Brassica napus pollen oleosins possess a characteristic C-terminal domain

The sequences of Brassica napus L. pollen oleosins have been determined and examined. Contrary to a recent report, inferred primary sequences of pollen oleosins do include a unique C-terminal domain characterised by the presence of a repetitive motif of three alanine and one proline residue (AAAP). This motif appears to be present in all oleosins expressed in pollen, but not in oleosins from other tissues.     

Targeting of oleosins to the oil bodies of oilseed rape (Brassica napus L.)

Oleosins of Brassica napus L. (oilseed rape) synthesized by in-vitro translation were found to be very efficiently targeted to microsomal membranes but only poorly translocated to oil bodies or emulsified oil. The use of other bilayer membranes as controls showed that this interaction was specific. The rate of oleosin synthesis in the presence of microsomes was enhanced about threefold, indicative of the involvement of the signal-recognition particle in the targeting process. There is no evidence for the cleavage of the protein during targeting and the protein sequence reveals no consensus cleavage site for the signal peptide. Protection experiments using Proteinase K revealed that about 6 kDa of the protein is exposed on the cytoplasmic side of the ER but the remainder is protected. Carbonate (pH 11) washing of microsomal membranes after in-vitro translation confirmed that oleosins have a domain which remains inserted in the ER rather than the protein being transported completely into the lumen of the ER. These results indicate that oleosins are transported via the ER prior to their accumulation on oil bodies.     

Heterogeneity of the endoplasmic reticulum with respect to lipid synthesis in developing seeds of Brassica napus L.

Studies of the sub-cellular location of storage triacylglycerol (TAG) synthesis in developing embryos of oilseed rape (Brassica napus L.) show that there is heterogeneity of the endoplasmic reticulum (ER) with respect to the enzymes of lipid synthesis. The enzymes of TAG synthesis were detected in two membrane fractions (equilibrium densities 1.05 and 1.10 g· ml^?1) isolated by sucrose-density-gradient centrifugation of homogenates from developing rape embryos. The synthesis of TAG by the lowdensity membranes has not been reported previously and was found in this study because the sucrose density gradients began at only 10% (w/w) sucrose. The pattern of activity of the enzymes involved in the synthesis of TAG in the higher-density fraction closely matched the marker enzymes for the ER; lyso-phosphatidylcholine acyltransferase and cytidine diphosphate-choline:diacylglycerol cholinephosphotransferase. The activity of the ER marker enzymes in the low-density membrane fraction, however, was very much lower when compared to those involved in the synthesis of TAG. Analysis of the lipids extracted from the low-density fraction revealed it contained about 50 mol% TAG compared with 15 mol% in the bulk ER, which may account for the low density of the membranes in this fraction. The possibility that the low-density membranes were the result of contamination of ER by oil bodies was ruled out by the use of oleosins as a marker for oil bodies. It is suggested that the low-density membranes are derived from a domain of the ER which is involved in the formation and secretion of TAG.     

Absence of major differences between soluble proteins from haploid gametophytes and diploid sporophytes in the green alga Ulva mutabilis Føyn

Soluble proteins from haploid gametophytes and diploid sporophytes of the marine green alga Ulva mutabilis Føyn have been reexamined, using polyacrylamide gel electrophoresis and isoelectric focusing. A two-dimensional system resolved about 150 protein spots. In contrast to an earlier report (Hoxmark (1976) Planta 130, 327–332), no major differences could be detected between soluble proteins from the two generation types by any of the methods used.To whom correspondence should be addressed     

In vitro pollen germination of species and two interspecific hybrids from the genus Brassica

In vitro pollen germination of five species and two interspecific hybrids from the genus Brassica was tested in four media. Genetically fixed differences in the demands for optimal pollen germination among species were found. The experiments were designed to define optimal content of mineral salts, sugar, and PEG for every investigated species or hybrids. The differences found among species are discussed in relation to the evolutionary trend.     

