Positive effects of cold pretreatment, iron source, and silver nitrate on anther culture of strawberry (Fragaria × ananassa Duch.)

Androgenesis by anther culture or isolated microspore culture is the most efficient method for haploid production. In this study, the effects of cold pretreatment (4 °C), silver nitrate, and iron source in the medium were investigated on anther culture of five strawberry cultivars (Camarosa, Selva, Pajaro, Paros, and Gaviota) in three independent experiments, and three traits including percentage of androgenic anthers, embryogenesis, and callogenesis were determined. In the first experiment, cold pretreatment of 4 °C for 2 and 3 days produced the highest percentage of androgenic anthers in three cultivars (Camarosa, Selva, and Pajaro) and cold pretreatment of 4 °C for 2 days produced the highest percentage of androgenic anthers in cultivar Paros. In the second experiment, the effect of Fe-EDDHA was more effective than Fe-EDTA, and increased the percentage of androgenic anthers and embryogenesis. The use of 57.5 mg l^?1 Fe-EDDHA produced the highest percentage of androgenic anthers in cultivar Camarosa and the best embryogenesis in cultivars Camarosa and Gaviota. In the third experiment, the use of 15 mg l^?1 silver nitrate in medium significantly increased the percentage of androgenic anthers and embryogenesis in cultivar Camarosa.     

Haploid plants from in vitro anther culture of the leguminous tree,Peltophorum pterocarpum (DC) K. Hayne (Copper pod)

The development of haploid callus, embryos and plantlets from cultured anthers and the various factors affecting androgenesis in Peltophorum pterocarpum (Copper pod), a tropical legume tree is reported. A pretreatment of flower buds at moderate temperature of 14°C for 8 days was most effective for callus production. The colour of the anther was found to be a reliable and efficient indicator for identification of suitable stage of anther for culture. The frequency of anthers which produced callus and shoots was highest when anthers were cultured at mid or late-uninucleate stage. A high sucrose concentration of 10% is a specific media requirement for androgenesis. The haploid nature of the embryos, callus and regenerated plants (n=14) were confirmed by chromosome count.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - KN kinetin - NAA naphthaleneacetic acid - BAP bezylaminopurine     

Evaluation of haploidization efficiency in winter squash (Cucurbita maxima Duch.) and pumpkin (Cucurbita moschata Duch.) through anther culture

The production of large numbers of haploids is the crucial point of the dihaploidisation process. Although in vitro haploid plants were successfully produced by irradiated pollen technique in winter squash (Cucurbita maxima Duch.) and pumpkin (Cucurbita moschata Duch.), the frequency is still insufficient for using in a large-scale breeding programme. Thus, the present study was conducted to determine the efficacy of the anther culture technique on the production of in vitro haploids in the aforementioned species for which there have been no successful reports concerning by androgenesis. The anthers at uninucleate microspore stage were collected at different florescence times and then cultured on a solid MS medium supplemented by different combinations of 2,4-D (2,4-dichlorophenoxyacetic acid), BAP (6-benzylaminopurine), KN (kinetin) with the constant addition of NAA (naphthalene acetic acid) to induce callogenesis, embryogenesis and plantlet initiation. The combination of PGR, genotype and anther collection time played an important role in the androgenic response. The highest response was obtained from 57S?21 and G9 lines with the combination of 2.0 or 4.0 mg/l BAP?+?0.05 mg/l NAA (E6 medium) at the first anther collection time. Plantlets were regenerated and rooted on MS medium supplemented by 0.01 mg/l IAA. In total, 74 plants were recovered and propagated with micro-cuttings. The ploidy analyses revealed that 35 plants (47.3?%) were haploid (n?=?20), and the others (52.7?%) were diploid (2n?=?40).     

