Heat shock response during anther culture of broccoli (Brassica oleracea var italica)

Embryo formation from microspores of Brassica oleracea var Italica (Broccoli) and other Brassica species is greatly enhanced by an initial incubation at elevated temperatures (eg 35°C) followed by continued incubation of 25°C. In the present study we observed that a three hour high temperature treatment induced the formation of heat shock proteins in cultured anthers. These were identified in two dimensional gels by silver staining, and labelled heat shock proteins were synthesised in vitro from isolated anther RNA. The appearance of heat shock proteins in anthers followed a similar pattern and displayed similar characteristics to that from leaves. Comparison of the heat shock proteins induced in isolated cultured anthers of known highly embryogenic and less embryogenic plans did not reveal obvious qualitative differences.     

Pro-embryos induction from <Emphasis Type="Italic">Olea europaea</Emphasis> L. isolated microspore culture

Studies were undertaken with one olive (Olea europaea L.) cultivar to identify buds with microspores competent to embryogenesis in vitro. Isolated microspore cultures were performed for the induction of gametic embryogenesis. Different pollen development stages and stress conditions (heat or cold shock) were evaluated. The correlation of inflorescence, anther morphology and the suitable stage of microspore development were analysed. The morphology of responsive buds was identified which corresponded with microspores from the late uni-nucleate to early bi-nucleate pollen stages. Symmetrical divisions of microspores as well as resulting multinucleate structures and pro-embryos were observed. In this paper, a new method of isolated microspore culture that leads to cell division and pro-embryos in olive, is reported.     

Efficient microspore embryogenesis in wheat (Triticum aestivum L.) induced by starvation at high temperature

We have established an efficient method to induce embryo formation from isolated wheat (Triticum aestivum L.) microspores. Culture of excised anthers under starvation and heat shock conditions induced the formation of embryogenic microspores at high frequency in nine Austrian winter wheat genotypes, including cultivars that had been considered as recalcitrant in anther culture. Percoll gradient centrifugation of the mechanically isolated microspores allowed us to obtain homogeneous populations of embryogenic microspores in all genotypes which, after transfer to a rich medium containing immature ovaries for conditioning, divided and produced globular embryos. Thousands of embryos were produced in one petri dish. Many of these embryos developed into plantlets after transfer to a solid medium without ovaries.     

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.     

A novel stress-related gene in developing pepper anthers

To study gene expression patterns and to find genes related with microspore embryogenesis during pepper (Capsicum annuum L.) anther development, mRNA expression patterns were investigated at four developmental stages distinguished according to the size of flower bud, the color of anthers, and the cytological feature of microspores. Through GeneFishing using 120 random primers, 81 genes were found to be differentially expressed as anthers develop. We directly sequenced seven of them, which were either up- or down-regulated at stage 2, since microspores at stage 2 are known to be responsive to the induction signals for microspore embryogenesis. Nucleotide sequence analysis of the isolated differentially expressed genes (DEGs) and the comparison of these sequences with the GenBank data indicate that DEG13 is a novel gene, which is highly homologous to a stress-related gene of potato, POACT88 (≈91%) and to alcohol dehydrogenase gene of Arabidopsis (≈70%), whose expression is also tightly related to stresses. In vitro data also showed that DEG13 was more abundantly expressed in heat-treated microspores than in untreated microspores. Here, we report developmental stage-specific gene expression patterns during anther development and a novel stress-related gene, DEG13, which may be involved in microspore embryogenesis in response to heat treatment.     

Anther culture of kale (Brassica oleracea L. convar.acephala (DC.) Alef.)

The pollen development and androgenic ability of 18 kale (Brassica oleracea convar.acephala) genotypes was observed during an anther culture study. Anther culture was successful in 6 of the genotypes and the highest yield obtained was 17 embryos per 100 anthers plated. Two stages of anther development were identified as being responsive to anther culture. The first and most responsive was that corresponding to the late uninucleated stage and the second to the late binucleated stage. These stages correspond with the onset of mitotic events in the microspores. Pollen viability was studied and low viability was noted which declined to zero after 9 days of anther culture. The initial viability level however was not clearly related to androgenic ability. The significance of the production of haploid and dihaploid kale genotypes in the study and breeding of resistance to clubroot is discussed.     

