with 2,4-dichlorophenoxyacetic acid (2,4-D), using modified Eeuwens Y3 liquid medium as the basal medium. Among the tested auxins, 100 μM NAA in combination with 100 μM 2,4-D enhanced the production of calli/embryos (123) whereas IAA and picloram showed negative and detrimental effects, respectively, for androgenesis induction over 100 μM 2,4-D alone. Kinetin and 2-iP enhanced the production of calli/embryos when 100 μM 2,4-D was present in the culture medium. Both cytokinins at 10 μM yielded the highest frequencies of embryos (113 and 93, respectively) whereas zeatin (1 or 2.5 μM) had no impact on microspore embryogenesis. When calli/embryos (produced from different treatments in different experiments) were sub-cultured in somatic embryo induction medium (Y₃ medium containing 66 μM 2,4-D), followed by maturation medium (Y₃ medium without growth regulators) and germination medium (Y₃ medium containing 5 μM-6-benzyladenine—BA and 0.35 μM gibberellic acid—GA₃), plantlets were regenerated at low frequencies (in most treatments ranging from 0% to 7%).     

含笑花药发育的超微结构研究

对含笑花药发育中的超微结构变化进行观察,结果显示:(1)花粉发育中有三次液泡变化过程——第一次是小孢子母细胞在形成时内部出现了液泡,这可能与胼胝质壁的形成有关;第二次是在小孢子母细胞减数分裂之前,细胞内壁纤维素降解区域形成液泡,它的功能可能是消化原有的纤维素细胞壁;第三次是在小孢子液泡化时期,形成的大液泡将细胞核挤到边缘,产生极性。(2)含笑花粉在小孢子早期形成花粉外壁外层,花粉外壁内层在小孢子晚期形成,而花粉内壁是在二胞花粉早期形成;花粉成熟时,表面上沉积了绒毡层细胞的降解物而形成了花粉覆盖物。研究认为,含笑花粉原外壁的形成可能与母细胞胼胝质壁有关,而由绒毡层细胞提供的孢粉素物质按一定结构建成了花粉覆盖物。