Proline accumulation and sodium sulfate tolerance in callus cultures of Brassica napus L. cv. Westar

Callus cultures of Brassica napus L. cv. Westar were selected which contained 5 – 6 times more proline than unselected callus. Callus pieces from these cultures were able to survive much better after subculture to medium containing 105 mM Na₂SO₄ than unselected callus, or unselected callus cultured on exogenous proline before or during transfer to the salt. Exogenous proline was rapidly absorbed. In unselected callus there was a peak in proline accumulation ca. 2 days after transfer to Na₂SO₄, followed by a decline. In contrast proline accumulation in tolerant callus was linear with time, reaching maximum levels at 8 days. Proline levels induced by exposure to salt were maintained in the absence of stress.Abbreviations DW Dry weight - FW Fresh weight     

DNA sequences of the two homoeologous SLR1 genes of Brassica napus cv Westar

The DNA sequence data reported have been lodged in the Genbank, EMBL and DDBJ databases under the accession numbers Z21609 and Z26914     

Development of microsporesin vivo andin vitro inBrassica napus L.

Summary Populations of highly homogeneous uninucleate and binucleate microspores ofBrassica napus cv. Topas were obtained by bud selection and percoll fractionation. The development of the uninucleate and the binucleate microspores in culture was compared to thosein vivo using the fluorochrome DAPI to stain DNA. The major developmental pathway of the uninucleate microsporesin vitro resulted in embryo formation. The characteristic of this pathway was that the first division produced two diffusely stained nuclei and subsequent divisions gave rise to a multinucleate embryoid. The second pathway which occurred in a small number of the uninucleate microspores led to callus formation. The majority of the binucleate microsporesin vitro followed the developmental pattern of their counterpartsin vivo and were not embryogenic. The embryogenic binucleate microspores produced embryos through the divisions of the vegetative nucleus.Plant Research Centre Contribution # 1147     

Expression of S-locus glycoprotein genes from Brassica oleracea and B. campestris in transgenic plants of self-compatible B. napus cv Westar

Summary Self-compatible Brassica napus var Westar was transformed with SLG, the S-locus-derived gene that encodes S-locus-specific glycoproteins (SLSG). Four allelic variants of SLG isolated from self-incompatible B. oleracea and B. campestris strains homozygous for different S alleles were used. We show that the transgenic plants synthesized SLSG with the same apparent charge, molecular weight, and antigenic properties as that produced by the corresponding self-incompatible strains from which the cloned SLG genes were isolated. In addition, transgene-encoded SLSG was detected specifically in the papillar cells of the stigma, and was correctly targeted to the papillar cell wall. However, SLSG was produced at reduced levels in transgenic plants relative to self-incompatible strains. The introduction of the SLG genes did not confer a self-incompatibility phenotype on the Westar cultivar.     

Rearrangement of the actin filament and microtubule cytoskeleton during induction of microspore embryogenesis inBrassica napus L. cv. Topas

Summary Changes in the actin filament and microtubule cytoskeleton were examined during heat- and cytochalasin D-induced embryogenesis in microspores ofBrassica napus cv. Topas by rhodamine phalloidin and immunofluorescence labelling respectively. The nucleus was displaced from its peripheral to a more central position in the cell, and perinuclear actin microfilaments and microtubules extended onto the cytoplasm. Heat treatment induced the formation of a preprophase band of microtubules in microspores; preprophase bands are not associated with the first pollen mitosis. Actin filament association with the preprophase band was not observed. The orientation and position of the mitotic spindle were altered, and it was surrounded with randomly oriented microfilaments. The phragmoplast contained microfilaments and microtubules, as in pollen mitosis I, but it assumed a more central position. Cytoskeletal reorganisation also occurred in microspores subjected to a short cytochalasin D treatment, in the absence of a heat treatment. Cytochalasin D treatment of microspores resulted in dislocated mitotic spindles, disrupted phragmoplasts, and symmetric divisions and led to embryogenesis, confirming that a normal actin cytoskeleton has a role in preventing the induction of embryogenesis.Abbreviations CD cytochalasin D - MF actin microfilament - MT microtubule - PPB preprophase band     

A method for quantifying the gene flow that results from a single bumblebee visit using transgenic oilseed rape,Brassica napus L. cv. Westar

