A study of factors affecting anther culture of cauliflower (Brassica oleracea var. botrytis)

Experiments on three autumn-heading cauliflower genotypes (2 hybrids and a genotype selected from a population) were conducted to study different factors affecting anther culture. Culture conditions of the donor plants proved to be important: the best results were obtained during spring in a greenhouse where the temperature was maintained between 10 and 20°C. Overall winter and spring seemed more suitable than summer and early autumn for culture establishment. The optimal bud development stage depended on the genotype: for the hybrid 702, the greatest number of embryos for 100 plated anthers was obtained at the uninucleate pollen stage of the microspores; for V23.2 and 703, the optimal stage of the buds corresponded to the first mitotic division. Sucrose proved to be the best carbon supply for embryogenesis with an optimal concentration of 140 g l^-1. The addition of a cytokinin (BAP) in the medium led to lower embryo production, and this negative effect increased when the hormone concentration in the medium increased. The use of liquid medium and a dark incubation period immediately after the high temperature treatment were favourable for embryogenesis.     

Plant growth environment effects on rapeseed microspore development and culture : a flow cytometric study

The influence of donor plant growth conditions on microspore embryogenesis in rapeseed (Brassica napus) was studied for plants grown at 23/18°C (16/8 hours) under continuous light, 23/18°C (16/8 hours) with a light/dark (16/8 hours) cycle, 15/12°C (16/8 hours) under continuous light and 15/12°C (16/8 hours) with a light/dark (16/8 hours) cycle. Significantly higher embryo yields were obtained from microspore cultures initiated from donor plants grown at 15/12°C instead of 23/18°C. Flow cytometric measurements of the microspores isolated from 2.5- to 5.0-millimeter buds showed that the microspores isolated from low-temperature-grown plants had significantly lower log 90-degree light scatter to forward angle light scatter and log 90-degree light scatter to time of flight ratios than those isolated from high-temperature-grown plants, suggesting that the former are more translucent than the latter. Thus, the effect of donor plant growth temperature on microspore embryogenesis may be mediated by a change in the physiology of the microspore cell, which results in the reduction of its cytoplasmic granularity and/or exine density.     

A study of factors affecting embryo yields from anther culture of cabbage

In cabbage (Brassica oleracea var. capitata), a thermal shock treatment of 24 h at 35 °C at the start of the culture period resulted in higher embryos per 100 anthers (30.0) compared to a treatment of 48 h. Similarly , a chilling treatment of 24 h at 4 °C resulted in a higher embryo yield (6.0) per 100 anthers compared to a treatment of 48 h. However, the embryo yields were significantly higher (p> 0.01) in thermal shock than chilling treatments in all experiments. Treatments of 6 days at either 35 °C or 4 °C gave no embryos. The most responsive cultivar was the F₁ hybrid , Hercules, in all experiments. Although anther culture was successful in the other genotypes, the open pollinated ones, the highest number of embryo yields per 100 anthers was obtained in the hybrid. High temperature treatment before culture had a beneficial effect on the embryo yields. The responsiveness of anthers to addition of increasing concentration of silver nitrate (AgN0₃) (the ethylene inhibitor) to the culture medium, showed a progressive increase in the embryo yields in all the genotypes. Since embryos were also formed in the absence of silver nitrate, probably, due to a greater genotype × medium interaction, it is noted that the presence of silver nitrate in the medium may not be essential for cabbage anther culture as reported earlier. The findings of this study may be recommended for large production of cabbage embryos in culture.     

Anther cultures of tetraploid Solanum genotypes—the influence of gelling agents and correlations between incubation temperature and pollen germination temperature

Four tetraploid potato genotypes (194.10, 199.13, 201.5, 201.12) were examined in anther culture. The androgenic responses were in general high. Cv. 199.13 contributed with the best response, varying between 0.38 and 0.55 embryoids per anther. Gellan gum or potato starch were used as gelling agents in a double-layer medium. Anthers incubated on potato starch gave a higher embryo yield in the beginning of the culture period, compared to anthers cultivated on gellan gum. The number of embryoids per anther, however, was higher on gellan gum at the end of the culture period. Anther cultures of potato were incubated in two different temperatures (20 °C and 25 °C), and the highest embryo yield was obtained in 25 °C except for genotype 201.12 where no difference was found between the two temperatures. Experiments with pollen germination in various temperatures (10 °C and 20 °C) were correlated to anther culture experiments. Also in case of pollen germination, genotype 201.12 was temperature-independent, while germination was stimulated by higher temperatures in the other genotypes.     

