Genotypes of Perennial Ryegrass (Lolium perenne L.) with High Anther-Culture Response through Hybridization

Anther-culture response in Lolium perenne was studied in the hybrid populations from three responsive diploid parent clones to obtain genotypes with superior anther-culture response through hybridization. Genetic variation for anther-culture response was significant both within and between the four hybrid families and their parents. A reciprocal effect was indicated for embryo formation and regeneration percentages for one of the cross combinations. Among 55 hybrid clones tested in two environments, 6 clones were identified with an anther-culture response level superior to their parents. While the parents produced one green plant or less per 100 anthers, these superior clones produced from 11 to 59 green plants/100 anthers, mainly as the result of improved embryo formation and improved percentages of regenerated plants being green. A significant correlation (r = 0.397^**) was observed between embryo formation and percentage of green plants. The results are discussed with regard to the possible transfer of anther-culture response to non-responsive breeding material through hybridization.     

Effect of parental genotypes and colchicine treatment on the androgenic response of wheat F1 hybrids

The effect of the parental genotypes and colchicine treatment on the androgenic response of wheat (Triticum aestivum L.) F1 hybrids was studied. For this, anthers from three F1 hybrids and their parents were cultured on W14 initiation medium and W14 supplemented with 0.03% colchicine. The number of responding anthers, microspore‐derived structures/100 anthers, green plants/embryos cultured, green plants/100 anthers and albino plants/100 anthers were recorded. It was observed that embryo formation and plant regeneration ability were genetically controlled and genotype dependent. In both treatments the variety Kavkaz had a significantly higher percentage of responding anthers, microspore‐derived structures and green plants/100 anthers than the other genotypes. On the other hand, the variety Myconos also demonstrated high microspore‐derived structure production and green plant regeneration when treated with colchicine. The good response observed in these two varieties indicates the importance of colchicine treatment only for certain genotypes. Green plant production capacity of the hybrids was intermediate to that of the parental varieties. As one parent with a high or even an intermediate response to anther culture could lead to the production of sufficient (for breeding purposes) green plants from the F₁ hybrids, it was concluded that screening the inbred lines for the response to anther culture with and without colchicine treatment could contribute to utilization of breeding material with a low response to anther culture via the proper hybrid combinations.     

Components of Response in Barley Anther Culture

Anther culture response with 17 widely-grown varieties and one model variety of barley was studied with one replication from field-grown donor plants and one replication from a growth-chamber. Plants were regenerated from all 18 varieties and green plants were obtained from 16 of them. On average, 1.6 green plants were obtained per 100 cultured anthers from all the material. Estimated variance components for the formation of embryos/callus from the anthers were dominated by the effects of the genotypes and interactions between plant material and environments which together accounted for 60.1 and 17.0 % of the total variation respectively, while environments were nonsignificant for this character. Plant regeneration from embryos/callus were not significantly influenced by either genotype or environments. Components of variance for green plant formation were dominated by the effects of the genotypes, accounting for 73.2 % of the total variation, and a smaller effect from environments accounting for 11.2% of the total variation. Main effects from genotypes on the percentage of green regenerants divided 7 varieties into two distinct groups, indicating that major genetic factors were involved. The genetic basis for green plant regeneration seems different from that governing embryo formation. The results are discussed with respect to the possible prediction of anther culture response for new barley hybrids, as a means for directing the use of barley anther culture towards material that responds well.     

Breakdown of self-incompatibility in perennial ryegrass at high temperature and its uses in breeding

Summary The maximum temperature (34°C) at which perennial ryegrass plants from one breeding population successfully shed pollen was determined and the seed set of ten clones taken from the same population and self-pollinated both in an unheated glasshouse and at a constant 34°C during anthesis was compared. Seed set by selfing of all ten clones was markedly increased by heat treatment, from a mean of 2.3% to 30.7%. Heat treatment of anthers, but not stigmas, greatly enhanced pollen tube growth on stigmas from the same genotype. Germination of progeny was not affected by the heat treatment. Heat treatment of ten clones from a breeding population with contrasting morphology and growth rate was not so successful. Only one clone shed pollen freely at 34°C and showed a marked improvement in subsequent seed set. The advantages to the breeder of routinely producing full-sib families of elite perennial ryegrass parents by selfing are outlined.     

