RFLP analysis to identify putative chromosomal regions involved in the anther culture response and callus formation of maize

Summary RFLP analysis was performed with anther culture-derived callus lines developed from the maize F₁ hybrids Pa91 x FR16 (PF), H99 x Pa91 (HP) and H99 x FR16 (HF). Relatively evenly spaced RFLP markers were selected to cover the maize genome with 52, 58 and 35 RFLP markers for the PF, HP and HF callus lines, respectively. The results from populations PF and HP combined with limited information from HF showed that six chromosomal regions on chromosomes 1, 2 (two regions), 3, 6 and 8 appear to be associated with the formation of embryo-like structures (ELSs) from microspores or the subsequent formation of regenerable callus from the ELSs. Regions at the end of the long arm of chromosome 2 and on the long arm of chromosome 8 appear to be associated with ELS formation, and the other regions appear to be associated with either ELS or regenerable callus formation or both. Certain regions that we have identified are the same as those found in other studies to be important for friable, embryogenic callus formation (chromosomes 1 and 3 and near the centromere of 2) and for ESL formation (chromosomes 1 and 3). This study has provided evidence for the genetic basis of the maize anther culture response and callus formation.     

Ploidy stability of maize anther culture-derived callus lines

Summary Ploidy levels of 26Zea mays L. anther culture-derived callus lines of the F1 hybrids (H99 × Pa91, Pa91 × FR16, and H99 × FR16) were determined at various times after culture initiation using flow cytometry (for 21 lines) or chromosome counting of callus cells or regenerated plants (for the remaining 5 lines). Twenty of the lines remained haploid, whereas 6 were diploid. The results from flow cytometry, after examining the DNA content of 5000 nuclei of each callus line, show that each callus line consisted of homogenous haploid or diploid cells. Thus for diploid callus lines, spontaneous chromosome doubling must have occurred before or in the early stages of androgenesis, before the initiation of callus cultures. These long-term callus cultures (growing for up to 38 mo.) have stably maintained their ploidy levels so it is unlikely that the culture conditions have caused chromosome doubling. The restriction fragment length polymorphism pattern obtained with 52 to 58 markers for each diploid callus line shows that all the diploid lines are homozygous diploid so each originated from a microspore and not from diploid maternal F1 hybrid tissue.     

Isolated microspore culture of maize: effects of isolation technique,reduced temperature,and sucrose level

Improvements in ab initio microspore culture of maize are presented using a modified isolation technique, reduced temperature during early stages of culture, and an elevated sucrose level in the culture medium. Blending-isolation, using excised anthers, was less stressful on microspores than pressing anthers against a stainless steel sieve and resulted in a 3-fold increase in the yield of embryo-like structures (ELS). Exposure to reduced temperature (15°C) during the first 4 days of culture improved microspore viability and increased by 2-fold the number of ELS produced. Higher levels of sucrose (8.0–9.5%) also resulted in improved response. Maximum yield in the present study was 92 ELS per 100 anther equivalents, exceeding previously reported values of 15 ELS per 100 anther equivalents for ab initio microspore culture of maize. The increase in the total number ELS produced had no observable effect on their quality as evidenced by the frequency of formation of callus capable of regenerating plants.     

Origin of Embryo-Like Structures in Soybean Anther Culture Investigated Using SSR Marker

The Satt418 microsatellite locus was examined in order to investigate the origin of embryo-like structures (ELS) obtained from soybean anther culture. Four heterozygous plants were used as anther donors. A total of 7000 anthers were placed on the induction medium under culture conditions known to trigger androgenic response. After 60 days of culture, upper portion of 216 ELS were carefully removed and transferred to a proliferation medium, in order to obtain sufficient tissue for DNA extraction. Callogenic masses originated from 114 ELS were screened for the Satt418 microsatellite locus. Heterozygous and homozygous ELS were identified, suggesting occurrence of somatic embryogenesis and androgenesis in the same system. This unexpected morphogenic response seems to be genotype-dependent.     

Regeneration of androgenic embryos in apple (<Emphasis Type="Italic">Malus x domestica</Emphasis> Brokh.) <Emphasis Type="Italic">via</Emphasis> anther and microspore culture

Based on optimized protocols for anther and microspore culture in apple (Malus x domestica Borkh.), the regeneration phase and the efficiency of the processes in general were compared by using the same androgenic material of two experimental years. Microspore culture resulted in an increase in embryo induction depending on the genotype (Höfer 2004), however anther culture was superior to microspore culture in the total number of regenerated plants. The regeneration process in anther and microspore culture is similar. Two developmental pathways were observed: 1) secondary embryogenesis followed by adventitious shoot formation and 2) direct adventitious shoot formation from primary embryos. Induction and regeneration processes are delayed in microspore culture as compared with anther culture. The reasons for the reduced regeneration efficiency in microspore culture are discussed.     

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     

Meiotic metaphase I to telophase II as the most responsive stage during microspore development for callus induction in tomato (<Emphasis Type="Italic">Solanum lycopersicum</Emphasis>) anther cultures

The generation of homozygous doubled haploid lines through induction of androgenesis is a promising alternative to the classical inbreeding and selection programs. However, this technology is poorly developed in tomato, where doubled haploid tomato plants have only been obtained through anther culture. Despite the fact that anther culture is routinely used in a number of economically interesting crops, there are still many drawbacks that prevent tomato breeders from adopting this technique, and improvements in methodology are required. One key issue is the correct identification of the optimal stage for anther excision and culture. In this paper we characterise in vivo microsporogenesis in tomato, defining the different microspore stages and relating them to the length of the donor flower bud. In parallel, we cultured anthers of these stages to obtain embryogenic callus, and followed the microscopic development of the callus contained within the anther. Our data suggest that the stage with the highest response, in terms of callus generation, is meiosis. In particular, we propose the window from metaphase I to telophase II, including tetrad cellularisation, as the timeframe where induction can be accomplished in tomato anther cultures.     

