Improvement of green plant regeneration by manipulation of anther culture induction medium of hexaploid wheat

Anthers of three hexaploid wheat (Triticum aestivum L.) genotypes with high frequencies of albino regenerants in anther culture were compared to DH after inoculation on medium supplemented with ficoll, colchicine or maltose separately, pair-wise or combined, in an attempt to increase green plant regeneration. Maltose treatment produced more green regenerated plants than sucrose for all of the genotypes. The three chemicals combined in anther medium either reduced green plant regeneration or did not yield significantly different numbers of green regenerated plants compared to the maltose treatment. With DH fewer embryo-like structures (ELS) were obtained per 100 cultured anthers on all medium containing colchicine but greater frequencies of green plants per 100 ELS were obtained. It appeared that the increase in green regenerated plants per 100 ELS was due to a better quality of embryos that were capable of regenerating into green rather than albino plantlets. Smaller increases in green plants per 100 ELS were observed in ICR 4 and V-15 on colchicine containing medium compared to DH. Genotypic differences in anther culture response were observed for ELS per 100 cultured anthers (increased for V-37, decreased for DH and approx. the same for ICR 4 and V-15 in medium with all three chemicals compared to the sucrose control).     

Screening South African wheat germplasm for androgenic competence

Microspore and anther cultures provide an opportunity to create haploid and doubled haploid plants within a single season, thereby reducing the time and cost of cultivar development. Microspore and anther culture has been widely used and incorporated into wheat breeding programs in many countries, but little is known about the effectiveness of these techniques on South African germplasm. By using two responsive genotypes, isolated microspore culture was shown as more effective at revealing androgenic competence, and was used to evaluate the response of four South African inbred lines and two hybrids. Inbred lines A and B were highly responsive (336 and 207 embryo-like structures [ELS] per 100 anthers, respectively), line D was slightly responsive (5.1 ELS per 100 anthers) while line C was recalcitrant. The hybrid A × C was highly responsive (274 ELS per 100 anthers), and B × D did not respond at all. Green plant regeneration in a local genotype was very low (1% for line B) compared to that of foreign genotype (17% for Pavon 76). Similarly to other wheat genotypes grown around the world, the responsiveness of the South African varieties is also very variable. Thus, more efforts are needed so that isolated microspore culture can become a general tool in breeding programs.     

Microspore development in cultured maize anthers

The present study follows in vivo and in vitro microspore development utilizing an anther culture-responsive maize genotype (Pa91×FR16) and a DNA-specific fluorescent dye (mithramycin). Cultured anthers were sampled at various times and scored for abnormal microspore divisions, multicellular masses, and embryo-like structures. The frequency of abnormal microspore divisions reached a peak during the first 7 days in culture and then declined. The vegetative nucleus was mitotically active in culture with over 50% of the induced microspores exhibiting this type of division. Multicellular masses and embryo-like structures first appeared in the 14 and 25 day samples, respectively. Most of the microspores did not reach the multicellular stage and an even greater mortality occurred during the formation of embryo-like structures.     

大麦不同基因型游离小孢子的直接培养再生及培养体系的优化

以微搅拌法建立了小孢子直接游离的预处理和培养程序。在大田生长的４个对培养反应不同的大麦基因型上,以新鲜幼穗游离小孢子进行直接培养,均成功地诱导了胚状体并获得再生绿色植株。小孢子的发育进程说明,直接游离的小泡子在预处理过程中的发育要慢于在花药中预处理的小孢子,而且其培养效率也较低。直接游离小孢子的培养密度以０．８～１．０×１０５／ｍｌ较理想,至少应不低于６×１０４／ｍｌ．８％－１０％的糖浓度可明显提高小孢子分裂频率和胚状体诱导频率。实验结果也表明两种培养基ＦＨＧ和ＭＮ６无明显差异,均适宜于直接游离的小孢子培养,并对游离小孢子直接培养在理论和应用上的意义进行了讨论     

Effects of culture density,conditioned medium and feeder cultures on microspore embryogenesis in Brassica napus L. cv. Topas

Summary In microspore cultures of Brassica napus L. cv. Topas, embryo yield increases with culture density up to about 40,000 microspores per ml. A much higher density (100,000 per ml) appears inhibitory to embryogenesis. A relatively high culture density (30,000 or 40,000 per ml) for the first 2–4 days of culture is crucial for embryogenesis, after which cultures may be diluted to allow better embryo growth.Medium conditioned by culturing microspores at 30,000 or 40,000 per ml for 1 day improved microspore-embryo yield in low density cultures (3,000 or 4,000 per ml) more than 3-fold. In contrast, media conditioned with microspores from 1–4 days or 0–4 days of culture were inhibitory.Use of feeder cultures resulted in up to 10-fold increase of embryo yield in low density microspore cultures, depending on the method used. Filter papers and other membranes placed on top of feeders greatly inhibited embryogenesis in the feeder layer as well as microspores cultured on the feeder, possibly due to poorer gaseous exchange.     