A brief temperature pulse enhances the competency of microspores for androgenesis in Datura metel

Androgenesis may be induced in plants by a stress application on microspores or anthers. Temperature stress treatments have generally been confined to a single temperature regime (above or below ambient) lasting from a few hours to days. We introduced a gradient with two temperature pulses (30 s each) in the stress application on anthers of Datura metel L. by stepping the temperature up and down for a total period of 60 s. Anthers were immersed in sterile water preheated and cooled to the desired temperature and cultured on Nitsch medium. The temperature pulse gradient significantly improved androgenesis compared to single temperature treatments, resulting in increased mean embryogenesis of 128% over control for 45°/15°C, 110% for 45°/10°C, 113% for 40°/10°C and 96% for 45°/5°C. The 45°/10°C gradient also significantly increased the number of dividing microspores observed, after 14 days of anther culture. Besides the differential of the gradient, the temperature limit was important, with anthers not tolerating temperatures beyond 45°C. The temperature pulse gradient applied at an early stage of culture may increase the window of competency of microspores for androgenesis.     

Embryogenesis and haploid induction using anther culture in lovage (Levisticum officinale W.D.J. Koch)

An efficient and robust protocol to induce embryogenesis in lovage (Levisticum officinale W.D.J. Koch) has been developed. Immature anthers, with most of the microspores at the late uninucleate stage, were used as explants, and embryogenesis was induced in medium with combinations of plant growth regulators including α-naphthalene acetic acid (NAA), 2,4-dichlorophenoxyacetic acid (2,4-D), and 6-benzylaminopurine (BAP). The frequencies of in vitro embryogenesis ranged from 0.42 to 18.25% depending on the combinations of plant growth regulators in the induction medium. Induced globular embryos successfully developed into heart and torpedo-staged embryos. Fresh anther explants produced the highest embryo formation rate (17.75%). Anthers treated at 4?ºC for 3, 5, or 8 d, significantly reduced the embryogenic response (to 3.52–7.85%). More embryos were induced when the sucrose content in the medium was increased from 3 to 6% (w/v), but significantly fewer embryos were produced when sucrose was 8% or more. Nearly 20% of fresh anthers were able to produce embryogenic structures when cultured on Murashige and Skoog medium supplemented with 10.74 μM NAA, 8.80 μM BAP, 9.05 μM 2,4-D, and 6% sucrose. Furthermore, when silver nitrate was added to the embryo induction medium at 90 μM, the frequency of anther browning decreased by 30% and the embryo formation rate increased to 24.75% of anthers cultured. In total, 418 plants were regenerated and cytological analysis confirmed 11 haploid lines from 187 samples randomly selected.     

Haploid plant regeneration via embryogenesis from anther cultures of Hepatica nobilis

An anther culture technique for the production of haploid plants was developed in Hepatica nobilis. Embryos with bipolar meristem regions were induced from microspores within the cultured anthers. Embryo formation was promoted by first culturing anthers on NN medium (Nitsch and Nitsch, 1969) supplemented with 1% activated charcoal (AC) at 5 or 35?°C for a few days and by then incubating them in the dark at 25?°C. Pre-culturing anthers at 35?°C for 4?days (thermal-shock treatment) led to the best embryo formation (45 embryos/Petri dish with 30 anthers). Plant regeneration was achieved by culturing the anther-derived embryos on NN medium without AC at 15?°C. Flow cytometric analysis of anther-derived embryos and chromosome counts in regenerated plants showed that they were haploid plants.     

Induction of in vitro androgenesis in anther and isolated microspore culture of different spelt wheat (<Emphasis Type="Italic">Triticum spelta</Emphasis> L.) genotypes

This is the first report on isolated microspore culture—derived spelt wheat. The efficiency of anther- and isolated microspore was compared using four genotypes (‘Franckenkorn’, ‘GK Fehér’, ‘Mv Martongold’, ‘Oberkulmer Rotkorn’). In anther culture, genotype dependency was observed, and cold pre-treatment enhanced the efficiency of the method. In isolated microspore culture, the ovary co-culture supported the development of embryo-like structures. The presence of growth regulators (0.5 mg/l 2,4-D and 0.5 mg/l kinetin) were not essential for the induction of androgenesis, but these increased the production of embryo-like structures, green and albino plantlets. The low plant regeneration rate and high number of albinos hinder the practical application of isolated microspore culture while anther culture was efficient for in vitro green plantlets production in spelt wheat. The mean of green plantlets production was 41.45/100 anthers (from 20.93 to 83.07 depending on genotype). The phenomenon of albinism was mitigated in anther culture (3.48 albinos/100 anthers). Altogether, 1720 anther culture—derived green plantlets were produced from the four genotypes.     

