Increased doubled haploid plant regeneration from rice (Oryza sativa L.) anthers cultured on colchicine-supplemented media

Plating rice anthers on a semisolid induction medium containing 250 or 500 mg/l colchicine for 24 or 48 h-incubations followed by transfer to colchicine-free medium and standard anther culture procedures resulted in overall 1.5- to 2.5- fold increases in doubled haploid green plant productions compared to control anther cultures. The addition of colchicine had no detrimental effects on the different anther culture efficiency parameters, but in some treatments led to significant enhancement of anther callusing frequency or callus green plant regenerating ability. The most efficient treatment raised doubled haploid plant recovery from 31% to 65.5%. These results suggest that post-plating colchicine treatment of anthers, since it was found to improve both anther culture efficiency and doubled haploid plant recovery frequency, could be integrated into rice doubled haploid plant production programmes.Abbreviations DH doubled haploid - NAA naphthalenacetic acid - PAS periodic acid Schiff     

The improvement in regenerated doubled haploids from anther culture of wheat by anther transfer

This study was conducted to determine the most suitable method of regeneration by comparing two approaches: transfer of anthers (with and without embryo-like structures) to regeneration conditions after a period of two to four weeks on induction medium (= anther-transfer treatment) and transfer of embryo-like structures to regeneration conditions after five to eight weeks on induction medium. The early transfer of anthers brought about a significant reduction in the number of embryos formed, but nevertheless significantly improved the frequency of plant regeneration. Combining an optimal date of anther transfer with the early addition of colchicine to the induction medium (100 mg l⁻¹ for 1 and 3 days) led to an increase in the number of doubled haploid regenerants. The results indicate that transferring the anthers after 28 days and adding 100 mg l⁻¹ colchicine to the induction medium on one day only caused a significant improvement in the ability of green plants to regenerate (7.0 compared to 0.50) as well as in chromosome doubling (success index: 4.0 compared to 0.33). This revised version was published online in August 2006 with corrections to the Cover Date.     

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).     

Production and conversion of haploid embryos in chickpea (<Emphasis Type="Italic">Cicer arietinum</Emphasis> L.) anther cultures using high 2,4-D and silver nitrate containing media

Due to recalcitrant nature of chickpea (Cicer arietinum L.) to androgenesis, the production of double haploid plants has been only reported by Grewal et al. (Plant Cell Rep 28:1289–1299, 2009) using some physical stresses such as anther centrifugation and electrical shock. In the present study, we successfully obtained haploid plants from cultured anthers of two chickpea cultivars, Bivanij and Arman, using high 2,4-D and silver nitrate containing media without applying of these time and labor consuming stresses. For induction of androgenesis, different concentrations of 2, 4-D (0, 2, 5 and 10 mg/l) and silver nitrate (0, 5, 10, 15, 25 and 50 mg/l) were used in embryo development medium. In Bivanij cultivar, anther induction medium containing 10 mg/l 2,4-D and 15 mg/l silver nitrate produced the highest number of embryos (0.188) and regenerated plants (0.1) per each cultured anther, while the highest frequencies of embryos (0.1) and regenerated plants (0.075 and 0.063) were obtained from Arman cultivar when 10 mg/l 2,4-D was combined with 15 and 50 mg/l silver nitrate in anther culture medium, respectively. In second part of this study, different cold (4 °C for 4 and 7 days) and heat (30 °C for 10 days, 32 °C for 2 days and 35 °C for 8 h) pretreatments were applied on cultured anthers of Bivanij cultivar. Incubation of cultured anthers at 32 °C for 2 days significantly enhanced the rate of embryo formation up to 0.222 embryos per each anther, while the highest number of regenerated plants/anther (0.0332) was obtained when cold treated anthers at 4 °C for 7 days incubated at 30 °C for 10 days. Taken together, these results provide a good basis for large-scale generation of DH plants in this important legume species.     

Effects of colchicine on anther and microspore culture of bread wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.)

