Production of large number of doubled haploid plants from barley anthers pretreated with high concentrations of mannitol

Pretreatment with increasing concentrations of mannitol, from 0.3 to 0.7 M, was used to induce stress in cultured anthers of barley (Hordeum vulgare L.). Three cultivars with varying degrees of androgenetic ability were studied. A positive linear relationship was found between concentration of mannitol in the pretreatment medium and the number of regenerated green doubled haploid plants in all the cultivars. The pretreatment also resulted in an increasing proportion of embryos to dividing microspores, and in green to albino plantlets. The optimum length of the pretreatment seemed to be genotype dependent. When Ficoll was used as an alternative stress agent a differential genotype response was observed.Abbreviations BAP N⁶ benzyl-aminopurine - IAA indol acetic acid     

Isolated microspore culture of wheat (Triticum aestivum L.) in a defined media I. Effects of pretreatment,isolation methods,and hormones

Significant improvements were achieved in the production of haploid and doubled haploid plants from isolated microspore culture of wheat c.v. Chris on a defined media. Procedures found to be of benefit included: A 7-day pretreatment of anthers in 0.4M mannitol plus the macronutrients from FHG medium; the inclusion of 4.5 mg/liter abscisic acid in the pretreatment solution; the isolation of microspores from pretreated anthers by vortexing; and the use of phenylacetic acid (PAA) as the auxin source in MS medium. The best response was achieved with 4.0 mg/liter PAA in MS medium containing 90 g/liter maltose as the sugar source. Under these conditions, 68% of viable microspores underwent division, and an average of 93 embryos and 92 green plants were regenerated per 100 anthers used. The root-tip chromosome number and the fertility of 114 regenerating green plants revealed that 75% were completely fertile spontaneously doubled haploids.     

Improvement of anther culture methods for doubled haploid production in barley breeding

There is potential to accelerate cultivar development with a doubled haploid system for breeding line production. Anther culture methodology was evaluated for U.S.A. spring barley (Hordeum vulgare L.) breeding applications. Gelrite was found to be an acceptable replacement for ficoll in the induction medium to reduce costs while maintaining embryoid and plant production levels. Beneficial effects of 28 d cold pretreatment of donor spikes for anther culture were confirmed with Pacific Northwest USA barley genotypes. A 3 d mannitol solution pretreatment of fresh anthers was shown to be less effective for green plant production compared to 28 d cold pretreatment of donor spikes. Extended donor spike cold pretreatment from 28 to 42 d did not reduce anther culture productivity. Based on this research, anther culture techniques show promise for economical and convenient application in spring barley breeding.Abbreviations DH doubled haploid - LS Linsmaier and Skoog basal medium - BAP benzylaminopurine - GLM Generalized Linear Model - SAS Statistical Analysis System     

Effects of n-butanol on barley microspore embryogenesis

Doubled haploid (DH) production is an efficient tool in barley breeding, but efficiency of DH methods is not consistent. Hence, the aim of this study was to study the effect of n-butanol application on DH barley plant production efficiency. Five elite cultivars of barley and thirteen breeding crosses with different microspore embryogenesis capacities were selected for n-butanol application in anther and isolated microspore cultures. Application of 0.1 % n-butanol after a mannitol stress treatment in anther culture significantly increased the number of embryos (up to almost twice) and green plants (from 1.7 to 3 times) in three low-responding cultivars: Albacete, Astoria and Majestic. No significant differences on microspore embryogenesis efficiency were observed in medium and high responding cultivars. The application of n-butanol treatment to isolated microspores from cold treated spikes in thirteen spring breeding crosses with a low or very low androgenetic response did not have a significant effect on the overall number of green plants. Nevertheless, an increase in the number of green plants was observed when 0.2 % n-butanol was applied in four out of seven low-responding crosses. Therefore, application of n-butanol could be routinely applied to anther cultures using mannitol treatment, in low-responding material. However, further studies are needed to determine optimal conditions in protocols using cold treatment and isolated microspore cultures.     