Abscisic acid in shoots and roots of Scots pine (Pinus sylvestris L.) seedlings grown in controlled long-day and short-day environments

Scots pine (Pinus sylvestris L.) seedlings grown in nutrient solution in controlled-environment chambers were used. The effects of a shortday (SD, early autumn) treatment on growth and the content of free and alkaline hydrolysable abscisic acid (ABA) in shoots and roots were investigated. The weekly relative growth rates of seedlings grown continuously under long-day (LD, summer) conditions were stable at approx. 0.08 g g^–1 d^–1 between weeks four and eight from germination. Weekly relative growth rates of seedlings transferred to SD conditions decreased rapidly to a then stable level of approx. 0.04 g g^–1 d⁰¹. Shoot elongation ceased within two weeks of SD treatment. The content of both free and alkaline hydrolysable ABA was approx. 40–50% higher in shoots of seedlings grown for five weeks in LD plus one week in SD than in shoots of seedlings grown for five or six weeks in LD. Two additional weeks of SD did not change the free ABA content. Three weeks in simulated late autumn (SD but decreased temperatures) and three weeks in simulated winter (lower light intensity and temperature) further increased the content of free ABA in the shoots. A transfer back to LD conditions reduced the ABA content to a level equal to the level found during the first LD period. The recovery of radioactive ABA at certain times after application ofr[³H] ABA was the same in shoots and roots of LD-grown and SD-treated seedlings.Abbreviations ABA abscisic acid - LD long day(s) - RGR₇ weekly relative growth rates - SD short day(s)     

Esterases in pollen and stigma of Brassica

The dry type stigma of Brassica is covered with a continuous layer of cuticle. Cutinase and non-specific esterases may be involved in breakdown of this cuticle barrier during pollen-stigma interaction, but only a little is known about their nature and characteristics. We report here the presence of two distinct esterases from stigma and pollen of Brassica. A 33 kD esterase assayed using MU-butyrate substrate shows high activity in stigma papillae. A similar esterase from Tropaeolum pollen has been shown to possess active cutinase activity. The esterase activity in anther tissue is due to a 24 kD enzyme with substrate specificity toward acetate esters. Both enzymes require sulfhydryl groups for their catalytic activity. Immunogold labelling of antibodies raised against these esterases localised the proteins at the subcellular level. Antibodies for MU-butyrate hydrolase gave a positive signal in the cell walls of mature stigma papillae and in the tapetum and microspores during early stages of anther development. In the mature anther, a positive signal in the cytoplasm of pollen grains with some detectable localisation in the exine layer of the pollen wall was obtained. Similar results were obtained with acetate hydrolase antibodies. These esterases are thus spatially and temporally regulated in stigma and anther tissues.Abbreviations MU methyl umbelliferyl - pAbC anti-butyrate hydrolase polyclonal antibodies - pAbE anti-acetate hydrolase polyclonal antibodies     

Identification of differentially expressed genes in seeds of two near-isogenic Brassica napus lines with different oil content

The regulation of seed oil synthesis in rapeseed is largely unknown. In this study, we compared the gene expression during seed development between two lines of Brassica napus with a 10% difference in oil content. We isolated the immature seeds 15 and 25 days after flowering at periods preceding and including the major accumulation of storage oils and proteins. The differentially expressed gene clones between the two rape lines were isolated by subtractive suppression hybridization (SSH). All SSH clones were arrayed and screened by dot blot hybridization, followed by RT-PCR analysis for selected clones. A total of 217 cDNA clones corresponding to 30 genes were found to have a high expression in seeds with high oil content. Six genes were highly expressed in seeds with low oil content. Northern blot and enzyme activity analysis demonstrated a change in expression pattern of several genes. The results provide information on gene-encoding factors responsible for the regulation of oil synthesis. The possible role of these genes in seeds is discussed. The genes in this study may be suitable as novel targets for genetic improvement of seed oil content and may also provide molecular markers for studies of rape breeding.     

Effect of pre-incubation irradiance on survival of cryopreserved gametophytes of Undaria pinnatifida (Phaeophyta) and morphology of sporophytes formed from the gametophytes

Gametophyte strains originating from indigenous sporophytes of Undaria pinnatifida (Harvey) Suringar in Iwate Prefecture, Northeast Japan, were maintained for 9–10 months at 45 μmol photons m⁻² s⁻¹. Before cryopreservation in liquid nitrogen for more than 12 h (1–14 days) using a two-step cooling method with a mixture of cryoprotectants (10% l-proline and 10% glycerol), these were pre-incubated for 2, 4 and 8 months at 15 μmol photons m⁻² s⁻¹. After 1 week of thawing, no surviving gametophytes were detected in the strains without pre-incubation, but both the female and male gametophytes, pre-incubated for more than 4 months, showed high survival rates (43–60% for females and 64–100% for males). This revealed the induction of freezing tolerance by incubation at low irradiance. Thereafter, sporophytes derived from cryopreserved gametophytes and subcultured gametophytes, stored under pre-incubation conditions, were formed from the strain, and a morphological comparison was conducted with 10 characters (stipe length, stipe wet weight, blade length, blade wet weight, blade width, incision depth, blade thickness, sporophyll length, sporophyll wet weight, and sporophyll width). The morphology of the sporophytes formed from the cryopreserved gametophytes corresponded well with that of the subcultured gametophytes from the same strain. The results suggest that the cryopreservation method is applicable for preserving culture stocks of U. pinnatifida to be used in mariculture.     