Effects of culture conditions on isolated microspore response of barley cultivar Igri

Pretreatment of anthers in mannitol prior to isolation of microspores by glass rod homogenization was effective for in vitro induction of embryogenesis in barley cv. Igri. A procedure for separation of viable microspores using centrifugation on 20% maltose was developed. The concentration of microspores was important and greatly increased the number of developing structures. Initial culture of microspores on FHG medium containing 62 g l^-1 maltose, 4.4 M (1 mg l^-1) BA and 200 g l^-1 Ficoll-400 resulted in high frequencies of plant regeneration. Albino plant frequency was correlated to length of time in culture. Stock plant condition appeared to be a major factor influencing induction frequency. From 868 to 1738 green plants per 100 anthers were produced. The number of calli and embryos obtained and the number of green plantlets regenerated were improved by increasing the Ficoll concentration from 100 g l^-1 to 400 g l^-1 during the culture period compared to continuous culture on FHG Ficoll 200 g l^-1.Abbreviations BA benzyladenine     

Anther culture of <Emphasis Type="Italic">Lupinus angustifolius</Emphasis>: callus formation and the development of multicellular and embryo-like structures

Androgenesis is an important technique to generate double haploid plants. Anther and microspore cultures are the methods to induce haploid embryogenesis. For culture initiation, it is necessary to select anthers with the appropriate developmental stage of microspores. For lupins, limited reports about the establishment of initial cultures for androgenesis are available. In this study, different parameters of anther culture of three genotypes of Lupinus angustifolius were investigated. For all genotypes, a considerable correlation was observed between the buds and the anthers, depending on their location in the inflorescences. Buds from the central segment of inflorescences had yellowish green anthers that contained the maximum number of microspores at uninucleate stage. Cytological investigation shows that the anthers containing these microspores were the most responsive to induction. Two types of developmental pathways were observed for microspores. In case of cold pre-treated and untreated inflorescences, microspores developed into multicellular and embryo-like structures, respectively. Effects of different factors showed significant differences among: genotypes, pre-treatment, growth regulators (GRs) and genotypes × GRs interaction. Among three genotypes, Emir showed the highest number of multicellular and embryo-like structures on MS medium + 2.0 mg/l 2,4 D + 0.5 mg/l Kinetin (Kin). For all genotypes, anthers produced calli on MS medium containing 2.0 mg/l 2,4 D + 0.5 mg/l Kin. These calli continued their growth on regeneration medium (MS + 2.0 mg/l BA + 0.5 mg/l NAA) and produced roots. Taken together, these results provide a good basis for further research towards the development of haploid plants for L. angustifolius.     

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.     

Efficient callus induction and plant regeneration from anther of Chinese narcissus (Narcissus tazetta L. var. chinensis Roem)

Callus culture has, to date, been reported only in a few species of Narcissus. We used anthers of Chinese narcissus (Narcissus tazetta L. var. chinensis Roem) as explants for callus induction and plant regeneration. A high percentage of anthers at the early- to mid-uninucleate microspore stage were responsive on the basal MS medium supplemented with 0.5–1 mg l^–1 2,4-dichlorophenoxyacetic acid and 0.5–2 mg l^–1 6-benzyladenine under dark conditions. Calli were initiated from anther connective tissue or anther wall tissue, and no division of microspores occurred during callus formation, as determined by histological observation. Using 20 random amplified polymorphic DNA primers, we verified the genetic integrity of the anther-derived plants of Chinese narcissus with respect to the donor plants. These results suggest that anther culture in vitro can provide an efficient new micropropagation technique for Chinese narcissus as well as a new strategy for in vitro mass propagation of other daffodils.     

Embryogenesis and plant regeneration of hot pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.) through isolated microspore culture

We report high frequencies of embryo production and plant regeneration through isolated microspore culture of hot pepper (Capsicum annuum L.). Microspores cultured in modified NLN medium (NLNS) divided and developed to embryos. Globular and heart-shaped embryos were observed from 3 weeks after the beginning of culture, and many embryos reached the cotyledonary stage after 4 weeks of culture. These cotyledonary embryos developed to plantlets after transfer to solid B5 basal medium. We also optimized conditions for embryo production by varying the pretreatment media, the carbon sources, and culture densities. Heat shock treatment in sucrose-starvation medium was more effective than in B5 medium. Direct comparisons of sucrose and maltose as carbon sources clearly demonstrated the superiority of sucrose compared to maltose, with the highest frequency of embryo production being obtained in 9% (w/v) sucrose. Microspore plating density was critical for efficient embryonic induction and development, with an optimal plating density of 8 × 10⁴–10 × 10⁴/ml. Under our optimized culture conditions, we obtained over 54 embryos, and an average of 5.5 cotyledonary embryos when 10 × 10⁴ microspores were grown on an individual plate.     

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.     

Regeneration of doubled haploid plants by androgenesis of cucumber (<Emphasis Type="Italic">Cucumis sativus </Emphasis>L.)

Six experiments (including pretreatment, embryonic callus induction media, preculture conditions, embryo induction media, embryo germination media, and genotypic effects) were conducted to develop an efficient cucumber (Cucumis sativus L., 2n = 2x = 14) anther culture protocol. Pretreatment and embryo induction were key factors for successful anther culture. Suitable temperature stress depended on the ecotype, i.e., cucumbers from cold areas responded well to cold shock whereas those from temperate areas responded well to heat treatment. The best medium for embryonic callus induction was MS medium supplemented with 4.44 μM BA, 2.26 μM 2, 4-D, 4.64 μM KIN, 3% sucrose and 0.8% agar. For embryo induction, MS medium supplemented with 0.54 μM NAA, 13.32 μM BA, 3% sucrose and 0.8% agar was optimal, and for embryo germination MS medium containing 2.22 μM BA, 6% sucrose and 1.2% agar was best. Using this protocol, we produced callus from 16 genotypes and regenerated plants from three of 20 evaluated. Three embryos per anther and 42 DH per 45 anthers (93% success) were obtained for cv. Ningjia No. 1, which was an improved result over a previous report. The origin of regenerants from microspores was determined by cytological, morphological and AFLP analyses.     

