High-frequency embryogenesis and plantlet regeneration from isolated microspores of indica rice

We report high-frequency embryogenesis and plantlet development from microspores isolated from anthers of two indica (IR-43, IR-54) and a japonica (T-309) rice cultivars, without prior nutrient preculture of anthers. Pretreatment stress of anthers with mannitol or a sugar-starvation medium, and use of maltose as the carbohydrate source in the microspore culture medium were found to be critical. Co-culture of microspores with rice ovaries was found beneficial but not essential. More than 60% of the microspores of the japonica variety Taipai-309 and 25–45% of the indica cultivars IR-54 and IR-43 showed induction of non-gametophytic development. Consequently, in the best treatments for IR-43 and T-309, more than 500 microspore-derived embryos could be obtained from a single dish (35 mm) containing about 80,000 microspores. Among the indica cultivars, the maximum response was obtained in the basal medium M-019. Plantlet regeneration occurred in about 9% (T-309), 7% (IR-43) and 2% (IR-54) of the transferred embryo-like structures. Received: 6 November 1996 / Revision received: 18 June 1997 / Accepted: 20 August 1997     

High frequency androgenesis in indica × Basmati rice hybrids using liquid culture media

An improved procedure has been developed for high frequency androgenesis in indica × Basmati rice hybrids using a liquid culture medium. Anthers from fourteen genotypes comprising of indica × Basmati rice F₁ hybrids, F₂ plants and the parental rice cultivars, were floated in liquid RZM, N6M, and Heh5M media. Anther culture frequencies (percentage of anthers forming calluses) in most of the genotypes were significantly higher in RZM medium (16–75%) compared to those obtained in N6M (7–29%) and Heh5M (7–41%) media. Agarose (1.0% w/v)-solidified MSR1 medium containing 3.0% (w/v) maltose, 1 mg l⁻¹ kinetin, 1 mg l⁻¹ 6-benzyladenine (BA) and 0.5 mg l⁻¹α-naphthalene acetic acid (NAA) induced green shoot regeneration at high frequencies compared to the medium (MSR2) lacking BA. In all the genotypes, microspore calluses initiated in RZM medium regenerated green shoots with over tenfold higher frequencies compared to the calluses initiated in other two media. High plant regeneration frequencies (up to 270 green plants/1000 anthers) were obtained from microspore-derived calluses of some of the F₁ hybrids (Gobind × Basmati 370, Gobind × Taraori Basmati) and F₂ plants (Gobind × Basmati 370, Gobind × Taraori Basmati, HKR86-3 × Taraori Basmati) as compared to their actual parents. Cytological analysis of the root tips of the progeny seedlings of the microspore-derived plants revealed haploids at a frequency of about 50%; 22% of the microspore- derived plants had > 5% spikelet fertility and were diploid. Use of RZM liquid and MSR1 media, respectively for anther culture and plant regeneration resulted in several fold increase in the recovery of green plants from recalcitrant indica × Basmati rice F₁ hybrids/F₂ plants which were comparable to those reported for japonica rice varieties/hybrids leading to the improved feasibility of using doubled haploids in genetic, breeding and mapping research with indica rice. This revised version was published online in June 2006 with corrections to the Cover Date.     

Influence of genotype and culture medium on microspore callus induction and green plant regeneration in anthers of Oryza sativa

Attempts to identify nutritional requirements of anthers of eight indica rice cultvars ( Oryza sativa L. spp. Indica ) for callus induction in vitro and green plant regeneration were made. The requirements varied with the genotype. Some cultivars, however, possessed a wide range of adaptability to diverse nutritional conditions. Indica rice is highly sensitive to the presence of NH+4, and MgSO4 in the medium. High sucrose concentration (11%) was deleterious for callus induction and green plant regeneration. Sucrose at 3 to 5% was optimal for growth. Auxins at high concentrations promoted regeneration of albino plants. The presence of 2,4-dichlorophenoxyacetic acid (9.0 μM) supplemented with picloram (0,3 μM) and zcatin (0.5 μM) was effective for callus induction. A combined pretreatment of 35°C for 5 min followed by 10°C for 7 days was most suitable for callus induction and green plant regeneration.     