Die Nutzung der Antherenkulturmethode im Zuchtprozeß von Winterweizen

Anther culture in the breeding process of winter wheat. I. Ability of 1B—-1R wheat-rye translocation forms for androgenesis 45 winter wheat varieties or F₁ hybrids, F₂ populations and lines with 1B—1R wheat-rye translocation were tested for their anther culture ability. A total of 48058 anthers was cultured on Potato-2 medium. When averaged over all genotypes and the two experimental years frequencies of embryoid formation of 5.4—6.8 per 100 anthers were observed. Plant regeneration efficiency from embryoids ranged from 5.3—9.1 % or a mean of 4—5 green plants per 1000 anthers plated. The results confirmed the preferential regeneration frequency of gametes with the 1BL—1RS chromosome compared to the gametes with the 1BL—IBS chromosome. Multiple peroxidase were used as marker. The effect of cold pretreatment or of media on the androgenetic response and productivity was not important. On the contrary the variability between the anther response from single ears of the same genotype was noticeable. Examples are presented for the transferability of the androgenetic ability to breeding material. Most green plants obtained were haploid or spontaneous doubled haploid. By cloning it was guaranteed, that progenies were obtained from most of the haploids after colchicine treatment.     

Anther and isolated microspore culture response of wheat lines from northwestern and eastern Europe

Hexaploid wheat genotypes from north-western Europe show low responses to current anther culture techniques. This phenomenon was investigated on 145 north-western European wheat lines. Twenty-seven lines from eastern Europe were included to observe the response pattern of wheat from an area, where the technique has been used successfully. On average, eastern European wheat lines produced 3.6 green plants per 111 anthers, while only 1.4 green plants per 111 anthers were obtained in north-western European lines. This difference was due to the high capacity for embryo formation among the eastern European lines, while the ability to regenerate green plants was widespread in both germplasm groups. Isolated wheat microspore culture performed on 85 of these wheat lines gave an average 3.7-fold increase in green plants per anther compared with the anther culture response. The increased recovery of green plants was due to improved plant regeneration and increased green plant percentage from embryos derived from isolated microspore culture.     

Die Nutzung der Antherenkulturmethode im Zuchtprozeß von Winterweizen

Anther culture in the breeding process of winter wheat. III. Ability of winter wheat F₁ populations with the two heterozygous 1AL–IAS/1AL–IRS and 1BL–1BS/1BL–IRS chromosome pairs Application of anther culture to four F₁ hybrids between the IBL–IRS (‘Amigo’) and several 1BL–IRS wheat-rye translocation forms yielded 129 green pollen plants in an average embryo induction frequency of 17.6 %. A total of 2632 anthers was inoculated. 25 % and 42 % of the regenerated plants were haploid and spontaneously doubled haploid, and 33 % had abnormal chromosomal structure. After chromosome doubling treatment 87% of all pollen plants set seeds. By means of multiple peroxidases and Giemsa C-banding patterns, the anther culture progeny could be further classified into 16 plants without the short arm of IR-chromosome of rye, 21 IAL–IRS and 50 1BL–IRS translocation lines and into 16 IAL–IRS, IBL–IRS double translocation lines according to the four possible characteristic types of F₂ gametes of the tested F₁ hybrids. Advantages of the haploid technique for the selection of desirable traits and the meaning of the IRS genes in wheat are discussed.     

Production of Doubled Haploids by Anther Culture and Wheat X Maize Method in a Wheat Breeding Programme

Utilization of the doubled haploid method of breeding usually shortens the time to cultivar release, and methods of haploid production need evaluation in a breeding programme. Thirty-eight different three-way crosses were tested for anther culture response. On average 5.8 percent of the anthers cultured produced calli. Three crosses were found recalcitrant for callus induction. Overall, the anther culture method produced 0.6 plantlet per 100 anthers cultured. Five crosses with an average of 5.8 and 2.8 percent of anthers producing calli and plantlets, respectively, were compared using anther culture and wheat × maize crosses. Non-responsive genotypes for callus induction and plantlet formation in the anther culture method proved to be good parental material in wheat × maize crosses. The average percentages of embryo formation and plantlet production in wheat × maize crosses were 10.3 and 4.7, respectively. Anther-derived plants were cytologically unstable, whereas all the plants regenerated from wheat × maize crosses were haploids (n = 21 chromosomes). The chromosome numbers of the polyhaploids were doubled with a colchicine treatment. Improvement of the two haploid production methods to facilitate their efficient use in a breeding programme is discussed.     