Genetically modified plants containing selectable markers offer a unique opportunity for pollination biologists to investigate some of the major, but intractable questions about paternity distributions and their causes. Here, a method is reported that uses transgenic plants to enable the quantification of the outcrossed fertilizations that result from a single pollinator visit. Gene flow mediated by worker bumblebees (Bombus terrestris) was studied among plants of oilseed rape (Brassica napus L. cv. Westar) where transgenic paternity in seeds of a non-transgenic plant was manifested as herbicide resistance. Overall, 91% of the resistant seeds resulted from the first four flowers that were visited after the bumblebee left the transgenic plant, and none was found beyond the 14th successively visited flower. The possibilities for developing the method to address various questions in pollination biology are discussed.     

Selection for salt tolerance in vitro using microspore-derived embryos ofBrassica napus cv. topas,and the characterization of putative tolerant plants

Microspore-derived embryos ofBrassica napus cv. Topas that survived salt stress, were obtained after selection against otherwise lethal doses (0.6 and 0.7%) of NaCl after mutagen treatment. A total of 10 salt-surviving embryos were obtained out of a possible 834 000 embryos that were mutagenized. One embryo out of a possible 845 000 obtained from nonmutagenized controls survived but failed to develop into a plant. Visual assessment after salt stress indicated that both the putative salt-tolerant plants and plants from control seeds behaved similarly. However, based on individual characteristics related to salt tolerance, one of the lines (PST-2) accumulated less sodium and retained more potassium, and hence was able to maintain a more favorable Na:K ratio as compared to the controls under salt stress. Also chlorophylla fluorescence induction and quenching signals indicated a high energetic state of the thylakoid membranes in PST-2 under salt stress. The other putative salt-tolerant line (PST-1) had a higher background level of proline that may have enabled it to survive salt stress during initial screening, although its later performance was no better than the control plants.     

Differential expression of members of the napin storage protein gene family during embryogenesis inBrassica napus

S1 nuclease analysis and sub-family-specific oligonucleotide probes were used to characterize the expression during embryogenesis of the napin storage protein gene family ofBrassica napus (oilseed rape). The expression of one sub-class represented by the napin gene gNa peaks and declines earlier than the other members of the family. This sub-class was highly expressed representing ca. 20% of napin mRNA at 26 days after anthesis.     

Some morphogenic effects of sodium sulfate on tobacco callus

Callus cultures of Nicotiana tabacum L cv. Wisconsin 38 were initiated and grown on shoot-forming (SF) and callus proliferation (CP) medium with or without Na₂SO₄. Two cultures were maintained on SF medium with 0, 0.75, 1 or 1.5% Na₂SO₄ for 2.5 and 3.5 years. In the older culture only callus grown on salt formed shoots throughout the maintenance period, while in the younger culture the control responded best and Na₂SO₄ was inhibitory. Callus from the older culture which had been grown on salt continued to form shoots in the absence of salt. Na₂SO₄ caused adventitious shoot formation in three cultures on CP medium. These shoots were present for 7 subcultures after removal of Na₂SO₄; but established, control callus, did not form shoots when transferred to Na₂SO₄. Callus initiated and maintained on NaCl or mannitol showed a slight increase in shoot initiation. On NaCl, Na₂SO₄ or mannitol, the tissue osmotic potential became more negative and proline concentration increased.     

Direct regeneration of transformed shoots inBrassica napus from hypocotyl infections withAgrobacterium rhizogenes

Genetically transformed root clones of rapeseed (Brassica napus) were obtained afterin vitro infection of excised hypocotyl segments with a wild type strain ofAgrobacterium rhizogenes and two strains ofA. rhizogenes harbouring kanamycin resistance. The ability of hairy root formation was affected by light and was highly dependent on the location of the infection site at the hypocotyl. Inoculation of decapitated hypocotyls with an intact root system gave rise to direct shoot formation from the site of inoculation. Histological sections showed that several meristems were initiated at the inoculation site. Root and shoot clones were isolated and subcultured axenically in hormone-free liquid MS medium. Identification of transformed root and shoot clones was based on opine assays. Further selection was carried out in kanamycin-enriched medium.All opine-positive root clones showed NPT II (neomycin phosphotransferase) activity. Nearly half of the shoot clones expressed a strong NPT II activity while the rest gave a weak or no NPT II response.     

