Determination of endogenous abscisic acid levels in immature cereal embryos during in vitro culture

Levels of endogenous abscisic acid (ABA) in immature wheat (Triticum aestivum cv. Timmo) and barley (Hordeum vulgare cv. Golden Promise) embryos have been determined by enzyme-linked immunosorbent assay. Embryos of both cereal species showed an increase in ABA content during development on the parent plant. Immature embryos were excised and cultured in vitro on nutrient media that led to precocious germination or on media containing 9% (w/v) mannitol that maintained their developmental arrest. Barley and wheat embryos responded to these culture conditions in an identical manner with respect to changes in morphology, fresh weight, protein and lectin content. However, in complete contrast, the ABA content of barley embryos increased by an order of magnitude during culture on mannitol, whereas that of wheat embryos showed no significant change. The results are discussed within the context of the role of ABA in the regulation of embryo development.Abbreviations ABA abscisic acid - BGA barley-germ agglutinin - dpa days post anthesis - ELISA enzyme-linked immunosorbent assay - GC-MS gas chromatography-mass spectrometry - WGA wheat-germ agglutinin     

Genetic variability and heritability of drought-induced abscisic acid accumulation in spring wheat

Abstract. Twenty cultivars of spring wheat were examined for variation in abscisic acid (ABA) accumulation following partial dehydration of excised leaves. A 3-fold range of ABA concentration was obtained.
A cross between two cultivars which differed in drought-induced ABA accumulation was used to study the heritability of ABA accumulation and to develop lines differing in their capacity to accumulate ABA. Broad sense heritability was 0–32 between the F₂ and F₃ generations and 0–70 between the F₃ and F₄ generations. Apparent homozygosity for ABA accumulation was achieved in several selections at the F₄. The possible significance for drought resistance of differences in capacity to accumulate ABA is discussed.     

Wheat germ agglutinin (WGA) gene expression and ABA accumulation in the developing embryos of wheat (Triticum aestivum) in response to drought

Expression of wheat germ agglutinin (WGA) gene inthe developing embryos of wheat (Triticumaestivum L. cv. C-306) was studied in relation toabscisic acid (ABA) accumulation under water stressconditions. Imposition of water stress resulted inelevated ABA levels in the embryos at threedevelopmental stages (18, 24 and 30 DPA). On thecontrary, the effect of drought stress on WGAaccumulation was stage dependent with significantincrease in WGA content being observed at only 24 DPA. Our results suggest that apart from ABA, otherfactors which are temporally expressed, are alsoinvolved in regulation of WGA gene expression.     

A minichromosome-like structure in wheat embryos

A crude nuclear fraction of resting wheat embryos was used as the source of putative plant minichromosomes: unique DNA sequences the size of genes and flanked by telomere-type repeats. Preliminary separation of low-molecular-weight DNA species from chromosomal DNA (Hirt's method), velocity sedimentation, and isopycnic centrifugation were followed by PCR amplification of minichromosome-like sequences. The most abundant PCR product was cloned and sequenced. In addition to telomeric repeats (defined by a PCR primer), which were the expected sequences, the linear DNA molecule (637 pb) contained an ARS-like element, RAP1-binding site, and two relatively long ORFs. The whole sequence seems to represent a naturally occurring plant minichromosome.     

Different responses of two contrasting wheat genotypes to abscisic acid application

Purpose of this study was to investigate different responses of two wheat genotypes (Triticum aestivum L.) from the wet and dry climate regions to exogenous abscisic acid (ABA) application under well-watered and water-stressed conditions. Exogenous ABA was applied to the leaves by spraying and changes in dry matter accumulation and allocation, endogenous ABA content and carbon isotope ratio (δ¹³C) were monitored. The ABA application significantly decreased stem height, total biomass, total leaf area, total grain mass and leaf area/mass ratio, and significantly increased root/aboveground biomass ratio, endogenous ABA content and δ¹³C under well-watered and water-stressed conditions. Compared with the wet climate genotype, the dry climate genotype was more responsive to exogenous ABA application, resulting in lower stem height, total biomass, total leaf area, total grain mass and leaf area/mass ratio, and higher root/aboveground biomass ratio, endogenous ABA content and δ¹³C under all experimental treatments.The research was supported by the Program of “100 Distinguished Young Scientists” and “ Knowledge Innovation Engineering” of the Chinese Academy of Sciences (No. KSCX2-SW-115).     

