Arabinogalactans and arabinogalactan-proteins induce embryogenesis in wheat (Triticum aestivum L.) microspore culture

The objective of this study was to improve induction of embryogenesis in wheat microspore culture in order to obtain a high number of regenerable embryos. The arabinogalactan (AG) Larcoll and the arabinogalactan-protein (AGP) from gum arabic were tested on two spring genotypes to see if they could increase microspore viability and induce embryogenesis in the microspore culture. Adding Larcoll significantly decreased microspore mortality in both genotypes regardless of the presence or absence of ovaries in the culture. Similarly, gum arabic had a strong effect on the number of embryos produced and regenerated green plants. In fact, by using only gum arabic we were able to obtain green plants from wheat microspore cultures without the presence of ovaries. In addition to preventing a high mortality rate of the cells, our results show that the induction of embryogenesis in wheat microspore cultures is strongly affected by the use of both AG or AGP.An erratum to this article can be found at     

Effects of genotypes and culture conditions on microspore embryogenesis and plant regeneration in several subspecies of Brassica rapa L.

A number of factors influencing microspore embryogenesis and plant regeneration were examined in five subspecies (rapa, oleifera, niposinica, perviridis, broccoletto) of B. rapa. Addition of 6-benzylaminopurine (BA) in 1/2 NLN-10 medium improved the embryo yield by 2?C12 fold. Addition of activated charcoal (AC) in the medium was not effective for microspore embryogenesis. Moreover, AC canceled the positive effect of BA, when the medium containing both BA and AC was used. Of 24 genotypes examined for microspore embryogenesis, 22 genotypes of all five subspecies produced embryos ranging from 0.02 to 15.0 per 2?×?10⁵ microspores, but two genotypes were not responsive. Low temperature pretreatment of flower buds significantly improved the microspore embryogenesis. When cotyledonary embryos were subcultured on a filter paper placed on top of 0.8?% agar-solidified B5-2 medium and 1.6?% agar B5-2 medium, plant regenerations were increased 4?C8 fold compared to 0.8?% agar medium. The ploidy levels of regenerated plants in three genotypes were determined by flow cytometry, revealing that 66?C100?% of them were diploid. The results enable the advancement of breeding programs and genetic studies in B. rapa.     

Non-ionic surfactants improved microspore embryogenesis and plant regeneration of recalcitrant purple flowering stalk (Brassica campestris ssp. chinensis var. purpurea Bailey)

As Brassicaceae species are mostly cross-pollinated, breeding homozygous parental lines by traditional approaches is time-consuming and costly. Alternatively, microspore culture has been widely applied to produce double haploid lines in a short time. This study aimed to establish a highly efficient microspore culture protocol for purple flowering stalk. Among the five genotypes studied, the highest and lowest embryo induction rates were observed in J18 and J17 (13.5 and 7.67 embryos per bud, respectively). Microspores of genotypes J17 and J18 were successfully induced to produce embryos in NLN-13 medium, but the frequency of microspore embryogenesis was low. Three non-ionic surfactants (Pluronic F-68, Triton X-100, Tween-20) were evaluated independently for their effect on microspore embryogenesis of purple flowering stalk. Microspores of the two genotypes were cultivated in NLN-13 medium supplemented with different concentrations (0.0001%, 0.001%, 0.01%, 0.1%, 0.5%, and 1% (w/v)) of the three non-ionic surfactants to enhance microspore embryogenesis and plant regeneration. In both genotypes, supplementation with any of the three non-ionic surfactants at 0.0001% significantly increased the frequency of microspore embryogenesis; furthermore, at that concentration, Tween-20 significantly increased the number of plants regenerated from induced embryoids by 29.9% and 30% in J17 and J18, respectively. Moreover, the rate of double haploid formation among regenerated plants of the five genotypes was above 60%, which allowed the creation of 93 double haploid lines.

     

Effects of compound sodium nitrophenol on microspore embryogenesis and plantlet regeneration in flowering Chinese cabbage (Brassica campestris L. ssp. chinensis var. utilis Tsen et Lee)