Induced androgenesis in tomato (Lycopersicon esculentum Mill). II. Factors affecting induction of androgenesis

The influence on androgenesis of donor plant growth conditions, anther size and developmental stage of the microspore, medium composition and different anther treatments prior to culture was investigated in L. esculentum Mill. cv Roma and its hybrids. Growth conditions of donor plants affected the induction of tomato androgenesis. Anthers isolated from plants grown in the greenhouse during winter at high humidity and in short days possessed higher androgenetic ability than those grown in the field. The physiological state and age of the donor plants also influenced the processes investigated. Regarding the developmental stage of microspores, the period from prophase to telophase II is optimal for tomato anther implantation. More then 20 culture media were tested. Two, based on Murashige and Skoog medium were selected as most favourable for callus induction, organogenesis and regeneration. The effect on callus induction of 2ip in combination with indole-3-acetic acid (IAA) was greater than that of zeatin and IAA. Zeatin promoted entire plant regeneration. A highly significant interaction between genotype and medium was observed. Temperature and gamma ray treatments of anthers enhanced callus production, shoot formation and plant regeneration. Treatments at 4 °C (48 h) and 10 °C (9 days) stimulated these processes. Combined treatment of anthers with 4 Gy and 10 °C for 9 days was the most efficient. Received: 5 September 1997 / Revision recieved: 5 June 1998 / Accepted: 15 June 1998     

Androgenic potential in coconut (Cocos nucifera L.)

Conditions for induction of androgenesis in coconut cv. Sri Lanka Tall were studied. Anthers collected from inflorescences at four maturity stages were given heat (38°C) or cold (4°C) pretreatments for 1, 3, 6 and 14 days, either prior to or post inoculation. Three different basal media and different anther densities were also tested. Androgenesis was observed only in anthers collected from inflorescences 3 weeks before splitting (WBS) and after a heat pretreatment at 38°C for 6 days. Modified Eeuwens Y₃ liquid medium supplemented with 100 μM 2,4-dichlorophenoxyacetic acid (2,4-d), 0.1% activated charcoal and 9% sucrose was effective in inducing an androgenic response. The lowest anther density tested, 10 per petri plate, was found to be the optimal density. When androgenic calli or embryos were subcultured to Y₃ medium containing 66 μM 2,4-d, followed by transfer to Y₃ medium without plant growth regulators and finally to Y₃ medium containing 5 μM 6-benzyladenine (BA) and 0.35 μM gibberellic acid (GA₃), plantlets regenerated at a frequency of 7%. Histological study indicated that the calli and embryos originated from the inner tissues of the anthers. Ploidy analysis of calli and embryos showed that they were haploid. This is the first report of successful androgenesis yielding haploid plants from coconut anthers.     

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

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

Induced androgenesis of <Emphasis Type="Italic">Capsicum frutescens</Emphasis> L.

