Steroidal saponins in etiolated,greening and green leaves and in isolated etioplasts and chloroplasts ofAvena sativa

Summary New results obtained in course of studies on steroidal saponins of oat indicate that in contrast to our former conclusions the prolamellar body (PLB) is not built up by steroidal saponins. Saponin content of whole leaves is similar in green as well as in etiolated leaves and does not change significantly during development of leaves. In contrast to chloroplast, isolated purified etioplasts contain high amounts of the desgluco-avenacosides, which were thought to be responsible for the tubular structure of PLBs. The amount of these PLB-saponins, however, is 10–60 times higher in isolated etioplasts than in etiolated leaves. Evidence is presented that the PLB-saponins originate from leaf-saponins during disruption of cells and attach to etioplasts or PLBs. This attachment to PLB-components explains our former results that the PLB-destruction during greening is accompanied by a decline in the amount of the desgluco-avenacosides in isolated PLB-fractions of greening leaves.     

Proteomic analysis of highly purified prolamellar bodies reveals their significance in chloroplast development

The prolamellar body (PLB) proteome of dark-grown wheat leaves was characterized. PLBs are formed not only in etioplasts but also in chloroplasts in young developing leaves during the night, yet their function is not fully understood. Highly purified PLBs were prepared from 7-day-old dark-grown leaves and identified by their spectral properties as revealed by low-temperature fluorescence spectroscopy. The PLB preparation had no contamination of extra-plastidal proteins, and only two envelope proteins were found. The PLB proteome was analysed by a combination of 1-D SDS-PAGE and nano-LC FTICR MS. The identification of chlorophyll synthase in the PLB fraction is the first time this enzyme protein was found in extracts of dark-grown plants. This finding is in agreement with its previous localization to PLBs using activity studies. NADPH:protochlorophyllide oxidoreductase A (PORA), which catalyses the reduction of protochlorophyllide to chlorophyllide, dominates the proteome of PLBs. Besides the identification of the PORA protein, the PORB protein was identified for the first time in dark-grown wheat. Altogether 64 unique proteins, representing pigment biosynthesis, photosynthetic light reaction, Calvin cycle proteins, chaperones and protein synthesis, were identified. The in number of proteins’ largest group was the one involved in photosynthetic light reactions. This fact strengthens the assumption that the PLB membranes are precursors to the thylakoids and used for the formation of the photosynthetic membranes during greening. The present work is important to enhance our understanding of the significance of PLBs in chloroplast development.     

Sterols in seeds and leaves of oats (Avena sativa L.)

In seeds and leaves of oats (Avena sativa L.) 12 different sterols (cholesterol, cholstanol, ⁷-cholestenol, campesterol, campestanol, stigmasterol, lophenol, sitosterol, stigmastanol, ⁵-avenasterol, ⁷-avenasterol and ⁷-stigmastenol) have been identified. The sterol pattern is qualitatively the same, but the relative composition is different in leaves and in seeds. Leaves contain mainly sitosterol, stigmasterol, cholesterol and campesterol, but only minor portions of avenasterols. Seeds contain sitosterol, ⁵- and ⁷-avenasterol, campesterol, but only minor amounts of stigmasterol and cholesterol. In leaf lipids 1-hexacosanol (2.35 wt % of total lipid) has also been identified.     

Ultrastructure and lipid composition of etioplasts in developing dark-grown wheat leaves

Changes in the ultrastructure and lipid composition of etioplasts have been evaluated in three regions from the base to the tip of 8-day-old darkgrown wheat leaves and in the upper-2/3 region of etiolated leaves of different ages. In developing darkgrown tissues, the main morphological changes that etioplasts undergo consist of an increase in the amount of thylakoïds which, in the most mature etioplasts, align in parallel arrays. Concomitantly, galactolipids and sulfolipid form an increasing proportion of the total lipids. Trans-3-hexadecenoic acid was not detectable in phosphatidylglycerol (PG) of etioplasts showing appressed thylakoïds isolated from 5-day-old leaves, but was present in significant amounts in etioplasts in the basal part of 8-day-ols leaves in which membrane appression was barely visible. The proportions of this acid increase as etioplasts develop, reaching 25% of the PG fatty acids (1.2% of the total fatty acids) in the most differentiated etioplasts. In wheat etioplasts, it appears that trans-3-hexadecenoic acid may accumulate in considerable amounts in darkgrown tissues and that its accumulation is not directly involved in membrane appression.Abbreviations AP phosphatidic acid - DGDG digalactosyldiacylglycerol - MGDG monogalactosyldiacylglycerol - PC phosphatidylcholine - PE phosphatidylethanolamine - PG phosphatidylglycerol - PI phosphatidylinositol - PS phosphatidylserine - SL sulfolipid     

The NADPH-protochlorophyllide oxidoreductase is the major protein constituent of prolamellar bodies in wheat (Triticum aestivum L.)