Isolated microspore culture has been implemented in breeding programs to produce doubled haploid (DH) lines and thus accelerates the breeding process. However, low microspore embryogenesis frequency in flowering Chinese cabbage remains a key obstacle to the practical application of this technique. This study aimed to establish an efficient microspore culture protocol for flowering Chinese cabbage that would be applied for heterosis breeding. Microspores of five genotypes, 19AY05, 19AY06, 19AY10, 19AY12, and 19AY15, were successfully induced to produce embryos in NLN-13 medium. Microspores of two genotypes, 19AY05 and 19AY15, were cultivated in NLN-13 medium supplemented with different concentrations (0, 0.01, 0.05, 0.1, or 0.2 mg·L⁻¹) of compound sodium nitrophenol (sodium nitrophenol, 5-nitrophenol) to enhance microspore embryogenesis and plant regeneration without an intervening callus phase. The results showed that 0.05 ~ 0.1 mg· L⁻¹ sodium nitrophenol and 0.01 ~ 0.2 mg· L⁻¹ of 5-nitrophenol significantly promoted the induction of microspore embryogenesis of two genotypes, and the best concentrations required for different genotypes are different. Moreover, 0.1 mg· L⁻¹ sodium nitrophenol can significantly increase the plant regeneration rate of the two genetypes. The 5-nitrophenol at 0.01 mg·L⁻¹ significantly increased rate of embryos directly convert to plant in 19AY15. In addition, the average doubled haploid rates in the five genotypes were close to 63%. Horticultural traits of DH lines from 19AY05 were identified and all of them were self-incompatible lines. They showed a high uniformity and consistency that can be directly used for hybrid breeding. Furthermore, the hybrid combination was prepared with the selected DH lines and the Guangdong nucleus genic sterile line GMS019 to screen the excellent hybrid combination for the flowering Chinese cabbage breeding program. This method accelerates the application of microspore culture in hybrid breeding of flowering Chinese cabbage.

     

High-frequency embryogenesis inBrassica campestris microspore culture

Microspore culture is a very important and useful tool in plant breeding for haploid production and has been developed for many years.Brassica campestris (Brassica rapa L. ssp.oleifera) is an important oilseed crop, but it is relatively recalcitrant in tissue culture including microspore culture. The microspore culture in our laboratory is based on the Canadian protocol. Thirty genotypes ofB. campestris were included in this study; twenty produced embryos. The highest yield was 5930 embryos per 100 buds from Canadian genotype Cv-2, this result was one of the best that had been reported in microspore culture inB. campestris. The buds measuring 2.0 mm to 3.9 mm in length responded best to produce embryos, the optimum timing for microspore culture was confirmed to be during the mid-late to very-late uninucleate stage. The buds could be removed from either the main raceme or lateral racemes. Activated charcoal (150 mg l^-1) was added to the liquid NLN medium, it promoted embryogenesis significantly; embryo development was faster and the embryo yield was significantly higher than those cultures without activated charcoal. The donor plant condition was considered an important factor influencing embryogenesis; older donor plants (older than five weeks) and a cold treatment are recommended.     

基因型与培养条件对羽衣甘蓝小孢子胚胎发生的影响

本文详细地研究了小孢子发育时期、基因型与培养条件对羽衣甘蓝小孢子胚胎发生的影响,建立了一个稳定、高频地获得小孢子胚胎的有效体系。结果表明,不同基因型材料相同大小的花蕾其小孢子发育时期存在很大差异,需针对不同基因型材料选取适合大小的花蕾。供试的37个基因型中,有20个获得了胚状体,占供试材料的54．1％,其中基因型‘桃舞’获得了最高的出胚率,为123．6个·皿-1。自交系的出胚率比商业品种和F,代杂种的出胚率要低得多,且自交代数越高,小孢子的胚胎发生能力就越弱。在热激培养48hN加液培养对小孢子的发育能起到积极作用,向培养基中添加激素和活性炭对小孢子的胚胎发生无促进作用。     

Organelle antioxidants improve microspore embryogenesis in wheat and triticale

Low frequency of green plant production and albinism limits the use of isolated microspore culture (IMC) in cereal breeding programs. The present study was conducted in triticale and bread wheat IMC to increase the production of green plants and minimize albinism. NPB-99?+?10% Ficoll induction medium was supplemented with mitochondrial or plastid antioxidants, in a completely random design, to evaluate their contribution to successful microspore embryogenesis and green plant production. Each group of antioxidants was tested independently: first in triticale and then validated in various spring wheat genotypes. While the response differed by wheat genotype, induction medium supplemented with proline (10 mM) yielded a greater number of embryos/embryo-like structures and green plants in both triticale and wheat. No differences were found with respect to albinism in triticale or wheat except for the cv. Sadash. Among plastid antioxidants tested, glutathione (2 μM) proved to be the best antioxidant to increase embryo and green plant production. Salicylic acid also helped to reduce the number of albino plants in triticale and the wheat genotype SWS366. Overall, induction medium supplemented with proline or glutathione enhanced microspore embryogenesis in both triticale and wheat and increased the number of green plants in the recalcitrant genotypes.     