A simple wheat haploid and doubled haploid production system using anther culture

Summary Wheat (Triticum aestivum L.) haploids and doubled haploids have been used in breeding programs and genetic studies. Wheat haploids and doubled haploids via anther culture are usually produced by a multiple step culture procedure. We improved a wheat haploid and doubled haploid production system via anther culture in which plants are produced from microspore-derived embryos using one medium and one culture environment. In the improved protocol, tillers of donor plants were pretreated at 4°C for 1–2 wk before anthers were plated on a modified 85D12 basal medium with phenylacetic acid (PAA) and zeatin and cultured at 30°C with a 12-h daylength (43 μEs⁻¹m⁻²) in an incubator. Microspore-derived embryos developed in 2–3 wk and the plants were produced 3–4 wk after anther plating. In the improved system, as much as 53% of the anthers of Pavon 76 were responsive with multiple embryos. For plant regeneration, as many as 22 green and 25 albino plants were produced from 100 anthers. Sixty-five green plants were grown to maturity and 32 (49%) plants were fertile and produced seeds (indicating spontaneous chromosome doubling) while 33 plants did not produce seed. Of five Nebraska breeding lines tested using the protocol, NE96675 was very responsive and the other lines less so, indicating that the protocol is genotype-dependent.     

Isolated microspore culture of oat (Avena sativa L.) for the production of doubled haploids: effect of pre-culture and post-culture conditions

The production of doubled haploid (DH) plants from microspores is an important technique used in plant breeding programs and basic research. Although doubled haploidy efficiencies in wheat and barley are sufficient for breeding purposes, oat (Avena sativa L.) is considered recalcitrant. The objective of this project was to develop a protocol for the production of microspore-derived embryos of oat and further develop these embryos into fertile DH plants. A number of experiments were conducted evaluating the factors influencing microspore embryogenesis, i.e. donor plant conditions, pretreatments, media composition, and culture conditions. The initial studies yielded little response, and it was not until high microspore densities (10⁶ microspores/mL and greater) were used that embryogenesis was achieved. Depending on the treatment, yields of over 5,000 embryos/10⁶ microspores were obtained for breeding line 2000QiON43. The doubled haploidy protocol includes: a 0.3 M mannitol pretreatment of the tillers for 7 days, culture in W14 basal medium with a pH of 6.5–7.5, a microspore density of 10⁶ microspores/mL, and continuous incubation at 28 °C incubation. The resulting embryos observed after 28 days were plated onto solidified W14 medium with 0.8 or 1.0 g/L activated charcoal. A colchicine treatment of 0.2 % colchicine for 4 h resulted in conversion of 80 % of the plants from haploid to DH. This protocol was successful for the production of oat microspore-derived embryos and DH green plants with minimal albinism. DH seed was produced and planted for evaluation in a field nursery.     

Influence of anther pretreatment on the efficiency of androgenesis in barley

The change in the developmental pathway of microspores from gametophytic to sporophytic is induced by stress during pretreatment of spikes and anthers. In our experiments, anther culture of three barley cultivars was tested with regard to the effect of chilling at 4 degrees C for 28 days, starvation in 0.3 M mannitol solution for 4 days, and a combination of both methods. Chilling was shown to increase embryo/callus formation, while mannitol treatment favoured plant development, including development of green plants; simultaneous application of the two stress factors for 4 days proved to be ineffective. The tested cultivars exhibited a similar ability (calculated per 100 transferred embryos/calli) to develop plants without pretreatment; however, their responses to stress varied greatly. The collected data indicate that mannitol pretreatment, as compared to chilling, is more efficient in responsive cultivars.     

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.     

Extension of anther culture to several genotypes of cultivated oats

 To improve plant regeneration from oat anther culture, the basic medium, hormonal supplements and genotype effect were studied. Six of the 14 genotypes tested regenerated plants. Cultivars Kolbu, Katri, Stout and naked oat Lisbeth produced green plants, cultivars Virma and line OT 257 only albinos. The total number of green plantlets regenerated was 22, of which 13 (11 haploid, 2 doubled haploid) survived into the greenhouse, and 37 albinos. Regenerable-type embryos were induced from heat-pretreated anthers on media containing 2, 3 or 5 mg l^–1 2,4-dichlorophenoxyacetic acid and 0.2 or 0.5 mg l^–1 kinetin as hormonal supplements. 6-Benzylaminopurine promoted albino plant regeneration especially in W₁₄ medium. Colchicine treatment was applied successfully to haploid regenerants. Received: 12 April 1999 / Revision received: 19 August 1999 / Accepted: 8 September 1999     

Rapid production of recombinant barley yellow mosaic virus resistant Hordeum vulgare lines by anther culture