Microspore embryogenesis and fertile plantlet regeneration in a salt susceptible × salt tolerant rice hybrid

Shed microspore embryogenesis and fertile plantlet regeneration were observed in a salt susceptible × salt tolerant indica rice F₁ hybrid involving IR 24 and CRM 30. The in vitro culture response and regeneration of green plantlets in the hybrid were superior to those of the parents. Direct embryogenesis and plantlet regeneration with multiple tillers were observed in shed microspore embryos. In intact anther culture, plantlet development from microspore involved a callus phase. The number of multiple tillers developed through secondary embryogenesis was almost equal in both the cases. However, the results indicate that regeneration of green plantlets was higher in case of shed microspore culture in liquid medium containing the synthetic polymer Ficoll 400 than from intact anthers cultured on a semi-solid system. Shed microspore culture produced a number of double haploids, which may result in far reaching consequences in genetic improvement of rice. This revised version was published online in June 2006 with corrections to the Cover Date.     

Polyamines as biomarkers for plant regeneration capacity: improvement of regeneration by modulation of polyamine metabolism in different genotypes of indica rice

The importance of cellular polyamine (PA) levels and the ratio of putrescine (Put) to spermidine (Spd) for plant regeneration ability via somatic embryogenesis in several commercially grown indica rice varieties is reported here. The genotypes namely NDR-624, IR-20, IR-36, BJ-1 (having Put:Spd ratio2.3) showed superior plant regeneration while KL, PB-1 and TN-1 (having Put:Spd ratio3.8) showed moderate plant regeneration ability. The genotypes namely HS, Bindli, DV-85, ACB-72, IR-64 and IR-72 (having Put:Spd ratio5.0) showed poor plant regeneration ability. In contrast KH-7 (Put:Spd ratio10.0) showed no response at all. Favorable modification of cellular PA titers and their Put:Spd ratio by the addition of exogenous PAs (Put, Spd) or their biosynthesis inhibitor, difluoromethylarginine (DFMA) led to the induction/promotion of plant regeneration in poorly responding genotypes. These results showed a close relationship between cellular PA levels and their Put:Spd ratio with in vitro morphogenetic capacity in indica rice and suggest that the cellular PAs and Put:Spd ratios are important determinants (biomarkers) of plant regeneration ability in indica rice, and the improvement/induction of plant regeneration in morphogenetically poor and recalcitrant species could be achieved by modulating PA metabolism.     

Genetic control of androgenetic response in Lolium perenne L.

In a study of androgenesis in 90 Norwegian genotypes of perennial ryegrass (Lolium perenne L.), heritabilities ranged from h _b ² =0.46 to 0.80. Very high or completely positive genotypic correlations were found between most characters of androgenetic response (e.g. embryo-like structures per 100 anthers, plants per 100 embryo-like structures, albino plants per 100 anthers, green plants per 100 anthers). Three genotypes, 2 Norwegian (7-5 and 9-5) and 1 Danish (245), which had significantly different androgenetic responses were selected to study the genetic control of the processes. Genotypes 7-5 and 9-5 were highly embryogenie, 7–5 and 245 were relatively high producers of green plants, while 9-5 was unable to produce green plants. The six possible reciprocal crosses between these three genotypes were made, and 10 or 11 F₁ plants from each cross were used for anther culture experiments. The cross 7-5 x 245 showed average superiority over both parents for total plant regeneration and green plant production, results not previously reported. The phenotypic correlations estimated among progenies from the crosses ranged from r=-0.99^*** to 0.81^***. These considerable changes, relative to the results of the screening experiment, are most likely the result of changed allele frequencies caused by the strong selection of parents in these crosses, and a relatively simple genetical control. This is also inferred from the large transgressive segregation observed.Abbreviations ANT anthers - ELS embryo-like structures - ALB albino plants - GRP green plants - DH doubled haploid plants     

Genotype x culture media interaction effects on regeneration response of three indica rice cultivars