Somatic cell genetic studies inBrassica species

In vitro culture ofBrassica alba anthers on a growth medium containing inorganics of KB5 and organics, iron, sucrose and hormones of B5 resulted in a very high response of anthers (93.75%) towards callus induction. All the calli transferred to regeneration media responded favourably even after six months of callus induction. Numerous torpedo-shaped embryoids developed in clusters at many sites from each callus mass. Secondary embryogenesis and multiple shoot formation was also observed in many cases. The number of embryoids and plantlets produced by one embryogenic anther were as high as 169.8 and 17 respectively. 87% of the regenerated plants were haploids.     

Genotypic variation of quantitative trait loci controlling in vitro androgenesis in maize.

A quantitative trait loci (QTL) analysis for androgenetic capability has been conducted on three different crosses in maize, including very high and nonresponding lines for androgenesis. The doubled haploid lines derived by anther culture from the crosses DH5 x DH7, A188 x DH7, and R6 x DH99 showed a range of 0-70%, 0-40%, and 0-50% androgenetic responding anthers, respectively. The genotypic heritability of means for this trait is close to 0.90 for A188 x DH7 and 0.78 for R6 x DH99. The QTL analysis involved in each population the mapping of more than 100 loci covering a large part of the genome with reasonably spaced markers averaging 12 cM. Different measurements describing the androgenetic process were studied: AC, percentage of responding anthers; ELS, number of androgenetic embryos produced per 100 plated anthers; PLE, number of plantlets regenerated per 100 embryos; PLA, number of plantlets per 100 plated anthers. In each cross, three to four QTLs were found for AC, explaining 30-40% of the phenotypic variation. The QTL detected for PLA was also strong QTL for AC or ELS. This agrees with the observation that these last two traits are good predictors for final plantlet yield. The QTLs found were specific, although the same line DH7 was used in two crosses and DH99 derived from DH5 and DH7 in the third cross. These results suggest that the transfer of the androgenetic capabilities in elite germplasm will still involve a phenotypic evaluation of the androgenetic performances. A backcross-assisted selection based only on the genotype at the QTL is probably possible but only within the crosses used for this QTL analysis.     

Donor Plant Growth Factors Affecting Anther Culture of Maize and Sweetcorn (Zea mays)

Anthers from seven unselected commercial sweetcorn lines andten experimental maize lines were cultured on a liquid/solidbi-layer culture medium, containing 13 % maltose as the carbonsource. Mean anther efficiencies (number of embryos per 100anthers plated) of 0 to 27.6 % were recorded, with the maximumefficiency of 57.1 % from one plant. The anther efficiency wasfound to be dependent on genotype, microspore developmentalstage and the growth temperatures of donor plants. Immaturemicrospores were found to continue their development duringthe cold pretreatment of the spikes, and this in turn influencedthe level of response to culture. Direct regeneration of embryoidsto plants occurred most frequently when well formed uni- orbi-polar embryos were produced. The quality of embryo producedwas apparently inversely correlated with the number of embryosproduced. Zea mays, haploid culture, embryos, microspores     

Anther culture with different genotypes of opium poppy (Papaver somniferum L.): effect of cold treatment

This study concerns anther culture and the production of microspore-derived calluses and plants of the opium poppy (Papaver somniferum L.). It was confirmed that growth regulators were necessary for microspore callus production. Cold treatment (7 d at 7°C) of the buds prior to culture lead to a twofold increase in the frequency of responsive anthers and in the number of calluses per 100 anthers plated. Callus was produced from cultured anthers of several genotypes, covering a wide genetic background. Step by step removal of growth regulators from the culture medium promoted organogenesis and plant regeneration. Most regenerated plants were diploid. The overall process of microspore embryogenesis closely resembled that described in previous reports on somatic callus production and plant regeneration from poppy hypocotyls in vitro.     

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.     