Somatic embryogenesis from immature zygotic embryos of oil palm

Immature zygotic embryos at different developmental stages were used for callus induction and regeneration studies. Immature embryos excised from fruits 77, 91, 100, 114, 128, 140 and 193 days after pollination and mature embryos were cultured on modified Y3 medium containing 500 mgl^–1 cysteine, 0.5% (w/v) PVP-40, 500 M 2,4-d and 0.3% (w/v) charcoal. Compact embryogenic tissue began differentiating directly from embryo explants after 2 weeks of culture. The percentage of embryos forming compact embryogenic tissue ranged from 28.6% for 91-day-old embryos to 0% for 140-day-old and older embryos. Friable embryogenic tissue was observed in callus cultures derived from 100-day-old embryos. Although both compact and friable embryogenic tissues were successfully isolated, normal embryo and plantlet development was observed only from friable embryogenic tissue.Abbreviations ABA abscisic acid - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - PVP polyvinylpyrollidone     

Further evidence of a role for abscisic acid in conversion of somatic embryos ofDaucus carota

Summary Somatic embryogenesis has been shown to be an imperfect recapitulation of stages involved to form embryos from vegetative tissues. Although abscisic acid has been implicated in normalizing development, studies that specifically investigate conversion (vegetative leaf initiation) in somatic embryos are lacking. This report documents a follow-up of a study that implicated abscisic acid as a vital factor in allowing embryos ofDaucus carota to progress to the plantlet stage. Abscisic acid was determined to enhance conversion at doses ranging from 1 to 50 µM. Younger embryo stages were more responsive to abscisic acid application with regards to plantlet recovery. Pulses of abscisic acid were shown to elicit more rapid response with younger embryo stages, indicating more plastic development. Fluridone, an abscisic acid synthesis inhibitor, was shown to dramatically reduce conversion, even at low doses (<5µM). When abscisic acid was applied concurrently with fluridone, partial restoration of conversion was observed. Histologically, fluridone was seen to cause pronounced vacuolation in the shoot apical notch which resulted in the loss of meristematic cells, negating conversion capacity. Quantitation of total cytoplasmic area showed that abscisic acid reduced vacuolar intrusion into the apical notch, while fluridone caused a significant increase in vacuolation of cells in this region. This report documents further evidence of a role for abscisic acid in plantlet establishment from somatic embryos ofDaucus carota.     

An efficient method for in vitro regeneration from immature inflorescence explants of Canadian wheat cultivars

Fertile, green plants were regenerated from immature inflorescence explants from each of four Canadian wheat cultivars. The cultivars were representative of four classes of Canadian wheat. Explants from immature inflorescences of three size ranges were cultured on two types of media: MSI/MSR, which contains 1650 mg l^-1 NH₄NO₃and sucrose as a carbon source, and BII/BIR, which contains 250 mg l^-1 NH₄NO₃and maltose as a carbon source. Regeneration from all cultivars was significantly better on BII/BIR media than on MSI/MSR media. On BII/BIR media, `AC Karma', `Plenty', and `Fielder' gave the highest number of shoots per 10 explants, where the explants were derived from immature inflorescences 5.1 to 10.0 mm in length. 'Columbus' did not regenerate on MSI/MSR medium, and regenerated poorly on BII/BIR medium. Differences were found between cultivars with regard to the number of regenerant plants produced with the best treatments: `Plenty' produced 16.1 shoots per 10 explants, `AC Karma' 12.4, `Fielder' 6.4, and `Columbus' 2.2.     