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     

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.     

结球甘蓝和青花菜小孢子胚植株再生

结球甘蓝(Brassica oleracea var. capitata)和青花菜(Brassica oleracea var. italica)小孢子胚再生植株频率低是目前影响游离小孢子培养技术有效应用的关键问题之一, 研究其小孢子胚植株再生频率的影响因素, 提高胚再生植株频率, 对促进游离小孢子培养技术在甘蓝类蔬菜育种中更好地应用具有重要意义。该文以结球甘蓝中甘11和青花菜TI-111等基因型为试材, 对影响游离小孢子胚再生成植株的固体培养基类型、琼脂浓度、胚的类型及胚在液体培养基中的滞留时间等因素进行了研究。结果表明: 游离小孢子培养25天的子叶胚在琼脂浓度为1%–1.25%的B5培养基上植株再生频率最高。进一步通过8个不同基因型对上述实验结果进行了验证, 结果显示, 游离小孢子培养25天的子叶胚在1%琼脂浓度的B5培养基上植株再生频率达77.8%–97.2%。     

Efficient induction of microspore embryogenesis using abscisic acid,jasmonic acid and salicylic acid in Brassica napus L

The stress hormones abscisic acid (ABA), jasmonic acid (JA) and salicylic acid (SA) play an important role in the regulation of physiological processes and are often used in tissue culture to promote somatic embryogenesis and to enhance the quality of somatic embryos. Despite many studies on Brassica napus microspore culture, the effects of stress hormones (ABA, JA and SA) on microspore embryogenesis are not well explored. In this study, the effects of three incubation periods (6, 12 and 24 h) at different levels of ABA, JA and SA (0, 0.2, 0.5, 1.0, 2.0 and 5.0 mg l^?1) on microspore embryogenesis of rapeseed (B. napus L.) cv. ‘Regent’ were investigated. ABA (0.5 mg l^?1 for 12 h) enhanced microspore embryogenesis by about threefold compared with untreated cultures and increased normal plantlet regeneration by 68 %. ABA treatment also effectively reduced secondary embryo formation at all concentrations tested but enhanced callusing at high levels, for example 67 % at 1.0 mg l^?1 for 24 h. Highest embryo yield (286.0 embryos Petri dish^?1) was achieved using 1.0 mg l^?1 JA for 24 h and highest normal plantlet regeneration (54 %) was observed in cultures exposed to 0.5 mg l^?1 JA for 12 h. JA (5.0 mg l^?1 for 24 h) also reduced the germination of microspore-derived embryos on regeneration medium by 21 %. SA at 0.2 and 0.5 mg l^?1 for 6 h increased microspore embryogenesis (184.0 and 193.4 embryos Petri dish^?1) relative to the control (136.2 embryos Petri dish^?1). However, SA did not improve normal regeneration, secondary embryo formation or callusing. Microspore embryogenesis and plant regeneration could be improved by ABA, JA as well as SA when the appropriate level and duration of incubation were selected.     

Effect of boron on microspore embryogenesis and direct embryo to plant conversion in <Emphasis Type="Italic">Brassica napus</Emphasis> (L.)

The NLN-medium has been successfully used, since 1982, for microspore culture in Brassica napus and other Brassica species. Changes to the media composition were restricted to carbohydrate and nitrogen sources and growth regulators while micro-nutrients have not been optimized. The NLN-medium contains boron at a concentration of 162 µM. Boron is required for diverse physiological and metabolic processes in the cell. This study investigated the effect of seven- and 13-fold increased boron concentration on the induction of embryos in microspore cultures of four genotypes of B. napus. A significant improvement of microspore embryogenesis was achieved by both enhanced boron concentrations in the NLN medium. No effect on the regeneration of embryo to plant conversion was observed.     