Interactive effects of genotypes with callus induction and regeneration media combinations on green plantlet regeneration response were studied for three indica rice (Oryza sativa L.) cultivars, IR-72, IR-54 and Karnal Local. Isolated mature-embryos were used to derive scutellar callus and fifteen media combinations involving MS, N6, R2, SK1 and some modifications were tested. Regeneration percentage as well as the shoot-bud induction frequency were influenced by genotype, callus induction medium, regeneration medium, interaction between genotype and the two media (callus induction and regeneration) as well the interaction between the callus induction medium and regeneration medium. Basal media combination of SK1m (callusing) and MS (regeneration) was found to be the best for cv. Karnal Local in which regeneration frequency of 88% and shoot-bud induction of 233% was observed. In IR-72, the highest regeneration frequency of 47.5% and shoot-bud induction frequency of 77% was obtained on MS-MS combination. In IR-54, highest regeneration frequency (25%) was recorded on MMS(N)-MMS(N) combination, whereas, highest frequency of shoot-bud induction (50%) was observed on MMS(S)-MS combination. Although genotype and the composition of the callus induction basal medium were the major determinants of regeneration response, an overall analysis of variation also revealed a significant interaction between the media used for de-differentiation (callusing) and re-differentiation (plantlet regeneration). This revised version was published online in June 2006 with corrections to the Cover Date.     

Comparative effects of rye chromosomes 1R and 5R on androgenesis in cultured anthers of wheat-rye substitution lines dependending on the line origin

The effects of rye chromosomes 1R and 5R on androgenesis in cultured anthers of wheat--rye substitution lines was studied as dependent on the cultivar origin of the rye chromosomes and on the wheat genome (A or D) subjected to substitution. Chromosome 1R stimulated embryogenesis in anther cultures, while chromosome 5R suppressed it regardless of whether the corresponding wheat chromosomes were substituted in the A or D genome. The effect of chromosome 1R on embryogenesis proved to depend on its cultivar origin. Along with rye chromosome 1R, wheat chromosome 1A was shown to substantially affect total seedling regeneration. Regeneration of green seedlings was dramatically affected both by rye chromosome 1R and by wheat chromosome 1D. The results supported the published data that individual androgenesis parameters (embryogenesis, total plant regeneration, green plant regeneration) are controlled by different genetic mechanisms.     

Comparative Effects of Rye Chromosomes 1R and 5R on Androgenesis in Cultured Anthers of Wheat–Rye Substitution Lines as Dependent on the Line Origin

The effects of rye chromosomes 1R and 5R on androgenesis in cultured anthers of wheat–rye substitution lines was studied as dependent on the cultivar origin of the rye chromosomes and on the wheat genome (A or D) subjected to substitution. Chromosome 1R stimulated embryogenesis in anther cultures, while chromosome 5R suppressed it regardless of whether the corresponding wheat chromosomes were substituted in the A or D genome. The effect of chromosome 1R on embryogenesis proved to depend on its cultivar origin. Along with rye chromosome 1R, wheat chromosome 1A was shown to substantially affect total seedling regeneration. Regeneration of green seedlings was dramatically affected both by rye chromosome 1R and by wheat chromosome 1D. The results supported the published data that individual androgenesis parameters (embryogenesis, total plant regeneration, green plant regeneration) are controlled by different genetic mechanisms.     

Cold pretreatment to enhance green plant regeneration from rye anther culture

Cold pretreatment of detached tillers of rye, Secale cereale, was tested under two light regimes. The ryes included two spring and two winter cultivars. Significant increases in green plant regeneration were recorded in each experiment when cold pretreatments of two to four weeks were applied. Dim light during the stress period improved green plant regeneration for two of the four cultivars tested. The highest regeneration rate, 30.6 green plants per 100 plated anthers, was reached following three weeks at +4 °C under dim light, for spring rye Jo02. Starvation stress applied to plated anthers in mannitol medium suppressed anther response. This revised version was published online in June 2006 with corrections to the Cover Date.     