The aim of the research was to make a preliminary determination of the effectiveness of the induction of haploids in Capsicum frutescens L. In order to induce androgenesis red and yellow fruit forms of species were used, each bred by the researchers on their own. The experiment was performed in October. Anther cultures were conducted according to a modified method developed by Dumas et al. (1981) for C. annuum L. The anthers were laid on CP medium containing 0.01 mg dm⁻³ 2.4-D and 0.01 mg dm⁻³ kinetin, with the addition of 0.5 g dm⁻³ of activated carbon and 5 mg×dm⁻³ of silver nitrate, solidified with 8 g dm⁻³ of agar. The cultures were incubated in the dark at 35 deg C for 8 days. Next they were transferred to 25 deg C under a 12-hour photoperiod. After 14 days of induction, anthers were transferred to R₁ medium supplemented with 0.1 mg dm⁻³ kinetin. Obtained embryos were subsequently transplanted onto V₃ hormone-free medium and well growing plants were planted in greenhouses. The efficiency of androgenesis for both C. frutescens L. forms was relatively low and it did not exceed 5%. The ploidy level of the resulting plants was determined by flow-cytometric analysis. The regenerants consisted of about equal numbers of haploids and diploids. Additionally, among plants regenerated from anthers of yellow fruit forms, two mixoploids were observed.     

Production of microspore-derived plants by anther culture of an interspecific F1 hybrid between Cyclamen persicum and C. purpurascens

Anthers of a F1 hybrid (2n=41) between Cyclamen persicum (2n=2x=48) and C. purpurascens (2n=2x=34) were cultured to produce microspore-derived plants. Embryoids were produced when anthers, containing microspores at the early uninucleate stage of pollen development, were cultured in B5 medium containing sucrose (90 g l-1) and NAA (0.1, 1 mg l-1) or 2,4-D (0.1 mg l-1) in the dark at 5 °C for 4 days, then at 25 °C for 60 days. The embryoids usually developed into plantlets when cultured in B5 medium containing sucrose (30 g l-1) in the dark at 25 °C. At meiosis, the F1 hybrid, used as source for anther culture, formed some cells with restitution nuclei at telophase and dyads at the tetrad stage, which resulted in the production of viable pollen grains as unreduced gametes. Plants produced by anther culture were grouped into sterile plants with 2n=41 chromosomes and fertile plants with 2n=82 chromosomes. The present findings suggested that the sterile plants were polyhaploids originating from unreduced microspores (n=41) of the F1 hybrid and that the fertile plants were amphidiploids induced by a spontaneous doubling during culture of chromosomes of such unreduced microspores. This revised version was published online in June 2006 with corrections to the Cover Date.     

Effects of light conditions and 2,4-D concentration in soybean anther culture

The morphogenic response of anther walls and connective tissue is the greatest obstacle to androgenesis in soybean anther culture. Whereas induction to microspore embryogenesis occurs in the dark in almost all plant species, soybean anthers have been cultured under light. In an attempt to establish culture conditions that simultaneously stimulate microspore embryogenesis and inhibit epidermal and connective cell proliferation, the effect of light and two 2,4-dichlorophenoxyacetic acid (2,4-D) concentrations (2 and 10 mg l^–1) on the induction process was investigated. Higher 2,4-D concentration speeded up microspore plasmolysis and did not improve androgenesis. Callogenesis and embryogenesis induction from sporophytic cells were significantly lower in the dark, and some microspores showed major alterations in the sporoderm. Auxin 2,4-D and induction under light contributed to the morphogenic response of the anther walls and connective tissue under the conditions previously recommended to trigger microspore embryogenesis.     

Haploid plants from anther cultures of poplar (Populus × beijingensis)

Homozygous genotypes are valuable for genetic and genomic studies in higher plants. However, obtaining homozygous perennial woody plants using conventional breeding techniques is currently a challenge due to a long juvenile period, high heterozygosity, and substantial inbreeding depression. In vitro androgenesis has been used to develop haploid and doubled haploid plants. In the present study, we report the regeneration of haploid lines of poplar (Populus × beijingensis) via anther culture. Anthers at the uninucleate stage were induced to produce callus using three basic media. Two auxins (naphthalene acetic acid [NAA] and 2,4-dichloro-phenoxyacetic acid [2,4-D]), and two cytokinin (kinetin [KT] and 6-benzyladenine [BA]) were tested to explore the influence of plant growth regulators on callus response. H medium (Bourgin and Nitsch 1967) supplemented with 1.0 mg/L NAA and 1.0 mg/L KT induced the highest rate of callus formation. When callus obtained from anthers were subcultured in MS medium containing 1.0 mg/L BA and 0.2 mg/L NAA, followed by transfer to half-strength MS medium supplemented with indole-3-butyric acid (0.2–0.5 mg/L), the formation of regenerated plantlets increased dramatically. Inclusion of gibberellic acid (0.02–0.2 mg/L) in addition to a combination of BA (0.6 mg/L)-NAA (0.2 mg/L) in the culture medium resulted in enhanced frequency of shoot development, as well as greater internode elongation. Ploidy analysis of 580 regenerated plants, using both flow cytometry and chromosome counting, revealed 10.3 % haploid and 1.0 % triploid plantlets. The remaining plantlets were all diploid.     