The effects of silver nitrate,colchicine, cupric sulfate and genotype on the production of embryoids from anthers of tetraploid wheat (Triticum turgidum)

Anther culture of four tetraploid wheat (Triticum turgidum) genotypes was studied using ten different culture medium treatments in a randomized block design with four replicates. Each replicate consisted of 2 pots with 3 plants. Anther donor plants were grown in a greenhouse with a 16 h day/8 h night at 25°C and 15°C, respectively. The first treatment which was considered as the control, was potato 2 medium modified by adding 0.5 g l^–1 glutamine and solidified by gelrite (4 g l^–1). The nine test treatments differed from the control by addition of 3 different concentrations of silver nitrate (1, 2.5 and 5 mg l^–1), colchicine (10, 100 and 200 mg l^–1) or cupric sulfate (2,5 and 10 mg l^–1). The study of about 2000 anthers per genotype and treatment showed that both genotype and treatment affected embryoid formation. The presence of cupric sulfate (10 mg l^–1) and silver nitrate (2.5 and 5 mg l^–1) usually increased the frequency of embryoid formation in 3 genotypes out of the 4 studied. On the contrary, colchicine had a significant and enegative effect on anther culture responses for three out of the four genotypes studied. Because of the large genotype x medium interaction, it is very difficult to identify the best medium for embryo production by all genotypes studied.     

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.     

The effects of interactions of culture environment with genotype on wheat (Triticum aestivum) anther culture response

Summary The interactions of genotype and several variables related to culture environment, including temperature pretreatment, conditioned medium and agar concentrations were examined in a series of experiments for their effects on percent anthers producing callus and number of embryoids produced per 100 anthers scored. Significant genotypic interaction was observed for both traits with all environmental variables except methods of medium conditioning. Such interactions involve both changes of response magnitude and changes of rank order of genotypes. The highest response frequencies observed were in excess of 30% of anthers callusing. Most lines examined responded relatively well to a culture regime utilizing a 4°C treatment for 7–14 d prior to anther excision, followed by float culture, without transfer and without preconditioning of the culture medium. The results indicate, however, that particular genotypes may have specific requirements with respect to various environmental conditions so that culture conditions may need to be adjusted, especially for the least responsive genotypes.     

Role of nalidixic acid in isolation ofSalmonella typhimurium strains capable of growth at 48°C

Salmonella typhimurium thermotolerant mutants dependent on the presence of nalidixic acid for growth at 48°C were isolated and designated nalidixic acid-dependent, thermotolerant mutants,nal ^d ttl. Genetic mapping revealed thatnal ^d ttl alleles map within thegyrA gene. WhenS. typhimurium strain Q was plated in the dark on nutrient agar containing nalidixic acid (20 g/ml) as a photosensitizer and briefly exposed to white light or near VU light prior to incubation at 42°C, nalidixic acid-resistant mutants arose in about 16 h at frequencies of 5×10^–8 for white light and 1×10^–6 for near UV light. About 10% of these nalidixic acid-resistant mutants derived from photodynamic mutagenesis exhibited the thermotolerant characteristic.     

Variations in response to high temperature treatments in anther culture of Brussels sprouts

The level, time of application and duration of the high temperature treatment necessary for embryo production from Brussels sprouts anther culture were examined. The effects of 29, 32, 35, and 38°C given for 24 h immediately following removal of the anthers from the bud, were tested on different cultivars, on different plants within the cultivars and on different occasions for each plant. Most embryos were produced following 32 and 35°C, very few following 30°C and none following 38°C. Although there was a tendency for some cultivars to respond better to one or other of the two more favourable temperatures, this varied considerably between individual plants. Plant to plant variation was also seen in the overall level of the response, although responsiveness tended to decline with successive samplings of the same plant. Experiments with cultivars Hal and Gower suggested that high temperature was required for at least 12 h after anther removal, but beyond that time the optimum period varied from plant to plant. If the excised anthers were held at 25°C for 16 h or more with Hal or 24 h or more with Gower before being exposed to the high temperature treatment, embrogenesis tended to be reduced. It is suggested that apparent non-responsiveness in anther culture may result to a large extent from the specific conditions that are used during the anther culture process.     

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.     