Actin microfilament organization during pollen development ofBrassica napus cv. Topas

Summary The organization of actin microfilaments (MFs) was studied during pollen development ofBrassica napus cv. Topas. Cells were prepared using three techniques and double labelled for fluorescence microscopy with rhodamine-labelled phalloidin for MFs and Hoechst 33258 for DNA. Microfilaments are present at all stages of pollen development with the exception of tricellular pollen just prior to anthesis. Unicellular microspores contain MFs which radiate from the surface of the nuclear envelope into the cytoplasm. During mitosis MFs form a network partially surrounding the mitotic apparatus and extend into the cytoplasm. Both cytoplasmic and phragmoplast-associated MFs are present during cytokinesis. Nuclear associated-, cytoplasmic, and randomly oriented cortical MFs appear in the vegetative cell of the bicellular microspore. Cortical MFs in the vegetative cell organize into parallel MF bundles (MFBs) aligned transverse to the furrows. The MFBs disappear prior to microspore elongation. At anthesis MFs are restricted to the cortical areas subjacent to the furrows of the vegetative cell. The use of cytochalasin D to disrupt MF function resulted in: (1) displacement of the acentric nucleus in the unicellular microspore; (2) displacement of the spindle apparatus in the mitotic cell; (3) symmetrical growth of the bicellular microspore rather than elongation and (4) inhibition of pollen tube germination in the mature pollen grain. This suggests that MFs play an important role in anchoring the nucleus in the unicellular microspore as well as the spindle apparatus during microspore mitosis, in microspore shape determination and in pollen tube germination.Abbreviations MF microfilament - MFB microfilament bundle - rhph rhodamine phalloidin Dedicated to the memory of Professor John G. Torrey     

Polyploidization in embryogenic microspore cultures ofBrassica napus L. cv. Topas enables the generation of doubled haploid clones by somatic embryogenesis

Summary Embryogenic microspore and pollen culture followed by subculture of microspore-derived plantlets enabled the production of clones ofBrassica napus cv. Topas. Flow-cytometric analysis revealed that most microspore- and pollen-derived embryos (pEMs) were haploid initially. Spontaneous diploidization occurred at the globular stage of the pEMs, and was expressed as the relative increase of the 2C and 4C nuclear DNA content. Diploidization occurred throughout various organs of the pEMs and resulted in the formation of haploid and doubled haploid chimerics. In some embryos, nearly all cells were doubled haploid. From early cotyledon stage onward, pure haploid embryos were not observed anymore. At late cotyledon and germination stages, pure doubled haploid embryos and plantlets increased in number. Tetraploid pEMs were found occasionally. A culture regime was established to induce somatic embryos on the pEM-derived young plantlets. The ploidy of the somatic embryos varied highly and tended to be the same as that of the tissue at the initiation site on the pEM-plant. The results show that during the embryogenic development ofB. napus microspores, spontaneous diploidization occurs at globular stage, and increases progressively, resulting in the formation of chimerical haploid and doubled haploid plants as well as pure doubled haploid plants; ploidy neither affects pEM development at embryo developmental stages nor somatic embryogenesis, that starts on young pEM-derived plantlets; doubled haploid somatic embryos can be cloned from single pEM-derived plantlets; and doubled haploid embryos develop to fertile plants.     

Scanning electron microscopy of microspore embryogenesis inBrassica spp.

Scanning electron microscopy was employed to study and compare microspore embryogenesis in vitro with pollen development in planta inBrassica napus andB. oleracea. An exine with its specific pattern had already been formed, when microspores were released from tetrads. During subsequent pollen development, microspores increased in size and continued to strengthen the exine. Upon in vitro culture, all microspores, i.e., embryogenic and nonembryogenic, initially showed the same morphological features. After 24 h in culture, the microspores had increased in size. Thereafter, embryogenesis was indicated in some microspores by two different morphological changes. One featured an expansion in volume of the cell cluster around the germination aperture (type I), the other showed cell cluster volume expansion over the entire microspore surface (type II). Two-thirds of embryogenic microspores in bothB. napus andB. oleracea demonstrated type I development. When followed by fluorescence microscopy, in vitro culture of microspores revealed cultures with a high embryo frequency were those with a high frequency of symmetrical division.Abbreviations SEM Scanning electron microscopy - TEM Transmission electron microscopy     