Large-scale production of wheat and triticale double haploids through the use of a single-anther culture method

A total of 257 parental wheat and 38 triticale lines were used for anther culture. On average, 2.1 green wheat haploids were obtained per spike. This response occurred irrespective of the origin of the material (Germany, France, Sweden or UK) and 5 years of testing. Triticale responded with 5.3 green haploids per spike. Using the criterion that one parental line should give at least one green haploid per spike in the screening experiment, green haploids were produced from 88 out of 91 F₁ wheat breeding combinations and from each of 21 F₁ and F₂ triticale breeding combinations. An average of 4.7 green plants were obtained per spike from the wheat production programme, while the triticale programme gave an average of 6.2 green plants per spike. A single medium supplemented with different hormones for anthers and embryos was used for culture of both crops.     

Regeneration of anther-derived plants from pentaploid hybrids of Festuca arundinacea × Lolium multiflorum

Anther culture was used to generate progeny from pentaploid F1 hybrids of Festuca arundinacea (2n = 6x = 42) with Lolium multiflorum (2n = 4x = 28). Of 6360 anthers cultured, 676 green and 3460 albino plantlets were regenerated. Large differences in the anther culture response were observed among the F1 hybrids with the regeneration efficiency ranging from 0 to 28.8 green plants per 100 anthers cultured. All regenerants were less vigorous than the F1 hybrids and considerable morphological variation was present in such characters as plant height, leaf length and width, and the type and length of inflorescences. Among 295 plants which flowered during the first growing season only 38 were male fertile with pollen stainability ranging from 7.7% to 84.7%. Chromosome numbers in 170 analyzed regenerants ranged from 14 to 42 and fell into three groups: 14 to 21, 28, and 30 to 42. The experiment demonstrated that generation of large populations of androgenic progeny was feasible. This revised version was published online in July 2006 with corrections to the Cover Date.     

Androgenic capability among genotypes of winter and spring barley

Variable efficiency of androgenesis remains a serious problem in many species of cereals. It is still unclear what makes certain genotypes more amenable to androgenesis than others. This study was undertaken to quantify the previously suspected advantage of winter barley genotypes over spring ones with regard to regeneration efficiency in anther culture. The material consisted of 40 barley hybrids originating from Polish breeding companies. The number of androgenic structures per 100 anthers did not differ significantly between analysed groups (119 vs. 152 non‐significant), but the average regeneration of green plants per 100 anthers was five times higher in winter genotypes (6.4 vs. 1.3). The incidence of albinism was lower for the winter than for the spring materials (70% vs. 90%), while the rate of spontaneous chromosome doubling was similar in both groups (58% vs. 56%). The results strongly support the notion that winter genotypes are more amenable to androgenesis and this may be a consequence of their better adaptation to stress conditions.     

Diploid, tetraploid, and octoploid plants from anther culture of tetraploid orchard grass, Dactylis glomerata L.

This report describes a study of androgenesis in Dactylis glomerata, where the main aim was to find anther culture-responsive clones. Two types of media and two sugars were compared for their effectiveness in anther culture induction and subsequent plantlet production. Embryo formation from the cultured anthers was obtained from 28 of the 108 cloned genotypes using two different substrates, R₂M and FW. Both induction media supported the formation of embryos from the cultured anthers, but around 4.5 times more embryos (0.81 embryos per 100 anthers) were obtained with R₂M compared with FW, and R₂M also gave 5.5 times more green plants (0.054 green plants per 100 anthers) than the FW substrate. In the investigation of a carbohydrate source, responsive clones from the genotype study were tested using maltose as a substitute for sucrose in R₂M. Using maltose instead of sucrose increased embryo formation so that 133 embryos per 100 anthers were obtained compared with 7.1 embryos per 100 anthers obtained with sucrose. The total number of green plants obtained was also improved with maltose compared with sucrose, resulting in 66.3 and 1.9 green plants per 100 cultured anthers, respectively.     