A fraction of highly purified prolamellar bodies was isolated from etioplasts of wheat (Triticum aestivum L. cv. Starke II, Weibull), as previously described by Ryberg and Sundqvist (1982, Physiol. Plant., 56, 125–132). Studies on the protein composition revealed that only one major polypeptide of an apparent molecular weight of 36000 is present in the fraction of prolamellar bodies. This polypeptide was identified as the NADPH-protochlorophyllide oxidoreductase. The highest specific activity of the enzyme in etiolated leaf tissue was confirmed to be in the fraction of prolamellar bodies.Abbreviations PChlide protochlorophyllide - PLB prolamellar body - PT prothylakoid     

The concentration of cryoprotective lectins in mistletoe (Viscum album L.) leaves is correlated with leaf frost hardiness

The leaves of mistletoe (Viscum album L.) contain three galactose- and N-acetylgalactosamine-specific isolectin groups (ML I, II, III). The groups ML I and ML III showed strong cryoprotective activity during freezing and thawing of isolated spinach (Spinacia oleracea L.) thylakoid membranes, while ML II showed no such activity. The cryoprotective efficiency of the proteins was correlated with their relative hydrophobicity, as determined by a fluorescence titration assay. We found that the frost hardiness of mistletoe leaves was seasonally regulated under natural conditions. While leaves harvested in winter were not damaged by freezing to −20 °C, leaves harvested in July had already suffered 70% electrolyte leakage after freezing to −5 °C. Likewise, the amount of ML I and ML III varied during the year, with the highest amounts of these cryoprotective lectins in winter and early spring and the lowest amounts during the summer months. There was no comparable change in the amount of ML II. These data suggest that some lectins may play a role in the stabilization of cellular membranes under environmental stress conditions. Received: 18 December 1996 / Accepted: 29 March 1997     

Efficient callus formation and plant regeneration from leaves of oats (Avena sativa L.)

An efficient plant regeneration system from leaf-derived callus in 6 genotypes of Avena sativa L. has been established. Regenerable callus was induced in the basal 1–2 mm region of 2 to 5 day old seedlings. Plants were regenerated from the regenerable callus and grown to maturity. The frequency of regenerable callus formation and plant regeneration was correlated with the position, developmental stage and genotype of the expiant. The regeneration capacity of the first one mm of the leaf basal region from three day old seedlings was comparable to that of immature embryos. Furthermore, the leaf regenerable calli were subcultured for 8 months without loss of their regeneration capabilities.     

The influence of glycerol and chloroplast lipids on the spectral shifts of pigments associated with NADPH: protochlorophyllide oxidoreductase from Avena sativa L

Dark-grown angiosperm seedlings lack chlorophylls, but accumulate protochlorophyllide a complexed with the light-dependent enzyme NADPH:protochlorophyllide oxidoreductase. Previous investigators correlated spectral heterogeneity of in vivo protochlorophyllide forms and a shift of chlorophyllide forms from 680 to 672 nm (Shibata shift) occurring after irradiation, with intact membrane structures which are destroyed by solubilization. We demonstrate here that the various protochlorophyllide forms and the Shibata shift which disappear upon solubilization are restored if the reconstituted complex is treated with plastid lipids and 80% (w/v) glycerol. We hypothesize that the lipids can form a cubic phase and that this is the precondition in vitro and in vivo for the observed spectral properties before and after irradiation.     

水稻微卫星标记的发展和应用

微卫星又称简单序列重复。它是由几个核苷酸（一般２～４个）为重复单位组成的串联重复序列。相同座位上的重复序列由于重复次数的不同而造成序列长度的多态性。微卫星标记是一种共显性标记,具有等位基因丰富、检测技术简单等优点。微卫星标记在基因组作图、品种鉴定、种质保存、分子标记辅助选择等方面有着广泛的应用。目前水稻中已发展了３００多个微卫星标记。     

水稻花药绒毡层及乌氏体的超微结构观察

在花粉母细胞期,水稻花药绒毡层细胞原生质浓,细胞器丰富,各轴向壁厚度较一致．随着药室腔扩大,绒毡层细胞体积迅速增大,且外切向壁增厚,径切向壁部分区域消失,细胞间形成原生质桥．在单胞花粉早期,乌氏前体排列于绒毡层内切向细胞膜内,随后移向膜外,且外侧增厚形成乌氏体．在花粉单核靠边期,绒毡层细胞的细胞器开始解体,到花粉充实期完全解体,但乌氏体结构直到花粉成熟保持不变．     