Summary In a winter barley breeding program for barley yellow mosaic virus (BaYMV) resistance, the resistant six-rowed cv. Franka was crossed to 17 susceptible and two resistant cultivars, three of which were tworowed. A total of 233,445 anthers of the 19 hybrids and their parents were cultured and 831 green plants regenerated. Anther culture responsiveness varied greatly between genotypes, and the responsiveness of F₁hybrids was generally related to that of the more responsive (high) parent. On average, 3.6 green plants were recovered from 1,000 cultured anthers, almost twice as many as in comparable spring barley experiments. Androgenetic green plants were tested for their reaction to mechanical inoculation of BaYMV. In crosses of resistant parents, all the cross progeny proved to be resistant, which indicates that both parents carry identical gene(s). In the crosses of the resistant cv. Franka to susceptible parents, an average of 62% of the androgenetic progenies were resistant, which indicates that probably more than one gene is responsible for Franka's BaYMV-resistance. From the crosses of Franka to two-rowed cultivars, 282 androgenetic plants were produced. When 132 of these were tested for their reaction to BaYMV, 79 (59.8%) were resistant, and 30 of the latter were shown to be two-rowed recombinant lines. Doubled haploid lines are field-tested for other agronomic characters including grain yield and its components.     

Improved plant regeneration from shed microspore culture in barley (Hordeum vulgare L.) cv. igri

This report describes rapid regeneration of green plants from microspores of the barley cultivar Igri. Use of 0.3 M mannitol during maceration and isolation was essential for response from mechanically isolated microspores of barley cv. Igri grown under our conditions. A shed microspore culture system proved to be simple and gave a fast response; plants were obtained as early as 25 days after the material was taken from the donor plant. A 28-day cold-pretreatment of spikes can also be replaced with a 3–4 day pretreatment of anthers in mannitol. Shed microspores from 100 anthers produced an average of 292 plants with 91% of them green. Approximately 80% of the regenerated plants were spontaneously doubled-haploids.Abbreviations IAA Indole-3-acetic acid - FHG Hunter's media (1988) - MS Murashige and Skoog     

Differential development of plastids during microspore embryogenesis in barley

Summary In order to understand and limit albino plantlet formation during pollen embryogenesis in barley (Hordeum vulgare L. cv. Igri), plastid feature was followed during pollen embryogenesis under two anther culture conditions and compared to plastid development in the zygotic embryo. The first condition was characterized by cold pretreatment and maltose in the induction medium. Both embryos and calli were then obtained. During pollen embryo development, up to 30% of plastids had abnormal features. Disruptions mainly affected the plastid size, the feature of plastid envelopes, thylakoid and granum organization, as well as starch accumulation. In pollen calli, superficial cells had meristematic features. Up to 50% of plastids exhibited the above mentioned abnormalities. Internal cells were highly vacuolated with amyloplast-like plastids; envelopes had normal features but no internal membrane was detected. Pollen embryo-derived plantlets had a green-to-albino ratio (G/A) being equal to 1.0, whereas calli-derived embryos only formed albino plantlets. The second condition was characterized by mannitol pretreatment and the presence of both maltose and mannitol in the induction medium. No callus was formed but most of microspore-derived structures developed haploid embryos and then the green plantlets (200 plantlets per 100 responding anthers, G/A=9.4). In this case, plastid development in zygotic and pollen embryos were similar and almost no albino plantlets were formed.     

Production of doubled haploids in durum wheat (<Emphasis Type="Italic">Triticum durum</Emphasis> Desf.) through culture of unpollinated ovaries

The objective of this work was to produce doubled haploid plants from durum wheat through gynogenesis using unpollinated ovary culture of three local Tunisian genotypes (Jenah Khotifa, Hmira, Azizi) and three improved cultivars (Karim, Khiar, Razzek). A total of 12,000 unpollinated ovaries were cultured in this study. Spikes were either pretreated at 4°C for 14 days or at 4°C in a mannitol solution (0.3 M) for 7 days. Induction was performed using two media. We showed that ovary development, callus and plantlet regeneration was influenced significantly by genotype and growth conditions. The highest regeneration frequency was obtained when the microspore population was in the late mononucleate to binucleate stage. Our results suggested that the cold pretreatment for 14 days was more efficient than the cold treatment in a mannitol solution. Furthermore, the addition of 2,4-D, vitamins and glutamine, and the use of maltose as sugar source in media improved the ovary culture. When the unpollinated ovaries were cultured under the conditions found to be optimal in the present study, a total of 84 plants were produced, all green and haploid. The best levels for regenerated plants were obtained with the cultivars Khiar (3.5%), Hmira (3.1%) and Karim (1.5%). Fertile doubled haploid plants were obtained by colchicine treatment. This result represents a modern tool for breeders to produce durum wheat homozygous lines in a few months.     