Quantitative cytology of the sperm cells of Brassica campestris and B. oleracea

Pollen grains of Brassica campestris L. var. acephala DC and B. oleracea L. were serially sectioned and examined using transmission electron microscopy to determine the three-dimensional organization of sperm cells within the microgametophyte and the quantity of membrane-bound organelles occurring within each cell. Sperm cells occur in pairs within each pollen grain, but are dimorphic, differing in size, morphology and mitochondrial content. The larger of the two sperm cells (S_vn) is distinguished by the presence of a blunt evagination, which in B. oleracea wraps around and lies within shallow furrows on the vegetative nucleus and in B. campestris can penetrate through internal enclaves of the vegetative nucleus. This sperm cell contains more mitochondria in both species than the second sperm cell (S_ua). This latter cell is linked to the first by a common cell junction with the S _vn, but is not associated with the vegetative nucleus and lacks a cellular evagination. Such differences are indicative of a system of cytoplasmic heterospermy in which sperm cells possess significantly different quantities of mitochondria.Abbreviations mtDNA mitochondrial DNA - S_ua sperm cell unassociated with the vegetative nucleus - S_vn Sperm cell physically associated with the vegetative nucleus     

Increased levels of glycerol-3-phosphate lead to a stimulation of flux into triacylglycerol synthesis after supplying glycerol to developing seeds of<Emphasis Type="Italic"> Brassica napus</Emphasis> L.<Emphasis Type="Italic"> in planta</Emphasis>

Glycerol-3-phosphate (glycerol-3P) is a primary substrate for triacylglycerol synthesis. In the present study, changes in the levels of glycerol-3P during rape (Brassica napus L.) seed development and the influence of manipulating glycerol-3P levels on triacylglycerol synthesis were investigated. (i) Glycerol-3P levels were high in young seeds and decreased during seed development at 30 and 40 days after flowering (DAF), when lipid accumulation was maximal. (ii) To manipulate glycerol-3P levels in planta, various concentrations of glycerol were injected directly into 30-DAF seeds, which remained otherwise intact within their siliques and attached to the plant. Injection of 0–10 nmol glycerol led to a progressive increase in seed glycerol-3P levels within 28 h. (iii). Increased levels of glycerol-3P were accompanied by an increase in the flux of injected [¹⁴C]sucrose into total lipids and triacylglycerol, whereas fluxes to organic acids, amino acids, starch, protein and cell walls were not affected. (iv) When [¹⁴C]acetate was injected into seeds, label incorporation into total lipids and triacylglycerol increased progressively with increasing glycerol-3P levels. (v) There was a strong correlation between the level of glycerol-3P and the incorporation of injected [¹⁴C]acetate and [¹⁴C]sucrose into triacylglycerol. (v) The results provide evidence that the prevailing levels of glycerol-3P co-limit triacylglycerol synthesis in developing rape seeds.Abbreviations DAF Days after flowering - DAG Diacylglycerol - G3PAT Glycerol-3-phosphate acyltransferase - Glycerol-3P Glycerol-3-phosphate - PA Phosphatidic acid - PC Phosphatidylcholine - TAG Triacylglycerol,     

Selection of a universal hybridizer in Sinapis turgida Del. and regeneration of plantlets from somatic hybrids with Brassica species