Anther culture as an effective tool in winter wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.) breeding

The aim of this study was to determine the effect of genotype and induction medium in anther culture of wheat (Triticum aestivum L.). Ten F1 winter wheat genotypes were tested in anther culture (AC) to compare the two most frequently applied induction media (W14mf and P4mf). Androgenesis was induced during the treatment of each tested genotypes and green plants were produced from them using both media. Based on statistical analysis, the genotypes significantly influenced (at the 0.001 probability level) the efficiency of AC (embryo-like structures (ELS), albinos, green plantlets and transplanted plantlets) and the media also had a significant effect on the number of ELS and albino plantlets. Both media can be used for AC in wheat doubled haploid (DH) plant production. The production of ELS and green plantlets was higher in P4mf medium (48.84 ELS/100 anthers, 4.82 green plantlets/100 anthers) than in W14mf medium (28.14 ELS/100 anthers, 4.59 green plantlets/100 anthers). However, the green plant regeneration efficiency of the microspore-derived structures was 16.9% when using W14mf medium, while this value was 9.6% in the case of ELS induced with P4mf medium. The application of W14mf medium thus proved to be time- and labour-saving medium in the large-scale production of DH wheat plants. In our experiments, 267 DH plants were produced for our winter wheat breeding program. The spontaneous rediploidization rate was 32.72%.     

Improved plant regeneration from wheat anther and barley microspore culture using phenylacetic acid (PAA)

Summary The effect of the auxin phenylacetic acid (PAA) on wheat anther and on barley anther/microspore culture was investigated. With PAA the induction response was not usually significantly different from controls but a significantly higher number of green plants were produced in wheat anther and barley microspore culture. For wheat anther culture 100 mg/L PAA was beneficial. For barley microspore culture the optimum levels were from 1 to 100 mg/L, depending on genotype. In barley anther culture there were no improvements using PAA. In wheat anther culture, 145 green plants/100 anthers were obtained with cultivar VeeryS, while the average response from twelve F₁ hybrids in the breeding program was 332 green plants/100 anthers. At least 1000 green plants were obtained using isolated microspores from 100 anthers in barley cv. Igri. With cv. Bruce, regeneration occurred only when 100 mg/L PAA was used. The influence of PAA appears at the embryogenic phase of the culture system. The possible mechanisms by which PAA may improve regeneration are discussed.     

Isolated microspore culture overperforms anther culture for green plant regeneration in barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis> L.)

Barley isolated microspore culture (IMC) was compared to anther culture (AC) for its efficiency in green plant (GP) regeneration. With six cultivars investigated, IMC resulted in significantly more GPs (3.6–287 per 100 anthers) than AC (0–29.6), which was on average 9.3-fold more efficient (113.7 vs 12.2). GPs were produced via IMC from all the genotypes tested, whereas no green shoot was generated by AC in two of the cultivars. In spite of genotype dependency for regeneration rates, the average GP percentage of IMC was just slightly higher than that of AC. Effects of microspore developmental stages and medium-sterilization methods on IMC were examined with the aim of optimizing culture conditions. We found that the optimum stage for cold pretreatment of spikes was different from that for mannitol starvation of anthers. Significant variations in microspore embryogenesis and regeneration were observed among five stages tested. Optimal stages for the two pretreatments were accordingly determined. Percentages of viable microspores were strongly influenced by protocols of medium-aseptisation. Although filter-sterilized media yielded two-time higher frequencies of living microspores and significantly more GPs than autoclaved ones, the filtration protocol was rather labor-intensive and time-consuming. Therefore a new procedure by combining filtering with autoclaving was subsequently developed as it was more effective than autoclaving and more convenient than filter-sterilization. The method described here could be useful for large-scale preparation of culture media.     

Formation of multiple embryo-like structures from single microspores during maize anther culture

In a previous study on the RFLP analysis of the maize anther culture response (Wan et al. 1992), some of the anther-derived callus Unes from hybrids H99 x Pa91 (HP) and H99 x FR16 (HF) showed the same RFLP patterns with 58 (for HP Unes) or 35 (for HF lines) RFLP markers used. Since the callus Unes with the identical RFLP pattern were initiated from individual embryo-like structures (ELSs) from the same anther culture plate, these must have originated from the same microspore. Twin embryos which apparently had originated from the same microspore were also observed. Thus in certain cases one microspore must be capable of forming more than one ELS. However, in the case of the callus Unes from a different F1 hybrid (Pa91 x FR16), no identical RFLP patterns were observed. Thus multiple ELS formation from a single microspore may be genetically controlled. Since in some cases the proportion of callus lines resulting from multiple ELS formation can be quite high (about 50% for the HP lines), estimates of gene segregation and anther culture response frequencies can be affected greatly.     

