Effect of medium osmotic potential on callus induction and shoot regeneration in flax anther culture

Development of an efficient and cost-effective doubled haploid production system in flax (Linum usitatissimum L.) is the prerequisite for the application of doubled haploid technology in a practical breeding program. Pre-culture of anthers on a medium containing 15% sucrose for 2–7 days before transfer to the same medium containing 6% sucrose for a total of 28 days culture period significantly increased shoot regeneration for all four genotypes evaluated. Moreover, pre-culture of anthers on medium containing 15% sucrose for 2–7 days was sufficient to dramatically reduce the frequency of shoot regeneration from somatic tissues and thereby to increase the frequency of microspore-derived plants in flax anther culture. Furthermore, replacing 15% sucrose with 6% sucrose and 9% polyethylene glycol (PEG), or 3% sucrose and 12% PEG, in pre-culture medium did not significantly affect callus induction and shoot regeneration. The results indicate that sucrose may act as carbon/energy source as well as an osmotic regulator in flax anther culture. Sucrose as an osmotic regulator may be replaced by a non-metabolizable osmoticum: PEG. The implication of this study in flax anther culture and breeding is discussed.     

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     

Anther culture of kale (Brassica oleracea L. convar.acephala (DC.) Alef.)

The pollen development and androgenic ability of 18 kale (Brassica oleracea convar.acephala) genotypes was observed during an anther culture study. Anther culture was successful in 6 of the genotypes and the highest yield obtained was 17 embryos per 100 anthers plated. Two stages of anther development were identified as being responsive to anther culture. The first and most responsive was that corresponding to the late uninucleated stage and the second to the late binucleated stage. These stages correspond with the onset of mitotic events in the microspores. Pollen viability was studied and low viability was noted which declined to zero after 9 days of anther culture. The initial viability level however was not clearly related to androgenic ability. The significance of the production of haploid and dihaploid kale genotypes in the study and breeding of resistance to clubroot is discussed.     

Doubled haploid production in Flax (Linum usitatissimum L.)

There is a requirement of haploid and double haploid material and homozygous lines for cell culture studies and breeding in flax. Anther culture is currently the most successful method producing doubled haploid lines in flax. Recently, ovary culture was also described as a good source of doubled haploids. In this review we focus on tissue and plants regeneration using anther culture, and cultivation of ovaries containing unfertilized ovules. The effect of genotype, physiological status of donor plants, donor material pre-treatment and cultivation conditions for flax anthers and ovaries is discussed here. The process of plant regeneration from anther and ovary derived calli is also in the focus of this review. Attention is paid to the ploidy level of regenerated tissue and to the use of molecular markers for determining of gametic origin of flax plants derived from anther and ovary cultures. Finally, some future prospects on the use of doubled haploids in flax biotechnology are outlined here.     

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.     

Relatedness of Indian Flax Genotypes (<Emphasis Type="Italic">Linum usitatissimum</Emphasis> L.): An Inter-Simple Sequence Repeat (ISSR) Primer Assay

The objective of this study was to analyze the genetic relationships, using PCR-based ISSR markers, among 70 Indian flax (Linum usitatissimum L.) genotypes actively utilized in flax breeding programs. Twelve ISSR primers were used for the analysis yielding 136 loci, of which 87 were polymorphic. The average number of amplified loci and the average number of polymorphic loci per primer were 11.3 and 7.25, respectively, while the percent loci polymorphism ranged from 11.1 to 81.8 with an average of 63.9 across all the genotypes. The range of polymorphism information content scores was 0.03–0.49, with an average of 0.18. A dendrogram was generated based on the similarity matrix by the Unweighted Pair Group Method with Arithmetic Mean (UPGMA), wherein the flax genotypes were grouped in five clusters. The Jaccard’s similarity coefficient among the genotypes ranged from 0.60 to 0.97. When the omega-3 alpha linolenic acid (ALA) contents of the individual genotypes were correlated with the clusters in the dendrogram, the high ALA containing genotypes were grouped in two clusters. This study identified SLS 50, Ayogi, and Sheetal to be the most diverse genotypes and suggested their use in breeding programs and for developing mapping populations.     

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     

The effect of starch and ineubation temperature in anther culture of potato

Three Andean tetraploid potato genotypes (2n=48) and 7 anther-derived dihaploids (2n=24) originating from two of the tetraploids were used in anther culture. Relative number of embryos/vial was significantly higher when the anther culture media was gelatinized with 3% potato starch than when Gelrite or wheat starch (3%) were used as gelatinizing agents. The degree of anther culture response varied between tetraploids but also within a group of related dihaploids. Additionally, the embryo production of individual genotypes, tetraploids as well as dihaploids, was dependent on the incubation temperature (10, 15, 20, 25, 30°C) of the anther culture. The incubation temperature of the anther culture was also important for the regeneration rate. Direct regeneration was mostly stimulated when the anther culture was incubated at 20°C.Abbreviations BAP 6-benzylaminopurine - IAA indole-3-acetic acid     

Plant cell and biotechnology studies in <Emphasis Type="Italic">Linum usitatissimum</Emphasis> – a review

The species Linum usitatissimum (flax/linseed) has been the focus of a great deal of both basic and applied research effort in plant cell and biotechnology studies in recent years. In this review we consider applications of the techniques of plant biotechnology in this species under several distinct headings. Plant cell and tissue regeneration strategies and applications are discussed, and the applications of the techniques of somatic embryogenesis, protoplast isolation, culture and fusion and cell suspension cultures in this species are described. A major area of study is the use of anther and microspore culture where clear advantages to breeding programmes could be applied. In addition, embryo and ovary culture studies have resulted in significant findings. The more recent technologies of gene transfer and expression by genetic transformation are reviewed, and a section on strategies for improvements in technological quality is also included. Finally we propose conclusions and future prospects for this ancient, but still highly relevant crop.     