Involvement of phenylalanine ammonia-lyase in the development of pollen in broccoli (Brassica oleracea L.)

Summary To determine whether phenylalanine ammonia-lyase (EC 4.3.1.5) is involved in the maturation of microspores to fertile pollen, anthers of a fertile strain of broccoli (Brassica oleracea L.) were studied in a comparison with anthers of a cytoplasmic male sterile strain. In the normal fertile strain, immature anthers of about 2 mm in length exhibited higher phenylalanine ammonia-lyase activity than mature anthers or those shorter than 2 mm. The 2-mm-long anthers corresponded to the mononucleate stage, just after release of the microspores during pollen development. Immunohistochemical localization of phenylalanine ammonia-lyase in the anthers indicated that the protein was present predominantly in the tapetal cells. The immature anthers of cytoplasmic male sterile broccoli had a lower phenylalanine ammonia-lyase activity than those of the normal fertile strain. The level of phenylalanine ammonia-lyase activity in the immature anthers was positively correlated with the number of fertile pollen grains at the flowering stage in both strains. It seems possible, therefore, that phenylpropanoid metabolism, which involves phenylalanine ammonia-lyase, may play an important role in the maturation of microspores in flowering plants.Abbreviations CHS chalcone synthase - CMS cytoplasmic male sterility - DAPI 4, 6-diamidmo-2-phenylindole dihydrochloride - PAL L-phenylalanine ammonia-lyase     

Histology of embryogenic responses in soybean anther culture

In order to clarify the embryogenic responses in soybean anther culture, anthers of four cultivars were cultured under known conditions to trigger androgenic response. A histological study was performed with anthers in vivo and with approximately 100 explants sampled after 9, 12, 15, 18, 21, 30 and 45 days of culture. In vitro culture triggered the frequent accumulation of phenolic compounds on the locular and anther surfaces, and also caused the destruction of cells and tissues in complex structure such as the tapetum, microspores and pollen grains. Somatic embryogenesis of unicellular origin was observed from the epidermis and the middle layer, and of multicellular origin from connective calluses. No androgenic response could be observed in the anthers of these four soybean genotypes, in the medium and conditions indicated. We point out to the need of changing the approach to the study of androgenesis in soybean, either by using culture conditions unfavourable to the proliferation of diploid tissues, or by culturing isolated microspores.     

Microspore embryogenesis induced through in vitro anther culture of almond (<Emphasis Type="Italic">Prunus dulcis</Emphasis> Mill.)

Anther culture is one of the most widely used methods to induce gametic embryogenesis. The aim of this investigation was to induce microspore embryogenesis in almond (Prunus dulcis Mill.), through this technique. Anthers were cultured at the vacuolated developmental stage, and seven cultivars, two culture media and two temperature treatments were assessed. Although evidence of the microspore induction was observed in all the genotypes and treatments tested (symmetrical nucleus division and multinucleated structures), calli were produced merely by anthers cultured in the medium P and the regeneration of embryos was detected only in anthers of the cultivars Filippo Ceo, Lauranne and Genco, placed on medium P and subjected to the Control treatment (direct culture at 25?±?1?°C, without the hot thermal shock at 35?±?1?°C for 7 days). Characterization by SSR marker analysis of the embryo genotypes revealed that the regenerants had a single allele for each locus whereas the parent cultivar was heterozygous, indicating their development from haploid microspores. This study reports the evidence of gametic embryogenesis and, particularly, of microspore embryogenesis through in vitro anther culture, in almond, and, for the first time to our knowledge, the production of homozygous embryos.     

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.     

Identification of embryogenic microspores of barley (Hordeum vulgare L.) by individual selection and culture and their potential for transformation by microinjection

Summary In order to identify microspores, suitable for transformation via microinjection of DNA, single microspores of barley (Hordeum vulgare L.) were selected after initial preculture of anthers floating on liquid media and analysed for their development in individual culture in microdroplets of culture medium. Conditions for microculture and plant regeneration from single selected embryogenie microspores were established. The technical feasability of intranuclear microinjection was demonstrated by injecting the fluorescent dye Lucifer Yellow. All essential procedures for a transformation system of barley based on microinjection into microspores have thus been performed successfully. Further efforts to increase efficiencies of culture and microinjection procedures are necessary, however, in order to improve the suitability of this approach towards transformation of barley.Abbreviations MES 2 (N-morpholino) ethanesulfonic acid - PEG polyethylene glycol