Effects of exogenous application of polyamines on wheat anther cultures

Androgenesis of wheat genotypes was evaluated by pretreating anthers or embryo-like structures (ELS) with polyamines. Anthers of the genotype DH were pretreated with different concentrations of putrescine, spermidine, and spermine for 1, 3, and 6 h, and those of drought-tolerant International Center for Agricultural Research in the Dry Areas (ICARDA) wheat accessions were treated for 1 and 3 h. ELS of two genotypes were also treated for 30 and 60 min with the same polyamines and evaluated for green plant regeneration. The pretreatment of anthers with polyamines enhanced the development of ELS in all genotypes. The formation of ELS varied significantly with genotype. Pretreated anthers showed that four treatments improved significantly green plant regeneration with the genotype ICR 17. However, two treatments (1 mM putrescine or spermine for 1 h) significantly improved green plant regeneration per 100 ELS of only two ICARDA genotypes. ELS treated with polyamines for 30 min were greener and formed more adventitious roots. The chloroplasts of these greener ELS examined with a transmission electron microscope had agranal to grana thylakoids, while those of the control had plastids with mostly starch globules. Although exogenous application of polyamines to anthers improved the production of ELS and green plants, the effects of putrescine, spermidine, and spermine was dependent on genotype and the duration of pretreatment of anthers with the polyamines.     

Thermal stress evaluation of suspension cell cultures in winter wheat

Summary The objectives of this study were to compare thermotolerance in whole plants vs. suspension cell cultures of winter wheat, and to evaluate the synthesis of heat shock proteins in relation to genotypic differences in thermotolerance in suspension cells. Whole plant genetic differences in the development of heat tolerance were identified for three wheat genotypes (ND 7532, KS 75210 and TAM 101). Suspension cell cultures of these genotypes were used to evaluatein vitro response to heat stress. Viability tests by triphenyl tetrazolium chloride (TTC) and by fluorescein diacetate (FD) were utilized to determine the relationship of cellular response to heat stress (37°C/24 h, 50°C/1h). KS 75210 and ND 7532 are relatively heat susceptible. TAM 101 is heat tolerant. Both tests at the cellular level were similar to the whole plant response. Thus, cellular selection for enhancing heat tolerance seems feasible. Heat shock protein (HSP) synthesis of two genotypes, ND 7532 and TAM 101 were determined for suspension cultured cells. In suspension cultures, HSPs of molecular weight 16 and 17 kD were found to be synthesized at higher levels in the heat tolerant genotype (TAM 101) than the susceptible genotype (ND 7532), both at 34° and 37°C treatments for 2 hours and 5 hours. HSP 22 kD was synthesized more at 34°C for TAM 101 than ND 7532, but not at 37°C; whereas, HSP 33 kD was synthesized at 37°C at similar abundance for both genotypes, but not at 34°C.These results indicated that there is a differential expression of HSP genes in wheat suspension cells at different temperature stress durations and between heat tolerant and heat susceptible genotypes. It appears that the levels of synthesis of HSPs 16 and 17 kD are correlated with genotypic differences in thermal tolerance at the cellular level in two genotypes of wheat.     

In vitro induction of androgenic haploids in Safflower (Carthamus tinctorius L.)

The influence of culture medium on induction of androgenic calli was examined with five different basal media. MS medium was the most responsive in inducing callus. Differences in induction of calli among ten genotypes revealed that the most responsive genotype was a local cultivar, Mangira, with 48.6% anthers initiating callus formation. The influence of temperature pre-treatment (5°±1°C) for varying periods (0 to 15 days) on immature capitula prior to inoculation of anthers on the medium revealed that the percentage of anthers inducing callus increased till 3–5 days of pre-treatment. The effect of physiological conditions of anther donor plants grown in the field and in green houses on induction and re-differentiation have shown that the field grown anther donor plants exhibited optimum response. Shoot regeneration was observed on MS supplemented with BAP (2.0 mg/l) and NAA (0.5 mg/l) and rhizogenesis on MS (half-strength) medium, supplemented with NAA (0.1 mg/l) and 1% sucrose. Cytological studies of anther derived plants showed two ploidy levels, where the haploids were predominant (64%).     

Effects of L-proline and post-plating temperature treatment on Maize (Zea mays L.) anther culture

Summary Comparison of different post-plating temperature regimes with a control treatment (27° C) revealed that a short-term cold (8/14°C:2/2 days or 14°C:4 days) as well as a heat treatment (30°C:14 days) increased the production of embryro-like-structures (ELS) from cultured maize anthers. The beneficial effects of short-term cold treatments were magnified 2–3 times when L-proline (PROL) was added to the induction medium (125–500 mg/L). In the best treatment (14°C:4 days, 125 mg/L L-proline) one genotype produced 143.5 ELS/100 anthers. Anthers subjected to high temperature (30°C:4 days, 30°C:7 days, 30°C:14 days) generally showed a lower response than did cold treated anthers, although genotypic differences were observed. Regeneration frequency did not appear to be affected by the presence of L-proline in the induction medium.Abbreviations ELS Embryo-like-structures - PROL L-proline     