Genetic analysis of the anther-culture response of three spring wheat crosses

Summary Anther-culture response was examined among three spring wheat (Triticum aestivum L.) cultivars to evaluate the genetic component of response and to determine whether androgenetic performance could be improved by selection. The three lines, the three possible F₁'s among the three lines, their F₂'s, and the backcrosses to the parents were evaluated for callus production and regeneration capacity. Significant variation was observed among the generations of the three crosses for callus formation. Genetic variation for regenerability was nonsignificant. Callus production was negatively correlated (-0.24) with regeneration capacity. The random variation in the study was too great to determine whether major-gene differences for antherculture response exist among the three lines by examining population distributions. When the material was evaluated for quantitative gene effects, the estimates for the additive gene effects were generally greater than the estimates for the dominance gene effects for callus formation. Only the Pavon x Chris cross, however, exhibited a significant narrow sense heritability estimate for callusing response (0.94). Due to the large component of random variation and the varying selection potential among crosses for androgenetic performance, improving anther-culture response in wheat by selection could prove difficult unless the anther-culture process itself selects for response traits at the gametic level.     

Somatic embryogenesis from immature zygotic embryos ofGinkgo biloba

Immature zygotic embryos ofG. biloba were taken, at various developmental stages, from ovules harvested in November 1993. Zygotic embryos showing the beginning of the cotyledonary development cultured on modified Murashige & Tücker (1969) media proliferated intensely. In fact, 98.5% of the immature zygotic embryos produced embryogenic and undifferentiated tissues (calluses), in proportions varying depending on the hormonal composition of the induction media. After two weeks of culture, direct embryogenesis was observed on the hypertrophic cotyledons when benzyladenine 10 M was used as the sole plant growth regulator in the induction media. The addition of different concentrations of NAA (5–10–20 M) and of BA (5 M) to the induction media led to an indirect embryogenesis after two months, when the calluses were transferred to the development media without auxin. The highest frequency of embryogenic tissues (90–95%) and the highest number of somatic embryos per explant (9.6) were obtained with benzyladenine (10 M) as the sole exogenous growth factor. Some embryos isolated mechanically or in situ on the callus developed as far as the later cotyledonary stage.Abbreviations AUX Auxin - BA Benzyladenine - CYT Cytokinin - IZE Immature zygotic embryo - MT Murashige & Tücker (1969) medium - NAA Naphtaleneacetic acid     

Electroporation of immature maize zygotic embryos and regeneration of transgenic plants

Using the pulse-discharging electroporation system HPES-3, we have transferred the neomycin phosphotransferase II (nptII) gene and -glucuronidase (gus) gene into mechanically-woulded immature zygotic embryo cells of an elite local maize cultivar Huanong Supersweet No. 42 and have produced transgenic maize plants. DNA hybridization and NPTII dot assay showed that the foreign genes were integrated into the genomes and expressed stably in the cells of the transgenic calluses and plants.     

Localization of wheat-germ agglutinin in developing wheat embryos and those cultured in abscisic acid

The time course of appearance of wheat-germ agglutinin (WGA) in the various embryonic tissues during embryogenesis in Triticum aestivum L. was studied by sensitive immunofluorescence and peroxidase-antiperoxidase detection systems. The radicle, root cap and coleorhiza first accumulated WGA in early Stage II (8-10 d post-anthesis) prior to the main period of embryo growth, while WGA was found in the epiblast and coleoptile in early and late State III, respectively. Stage III is characterized by maximum embryo growth, followed by desiccation which occurs in Stage IV. When Stage-II embryos were precociously germinated in the absence of abscisic acid (ABA) no WGA was detected in the coleoptile and epiblast of the young seedlings. In the presence of ABA, Stage-II embryos did not germinate but WGA precociously accumulated in the coleoptile and epiblast. The levels and distribution of WGA in the resulting embryo resembled those in a fully mature, dry embryo (Stage V). Barley possesses a seed lectin similar to WGA, but it is never detected in coleoptiles. Some but not all of the barley cultivars tested were found to accumulate lectin in this organ of mature embryos when treated with ABA. Thus, ABA appears to be involved in the highly regulated temporal and spatial expression of WGA during embryogenesis in cereals.Abbreviations ABA abscisic acid - DIC differential interference contrast - PAP peroxidase-antiperoxidase - WGA wheat-germ agglutinin     