Identification of coiled bodies inBrassica napus nuclei during embryogenesis and early germination

Summary Nucleolus-associated bodies characterize interphase nuclei of many plant species. The recent demonstration that such bodies contain small nuclear ribonucleoproteins as well as coilin clearly indicates that they belong to a larger family of nuclear structures, known as coiled bodies, that have been intensively studied in a variety of animal cell types. In a previous work, we have shown that coiled bodies were present in close association with the nucleolus inZea mays dry seeds as well as during subsequent stages of germination. This study reveals that similar nuclear structures were also present duringBrassica napus embryogenesis starting at the torpedo stage and that they were, likewise, generally located on the nucleolar surface. As in the case ofZ. mays, coiled bodies were observed in cells of dry seeds as well as in those of early germinating tissues. These bodies were labelled with monoclonal antibody K121, an antibody reacting with the unique 5-terminal cap structure containing 2,2,7-trimethylguanosine that characterizes small nuclear RNAs. Owing to their intimate association with the nucleolus in all stages studied, the possibility is considered that, in these plant cells, coiled bodies are assembled on an organizer element located within this organelle.Abbreviations BSA bovine serum albumin - IgM immunoglobulin M - NAB nucleolus-associated body - NAC nucleolus-associated chromatin - PBS phosphate-buffered saline - snRNA small nuclear ribonucleic acid - snRNP small nuclear ribonucleoprotein     

Alteration of mitochondrial genomes containing atpA genes in the sexual progeny of cybrids between Raphanus sativus cms line and Brassica napus cv. Westar

Summary We have investigated the fate of the mitochondrial genomes of cybrids derived from donor-recipient protoplast fusion between X-irradiated Raphanus sativus (cms line) and iodoacetamide-treated Brassica napus cv. Westar. Two out of ten fusion products were male-sterile with the diploid chromosome number of B. napus. The mitochondrial (mt) genomes of the cybrids and their progeny were further analyzed by DNA-DNA hybridizaion using the pea mitochondrial ATPase subunit gene (atpA) as a probe. One cybrid, 18-3, had a 3.0 kb fragment characteristic of B. napus and a 2.0 kb non-parental fragment when the BamHI-digested DNA was hybridized with the probe. In the first-backcrossed progeny of this cybrid, the hybridization pattern was not stably inherited. A 4.0 kb radish fragment, not detectable in the cybrid, appeared in one of the BC₁ generation siblings, and the 2.0 kb non-parental fragment was lost in another. The hybridization patterns in BC₁ progeny siblings of cybrid 12-9 were also varied. The alteration of mtDNA in the cybrid progeny continued to the BC₂ generation. There was no clear evidence of a heteroplasmic state or of sub-stoichiometric molecules in the mt genome of cybrid 18-3. A possible cause of the observed alteration in the mt genome is discussed.     

Induction of embryogenesis with colchicine instead of heat in microspores ofBrassica napus L. cv. Topas

Prior to this report, heat treatment (32.5°C, 24 h) was the method used to induce embryogenesis fromBrassica napus microspores. Continuous culture at 25°C results in pollen development. This study shows that colchicine alone, at the non-inductive temperature of 25°C, can induce embryogenesis, thus demonstrating that heat shock is not required for embryogenic induction inB. napus cv. Topas. Embryogenic frequencies of over 15% were obtained by culturing isolated microspores with 25 M colchicine for 42 h at 25°C. The microspore developmental stages responsive to colchicine were unicellular vacuolate and late unicellular, somewhat earlier stages than the population responsive to heat induction. Other groups have reported that heat-shock proteins are essential to the induction of embryogenesis. The present study offers a method of embryogenic induction without the use of heat which will allow discrimination between the factors associated with response to heat shock and those involved with changing cell development.Abbreviations LU Late-unicellular - PPB Preprophase band - UV unicellular-vacuolate The authors wish to thank C. Bornman for his interest and encouragement. We gratefully acknowledge support from the School of Graduate Studies and Research, Queen's University to J.-P. Z., from Hilleshog AB, Sweden to D.H.S., and from the Natural Sciences and Engineering Research Council of Canada to D.H.S. and W.N. Plant Research Centre contribution No. 1595.     