A double-mutant cell line, which was unable to grow in a medium with NO ₃ ^- as the sole nitrogen source and was resistant to 5-methyl-tryptophan (5MT), was selected from cell suspensions of Sinapis turgida Del. (Brassicaceae) by culturing the cells in AA medium (Toriyama and Hinata, 1985, Plant Sci. 41, 179–183) supplemented with 50 mM chlorate and 229 M 5MT. Protoplasts of this cell line were fused with mesophyll protoplasts of Brassica oleracea L. with dextran, and six somatic hybrids were selected initially by culture in the NO ₃ ^- medium and then by transfer to the NO ₃ ^- medium supplemented with 229 M 5MT. The somatic hybrids produced embryoids, leaves and plantlets on a regeneration medium. The hybrid characters were confirmed by investigations of acid phosphatase (EC 3.1.3.2) and peroxidase (EC 1.11.1.7) isoenzymes, chromosome number, growth on NO ₃ ^- medium, 5MT resistance, and capacity to regenerate plants. Somatic hybrids between S. turgida Del. and B. nigra (L.) Koch were also obtained using this method. These results indicate that the double-mutant cell line established here will be able to serve as a universal hybridizer to select somatic hybrids after protoplast fusion with any other wild-type partner.Abbreviations B5 medium of Gamborg et al. (1968) - MS medium of Murashage and Skoog (1962) - 5MT 5-thethyltryptophan     

Changes in pollen tube behaviour induced by carbon dioxide and their role in overcoming self-incompatibility in Brassica

Summary Comparative studies on self-pollination after the application of high concentrations of CO₂ gas, which is known to overcome the self-incompatibility reaction in Cruciferous species, have revealed significant changes in the pollen tubes of germinating grains prior to their penetration into the papilla cells. A remarkable increase in the width of the pollen tube was induced by treating the stigmatic papillae with high CO₂ concentrations. The width of the pollen tube appeared to be greatest with CO₂ concentrations ranging from 3% to 5%; these concentrations were also optimal for tube penetration. Callose accumulation was extensively induced in the stigmatic papilla with 10%–20% of CO₂, although a typical callosic reaction remained through the ranges appropriate for blocking self-incompatibility. Observations using the scanning electron microscope (SEM) after pollination revealed that compatible pollen tubes in cross-pollinations fused completely to the papular surface during tube penetration, while in self-pollination, pollen tubes remained on the papilla with some additional diffusate. In the case of CO₂ treatment for self-pollination, some pollen tubes behaved very similarly to the incompatible or compatible ones already described, while others were different from both of them: they showed a complete fusion, similar to compatible ones, with additional diffusate, similar to incompatible ones. These responses of the pollen and stigma to high CO₂ concentrations are discussed with respect to their effect upon the expression of self-incompatibility.     

A rapid,single leaf,nucleic acid assay for determining the cytoplasmic organelle complement of rapeseed and related Brassica species

Summary An assay is described whereby Eco RI restriction fragment length polymorphisms of mitochondrial and chloroplast DNAs can definitively identify cytoplasms of interest in Brassica crop development. Restrictable mitochondrial and chloroplast DNA is extracted from as little as 2–3 g and 0.5 g leaf tissue, respectively, and the donor plants are able to continue to develop in a normal manner. An unknown cytoplasm can be identified in three days, which is a considerable saving in time and labor compared to the several years required by traditional methods. The assay is very inexpensive and should be established as a routine procedure in laboratories involved in sexual or somatic Brassica hybrid production.     

The effects of increased UV-B radiation on growth,pollination success,and lifetime female fitness in two Brassica species

The increasing levels of ultraviolet-B (UV-B) radiation reaching the earth's surface caused by ozone destruction have prompted many studies of UV-B effects on plants. Most of these studies have focused on physiological and growth responses of plants to increased UV-B, but these measures may not be closely related to future survival of plant populations. We examined the effects of two different levels of increased UV-B on total female fitness, including seed number and quality, in rapid-cycling strains of Brassica nigra and B. rapa (Brassicaceae). We also measured the effects of UV-B on fitness components, particularly those related to pollination success. Two separate experiments, examining two different levels of UV-B, were performed. Sixty plants of each species were grown under control and enhanced levels of UV-B for a total of 480 plants (60 plantsx2 speciesx2 UV-B levelsx2 experiments). Increased UV-B was generally detrimental to growth and flowering in both species; however, total seed production was actually greater at higher UV-B doses in three of four dose/plant species combinations examined. UV-B had little effect on pollination success or offspring quality in either species. Therefore, in spite of the detrimental effects of UV-B on growth and flowering that we found, there is little evidence that fitness of these plant species would suffer with increasing UV-B, and we caution against using solely physiological or growth measurements to infer effects of UV-B on plant population fitness.