Stimulation of androgenesis in white cabbage (Brassica oleracea var. capitata) anthers by low temperature and anther dissection

Anther culture was performed on two local cultivars, Ljubljansko and Varadinsko, and the F₁ cv. Krautman (Bejo-Zaden). The effects on androgenesis of hot and cold temperature treatments and different dissections of anthers were evaluated. In contrast to cv. Krautman, cvs. Ljubljansko and Varadinsko produced more embryos after cold pretreatment of flower buds (4°C, 48 h) than after standard treatment (35°C, 24h). Simultaneous cutting of the anther tip and removal of the filament gave the best results in comparison to other tested dissections. Microscopical observations of sectioned anthers revealed enhanced embryo development near the cut ends of the anthers. Ploidy analysis revealed the presence of haploids among embryos resulting from cold treatment (4°C, 48 h), treatment at elevated temperature (35°C, 24 h), and among embryos resulting from dissections of anther tips.     

Genotype,plant, bud size and media factors affecting anther culture of cauliflowers (Brassica oleracea var. botrytis)

Summary Eleven F₁ hybrid cultivars of cauliflower, representing a range of maturity types, were examined for their responsiveness to anther culture. Embryos were produced from each of the cultivars tested, and the mean embryo yield varied from 82.2 embryos per 100 anthers cultured for cv Dova to 0.6 embryos for cv Serrano. Variation between genotypes and between plants within a genotype was significant, both in terms of embryo yield and percentage responsive anthers. Autumn and winter maturing cauliflowers were generally more responsive than summer types. Embryo yields were enhanced by culturing anthers on solid rather than on liquid media. An increase in concentration of 2,4-Dichlorophenoxyacetic acid (2,4-D) from 0.1 to 0.3 mg/l also increased embryo yield. Embryo yield was doubled when anthers were cultured on solid media containing 0.3 mg/l 2,4-D compared to liquid media containing 0.1 mg/l 2,4-D. Although bud size alone did not have a significant effect on embryo production, genotype x bud size and plant x bud size (within genotype) interactions were significant. Estimation of the variance components demonstrated that, apart from the residual plate-to-plate variation, variation between plants was the largest source of variation, accounting for approximately 30% of total variance. Plant x bud size (within genotype) interaction accounted for 18% of total variance and genotypic differences for approximately 8%.     

The Influence of Donor Plant Genotype and Environment on Production of Multicellular Microspores in Cultured Anthers of Brassica napus ssp. oleifera

Studies of the effects of genotype and pre-flowering environmentalconditions on the production of multicellular microspores wereundertaken th four highly inbred lines of Brassica napus sap.oleifera. These lines were first grown in shaded and unshadedenvironments at 20/15°C arid unshaded at 30/25°C ina daylight phytotron. Buds were harvested from half the plantswhen first visible in the rosette and later from the remainingplants at the time when the first flower opened. The frequencyof microspores at a specific stage of development varied widelywithin a relatively narrow range of bud lengths. Uninucleatemicrospores were not detected in anthers from buds less than1·5 m or greater than 3·0mm long, but were generallypresent in frequencies of greater than 50 per cent in anthersfrom buds which were between 2·0 and 2·5 mm inlength. However, the bud length at which the highest frequencyof uninucleate microspores was detected varied significantlybetween genotypes and between the environments in which theywere grown. Examination of the remaining anthers from each budafter a period in culture revealed that the proportion of microsporesdeveloping into multicellular units varied greatly with budlength, an increase in frequency of multicellular microsporesbeing associated with an increase in the frequency of uninucleatemicrospores in the uncultured anther. Genotypes differed, however,in respect of the relationship between uninucleate microsporefrequency and production of multicellular units. Although thefrequency of multicellular units was as high as 57 percent,further development was limited and the number of embryoldsformed was low in all cases (<10 per cent). The frequency of multicellular units in pollen samples frombuds of a length in which uninucleate microspore frequency washigh varied significantly with genotype, temperature and lightconditions under which donor plants were grown, and the stageof inflorescence development at which buds were removed. Underconditions most conducive to multicellular unit formation (20/15°C,unshaded), the maximum frequency of multicellular units foreach genotype in buds from young inflorescences ranged from11·5 to 56·5 per cent. Shading or exposure tothe higher temperature was associated with a marked reductionin production of multicellular units. Higher frequencies ofmulticellular units were generally detected in microspore samplesfrom younger inflorescences irrespective of genotype or environment. Two of the four inbred lines were selected for a second experimentin which responses to vernalization and photoperiod durationwere monitored. There was a significant reduction in the numberof leaf nodes formed prior to floral initiation in both genotypesfollowing exposure to vernalization and/or a longer photoperiod,the response to photoperiod being more pronounced. Exposureto 4 weeks vernalization was accompanied by a significant increasein the frequency of multicellular units in both genotypes, thefrequency being double that in unvernalized plants under thelonger photoperiod. By contrast, genotypes differed sharplyin their response to photoperiod. In TB 20, the frequency ofmulticellular units was unaffected by an increase in day lengthirrespective of whether seed had been vernalized or not. Onthe other hand, in TB 42 the frequency of multicellular unitswas substantially greater in the 24 h day than in the 12 h day,being 27·3 per cent vs 13·0 per cent in the caseof unvernalized plants and 66·7 per cent vs 18·2per cent in the case of vernalized plants. Brassica napus, anther culture, pollen embryogenesis, genotype-environment interaction     