Identification of microspore-derived plants in anther culture of flax (Linum usitatissimum L.) using molecular markers

The microspore origin of anther-culture-derived plants of flax was determined using inter-simple sequence repeat (ISSR) and randomly amplified polymorphic DNA (RAPD) markers. Polymorphic fragments between the two parents of the F₁ donor plants were identified and their segregation patterns in anther-culture-derived plants were used to elucidate the origin of those plants and to determine the degree of independence of plants regenerated from the same callus. Using one ISSR primer (UBC 889) and two RAPD primers (UBC 556 and 561), 12 out of 16 plants were unequivocally identified as being derived from microspores. Plants derived from the same callus had identical PCR patterns at five polymorphic loci and thus were likely derived from the same microspore. Therefore, it is proposed that the number of calli forming shoots be used to describe the anther culture efficiency in flax. Received: 3 February 1998 / Revision received: 8 June 1998 / Accepted: 8 July 1998     

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.     

Anther culture and Hordeum bulbosum-derived barley doubled haploids mutations and methylation

Anther culture and Hordeum bulbosum-derived doubled haploid (DH) lines of barley (Hordeum vulgare L.) were analyzed for RFLP and RAPD polymorphisms. Polymorphisms were not detected in the anther culture-or H. bulbosum-derived DH lines among 273 RFLP and 89 polymerase chain reaction (PCR)-amplified DNA fragments assayed. It was calculated that base substitution or small deletion/insertion mutations had not been induced among 401 640 by screened. Large deletion/insertion mutations were not observed among 33 Mb screened. Polymorphisms were observed when DNA was digested with the methylation-sensitive restriction enzymes HpaII and MspI: these RFLPs originated primarily from the anther culture-derived doubled haploids. The data indicate that heritable DNA methylation changes had occurred during DH production, particularly with the anther culture method.     

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.     

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.     

Selection for increased anther culture response in maize

Summary Anther culture of a three-way cross, (H99 × FR16) × Pa91, resulted in the regeneration of two anther-derived plants which were crossed to produce an F₁ progeny. Fourteen S₁ families derived from this cross were evaluated for their anther culturability. Dramatic increases in the level of androgenesis, expressed as the percentage of cultured anthers which produced embryo-like structures, were observed. An overall mean response frequency of 23.4% was observed for the S₁ families. This was compared to a 3.5% response in the original three-way cross. These results demonstrate that genetic improvement of in vitro androgenesis in maize is possible and that anther culture per se constitutes a procedure for selecting genes which favor increased levels of response.     

Enhanced post-germinative growth of encapsulated somatic embryos of Siberian ginseng by carbohydrate addition to the encapsulation matrix

Based on a protocol for microspore culture in apple (Malus domestica Borkh.), the embryo induction phase has been improved with regard to pretreatment of microspores for initiation of microspore embryogenesis, the concentration of carbon source in the induction medium and the microspore density in the suspension. Furthermore, the effect of the genotype was studied. To determine the efficiency of in vitro androgenesis, both methods, via anther and microspore culture, were investigated using the same bud material. A comparison of the efficiency of embryo induction in anther and microspore cultures showed that microspore culture resulted in an increase up to 10 times, depending on the genotype. The regeneration route in microspore culture is similar to that of androgenic embryos via anther culture and showed adventitious shoot formation in most cases after a long period of secondary embryogenesis.Communicated by H. Lörz     

A comparison of anther and microspore culture as a breeding tool in Brassica napus

Summary A direct comparison of microspore culture and anther culture was made in Brassica napus using F₁ crosses of Regent (canola) by Golden (rapeseed), and their reciprocals, as well as a hybrid between Reston and a highly embryogenic, canola-quality breeding line (G231) as donor plants. The study confirmed that microspore culture can be ten times more efficient than anther culture for embryo production. Embryo yields from cultures initiated from the Reston x G231 were four-fold greater than those initiated from the Regent x Golden crosses, and significant differences were also detected among cultures initiated from the different Regent x Golden crosses. These results illustrate the influence that donor plant genotype has on embryo production. However, superior embryogenic potential among donor material was not always coincident with superior plant production. The average haploid-todiploid ratio in microspore-derived regenerates was 21 for the population obtained from the Regent x Golden crosses but 11 for the Reston x G231 cross. For both types of material, the frequency of diploids increased upon repeated cycles of explanting. A field study showed that there were no differences between the populations of anther-derived and microspore-derived spontaneous diploid and doubled haploid lines, with respect to the days required for them to flower or to mature. The information is valuable for canola breeding programs considering the use of haploidy.     

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.     

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.     

The Correlation between the Chromosome Variation in Callus and Genotype of Explants of Arabidopsis thaliana

Twelve callus lines of Arabidopsis thaliana were derived from four types of explants excised from diploid plants of two ecotypes (Columbia and Wilna) and autotetraploid plants of the Wilna ecotype. Cytogenetic analysis of the chromosome variation in particular callus lines was carried out for primary culture and callus during 5 months of culture. Ploidy levels of interphase nuclei were estimated by counting the number and size of chromocentres and nuclei of interphase cells. The first polyploid cells in all callus lines were observed during callogenesis. In primary culture the ploidy level ranged between 2 and 15x (10-75 chromosomes). The frequency of polyploid cells was higher in the 5-month old callus culture, but the ploidy level was the same. In the callus lines derived from autotetraploid plants, cells with reduced chromosome number appeared quite frequently along with diploid and polyploid cells.     

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).