Anther-culture response in different genotypes and F1 hybrids of pepper (Capsicum annuum L.)

An in vitro anther-culture method has been improved by using young mother plants and by using frequent subcultures, thus increasing the androgenic yield in different Capsicum annuum L. genotypes. An assortment of peppers was used, composed of 15 genotypes (four breeding lines, seven cultivars and four F₁ hybrids). A new system for qualifying the androgenic response was established. For use in practical breeding, a minimum of 5 % of plant regeneration was proposed as the criterion for a fair response. Accordingly, one excellent, one good and eight fair responses were identified among the genotypes investigated. As compared to the standard cultivar. 2 genotypes gave a significantly better response, i.e. ‘Fehérözön’ (75.8%) and ‘Szechuan 90716’ (21.0%). In comparative investigations, F₁ hybrids, produced from crosses between poor/non-responsive and responsive genotypes, showed a fair level of response, even the case of a poor response in donor parent. The ploidy level of the resulting plants was determined by flow-cytometric analysis.     

Variation in forage grasses as hosts of the root-knot nematode Meloidogyne naasi (Franklin) and selection for resistance in ryegrass

Summary Reactions of 13 grasses to Meloidogyne naasi varied with species; ryegrasses, fescues and their hybrids were generally susceptible and cocksfoot and timothy resistant. Marked variation in host resistance levels occurred between genotypes within cultivars.Selection of single plants, followed by tests on replicate tillers, identified resistant and susceptible genotypes in both Italian and perennial ryegrass cultivars. Resistant plants had few nematode-induced galls and fewer females and eggs than susceptibles. There was more or less continuous variation, with many genotypes intermediate between extremes of resistance and susceptibility. Selected resistant and susceptible genotypes are of use in assessing variation in nematode populations and as controls for breeding and selection programmes.     

Anther Culture Response in Perennial Ryegrass (Lolium perenne L.)

20 diploid clones from 7 varieties, and 10 tetraploid clones from 3 varieties of Lolium perenne were tested in replicated anther culture experiments. Embryos or calluses, were obtained from all clones, and plants were regenerated from all clones except one. The total yield of plants (albino and green plants) ranged from 0 to 61 plants per 100 cultured anthers among genotypes, and there was a general tendency for tetraploic genotypes to be more responsive. Viable green plants were obtained from 5 diploid and 7 tetraploid clones representing 2 and 3 varieties, respectively. Their origin from reduced pollen was confirmed by a haploid chromosome number in some regenerants and by homozygosity for isozyme loci in spontaneously chromosome doubled plants produced from heterozygous diploid donor plants. A large number of the plants were successfully established in the soil. For most donor genotypes, green plants were rare exceptions, but two diploic clones consistently produced 2.3 and 3.8 green plants per 100 cultured anthers, respectively. Estimates of variance components from replicates with greenhouse and field-grown donor plants showed that genotypes accounted for about 73 per cent of the total variation in yield of embryos/calluses, while only 14—15 per cent of the total variation was due to replicates. Hence at present, emphasis should be placed on die selection of high-response genotypes in material of high agronomic potential.     

Comparison of predicted and observed response to selection in two breeding populations of perennial ryegrass

To predict any genetic response to selection, two breeding populations of perennial ryegrass, consisting of half-sib families, were evaluated as spaced plants from 1987 to 1989 for several agronomical traits. In each population, the best plants selected through a multitrait Smith and Hazel's index were planted in a polycross to produce the second generation half-sib families. Both generations were evaluated together from 1991 to 1993 as spaced plants. The difference between generations was the observed genetic response, which was compared to that predicted. Rust tolerance, aftermath heading and persistence were significantly improved in both populations. In trial plots used to assess the yield, no effect of mass selection was noticed. Thus, it is concluded that mass selection failed to increase productivity but produced some improvements in disease tolerance and aftermath heading.     