甘蓝型油菜小孢子培养技术的几项改进

本研究在NLN-16和NLN-13的培养基中分别加入0.1mg/L 6-BA和0.05%的活性碳,结果表明6-BA对小孢子再生胚有明显地促进作用,再生胚的频率比对照增加26枚/皿,经分析达到显著水平;而0.05%的活性碳对小孢子再生胚促进作用不显著。对甘蓝型油菜小孢子培养再生植株的染色体加倍及移栽的研究结果表明,在小孢子培养初期加50mg/L秋水仙碱加倍效率最佳,加倍率达到67.6%。小孢子培养的再生苗移栽至大田后,采用遮阳网覆盖小苗,移栽成活率达到87.6%。 Abstract:The application of microspore culture technique was restricted because of its low frequency of embryogenesis and chromosome doubling.Two methods of enhancing the frequency of embryogenesis were employed in the study,namely,activated charcoal treatment in NLN-13 media and 6-BA treatment in NLN-16 media.The treatment with 0.05% activated charcoal produced 24 embryos per plate,which increased 1.7 embryos per plate,as compared with the treatment without activated charcoal.However,the analysis of T-test showed that it was not significant.After adding 0.1mg/L 6-BA in NLN-16 media,the frequency of embryogeny was 38.3 embryos per plate,and it was 26 embryos more per plate than that of CK.Analysis of T-test is significant.This indicates that 6-BA promotes embryogeny in microspore culture.Adding 50mg/L colchicines in NLN-16 media,the doubling frequency was 67.6%.The plantlets transplanted into field with two methods of light-covered net and plastic films were investigated.A survival rate of 87.6% was obtained using light-covered method whereas 57.7% survived using plastic film method.     

In vitro anther culture of sweet orange (Citrus sinensis L. Osbeck) genotypes and of a C. clementina × C. sinensis ‘Hamlin’ hybrid

Citrus, and particularly sweet oranges, are very recalcitrant to anther culture. In this paper it was evaluated for the first time the response of 27 genotypes of Citrus sinensis and of one hybrid C. clementina × C. sinensis, to in vitro anther culture. Ten genotypes of sweet oranges showed embryogenic callus induction, mostly blood sweet oranges genotypes, such as Tarocco, Moro and Sanguinelli. In vitro microspore developmental switches from the gamethophytic to the sporophytic pathway were shown by DAPI staining in microspores of these responsive genotypes, after 10 months in culture. However, microsatellite marker analyses showed that these calli were heterozygous. The flow-cytometric analysis of these embryogenic calli showed the presence of two peaks, corresponding to haploid (n) and diploid (2n) genotypes. Differently, anther cultures of the hybrid C. clementina × C. sinensis produced tri-haploid (3n) embryogenic calli and the embryos obtained were homozygous when analyzed by molecular markers (sample sequence repeats), confirming the more responsive characteristic of clementine to microspore embryogenesis through anther culture.     

Regeneration of zygotic-like microspore-derived embryos suggests an important role for the suspensor in early embryo patterning

The inaccessibility of the zygote and proembryos of angiospermswithin the surrounding maternal and filial tissues has hamperedstudies on early plant embryogenesis. Somatic and gametophyticembryo cultures are often used as alternative systems for molecularand biochemical studies on early embryogenesis, but are notwidely used in developmental studies due to differences in theearly cell division patterns with seed embryos. A new Brassicanapus microspore embryo culture system, wherein embryogenesishighly mimics zygotic embryo development, is reported here.In this new system, the donor microspore first divides transverselyto form a filamentous structure, from which the distal cellforms the embryo proper, while the lower part resembles thesuspensor. In conventional microspore embryogenesis, the microsporedivides randomly to form an embryonic mass that after a whileestablishes a protoderm and subsequently shows delayed histodifferentiation.In contrast, the embryo proper of filament-bearing microspore-derivedembryos undergoes the same ordered pattern of cell divisionand early histodifferentiation as in the zygotic embryo. Thisobservation suggests an important role for the suspensor inearly zygotic embryo patterning and histodifferentiation. Thisis the first in vitro system wherein single differentiated cellsin culture can efficiently regenerate embryos that are morphologicallycomparable to zygotic embryos. The system provides a powerfulin vitro tool for studying the diverse developmental processesthat take place during the early stages of plant embryogenesis. Key words: Brassica napus, microspore embryogenesis, pattern formation, polarity, suspensor, zygotic embryogenesis     

Arabinogalactan proteins improve plant regeneration in barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis> L.) anther culture

Androgenesis-based methods of doubled haploid (DH) production show considerable variation in efficiency in different barley genotypes. Arabinogalactan proteins (AGPs) have been shown to play a key role in several developmental processes, including embryogenesis, in different plant species. In this study we investigated the effect of exogenous AGPs from gum arabic on androgenesis and the regeneration efficiency in barley anther culture. Supplementation of the induction medium with 10 mg l^?1 gum arabic increased the total plant regeneration rate up to 2.8 times; when exposure to GA was extended to also include the pretreatment step, the regeneration rate was up to 6.6-times higher than in control. The effect of gum arabic was reversed by the Yariv reagent, an AGPs antagonist. This suggests a direct involvement of AGPs in androgenic development from barely microspores. Addition of gum arabic reduced cell mortality, increased the frequency of mitotic divisions of microspores and the number of multicellular structures (MCSs) when compared to control. The positive effect of gum arabic also included reduction in time required for the androgenic induction and substantially improved the quality of formed embryos. Observations made in this study imply a complex role of AGPs during androgenic development and confirmed the usefulness of gum arabic in production of barley androgenic plants.     