Genetics of transgressive segregation for yield and yield components in wheat

Three crosses of spring wheat (Triticum aestivum L. em Thell) involving six cultivars (WC29, WH291, SGP 14, RAJ. 1972, WH377 and HD 2329) were selected on the basis of combining ability analysis to study genetics of transgressive segregation for tillers/plant, grains/spike, 1000 grain weight and grain yield/plant using various mating designs. Diallel analysis indicated that both additive and non- additive components were significant for all the characters. On the basis of general combining ability and specific combining ability effects, the parents WH 291 and WH 377 were found to be good general combiners for tillers/ plant, 1000 grain weight and grain yield/plant. For grains/spike SGP 14 was found to be a good general combiner. The cross WH 377 × HD 2329 for tillers/plant, SGP 14 × Raj. 1972 for grains/spike and grain yield/plant and WC 29 × WH 291 for 1000 grain weight were found to be good cross combinations. Generation mean analysis indicated that the additive-dominance model was inadequate for all the characters in all the crosses except for 1000 grain weight in WC29 × WH291. Additive component was more pronounced than non-additive components for all the characters in all the crosses except for tillers/ plant in WH 377 × HD 2329. Predictions for transgressive segregants from F₃ was more accurate than that from generation mean analysis. However, prediction from both the sources were equally efficient if additive-dominance model was adequate. In general, observed frequencies of transgressive segregants were more in F₂ and BIPi than F₄ but the majority of them were discarded on progeny testing. Biparental mating had an impact in increasing the frequencies of transgressive segregants for different characters in all the crosses. The crosses, WH 377 × HD 2329 for grain yield/ plant, SGP 14 × Raj. 1972 for tillers/plant and WC 29 × WH 291 for grains/spike and 1000 grain weight were found to be potential crosses for transgressive segregants. A comparison of combining ability of parents and crosses, and observed and predicted frequencies of transgressive segregants indicated that the potential crosses for transgressive segregants were those that had high sea effects and involved high and low general combiners. The crosses involving low general combiners irrespective of their sea effects showed poor performance with respect to transgressive segregation.     

Inheritance of anther culture derived green plantlet regeneration in wheat (Triticum aestivum L.)

A study was set up to determine the inheritance and combining ability of the factors anther culture response and green plant regeneration. Reciprocal crosses were made between cultivar Ringo Sztar, showing high anther culture response and the cultivars Ciano 067 and Benoist H77022, showing a high level of green plant regeneration. Averaged over all genotypes, 23.0% of the anthers responded and a callus induction frequency of 77.8% was observed. Of all the embryos, 43.0% developed into plantlets, 25.6% of the regenerants being green, the result being that 3.3 green plants per 100 anthers were formed. Genotypic effects accounted for 57.7%, 86.3% and 77.5% of the total variance of anther culture response, callus induction frequency and embryo induction frequency, respectively. Additive and dominant gene action was detected for all characteristics, including green plant regeneration. No reciprocal differences were found for anther culture response, embryo induction frequency and green plant regeneration, indicating no cytoplasmic effects. A small but significant reciprocal difference was found for callus induction frequency. Embryo production was primarily correlated with anther culture response and not with the number of embryos produced per plated anther or per responding anther. Possible mechanisms for the inheritance of green plant regeneration are discussed.Abbreviations CIRA callus induction frequency per responding anther - ERA embryo induction frequency per responding anther - FHB fusarium head blight - MS-medium Murashige & Skoog (1962) medium - REML residual maximum likelihood     

Reciprocal effects in anther cultures of wheat hybrids

This study was conducted to determine the reciprocal effects for anther culture response in wheat (Triticum aestivum L.) using a set of 4 × 4 full diallel crosses. Both reciprocal and nuclear genetic effects were highly significant for anther culture response and useful for selection and breeding purposes. General combining ability (GCA) effects were predominant for all investigated anther culture traits. Also, significant differences for specific combining ability (SCA) effects were detected between reciprocal crosses. Although significant reciprocal differences for responding anther, callus number and green plant regeneration were recorded in some reciprocal crosses, there were no significant reciprocal differences for albino plant regeneration. The use of one parent as male or female could lead to change at the production of green plants from the F₁ hybrids and screening of inbred lines for response to anther culture, without reciprocal effects, could decrease the utilization of breeding material.     