The aim of this work was to study the effects of colchicine application on chromosome doubling and androgenic response in anther and microspore culture of different bread wheat genotypes. Colchicine was applied during a mannitol stress pretreatment or during the first 48 h of culture at concentrations of 0, 150 and 300 mg l⁻¹. When colchicine was applied during stress pretreatment, the percentage of doubling depended on genotype and concentration. A significant increase in doubling was observed with 300 mg l⁻¹ in the low androgenic responding cv. Caramba. Colchicine incorporation during the first hours of culture improved percentage of doubling in all genotypes, in both anther and microspore culture. Application of 300 mg l⁻¹ colchicine improved the percentage of doubling in the two low responding genotypes, to 118% of control in DH24033, and 75% in Caramba in microspore and anther culture, respectively. Concerning the androgenic response, the effect of colchicine on embryo formation and percentage of green plants depended on the genotype and on the culture method. In cv. Pavon, a 2- and a 3-fold increase in percentage of embryogenesis and green plants, respectively, were obtained with 300 mg l⁻¹ colchicine in microspore culture. However, no significant differences in these two variables were observed in anther culture. The number of green doubled haploid (DH) plants reflects the index of success of the procedure. Regardless of the culture method, when colchicine was incorporated during the first hours of culture, the number of green DH plants increased significantly in three of four genotypes. These results confirm the usefulness of colchicine application during the first hours of culture in wheat breeding programs.     

Improved production of doubled haploids of winter and spring triticale hybrids via combination of colchicine treatments on anthers and regenerated plants

Double haploids (DH), obtained during androgenesis in vitro or by genome diploidisation in regenerated haploids, are one type of basic materials used in triticale breeding programmes. The aim of this study was to improve DH production by a combination of colchicine treatment methods on a sample of five winter and five spring triticale hybrids. Colchicine was applied in vitro either in the C17 medium to induce embryo-like structures (ELS) or in the 190-2 medium for green plant (GP) development. Regenerants which remained haploid were immersed in a colchicine solution either when placed on the medium prior to transferring to soil or when growing in pots, followed by the application or absence of cooling. Colchicine treatment during anther culture affected neither ELS nor GP development, but significantly increased the number of DH plants in comparison to spontaneous chromosome doubling. The highest efficiency was recorded when colchicine was applied in the induction medium (55%) versus the regeneration medium (44.5%) or no colchicine treatment (30%). The effectiveness of chromosome duplication in haploid plants ranged from 32 to 64.5% and it was the highest for the treatment on the medium followed by cooling. Individual hybrids differed regarding their capability of regeneration and chromosome doubling, which were consistent only to a low or moderate extent. However, taken together, winter and spring hybrids did not differ significantly. Combined colchicine application resulted in a high yield of DH production, 82.6% for all triticale hybrids, and can provide a considerable number of fertile DH lines for triticale breeding programmes.     

Spontaneous versus colchicine-induced chromosome doubling in maize anther culture

The range of genetic variation of spontaneous chromosome doubling frequency of maize haploid plantlets derived from in vitro anther culture was evaluated. When regeneration is obtained by direct embryo-genesis, bypassing the callus phase, it appears that the frequency of spontaneous doubling may exceed 40 of the regenerated plantlets. This high frequency may be one consequence of the use of doubled haploid lines derived from anther culture and spontaneous chromosome doubling. We also report an increase, by more than 50, of the productivity of diploid fertile regenerated plantlets produced by colchicine supplemented medium during the cold shock pretreatment of the microspores inside the anthers. Optimization of the treatments and the anther culture procedure are discussed. This revised version was published online in June 2006 with corrections to the Cover Date.     