Microspore embryogenesis and production of haploid and doubled haploid plants in carrot (Daucus carota L.)

Protocols were developed for the generation of haploid and doubled haploid plants from isolated microspores of carrot (Daucus carota L.). Forty-seven carrot accessions, including six inbred lines, 11 cultivars, 20 F₁s, two BC₁F₁s, four F₂s, one F₃, and three F₄s, were screened to evaluate the genotype influence on isolated microspore embryogenesis over 4 years. Twenty-eight accessions responded by producing embryos and/or calli. A cytological analysis showed that two modes of carrot microspore embryogenesis exist: an indirect route via calli (C mode), and a direct route via embryos (E mode). Eleven accessions were in the C mode, and 17 were in both modes. The highest production rates were in 10Y25 (a European Nantes cultivar) with 27 calli and 307 embryos, and 100Q6 (a semi-Nantes F₁ hybrid) with 176 calli and 114 embryos. The time period to produce embryos or calli differed significantly between 2 and 6 months. Cold and heat pretreatment generally had a negative impact on the induction of microspore embryogenesis, but a short pretreatment showed a positive influence on some accessions. Twenty-eight lines regenerated plants from the primary individual embryos or calli of three accessions were established to analyze the ploidy level. The percentage of spontaneous diploidization showed very wide differences among the accessions and lines. Differences in leaf color intensity, leaf size, and leaf dissection were found among haploid, doubled haploid, and triploid plants.     

Factors inducing regeneration response in oat (Avena sativa L.) anther culture

The efficiency of embryogenesis of anther culture was compared using four cultivars of oat (Avena sativa L.): ‘Akt’, ‘Bingo’, ‘Bajka’, and ‘Chwat’. Despite the high resistance of oat to the process of androgenesis, all tested cultivars produced embryo-like structures and only two of them, ‘Akt’ and ‘Chwat’, produced fertile doubled haploid plants. A strong cultivar dependency was observed during induction of androgenesis. Further, cold pretreatment together with high temperature shock enhanced the efficiency of this technique. The highest number of embryo-like structures and haploid plants was obtained from cv. ‘Chwat’ (3.6% and 0.8%, respectively). Embryo-like structure formation also depended on the distance from the base of the flag leaf to the penultimate leaf of the panicle. Most of them were observed on anthers harvested from panicles of which the distance from the base of the flag leaf to the penultimate leaf was less than 4 cm. The presence of the induction medium supplemented with different plant growth regulators was essential for the induction of embryo-like structures but did not increase the production of haploid plants and doubled haploid lines. The highest number of embryo-like structures and plants was obtained on W14 medium with the addition of 2.0 mg/dm³ 2,4-dichlorophenoxyacetic acid and 0.5 mg/dm³ kinetin (2.7%). The low haploid plant regeneration rate (from 0.03 to 0.05%) still limits the practical application of anther culture for the production of doubled haploid lines in oat.

     

Genotype,plant, bud size and media factors affecting anther culture of cauliflowers (Brassica oleracea var. botrytis)

Summary Eleven F₁ hybrid cultivars of cauliflower, representing a range of maturity types, were examined for their responsiveness to anther culture. Embryos were produced from each of the cultivars tested, and the mean embryo yield varied from 82.2 embryos per 100 anthers cultured for cv Dova to 0.6 embryos for cv Serrano. Variation between genotypes and between plants within a genotype was significant, both in terms of embryo yield and percentage responsive anthers. Autumn and winter maturing cauliflowers were generally more responsive than summer types. Embryo yields were enhanced by culturing anthers on solid rather than on liquid media. An increase in concentration of 2,4-Dichlorophenoxyacetic acid (2,4-D) from 0.1 to 0.3 mg/l also increased embryo yield. Embryo yield was doubled when anthers were cultured on solid media containing 0.3 mg/l 2,4-D compared to liquid media containing 0.1 mg/l 2,4-D. Although bud size alone did not have a significant effect on embryo production, genotype x bud size and plant x bud size (within genotype) interactions were significant. Estimation of the variance components demonstrated that, apart from the residual plate-to-plate variation, variation between plants was the largest source of variation, accounting for approximately 30% of total variance. Plant x bud size (within genotype) interaction accounted for 18% of total variance and genotypic differences for approximately 8%.     