Selection and characterization of sodium chloride-tolerant callus of Glycine max (L.) Merr cv. Acme

Callus cultures were initiated from soybean (Glycine max (L.) Merr cv. Acme) cotyledons onMiller's basal medium supplemented with 2 mg L^–1NAA and 0.5 mg L^–1 kinetin. Growing cells wereexposed to increasing concentrations of NaCl in themedium. A concentration of 100 mM NaCl completelyinhibited callus growth. After incubation for 28 d,cells which could tolerate this concentration of NaClgrew to form cell colonies. A NaCl-tolerant line wasobtained through continuous subculturing on 100 mMNaCl. Salt tolerance in this culture was characterizedby an altered growth behavior, reduced cell volume, and accumulation of Na⁺, Cl^–, proline and sugars when grown under salt stress, as well as on normal media. These characteristics, which proved tobe stable after the culture was transferred to asalt-free medium, is commonly associated with halophytes. Presented data suggest that this salt tolerance is the result of a shift towards a halophytic behavior.     

Microspore development inBrassica napus and the effect of high temperature on division in vivo and in vitro

Summary Brassica napus cv. Topas microspores isolated and cultured near the first pollen mitosis and subjected to a heat treatment develop into haploid embryos at a frequency of about 20%. In order to obtain a greater understanding of the induction process and embryogenesis, transmission electron microscopy was used to study the development of pollen from the mid-uninucleate to the bicellular microspore stage. The effect of 24 h of high temperature (32.5 °C) on microspore development was examined by heat treating microspore cultures or entire plants. Mid-uninucleate microspores contained small vacuoles. Late-uninucleate vacuolate microspores contained a large vacuole. The large vacuole of the vacuolate stage was fragmented into numerous small vacuoles in the late-uninucleate stage. The late-uninucleate stage contained an increased number of ribosomes, a pollen coat covering the exine and a laterally positioned nucleus. Prior to the first pollen mitosis the nucleus of the lateuninucleate microspore appeared to be appressed to the plasma membrane; numerous perinuclear microtubules were observed. Microspores developing into pollen divided asymmetrically to form a large vegetative cell with amyloplasts and a small generative cell without plastids. The cells were separated by a lens-shaped cell wall which later diminished. At the late-bicellular stage the generative cell was observed within the vegetative cell. Starch and lipid reserves were present in the vegetative cell and the rough endoplasmic reticulum and Golgi were abundant. The microspore isolation procedure removed the pollen coat, but did not redistribute or alter the morphology of the organelles. Microspores cultured at 25 °C for 24 h resembled late-bicellular microspores except more starch and a thicker intine were present. A more equal division of microspores occurred during the 24 h heat treatment (32.5 °C) of the entire plant or of cultures. A planar wall separated the cells of the bicellular microspores. Both daughter cells contained plastids and the nuclei were of similar size. Cultured embryogenie microspores contained electron-dense deposits at the plasma membrane/cell wall interface, vesicle-like structures in the cell walls and organelle-free regions in the cytoplasm. The results are related to embryogenesis and a possible mechanism of induction is discussed.Abbreviations B binucleate - LU late uninucleate - LUV late uninucleate vacuolate - M mitotic - MU mid-uninucleate - RER rough endoplasmic reticulum - TEM transmission electron micrograph     

High frequency somatic embryogenesis and plantlet regeneration from hypocotyl protoplast cultures of Brassica napus

A simple protocol has been developed for high frequency protoplast regeneration via somatic embryogenesis in B. napus. Protoplasts isolated from hypocotyl tissue of 8–12 day old seedlings of Brassica napus ISN706 (AACC) when cultured in KM(A) medium resulted in divisions with a, frequency ranging from 30–35%. Regeneration of plantlets was possible by both organogenesis and embryogenesis. Nearly 80% of the call transferred on to MS medium supplemented with 5.0 mg l^-1 2iP, 0.1 mg l^-1 NAA, 0.001 mg l^-1 GA₃, 0.5 g l^-1 PVP and 0.5 g l^-1 MES displayed somatic embryogenesis. The somatic embryos developed into normal plantlets, and also displayed secondary, repetitive embryogenesis.