基因型和环境条件对小麦花药培养效果的影响

为进一步提高小麦花培育种效率,明确花药培养力的遗传控制基础,以11个小麦品种及其组配的20个F₁杂种为材料,探讨了基因型、培养基和环境条件对愈伤组织诱导率的影响。在W14D、W14gD、W14GD培养基上,Alondra、Verry、石4185、新春9号和百农3217的花药易被诱导产生愈伤组织,诱导率为25.3%~51.9%,其中石4185是目前公认的花培育种优良亲本,新春9号为新发现的优良花培基因型。以宁春4号配制的部分F₁杂种的愈伤组织诱导率较高,大多数组合高于10.0%,表明宁春4号与供试品种间具有较高的花药培养配合力。小麦花培育种技术要求亲本之一具有较高的花药愈伤组织诱导率或较高的花药培养配合力。小麦花药培养力的遗传控制复杂,表现为数量性状遗传,亲本花药培养力很高,其F₁组合花药培养力不一定很高,这与双亲配合力有关。小麦花药培养中,供体植株生长和愈伤组织诱导的适宜条件为较长的营养生长期、适宜的前期(分蘖期)温度和较高的中期(拔节后期)温度。在添加低浓度生长素和葡萄糖的液体培养基中发现小麦花药直接成苗现象,2,4-D诱导花药直接成苗效果优于Dicamba。随着年度间气候升高的影响,相同基因型花药愈伤组织诱导率呈现增加趋势。     

AFLP analysis of genetic diversity within and between populations of perennial ryegrass (Lolium perenne L.)

Amplified fragment length polymorphism (AFLP) analysis has been used to measure genetic diversity in perennial ryegrass (Lolium perenne L.) and to relate intra- and interpopulation variation to breeding history. Cluster analysis of AFLP data from contrasting populations showed features consistent with the origins of these varieties. Significant differences in intrapopulation diversity were detected and partial separation of different cultivars was observed. Restricted base cultivars, derived from small numbers of foundation clones, were suitable for this type of study, allowing near complete discrimination of closely related cultivars. Analysis of bulked samples was based on the pooling of genomic DNA from 20 individuals from 6 selected populations. Cluster analysis of AFLP data from bulked samples produced a phenogram showing relationships consistent with the results of individual analysis. AFLP profiling provides an important tool for the detection and quantification of genetic variation in perennial ryegrass. This revised version was published online in August 2006 with corrections to the Cover Date.     

Somatic in vitro culture response of Lolium perenne L.: genetic effects and correlations with anther culture

Summary Genotypic effects on callus induction and plant regeneration in callus, suspension and protoplast culture, and their correlations with both phenotypic and GCA-values for anther culture response, were studied using 21 genotypes of perennial ryegrass. Differences between genotypes accounted for approximately 40% of the total variation for callus induction and initial callus growth, and 59 and 83% of the variation in callus culture for regeneration percentage and percentage of green plants. Effects of genotypes were less pronounced in suspension culture, where suspensions from the same genotype often behaved differently. Some suspension cultures retained their capacity for green plant regeneration for almost two years, repeatedly producing 80–100% green regenerants during this period. Genotypes with high regeneration percentage and a large proportion of green plants from callus culture were also superior in suspension culture for both regeneration performance and longevity. Regeneration percentage and percentage of green plants were uncorrelated, and probably under different genetic control. While capacity for green plant formation from the different genotypes showed no correlation between anther culture and somatic in vitro culture, a positive correlation was observed between the regeneration percentages in somatic in vitro culture and anther culture (r=0.44^*–0.85^***), suggesting some common genetic control of the two systems.     

Anther culture of tropical japonica × indica hybrids of rice (Oryza sativa L.)

Summary Nine japonica × indica F1 hybrids of rice involving 6 indica and 3 japonica tropical varieties, were large scale anther cultured. The frequency of callusing anthers averaged 18.7%. The microspore-derived calli produced green plants with a mean frequency of 8.7%. Albino plants represented 61% of the shoot forming calli. Monitoring of the green and albino plant regenerating capabilities of calli arising between week 4 and week 8 of incubation of the anthers showed no increase of the albino/green ratio and a slow decrease of the shoot forming ability of the transferred calli after the sixth week of culture. Spontaneous doubled haploids (SDH) represented 46% of the regenerated green plants in 4 hybrids. However, a high frequency of partially sterile regenerants was noticed among 132 SDH plants generated from a hybrid.