High frequency androgenesis from isolated microspores of maize

Anthers from a highly androgenic genotype of maize (139/39-02), when cultured in a modified, liquid YP medium, dehisced within 2–7 days resulting in a stationary suspension of microspores. After 12–15 days, the microspore suspension was found to contain multicellular masses which went on to produce macroscopic embryo-like structures within 20–25 days of culture initiation. Embryogenic callus could be obtained by transferring microspore-derived embryos onto a modified N6 medium supplemented with 2.5 mg/l dicamba and 0.1 mg/l 2,4-D. Subculture onto hormone-free medium resulted in plant regeneration. Over 400 embryo-like structures per 100 anthers cultured have been obtained from liquid induction medium as compared to 55 embryos per 100 anthers cultured on an agar-solidified medium. Approximately 5–25% of these embryo-like structures went on to produce callus from which plants could be recovered. Mechanical isolation of microspores from anthers precultured for 0, 3, and 7 days also resulted in embryo production and plant regeneration. This represents the first report of plant recovery from isolated maize microspores. The use of a liquid induction medium applied to a highly androgenic genotype allows for the production of large numbers of microspore-derived plants and provides a single, haploid cell regeneration system for maize.     

The auxins centrophenoxine and 2,4-D differ in their effects on non-directly induced chromosome doubling in anther culture of wheat (T. aestivum L.)

Doubled haploid technologies have become key tools for plant breeding. Using these techniques, the speed and efficiency of plant improvement processes can be significantly enhanced. Anther culture-based technologies have the potential to regenerate large numbers of doubled haploid plants without colchicine treatment. In an attempt to elucidate the influence of phytohormones on non-directly induced chromosome doubling, two synthetic auxins, 2,4-D and centrophenoxine, were tested in a wheat anther culture approach. Whereas the induction of androgenic embryo-like structures (ELSs) was efficient for both auxins, we observed a significantly higher frequency of chromosome doubling when using 2,4-D than when using centrophenoxine. When 2,4-D was added to the induction medium, a positive correlation between the size of ELSs and their ploidy level was detected by flow cytometry. The morphological selection of ELSs, a process that was included in routine operations of the method without significantly extending the input of time and effort, facilitates the production of fertile DH plants with a frequency of 60 %. Our findings may contribute to a more efficient production of doubled haploid wheat plants using a colchicine-free anther culture approach.     

Embryogenesis and doubled haploid production from anther culture in gentian (<Emphasis Type="Italic">Gentiana triflora</Emphasis>)

The overall goal of this study is to develop an anther culture system to produce doubled haploid (DH) lines of gentian (Gentiana triflora), an ornamental flowering plant, for use in an F1 hybrid breeding program. Embryogenesis was induced from anther cultures incubated on half-strength modified Lichter (NLN) medium containing a high concentration of sucrose (130 g/l) and subjected to heat shock treatment. Among the various parameters investigated, anthers collected from buds 9–12 mm in length induced the highest frequency of androgenesis. Moreover, among three genotypes tested, cvs. Ashiro-no-Aki and Ashiro-no-Natsu produced 21.3 and 3.7 embryos per 100 anthers, respectively, whereas, cv. Lovely-Ashiro failed to produce embryos. Among a total of 427 embryos transferred to a regeneration medium consisting of Murashige and Skoog (MS) medium, 138 plants were regenerated. The ploidy levels of regenerants were determined by flow cytometry and chromosome counts, revealing the presence of 5% haploids, 25% diploids, and 70% triploids. Inter simple sequence repeat (ISSR) analysis using the 6PS line obtained following self-pollination of the diploid plant obtained from anther culture confirmed that the diploid plant was indeed a DH.     

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%.     