Conditionality of circadian rhythmicity: Synergistic action of light and temperature

Summary With cells which have been grown at 20°C, the circadian rhythm of bioluminescence inGonyaulax polyedra disappears at a critical temperature, which is about 12°C. The transition from the rhythmic to the arrhythmic state is very sharp with temperature: the two states are separated by only 1–2°C. Following a return to a higher temperature (20°C) under otherwise constant conditions, the rhythm resumes with its new phase defined by the time of the cool to warm transition. Loss of rhythmicity also occurs in constant bright light, with a similar resumption and phase determination upon transfer to darkness. The experiments described here show that the effects of light and low temperature are additive: rhythmicity is lost under combined low temperature and light intensity treatments which are ineffective individually.Abbreviations CT circadian time - ft-c footcandle - LD 12:12 12 h light/12 h dark cycle NIH Predoctoral Trainee in Biophysics, 2 T01 GM00782-16.     

Improved embryogenesis from anther culture and plant regeneration in timothy

Timothy (Phleum pratense L.) is an important forage grass grown in northern temperate areas. Development of haploid cell culture techniques for timothy has been limited due to the recalcitrance of timothy in tissue culture. In this study, timothy anther culture techniques were established. Liquid PG-96 (Pulli and Guo, 1996) induction medium significantly promoted embryo yield; the best result was 800–1000 embryos (calli) per 100 anthers. Genotype was an important factor in androgenetic embryogenesis of timothy. Embryos were obtained from 16 genotypes out of the 28 genotypes tested. The optimum stage for microspore development was between the very late uninucleate stage and the binucleate stage. Cold pretreatment applied to the donor plants (spikes) increased embryo yield. Despite a high embryo induction rate, green plant regeneration rate was relatively low. The frequency of albinos was reduced by use of low light intensity conditions during regeneration. Over 300 green plants were recovered. This revised version was published online in June 2006 with corrections to the Cover Date.     

Influence of Genotype, Plant Growth Temperature and Anther Incubation Temperature on Microspore Embryo Production in Brassica napus ssp. oleifera

Eleven F₁ hybrid genotypes of winter rape (Brassica napus ssp.oleifera) were used in a study of induction and growth of microspore-derivedembryos. Plants of each genotype were grown in controlled environmentsat either a constant 15°C or a constant 20°C, both witha 16 h photoperiod. Equal numbers of buds, approximately 2.5mm in length, containing uninucleate microspores were harvestedfrom each genotype and either pretreated (14 d at 4°C) ordissected immediately after harvest. Anthers were cultured onliquid medium based upon that of Murashige and Skoog (1962)and containing 8% sucrose, 0.5 mg dm^–3 naphthylaceticacid and 0.05 mg dm^–3 benzylaminopurine. Anthers fromequal samples of buds were incubated at 35°C for 0, 1, 2or 3 d before transfer to 30°C (21 d) and then 25°C.After a total of 42 d incubation, cultures were scored for thepresence of macroscopic embryos (1–2 mm in length) andfor the presence of anthers containing aborted embryoids whichhad not developed further. The results showed first that bud pretreatment completely inhibitedinduction and secondly that anthers of all genotypes had anabsolute requirement for a 35°C treatment (optimal duration2 d) in order to induce embryoid formation. In the great majorityof genotypes plants grown at 15°C provided more productiveanthers than plants grown at 20°C. However, within eachtreatment there were great differences both in the frequencyof anthers showing induced embryoids and of the final yieldof embryos. There was evidence that hybrids with a common parentresponded similarly under certain treatments. This confirmedthe importance of genotypic control for some components of embryoyield. Key words: Brassica napus, Rape, Anther culture, Pollen, Haploid