Anther culture responsiveness of Hordeum spontaneum derived spring barley lines and a genetic analysis of plant regeneration

Anther culture responsiveness of three H. spontaneum derived spring barley lines, RS170-47(A), RS20-1(B) and 1B-152B(C) was investigated using only one type of culture medium and treatment. The line 1B-152B was identified as highly responsive producing 22.4 total and 12.4 green regenerants per 100 anthers plated. 74% of these green regenerants were spontaneous double haploids. A genetic analysis involving F1 and F2 plants derived from crosses A × B and B × C revealed that the factor(s) determining high anther culture responsiveness in line 1B-152B was heritable and behaved as dominant in the F1. There was an indication that genotypic responsiveness in anther culture for green plant regeneration was different from total or albino plant regeneration.     

Anther Culture Response of Barley Genotypes to Cold Pretreatments and Culture Media

The embryoid formation and plant regeneration in anther cultures of three barley (Hordeum vulgare L.) cultivars (Niki, Karina, Thermi), one F₁ hybrid (Niki × Thermi), two F₂ populations (Niki × Thermi, Niki × Karina), and two F₃ populations (Niki × Thermi, Niki × Karina) were investigated in two solid induction media after cold pretreatment for 14 and 28 days at 4°C . The media used (N6 and FHG) differed in their composition and source of energy (maltose in FHG vs. sucrose in N6). Embryoid frequency and green plant regeneration depended on both the induction medium composition and cold pretreatment. The combination of the FHG induction medium with 28-day-long cold pretreatment was the most efficient in haploid embryoid formation and green plant production. In addition, the green plant production was genotype-dependent. Cv. Thermi and F₁ hybrid Niki × Thermi exhibited the highest frequency of green plant production. The parent with high or even moderate frequency of embryoid formation in anther culture could lead to the effective production of green plants from the F₁ hybrid or the F₂ generation for breeding purposes.     

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.     

Comparison of Anther and Microspore Culture in the Embryogenesis and Regeneration of Rye (Secale cereale)

Anther culture in solid and liquid medium and isolated microspore culture were compared in rye genotypes with potential agronomic characteristics. Some important factors influencing androgenic capacity were optimised. Three weeks cold pre-treatment of spikes and two days mannitol pre-treatment of anthers maximized callus and green plant yield in both culture methods. Intensity order of the culture methods in callus and green plant production was: isolated microspore culture, anther culture in liquid medium and anther culture in solid medium. Genotype ability of embryogenesis followed the same pattern in both cultivation methods. Kinetin (BA) with genotype dependent concentrations created the most effective regeneration conditions.     

Selection of salt tolerant plants of Nicotiana tabacum L. through in vitro and its biochemical characterization

Sodium chloride tolerant organogenic callus lines of Nicotiana tabacum were developed in vitro on Murashige and Skoog [16] medium supplemented with BA, IAA and different concentration of NaCl. The maximum shoot bud regeneration was achieved from both tolerant and non-tolerant calluses on MS medium supplemented with 1.0 mg/l BA, 0.1 mg/l IAA with or without NaCl within 4 weeks of culture. Standard growth parameters such as fresh weight and dry weight of organogenic callus, growth tolerant index and enzyme activity (peroxidase and catalase) were used as indicators of salt tolerance. The growth tolerance index in the 4-week after the beginning of treatments yielded significant differences among the non-tolerant and tolerant organogenic callus lines. The regenerated shoots were rooted on half-strength MS basal salts supplemented with 2% sucrose but devoid of growth regulator. The regenerated plants from tolerant callus lines were capable of growing in vitro in presence of 175 mM NaCl. SDS-PAGE profile showed that the progenies derived from tolerant sources were tolerant to salt. This investigation may help in the selection and characterization of salt tolerance in plant improvement programme.     

Two pathways of plant regeneration in wheat anther culture

The anthers of 10 Polish winter wheat (Triticum aestivum L.) cultivars were used for the induction of androgenesis and plant regeneration. The highest rate of callus induction (9.1%) and green plant production (0.8%) was obtained with the cultivar Apollo that was chosen for histological analysis. The first androgenic division was symmetrical and occurred after 3 weeks of culture. Further divisions of newly formed cells gave rise to multicellular structures which followed two developmental pathways: callus production or direct embryo formation. Plant regeneration was observed in both pathways. Chromosome counting of plantlets regenerated showed that haploid metaphases 2n=3x=21 were the most frequent.     

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