Production of androgenic plants through Pollen embryogenesis in anther cultures ofBrassica carinata A. Braun

Pollen embryogenesis occurred in anther cultures of two genotypes ofBrassica carinata A. Braun. Pretreatment of anthers at 35°C for 3 or 6 days was essential for the induction of androgenesis on growth regulator-free culture medium. A combination of sucrose and glucose was better than sucrose alone. None of the pollen embryos germinated normally. Full plants were raised through adventitious bud differentiation from their hypocotyl.     

Colchicine-mediated chromosome doubling during anther culture of maize (Zea mays L.)

Efficient methods of chromosome doubling are critical for the production of microspore-derived, doubled-haploid (=DH) plants, especially if, as in maize anther culture, spontaneous chromosome doubling occurs infrequently. In the present study, colchicine (5–1000 mg/l) was added to the induction medium and maize anthers were incubated in the colchicine-containing medium for different durations (1–7 days). In order to improve overall anther culture response, the culture temperature was adjusted to 14°C during the first 7 days. Colchicine applied at low concentration, i.e. 5 mg/l (7 days), or for short duration, i.e. 1–3 days (250 mg/l), showed beneficial effects on the formation of embryolike structures (=ES) and thus led to increased plant production, but was comparatively ineffective regarding chromosome doubling. Optimal doubling effects were observed when anthers had been exposed to culture medium containing 250 and 1000 mg/l of colchicine (7 days); in these treatments the doubling index (=DI), defined as the quotient of the number of DH plants and the number of totally regenerated plants in a specific treatment, rose to 0.56 and 0.53, respectively, compared to 0.20 in the untreated control. However, colchicine administered at concentrations higher than 250 mg/l seemed to be detrimental to general plant production; thus, in spite of a high DI, the overall DH plant production was even lower than in the control treatment. Maximum DH plant production for three different genotypes was accomplished with culture medium containing 250 mg/l of colchicine (7 days). With the best-responding genotype (ETH-M 36) a DH plant production of 9.9 DH plants/100 anthers was accomplished, i.e. a 7-fold increase compared to the non-treated anthers. This is the first report on efficient chromosome doubling in anther culture by subjecting anthers to colchicinecontaining induction medium during a post-plating cold treatment. Chromosome doubling as described here becomes an integral part of the maize anther culture protocol and thus represents a rapid and economical way to produce DH plants.     

Haploid callus and regeneration of plants from anthers of Digitalis purpurea L.

Summary Production of callus from anthers of D. purpurea was obtained on several basal media supplemented with various amounts of auxins. Chromosome counts showed that the callus produced was haploid when the anthers 1) were of a dark-brown to black color, and 2) were cultured in the late tetrad stage of microspore development. Subsequent differentiation to plants at high frequencies was possible only 1) when the anthers had been cultured on the medium of Nitsch and Nitsch (Science 163, 85–87; 1969) supplemented with 5 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D), 2) when the callus was transferred to the same medium but without 2,4-D, and 3) when it was cultured under continuous light from fluorescent lamps. Proliferation of the callus and regeneration of plants did not diminish through as many as 20 subcultures. The high frequency of regenerates permits the propagation of a distinct geno-type to a virtually unlimited number of plants. Diploid plants were obtained when the anthers had been cultured in the dark. Tetraploid plants were regenerated by callus from anthers which had been cultured in light. When the time of 2,4-D treatment was shortened a few haploid plants were produced which however did not survive transfer to soil. Cytological observations demonstrated that regeneration started from haploid callus, leading to intermediate degrees of ploidy and finally to diploid plants. Most of the regenerated plants were euploid and flowered and fruited normally under greenhouse and field conditions. If the anther-derived callus was cultured on the medium of Nitsch and Nitsch supplemented with 2.2 mg/l kinetin, plants regenerated only under photoperiodic conditions of 16 h light at 28° and 8 h dark at 20° but the survival was lowered to one third. These plants had a different leaf and flower morphology as compared to the control without kinetin and to the starting material, but their progeny was again essentially normal.     