Effect of in vitro and in vivo colchicine treatments on pollen production and fruit set of melon plants obtained by pollination with irradiated pollen

Haploid/doubled haploid (DH) technology can aid plant breeding programs by accelerating production of homozygous lines, provided enough viable DH progeny can be obtained from diverse haploid genotypes. In cases where there is a low frequency of spontaneous doubling, chromosome doubling procedures are required to achieve fecundity. We produced 63 parthenogenetic melon plantlets via pollination with γ-irradiated pollen, cloned them by nodal cuttings, and tested the effects of in vitro and in vivo colchicine treatment on survival, ploidy, pollen production, and fruit recovery. The most effective procedure was in vitro exposure of 3 cm shoot tip explants to 500 mg/l colchicine for 3 h. This treatment gave 83% survival of explants and 26% conversion to diploidy. Fruit recovery rate was 60% among plants with good pollen production. In vivo exposure of the tops of young plants to 5000 mg/l for 2 and 4 h yielded some fruits but also resulted in less survival and more morphological abnormalities. Strategies for recovery of progeny from parthenogenetic melon plants are recommended. To our knowledge, this study represents the first comprehensive study of recovery of fruits and viable seeds from parthenogenetic melon plants.     

l-Ascorbic acid sodium salt promotes microspore embryogenesis and chromosome doubling by colchicine in ornamental kale (Brassica oleracea var. acephala)

Isolated microspore culture (IMC) represents a potential alternative technique in the plant breeding process, as it allows the effective production of doubled haploid (DH) homozygous lines. However, the implementation of this technique is limited by a low rate of embryogenesis, high level of embryo death, and low frequency of chromosome doubling. Thus, we investigated the effects of using different concentrations of L-ascorbic acid sodium salt (VcNa), which has never been applied for kale, to enhance the embryogenesis and regeneration by IMC. Specifically, 1 to 5 μM VcNa was added to the NLN-13 medium of four kale genotypes, while control was grown on VcNa-free medium. Overall, 1–4 μM VcNa at pH 5.84 increased embryogenesis, with 4 μM VcNa being the optimum concentration (12.92-fold increase). The proportion of embryo deaths declined when using appropriate VcNa concentrations. To increase the frequency of chromosome doubling, an artificial chromosome doubling protocol was developed for kale microspore-derived haploids. This protocol involved dipping roots of haploid plantlets in colchicine solution and adding colchicine treatment to solid Murashige and Skoog (MS) medium. Optimum chromosome doubling of haploids was achieved by dipping their roots in 750 mg/L colchicine solution for 4–6 h and 1000 mg/L colchicine solution for 2 h (doubling for nearly 50% of haploids). In conclusion, this study delineated an effective tissue culture process in promoting chromosomal ploidy of microspore-derived regenerated plants, allowing more microspores to be maintained that have excellent ornamental characteristics through crossbreeding.

     

Improved production of doubled haploids by colchicine application to wheat (Triticum aestivum L.) anther culture

The aim of this study was to optimize the in vitro chromosome-doubling procedure in wheat anther culture. Colchicine, at concentrations of 100–5000 mg/l, was added to the induction medium for 1–5 days. Beneficial effects were obtained with concentrations of 100 and 1000 mg/l colchicine. With time, significant reductions in embryo–like structures as well as higher doubling indices were found. Similar results were obtained with the high- and low-responding genotypes. Colchicine (100 mg/l), added 5 and 20 days after inoculation for 1 and 3 days increased the induction response, but this value was reduced when colchicine was added 10 or 15 days after inoculation. The doubling effect was similar to the control, except for a significant increase with the 3-day application 20 days after inoculation. The highest success index was reached when colchicine was added to the culture medium after 20 days.     

In vitro induction of androgenic haploids in Safflower (Carthamus tinctorius L.)

The influence of culture medium on induction of androgenic calli was examined with five different basal media. MS medium was the most responsive in inducing callus. Differences in induction of calli among ten genotypes revealed that the most responsive genotype was a local cultivar, Mangira, with 48.6% anthers initiating callus formation. The influence of temperature pre-treatment (5°±1°C) for varying periods (0 to 15 days) on immature capitula prior to inoculation of anthers on the medium revealed that the percentage of anthers inducing callus increased till 3–5 days of pre-treatment. The effect of physiological conditions of anther donor plants grown in the field and in green houses on induction and re-differentiation have shown that the field grown anther donor plants exhibited optimum response. Shoot regeneration was observed on MS supplemented with BAP (2.0 mg/l) and NAA (0.5 mg/l) and rhizogenesis on MS (half-strength) medium, supplemented with NAA (0.1 mg/l) and 1% sucrose. Cytological studies of anther derived plants showed two ploidy levels, where the haploids were predominant (64%).     