Haploid plants from in vitro anther culture of the leguminous tree,Peltophorum pterocarpum (DC) K. Hayne (Copper pod)

The development of haploid callus, embryos and plantlets from cultured anthers and the various factors affecting androgenesis in Peltophorum pterocarpum (Copper pod), a tropical legume tree is reported. A pretreatment of flower buds at moderate temperature of 14°C for 8 days was most effective for callus production. The colour of the anther was found to be a reliable and efficient indicator for identification of suitable stage of anther for culture. The frequency of anthers which produced callus and shoots was highest when anthers were cultured at mid or late-uninucleate stage. A high sucrose concentration of 10% is a specific media requirement for androgenesis. The haploid nature of the embryos, callus and regenerated plants (n=14) were confirmed by chromosome count.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - KN kinetin - NAA naphthaleneacetic acid - BAP bezylaminopurine     

Microspore embryogenesis and programmed cell death in barley: effects of copper on albinism in recalcitrant cultivars

Albinism remains a major problem in cereal improvement programs that rely on doubled haploid (DH) technology, and the factors controlling the phenomenon are not well understood. Here we report on the positive influence of copper on the production of DH plants obtained through microspore embryogenesis (ME) in recalcitrant cultivars of barley (Hordeum vulgare L.). The presence of copper sulphate in the anther pre-treatment medium improved green DH plant regeneration from cultivars known to produce exclusively albino plants using classical procedures. In plastids, the effect of copper was characterized by a decrease in starch and a parallel increase in internal membranes. The addition of copper sulphate in the ME pre-treatment medium should enable breeders to exploit the genetic diversity of recalcitrant cultivars through DH technology. We examined programmed cell death (PCD) during microspore development to determine whether PCD may interfere with the induction of ME and/or the occurrence of albinism. By examining the fate of nuclei in various anther cell layers, we demonstrated that the kinetics of PCD in anthers differed between the barley cultivars Igri and Cork that show a low and a high rate of albinism, respectively. However, no direct correlation between PCD in the anther cell layers and the rate of albinism was observed and copper had no influence on the PCD kinetic in these cultivars. It was concluded that albinism following ME was not due to PCD in anthers, but rather to another unknown phenomenon that appears to specifically affect plastids during microspore/pollen development.     

Improvements in the production of doubled haploids in durum wheat (<Emphasis Type="Italic">Triticum turgidum</Emphasis> L<Emphasis Type="Italic">.</Emphasis>) through isolated microspore culture

The objective of this study was to produce durum wheat doubled haploid (DH) plants through the induction of microspore embryogenesis. The microspore culture technique was improved to maximize production of green plants per spike using three commercial cultivars. Studies on factors such as induction media composition, induction media support and the stage and growth of donor plants were carried out in order to develop an efficient protocol to regenerate green and fertile DH plants. Microspores were plated on a C₁₇ induction culture medium with ovary co-culture and a supplement of glutathione plus glutamine; 300 g/l Ficoll Type-400 was incorporated to the induction medium support. Donor plants were fertilized with a combination of macro and microelements. With the cultivars ‘Ciccio’ and ‘Claudio’ an average of 36.5 and 148.5 fertile plants were produced, respectively, from 1,000 anthers inoculated. This technique was then used to produce fertile DH plants of potential agronomic interest from a collection of ten F₁ crosses involving cultivars of high breeding value. From these crosses 849 green plants were obtained and seed was harvested from 702 plants indicating that 83% of green plants were fertile and therefore were spontaneously DHs. No aneuploid plant was obtained. The 702 plants yielded enough seeds to be field tested. One of the DH lines obtained by microspore embryogenesis, named ‘Lanuza’, has been sent to the Spanish Plant Variety Office for Registration by the Batlle Seed Company. This protocol can be used instead of the labor-intensive inter-generic crossing with maize as an economically feasible method to obtain DHs for most crosses involving the durum wheat cultivars grown in Spain.     

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.