Spectral response of rice (Oryza sativa L.) leaves to Fe2+ stress

In the management of lake eutrophication, the regulation effect of Fe is considered, in addition to the controlling nitrogen- and phosphorus input. Based on the “Fe hypothesis”, this paper tentatively ap-plied plant spectral response to the remote sensing early-warning mechanism of lake eutrophication. A laboratory water culture experiment with rice (Oryza sativa L.) was conducted to study Fe uptake by plants and the chlorophyll concentration and visible-near infrared spectrum of vegetable leaves as well as their interrelations under Fe²⁺ stress. Three spectral indices, i.e., A₁ (integral value of the changes of spectral reflectivity in the range 460―670 nm under Fe²⁺ stress), A₂ (integral value of the changes of spectral reflectivity in the range of 760―1000 nm under Fe²⁺ stress) and S (blue-shift range of red edge curve under Fe²⁺ stress), were used to establish quantitative models about the relationships between the rice leaf spectrum and Fe²⁺ stress. With the increase of Fe²⁺ in a culture solution, the Fe content in rice plants increased, while the chlorophyll concentration in vegetative leaves decreased. The spectral reflectivity of vegetable leaves increased in the visible light band but decreased in the near infrared band, and the blue-shift range of the red edge curve increased. The indices _A1, A₂ and S all had sig-nificant correlations with the Fe content in rice leaves, the correlation coefficient being respectively 0.951 (P < 0.01), −0.988 (P < 0.01) and 0.851 (P < 0.01), and simulated (multiple correlation coefficients R² > 0.96) and predict the Fe level in rice leaves.     

Organization of protochlorophyllide oxidoreductase in prolamellar bodies isolated from etiolated carotenoid-deficient wheat leaves as revealed by fluorescence probes

Carotenoid importance for membrane organization of NADPH protochlorophyllide oxidoreductase (POR) was studied by comparing interaction of two membrane fluorescent probes with proteins in prolamellar bodies isolated from norflurazon-treated wheat plants (cdPLBs) to those isolated form plants with normal carotenoid amount (oPLBs). The tryptophan fluorescence quenching by 1-anilino-8-naphthalene sulfonate (attached to the surface of membrane lipid phase) and pyrene (situated deep into the fatty acid region of membrane lipids) was used to locate the position of POR molecules toward lipid phase, to analyze their supramolecular organization and the light-induced structural transitions. Our results showed that the pigment-protein complexes of cdPLBs were larger than those of oPLBs. Upon flash irradiation the aggregates of both types of PLB dissociated into smaller units but in cdPLBs this process was accompanied by reorientation of the POR molecules closer to the lipid surface and/or dissociation from the lipids. These results revealed that carotenoid deficiency led to a looser attachment of POR to the lipid phase and its early (in comparison with oPLBs) dissociation from the membranes during the light-induced transformation of cdPLBs. This might be one of the reasons for the inability of carotenoid-deficient plants to form functional plastids.     

Chlorophyll biosynthesis by mesophyll protoplasts and plastids from etiolated oat (Avena sativa L.) leaves

The uptake of [1-³H]geranylgeranyl diphosphate (GGPP) into protoplasts and intact etioplasts and the metabolic interconversion therein was studied after a 2 min pulse of white light. The chlorophyll synthetase reaction, Chlide+GGPPChl_GG, was taken as a natural probe for the etioplast compartment. This reaction yields labeled ChL_GG and, by hydrogenation, labeled Chl_P, when [1-³H]GGPP receives access to the etioplast stroma. It was found that penetration across the plastid envelope was rapid and that penetration across the plasma membrane of protoplasts, however, was slow. A cellular pool of soluble GGPP was detected. This pool was lost, in part, during preparation of the protoplasts and almost completely during preparation of the etioplasts. The membrane-bound phytol pool of etioplasts could not be replaced by exogenous [³H]GG. The endogenous GG and phytol pools of protoplasts, which were larger than those of etioplasts, could be replaced in part by exogenous [³H]GGPP. That part of this pool exists as soluble GGPP or as a direct precursor in the cytoplasm is discussed.Abbreviations GGPP geranylgeranyldiphosphate - Chl_GG geranylgeranyl chlorophyllide a - Chl_P phytyl chlorophyllide a - IPP isopentenyl diphosphate - Chlide chlorophyllide a     

水稻叶色突变体叶绿体发育规律研究

从温敏核不育系水稻'810S'中筛选出一个生长发育正常的淡黄绿叶色自然突变株'标810S',其叶绿素含量约为'810S'的50%,光合速率比野生型高.以'810S'为对照,对'标810S'进行叶片形态、叶肉细胞和叶绿体超微结构以及叶绿体蛋白研究.结果显示,'标810S'的叶长、宽和面积与'810S'相似;叶肉细胞和叶绿体发育稍迟缓,片层结构减少;叶绿体蛋白约为对照的55%,并初步鉴定出与光合作用相关的差异蛋白点13个,其中4个缺失蛋白,包括1个RuBP大亚基缺失.推测该水稻突变体叶色变浅与叶绿体基粒片层减少有关.     