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.     

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.     

Regeneration of flax (<Emphasis Type="Italic">Linum usitatissimum</Emphasis> L.) plants from anther culture and somatic tissue with increased resistance to<Emphasis Type="Italic"> Fusarium oxysporum</Emphasis>

The aim of this study was to establish a protocol for the efficient production of flax plants of microspore origin. The results were compared to those obtained for plants regenerated from somatic explants from hypocotyls, cotyledons, leaves, stems and roots. All the plants obtained during the experiments were regenerated from callus that was grown for periods from a few weeks to a few months before the regeneration was achieved. Anther cultures were less effective in plant regeneration than somatic cell cultures. However, regenerants derived from anther cells showed valuable breeding features, including increased resistance to fungal wilt. The age of the donor plants and the season they grew in had a noticeable effect on their anther callusing and subsequent plant regeneration. Low temperature had a negative effect and dark pre-treatment a positive effect on callusing and plant regeneration. Different media were most effective for callus induction, shoot induction and rooting. For callus induction two carbon sources (2.5% sucrose and 2.5% glucose) were most effective; for shoots, only sucrose at lower concentration (2%) was effective. Rooting was most efficient in 1% sucrose and reduced (50%) mineral concentration in the medium. It was found that the length of in vitro cultivation significantly increases the ploidy and affects such features as regenerant morphological characteristics, petal colour, and resistance to Fusarium oxysporum-induced fungal wilt. The established plant regeneration system provides a basis for the creation of transgenic flax.Abbreviations BAP 6-Benzyl-aminopurine - IAA Indole-3-acetic acid - MS Murashige and Skoog medium - NAA -Naphthalene-acetic acidCommunicated by H. Lörz     

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.     

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.     

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.     

春小麦花培育种的遗传研究初报

春小麦是我省主要粮食作物,1987年将花药培养的一系列技术应用于育种,先后通过花药培养出一系列品系,已有品系参加省级品种区域性试验。 本文对花培育种的遗传研究表明:对植株诱导率的影响,即不同生态型、基因型F_1花药受不同年份,同时受不同生态区的不同地点,影响出愈率,分化率;供体植株基因型,以花培品系为亲本组合,其平均诱导率均高于不含花培品系的组合,说明小麦再生能力是花培育种的一个特点。不同世代供体基因型,几年来,我们彩用F_1代供体杂种,是提高诱导率和缩短育种年限的有效措施。花粉植株的遗传与变异是育种工作所注目的。     

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.     

Inheritance of competencies for leaf disc regeneration,anther culture,and protoplast culture in Solanum phureja and corrleations among them

Competence for leaf disc regeneration, anther culture, and protoplast culture was examined in the parental, F₁, and F₂ generations of a population of the diploid, cultivated, primitive potato, S. phureja (2n=2x=24). The parental pair consisted of AM3-8, an anther culture derived homozygous diploid, and NBP2, a heterozygous, field selected line. AM3-8 produced embryos in anther culture, and shoots on cultured leaf discs, but its cells did not divide after protoplast isolation. Cells of NBP2 divided to form calli and shoots in protoplast culture, but the clone did not respond to anther culture or leaf disc regeneration. All the individual plants in the F₁ generation were responsive to both anther and protoplast culture; however, there was segregation for the ability to regenerate shoots from leaf discs. The F₂ population, the result of a sib-cross, segregated for all three tissue culture competencies. Segregation data fit a one gene model for anther culture competence with the homozygous dominant genotype expressing the highest response, the heterozygote resulting in a marginal response, and the homozygous recessive resulting in no response. A two-gene model applied to the protoplast culture data, with a dominant allele at both loci required for division to occur after protoplast isolation. Leaf disc regeneration data could only be explained by a two gene model with recessive alleles at each locus required for the highest response, a dominant allele at either of the loci resulting in a marginal response, and dominant alleles at both loci resulting in no response. No significant correlation was found among these traits, implying three separate genetic mechanisms which segregate independently.Abbreviations BA N⁶-benzyladenine - GA₃ gibberellic acid - IAA indole-3-acetic acid - NAA -naphthaleneacetic acid     

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 in Brussels sprouts (Brassica oleracea var. gemmifera).

Embryo yields from anther culture were determined for seven F₁ hybrid genotypes of Brussels sprouts, one of which was known to be highly responsive. At least 1400 anthers were cultured for each genotype and the genotypes were tested in two groups. Although the results were variable, the genotypes were provisionally grouped as follows: two were highly responsive (with up to 180 and 376 embryos per 100 anthers cultured), one was moderately responsive (with up to 53 embryos) and four were virtually non-responsive. The possible genetic basis for the difference in responsiveness is discussed, together with the implications of the results for the utilisation of anther culture in Brussels sprouts breeding.