The effect of ovary-conditioned medium on microspore embryogenesis in common wheat (Triticum aestivum L.)

Microspores were isolated from wheat (Triticum aestivum L.) spikes of various genotypes following an effective pretreatment that induced microspore embryogenesis. The isolated microspores were cultured with or without live ovaries, and with or without medium pre-conditioned by ovaries for varying periods of time. Live ovaries alone increased androgenic embryoid yields up to 4.5-fold over the control for microspores isolated from responsive genotypes. While live ovary co-culture alone was not effective for microspores isolated from recalcitrant genotypes, the addition of medium preconditioned by ovaries to microspore cultures increased embryoid yield by more than 100-fold. Without ovary-conditioned medium, no embryoids could be obtained from some recalcitrant genotypes. Ovary-conditioned medium apparently functions to increase embryoid yields by providing essential substance(s) for elaboration of the embryogenic program already triggered during pretreatment.     

Isolated microspore culture of Chinese flowering cabbage (Brassica campestris ssp. parachinensis)

Microspores of several genotypes of Brassica campestris ssp. parachinensis have been cultured in vitro and induced to undergo embryogenesis and plant formation. Conditions favourable for embryogenesis in this species include a bud size of 2–2.9 mm, NLN-13 culture medium (Nitsch and Nitsch 1967; Lichter 1981, 1982; Swanson 1990), and an induction through exposure to 32°C for a period of 48 h. Longer periods of an elevated temperature for induction of embryogenesis resulted in embryo abortion at early developmental stages. With the protocol developed here, microspores of 60–80% of donor plants could be induced to produce embryos, although embryo yields were low, i.e. 2–5 embryos per 10 buds. Some genotypes responded to culture conditions with high numbers of embryo formation (100–150 embryos per 10 buds) but most of these subsequently failed to mature. The pattern of cell division and morphological changes of the microspores in culture were studied using various microscopic techniques.     

Efficient embryogenesis and regeneration in freshly isolated and cultured wheat (Triticum aestivum L.) microspores without stress pretreatment

The major advantage of doubled haploids in plant breeding is the immediate achievement of complete homozygosity. Desired genotypes are thus fixed in one generation, reducing time and cost for cultivar or inbred development. Among the different technologies to produce doubled haploids, microspore embryogenesis is by far the most common. It usually requires reprogramming of microspores by stress such as cold, heat, and starvation, followed by embryo development under stress-free conditions. We report here the development of a simple and efficient isolated microspore culture system for producing doubled haploid wheat plants in a wide spectrum of genotypes, in which embryogenic microspores and embryos are formed without any apparent stress treatment. Microspores were isolated from fresh spikes in a nutrient-free medium by stirring and cultured in medium A2 in the dark at 25°C. Once embryogenic microspores were formed, ovaries and phytohormones were added directly to the cultures without changing the medium. The cultures were incubated in the dark at 25–27°C until the formation of embryos and then the embryos were transferred to regeneration medium. The regeneration frequency and percentage of green plants increased significantly using this protocol compared to the shed microspore culture method.Communicated by W. Harwood     

Enhancement of microspore culture efficiency of recalcitrant barley genotypes

The culture response of isolated microspores of seven recalcitrant cultivars of barley has been largely improved by identifying an appropriate pretreatment and utilizing ovary co-cultivation. After comparison of three pretreatment media, medium B was shown to be most efficient for inducing microspore embryogenesis, while 0.3 M mannitol frequently used for the responsive cv. Igri was found to be ineffective for recalcitrant genotypes. A further significant improvement of embryogenesis was achieved by using ovary co-culture, which resulted in an overall 2.1-fold increase in embryo formation and 2.4-fold increase in green plant regeneration from all cultivars compared with the control. Optimal co-culture conditions were identified as 5 ovaries/ml medium kept over 20 days in induction culture. Microspore plating densities in cultures with and without co-culture were found to be optimal at 4᎒⁴/ml and 8-12᎒⁴/ml, respectively. The most effective and reproducible method for culturing microspores of recalcitrant genotypes appeared to be the combination of medium B pretreatment with ovary co-culture. By using this procedure, the genotypic difference in microspore embryogenesis could be reduced. It was found that medium B mainly enhanced percent live embryogenic microspores, and ovary co-culture subsequently improved cell division and embryogenic development. The method described here is important for the application of the microspore culture technique to barley breeding and biotechnology.