Development of the endosperm in rice (Oryza sativa L.): Cellularization

The syncytial endosperm of rice undergoes cellularization according to a regular morphogenetic plan. At 3 days after pollination (dap) mitosis in the peripheral synctium ceases. Radial systems of microtubules emanating from interphase nuclei define nuclear-cytoplasmic domains (NCDs) which develop axes perpendicular, to the embryo sac wall. Free-growing anticlinal walls between adjacent NCDs compart-mentalize the cytoplasm into open-ended alveoli which are overtopped by syncytial cytoplasm adjacent to the central vacuole. At 4 dap, mitosis resumes as a wave originating adjacent to the vascular bundle. The spindles are oriented parallel to the alveolar walls and cell plates formed in association with interzonal phragmoplasts result in periclinal walls that cut off a peripheral layer of cells and an inner layer of alveoli displaced toward the center. Polarized growth of the newly formed alveoli and elongation of the anticlinal walls occurs during interphase. The next wave of cell division in the alveoli proceeds as the first and a second cylinder of cells is cut off inside the peripheral layer. The periods of polarized growth/anticlinal wall elongation alternating with periclinal cell division are repeated 3–4 times until the grain is filled by 5 dap.     

Prolamellar-body structure,composition of molecular species and amount of galactolipids in etiolated,greening and reetiolated primary leaves of oat,wheat and rye

The greening and reetiolation process of etiolated leaves of oat, wheat and rye, possessing different types of prolamellar bodies (PLBs), was observed by electron microscopy. Oat is known to possess unusual crystalline PLBs (so-called narrow type). Rye and what, which normally show PLBs with more loosely packed tubules (wide type) during etiolation, exhibited PLBs of the narrow type after illumination and subsequent reincubation in the dark (=reetiolation). Thus the reetiolated PLBs of wheat and rye did not differ from etiolated or reetiolated oat PLBs. In parallel with the microscopic analysis, intact leaves of all developmental stages were analysed for their galactolipid content and composition of molecular species using a newly developed high-performance liquid chromatography procedure. When oat, wheat and rye were compared, differences in the molecular species and the molar ratio of the two galactolipids monogalactosyldiacylglyceride (MGDG) and digalactosyldiacylglyceride (DGDG) were found. However, no parameter showed a correlation with PLB construction, disintegration or reconstruction. The results presented in this paper are not consistent with the hypothesis that the molar ratio of MGDG/DGDG is responsible for the tubular structure of prolamellar bodies in etioplasts.Abbreviations DGDG digalactosyl diacylglyceride - HPLC high-performance liquid chromatograpyh - MGDG monogalactosyl diacylglyceride - PLB prolamellar body     

The ultrastructural development of plastids in leaves of maize plants exposed to continuous illumination

Summary Chloroplast differentiation in relation to increasing leaf age has been investigated in maize plants exposed to continuous illumination. In the young leaves the proplastids differentiate into chloroplasts containing well organized grana as well as prolamellar bodies. In the older leaves, while plastids differentiate, the prolamellar bodies are no longer detectable. Chloroplast ability to build up prolamellar bodies does not seems so much a light dependent process as it is affected by cell differentiation rate.Supported by a grant of C.N.R.     

Influence of supplemental ultraviolet-B on indoleacetic acid and calmodulin in the leaves of rice (Oryza sativa L.)

IR68 and Dular rice cultivars were grown under ambient, 13.0 (simulating 20% ozone depletion) and 19.1 (simulating 40% ozone depletion) kJ m^-2 day^-1 of biologically effective ultraviolet-B (UV-B_BE) for 4 weeks. Plant height and leaf area were significantly reduced by supplemental UV-B_BE radiation. Greater reduction in leaf area than of plant height was observed. A decrease in indole-3-acetic acid (IAA) content and increase in peroxidase and IAA oxidase activities of UV-B treated plants in both cultivars were observed compared with ambient control. Calmodulin content also decreased after plants were treated with high supplemental UV-B for two weeks and medium UV-B treatment for four weeks. The results indicated that peroxidase and IAA oxidase activities in rice leaves were stimulated by supplemental UV-B, resulting in the destruction of IAA which in turn may cause inhibition of rice leaf growth. Although the mechanism is unclear, calmodulin is most likely involved in leaf growth.