High frequency embryogenesis in immature zygotic embryos of sunflower

In the present investigation, nutritional requirements for induction of a high frequency of well formed somatic embryos (SEs) from zygotic embryos (ZEs) of sunflower were assessed. Variables like genotype, embryo size (0.5–10 mm), sucrose concentration (30–240 g l⁻¹), carbohydrate source (sucrose, glucose, maltose), agar strength (0.2–1.0%), basal media (MS, Gamborg, Nitsch, White), photoperiod (light/dark) and temperature (20–36°C) were tested. All these variables except photoperiod had significant effect on the frequency of embryogenesis. Highest frequency of embryogenesis was facilitated by Gamborg basal salt media, 120–210 g l⁻¹ sucrose, 0.8–1.0% agar, smaller sized embryos (0.5–2 mm) and incubation temperature of 28–32°C. In addition to these, growth regulator combinations (2,4-D, 2,4-D+kinetin, BA+NAA) in varying concentrations were tried. Media supplemented with 2,4-D promoted direct embryogenesis, BA+NAA facilitated formation of single/multiple shoots while there was no response on 2,4-D+kinetin supplemented media. Zygotic embryos with well differentiated embryos were transferred to growth regulator free half strength MS medium for whole plantlet development. This revised version was published online in June 2006 with corrections to the Cover Date.     

Characterization of cytosolic phosphoglucoisomerase from immature wheat (Triticum aestivum L.) endosperm

Phosphoglucoisomerase from cytosol of immature wheat endosperm was purified 650-fold by ammonium sulphate fractionation, isopropyl alcohol precipitation, DEAE-cellulose chromatography and gel filtration through Sepharose CL-6B. The enzyme, with a molecular weight of about 130,000, exhibited maximum activity at pH 8.1. It showed typical hyperbolic kinetics with both fructose 6-P and glucose 6-P withK _m of 0.18 mM and 0.44mM respectively. On either side of the optimum pH, the enzyme had lower affinity for the substrates. Using glucose 6-P as the substrate, the equilibrium was reached at 27% fructose 6-P and 73% glucose 6-P with an equilibrium constant of 2.7. The ΔF calculated from the apparent equilibrium constant was +597 cal mol^-1. The activation energy calculated from the Arrhenius plot was 5500 cal mol^-1. The enzyme was completely inhibited by ribose 5-P, ribulose 5-P and 6-phosphogluconate, withK _i values of 0.17, 0.25 and 0.14 mM respectively. The probable role of the enzyme in starch biosynthesis is discussed.     

Optimisation of procedures for microprojectile bombardment of microspore-derived embryos in wheat

Using the PDS-1000/He Biolistic® Particle Delivery System, the microprojectile travel distance, rupture disk pressure and DNA/gold particle concentrations were assessed in order to optimise short and longer-term β-glucuronidase reporter gene expression in microspore-derived embryos of wheat. The effects were also evaluated of using sterile filter paper to support explants and treatment with a high osmoticum medium (0.2 M mannitol/0.2 M sorbitol or 0.4 M maltose). In the optimised procedure, wheat microspore-derived embryos (MDEs), were placed on filter paper and incubated on medium containing 0.4 M maltose, for 4 h pre- and 45 h post-bombardment. Five μl pAHC25 (0.75 mg ml^-1 in TE buffer) was precipitated onto 25 μl gold particles (60 mg ml^-1 in sterile water), using 20 μl spermidine (0.1 M) and 50 μl CaCl₂ (2.5 M). The particles were centrifuged and resuspended in 75 μl absolute ethanol prior to the preparation of 6 macrocarriers. A microprojectile travel distance of 70 mm, a rupture pressure of 1300 p.s.i., and a vacuum of 29′′ Hg were employed. Maltose at 0.4 M in the support medium was the most important factor influencing GUS activity in bombarded tissues. GUS activity, 1 day post-bombardment, reached 52 ± 17 GUS-positive foci/MDE (mean ± s.e.m, n=3), with 17 ± 4 foci/MDE at 15 days, giving a 3.0-fold increase (p<0.05) compared to expression in MDEs bombarded on medium without a high osmoticum treatment.     