Efficient production of doubled haploid plants through colchicine treatment of anther-derived maize callus

Summary A chromosome doubling technique, involving colchicine treatment of an embryogenic, haploid callus line of maize (Zea mays L., derived through anther culture), was evaluated. Two colchicine levels (0.025% and 0.05%) and three treatment durations (24, 48, and 72 h) were used and compared to untreated controls. Chromosome counts and seed recovery from regenerated plants were determined. No doubled haploid plants were regenerated from calli without colchicine treatment. After treatment with colchicine for 24 h, the callus tissue regenerated about 50% doubled haploid plants. All of the plants regenerated from the calli treated with colchicine for 72 h were doubled haploids, except for a few tetraploid plants. No significant difference in chromosome doubling was observed between the two colchicine levels. Most of the doubled haploid plants produced viable pollen and a total of 107 of 136 doubled haploid plants produced from 1 to 256 seeds. Less extensive studies with two other genotypes gave similar results. These results demonstrate that colchicine treatment of haploid callus tissue can be a very effective and relatively easy method of obtaining a high frequency of doubled haploid plants through anther culture.     

Production of doubled haploid rice plants (Oryza sativa L.) by anther culture

The results of anther culture of F₂ pollen issued from 23 single crosses are presented. A relation between the morphology of the panicle and the microspore stage was established. After cold-pretreatment (8 days at 4°C), the anthers were cultured on the callus-induction medium N6 supplemented with 1 mg l^–1 naphthaleneacetic acid. The calli were transferred to MS plant regeneration medium supplemented with 3 mg l^–1 kinetin + 0.5 mg l^–1 naphthaleneacetic acid. The induction frequency varied from 0.22% to 29% and the regeneration frequency from 0% to 144.4%, dependent upon the crosses used. On average, 27% of the plants obtained were albinos and 59% of the green plants underwent spontaneous chromosome doubling. Thirtynine doubled haploid lines were evaluated and multiplied in the field. Lines with an excellent behaviour in upland culture conditions were selected from two crosses.     

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.     

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.     

Doubled-haploid production in chickpea (<Emphasis Type="Italic">Cicer arietinum</Emphasis> L.): role of stress treatments

This is the first report on the production of double-haploid chickpea embryos and regenerated plants through anther culture using Canadian cultivar CDC Xena (kabuli) and Australian cultivar Sonali (desi). Maximum anther induction rates were 69% for Sonali and 63% for CDC Xena. Under optimal conditions, embryo formation occurred within 15–20 days of culture initiation with 2.3 embryos produced per anther for CDC Xena and 2.0 embryos per anther for Sonali. For anther induction, the following stress treatments were used: (1) flower clusters were treated at 4°C for 4 days, (2) anthers were subjected to electric shock treatment of three exponentially decaying pulses of 50–400 V with 25 μF capacitance and 25 Ω resistance, (3) anthers were centrifuged at 168–1,509g for 2–15 min, and finally (4) anthers were cultured for 4 days in high-osmotic pressure (563 mmol) liquid medium. Anthers were then transferred to a solid embryo development medium and, 15–20 days later, embryo development was observed concomitant with a small amount of callus growth of 0.1–3 mm. Anther-derived embryos were regenerated on plant regeneration medium. Electroporation treatment of anthers enhanced root formation, which is often a major hurdle in legume regeneration protocols. Cytological studies using DAPI staining showed a wide range of ploidy levels from haploid to tetraploid in 10–30-day-old calli. Flow cytometric analysis of calli, embryos and regenerated plants showed haploid profiles and/or spontaneous doubling of the chromosomes during early regeneration stages.