Autoclaved and filter sterilized liquid media in maize anther culture: significance of activated charcoal

Summary Medium sterilization techniques (autoclaving, filter sterilization and separate sterilization of medium components), combined with preculture exposure to activated charcoal (AC) were evaluated for effects on maize anther culture response. The addition of AC to filter sterilized medium had no effect on the number of embryo-like-structures (ES) produced. For autoclaved medium, pre-culture AC treatment resulted in a 3-fold increase in ES yield over medium lacking AC. When AC was included, autoclaved medium was more productive than filter sterilized medium. Autoclaved media without AC gave lower response than filter sterilized medium. Separate sterilization of sucrose or FeEDTA was beneficial for media autoclaved in the absence of AC. However, when all components were autoclaved together in the presence of AC, there was no advantage to separate sterilization. The maximum ES frequency (224.6 ES/100 anthers) was obtained with the genotype ETH-M 52 cultured in autoclaved medium which had been exposed to AC (5 g/L) for 96 h prior to culture initiation. It is supposed that the higher ES frequencies observed with AC-treated, autoclaved media were due to the availability of glucose and fructose following heat-induced hydrolysis of sucrose and the AC-mediated adsorption of inhibitory compounds produced during autoclaving.     

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.     

Evaluation of Brassica rapa L. genotypes for microspore culture response and identification of a highly embryogenic line

Isolated microspore culture techniques are being widely used in Brassica breeding programs to generate haploid and doubled haploid plants. A number of factors influence regeneration response in vitro including genotype. In order to assess the effect of genotype on microspore embryogenesis in B. rapa L. var. oleifera, 17 cultivars and breeding lines were evaluated. Embryos developed from all but one genotype when using NLN medium with 17% sucrose, followed by a reduction in sucrose concentration to 10%, 48 h later. The number of embryos /100 buds differed between genotypes, ranging from 0 to 70. Further studies indicated that sucrose concentration and incubation time influenced embryogenesis. Selection studies carried out with an Agriculture and Agri-Food Canada breeding line have resulted in the identification of a highly embryogenic B. rapa line. This line produced thousands of microspore-derived embryos /100 buds and will be useful in mutant selection and gene transfer as well as biochemical and developmental studies.     

Effect of maltose on the response of potato anthers in culture

Anthers of the Solanum tuberosum genotype H3703 were cultured on medium containing equimolar concentrations of sucrose or maltose. It was found that significantly more pollen embryos became plants after culture on maltose and hence the yield of plants per 100 anthers cultured increased significantly. Mechanisms by which carbohydrate source may influence response to anther culture are discussed.     

Effect of genotype,induction medium,carbohydrate source,and polyethylene glycol on embryogenesis in maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.) anther culture

This study conducted two experiments involving in vitro anther culture of Zea mays L. The first experiment tested 46 maize genotypes, including inbred lines, single and three-way cross hybrids, and line A188 as control, in three different induction basal media (IMSS, N6 and YPm) for their androgenic responses. The results showed that the embryos were established 2–3 weeks after the anthers of the few responsive genotypes were cultured. Most responsive genotypes produced embryos in at least one of the three basal media; therefore, genotype is more important than the type of medium for androgenesis in maize. The mean number of anthers that developed to embryo ranged from 19 embryos per Petri dish in YPm medium for the cross (DH5 × DH7) genotype to 0 for some maize genotypes. In the second experiment, this research reports for the first time the effect of carbohydrates and polyethylene glycol (PEG) as a non-metabolized osmoticum on the embryogenesis anther culture of maize. The genotype DH5 × DH7 was used for this experiment, and the media were varied by altering sucrose, maltose, and PEG concentrations. Results showed that the maximum embryogenesis (32 embryos per Petri dish) was obtained by YPm basal medium supplemented with 60 gl^?1 sucrose + 0.0125 M PEG and 30 gl^?1 sucrose + 30 gl^?1 maltose + 0.0125 M PEG. The lowest rate of embryogenesis was observed in YPm basal medium with 60 gl^?1 maltose and 0.0125 or 0.025 M PEG. Sucrose or a high concentration of maltose was found to be necessary for embryogenesis in anther culture of maize. Therefore, the addition of low levels of PEG and/or different sugars in the experimental design appeared to improve the protocol currently available in the world, especially for anther embryo yield and haploid plant regeneration in maize.     

Microspore growth and anther staging in barley anther culture

Nuclear growth, microspore cell growth and cell cycle stage were examined in microspores of anthers of Hordeum vulgare L. cv. Klages taken from florets of the middle of the spike as per anther staging methods. Although there was wide variation in nuclear size at all stages of the cell cycle, mean nuclear size appeared to be a good indicator of cell cycle stage for microspores within anthers. Microspore cell size increased considerably during Gl of the cell cycle. Anthers bearing microspores cytologically characterized as in the mid-uninucleate stage, which have proven to yield high levels of callus production, were determined to be in G1 of the cell cycle and were regularly found in spikes taken from tillers in which the base of the flag leaf had emerged 0 to 3 cm above the penultimate leaf.