Effect of rye chromosomes on features of androgenesis in wheat-rye substituted lines of Triticum aestivum L. sort Saratovskaya 29/Secale cerale L. sort Onokhoiskaia and Triticale]

The characteristic features of androgenesis in six wheat-rye substitution lines Triticum aestivum L. (cv. Saratovskaya 29)/Secale cereale L. (cv. Onokhoiskaya) and triticale (2n = 56) using anther culture at different concentrations of 2,4-D in the growth medium were studied. Under variable cultivation conditions, the significant effect of genotypic diversity on the variability of such androgenesis parameters as the frequency of productive anthers, the frequency of embryoid formation, and the frequency of total regenerated plantlets, was shown. It was demonstrated that chromosomes 1R, 3R, and 7R stimulated the formation of androgenous embryoids, while chromosome 5R produced an opposite effect. In triticale and substitution lines, the regeneration ability of androgenous embryoids induced by elevated 2,4-D concentrations was inhibited. Chromosome 1R of the Onokhoiskaya cultivar was suggested to contain genes suppressing regeneration of green plantlets, while chromosome 3R, conversely, stimulated their formation. Chromosomes 1R, 2R, 3R, and 7R of the Onokhoiskaya cultivar did not inhibit the spontaneous formation of androgenous hexaploids in the substitution lines.     

Doubled haploid production via anther culture in annual,winter type of caraway (<Emphasis Type="Italic">Carum carvi</Emphasis> L.)

Caraway (Carum carvi L.) is a traditional medicinal and spice cross-pollinated plant species. Although in vitro techniques are recently extensively applied in plant breeding programmes, these are not commonly utilized in caraway. Therefore, based on the protocol for anther culture in carrot (Daucus carota L., a closely related species of caraway in Daucaceae family), in vitro androgenesis in caraway has been studied with the aim to produce completely homozygous inbred lines. Various induction conditions, such as temperature pretreatments, carbon sources and combination of growth regulators in a culture medium as well as the effect of genotype on in vitro androgenesis were examined. Ten breeding lines of winter caraway representing third generation of forced (artificial) self-pollination were used as donor plant material. Cultured anthers produced embryogenic calli, and subsequently two types of regenerated plants were obtained, namely haploids with evident microspore origin, and diploids which may represent somatic (anther wall) regenerants or spontaneous doubled haploids. The ploidy status of regenerated plants was determined by flow cytometry. This is the first report on androgenic doubled haploid production in caraway.     

Haploid plants regenerated via anther culture in wild barley (Hordeum spontaneum C. Kock)

Summary Androgenic plants have been obtained via anther culture in four natural populations of Hordeum spontaneum. Microscopic observations revealed that androgenesis started with the formation of two vegetative-type nuclei derived from the mitotic division of the uninucleate microspores. In this species androgenesis was affected by the type and concentration of the sugars added to the culture medium: the highest response (17% of callusing anthers) was observed on media containing 80 g l^–1 maltose. The highest production of androgenic plants (per 100 anthers, 5.9 green and 4.3 albino plants) was obtained from callus grown on these same media. About half of the green plants regenerated were haploid, while the others were diploid and set seed.Abbreviations IAA indolacetic acid - BAP 6-benzylaminopurine