Plant regeneration from immature embryos of 48 elite CIMMYT bread wheats

Forty-eight bread wheat (Triticum aestivum L.) released cultivars and elite advanced lines were evaluated for their ability to produce embryogenic callus using three different media. Basal N6 medium supplemented with dicamba (E1), MS medium containing 2,4-D (E3) or MS medium containing 2,4-D plus different amino acids (E5) were used for callus initiation and maintenance. Plant regeneration was achieved on basal MS medium with indole-3-acetic acid (IAA) and 6-benzylamino purine (BAP) and rooting on MS with 1-naphthaleneacetic acid (NAA). Percentage regeneration varied widely with both genotype and initiation medium, with values ranging from 2% to 94%. The number of plantlets produced per embryo ranged from 6 to 42. Thirteen genotypes showed at least 50% regeneration after culture on E5 medium; 3 genotypes after culture on E3 initiation medium and 1 after initiation on E1. After four subcultures, over a 16-week period, 41 genotypes (85%) lost their ability to regenerate plants while the remaining 7 lines (15%) retained plant regeneration potential but at reduced levels. E3 medium was found to be the best for maintaining regeneration potential after four subcultures.     

Osmotic potential and abscisic acid regulate triacylglycerol synthesis in developing wheat embryos

This work was carried out to determine what factors in the developing wheat (Triticum aestivum L.) grain are involved in regulating the metabolism of the triacylglycerol (TAG) storage reserves. When embryos are isolated from the grain and incubated in media for 4 d the TAG content is affected in three ways. In the basal medium (dilute buffer) the content falls; in 30 mM sucrose the content remains unchanged; in sucrose supplemented with an osmoticum (400 mM mannitol) or abscisic acid (1 M ABA) the TAG content increases. Effective osmotic potentials and ABA concentrations fit well with their respective values in planta. The fatty-acid composition of TAG accumulated in vitro is close to that in planta but in the absence of ABA or osmoticum there is a fall in the C₁₈C₁₆ ratio. Experiments with [¹⁴C] acetate show that the in-planta rate of incorporation into TAG can only occur in isolated embryos treated osmotically or with ABA, while there seems to be no effect of these two factors on TAG breakdown. An osmotic shock (dilute buffer) for only 2 h causes a rapid fall in TAG synthesis which continues for ca. 24 h after which it recovers. Abscisic acid protects against osmotic shock. It is concluded that TAG synthesis in developing wheat embryos is regulated by the osmotic potential and-or ABA, and that the embryos are very sensitive to short-term perturbations of these two factors.Abbreviations ABA abscisic acid - dpa days post anthesis - TAG triacylglycerol We are grateful to the European Economic Community for a Fellowship to R.R.S. which provided financial support for this work.     

A comparative evaluation of two methods of selecting locations used for testing spring wheat cultivars

Summary One of the considerations of regional cultivar evaluation programs is to optimize the number of locations used for testing. Although optimization of numbers of locations using cluster analysis has been previously attempted, no objective comparison of methods has yet been made. A new clustering method that uses the pairwise contribution of locations to the cultivar x location mean square as the distance measure (LB) was compared to another method that employs diallel correlations as the distance measure (CL). Data from six spring wheat (Triticum aestivum L. em Thell) cultivars grown at 13 locations for five years were used in the initial cluster analysis. Another set of data, from a separate year, consisting of yields of the original 6 cultivars and a set of 12 independent cultivars was then used to check the validity of the original groupings and to compare the two methods. When the 6 original cultivars were considered, the LB technique was found to be superior to the CL. When the 12 independent cultivars were used, neither method was considered to be superior. Because of the lack of flexibility on the part of the LB method, neither technique could be deemed as fully adequate.Contribution Number 842 of the Department of Plant Science, University of Manitoba, Winnipeg, Manitoba, Canada     

Changes in water relations and endogenous abscisic acid content of wheat and barley grains and embryos during development

Abstract. Immature cereal embryo development can be controlled by in vitro culture on media containing ABA, or by media of low osmotic potential. To assess the possible in vivo roles of these factors, endogenous ABA levels and water relations of embryos and grains of wheat ( Triticum aestivum L.) and barley ( Hordeum vulgare L.) were determined during development. ABA concentrations remained consistent with those required to inhibit precocious germination in vitro of early stage embryos but not of more mature embryos. With increasing maturity, a difference in water potential developed between grain and embryo, suggestive of an in vivo role for water status in controlling the development of the embryo.