Changes in Antioxidative Protection in Bean Cotyledons During Natural and Continuous Irradiation-Accelerated Senescence

We employed continuous irradiation (CL) for induction of premature senescence caused by enhanced production of reactive oxygen species. As a model plant we used bean (Phaseolus vulgaris L. cv. Jantar) cotyledons because they have well defined and a quite short life span. Senescence of bean cotyledons induced by CL progressed more rapidly than natural senescence: the life span of CL cotyledons was 13 d compared to 16 d in controls (C). Chl content was significantly lower in 10- and 13-d-old CL plants than in C plants and the change with age was not statistically significant. Activities of all antioxidative enzymes declined either with senescence onset or during whole life span. Activity of antioxidative enzymes, except ascorbate peroxidase, was lower in CL plants compared to C plants. On the contrary, contents of non-enzymatic antioxidants -carotene and ascorbate were higher in CL plants than in C plants. No significant difference, except in the youngest cotyledons, was observed in glutathione content.     

Zea3: a pleiotropic mutation affecting cotyledon development, cytokinin resistance and carbon-nitrogen metabolism

When photomorphogenesis takes place during early plant development, the cotyledons undergo a metabolic transition from heterotrophic sink metabolism to autotrophic source metabolism. A mutant screen was devised for seedlings affected in the regulation of nitrate assimilation during this early sink-source transition in Nicotiana plumbaginifolia. A mutant (EMS 203.6) was isolated for its inability to grow on low nitrate concentration. In contrast to wild-type (WT) plants, the mutant cotyledons remained tightly attached to each other throughout seedling development. It was found that a low carbon/nitrogen ratio (C/N ratio) in the medium was required for mutant growth. The higher the ratio was, the more the growth was inhibited. Mutant EMS 203.6 accumulated all amino acids in permissive conditions (low C/N ratio), and all amino acids and sugars also in selective (high C/N ratio) conditions. In addition, sucrose in the medium repressed light-regulated genes involved in nitrate assimilation and in photosynthesis in the mutant but not in the WT plants. The mutation was mapped to the Zea3 complementation group which confers resistance to zeatin. This zeatin resistance was associated with a hypertrophy of mutant cotyledons in response to cytokinin. Both cytokinin resistance and sensitivity to a high C/N ratio were not observed in etiolated mutant seedlings and were restricted to the jointed-cotyledon developmental stage. Previous physiological studies showed evidence for a role of cytokinins in the expression of nitrate reductase. Here, the first genetic evidence for a link between carbohydrate/nitrogen metabolism and cytokinin action during early development is provided.     

Comparison of gibberellin-like substances from cotyledons and phloem exudate collected from cotyledons of Pharbitis nil in relation to photoperiodic flowering

Gibberellin (GA)-like substances were analyzed in extracts from cotyledons and phloem exudate collected from cotyledons in photoinduced and vegetative seedlings of the short-day plant Pharbitis nil Chois. var. Violet, using high performance liquid chromatography (HPLC) and the dwarf rice bioassay, to see whether any specific GA-like substances were transported from the photoinduced cotyledons via phloem. Cotyledon extracts exhibited five peaks of free GA-like activity in HPLC, whereas only one or two active peaks were detected in phloem exudate extracts. The level of free GA-like activity was considerably lower in phloem exudate than in the cotyledons. In five out of six analyses of cotyledons and phloem exudate, there were substantially higher levels of free GA-like substances in photoinduced plants. Conjugated GA-like substances were present in much higher levels than free GA-like substances in the cotyledon extracts but the levels were not influenced by daylength. In phloem exudate extracts there was no conjugated GA-like substances. The free GA-like substances that are transported via phloem cochromatographed with GA_5/20 and GA₁₉ on HPLC. These were significantly higher in photoinduced plants and thus could have some influence on the photoperiodically-induced flowering in P. nil.     

Semiquantitative estimates of Al and other cations in the leaf tissues of some Al-accumulating species using electron probe microanalysis

Electron probe microanalysis of transverse sections was used to provide semiquantitative estimates of Al and other cations in the leaf tissues of some Al-accumulating plants of the cerrado vegetation of central Brazil. Concentrations of Al were generally higher than those of other cations in the phloem elements of these plants growing on dystrophic as well as fertile acid soils. When one of the Al-accumulating species,Vochysia thyrsoidea, was grown in a calcareous soil, the concentration of Al in the phloem elements of leaves was lower than that of Ca and K though the cotyledons showed higher concentrations of Al than those of other cations.     

Influence of the excision of cotyledons on the content of indole-3-acetic acid, growth and flowering of Lupinus albus plants

Excision of both cotyledons of Lupinus albus L. (L. termis Forssk.) seedlings at different morphological stages during the first 8 days after sowing, retarded significantly the growth of 16-day-old seedlings and decreased the content of IAA in the shoots. The effect was more obvious at the early excision (4 days after sowing). A pattern similar to that of control plants with intact cotyledons was attained when cotyledons were excised later than 8 days after sowing. It is believed that the cotyledons control the IAA content of the shoot during the early stages of development. At day 36 flower primordia were observed in controls but not in cotyledon-less plants. At this time the IAA content of the shoot apices and the growth of cotyledon-less plants were the same as in controls except for plants that lost cotyledons 4 days after sowing, which showed similar values at week 11, but did not produce flower primordia. The other cotyledon-less plants produced flower primordia 4–11 days after controls. It is postulated that the cotyledons convey certain factor(s) to the developing axis at an early stage of the development which promote flowering.     

Jasmonates Inhibit Flowering in Short-Day Plant Pharbitis nil

The role of jasmonates in the photoperiodic flower induction of short-day plant Pharbitis nil was investigated. The plants were grown in a special cycle: 72 h of darkness, 24 h of white light with lowered intensity, 24-h long inductive night, 14 days of continuous light. At 4 h of inductive night the cotyledons of non-induced plants contained about two times the amount of endogenous jasmonates (JA/JA-Me) compared to those induced. A 15-min long pulse of far red light (FR) applied at the end of a 24-h long white light phase inhibited flowering of P. nil. The concentration of jasmonates at 2 and 4 h of inductive night in the cotyledons of the plants treated with FR was similar. Red light (R) could reverse the effect of FR. R light applied after FR light decreased the content of jasmonates by about 50%. Methyl jasmonate (JA-Me) applied to cotyledons, shoot apices and cotyledon petioles of P. nil inhibited the formation of flower buds during the first half of a 24-h long inductive or 14-h long subinductive night. Application of JA-Me to the cotyledons was the most effective. None of the plants treated with JA-Me on the cotyledons in the middle of the inductive night formed terminal flower buds. The aspirin, ibuprofen and phenidone, jasmonates biosynthesis inhibitors partially reversed the effect of FR, stimulating the formation of axillary and terminal flower buds. Thus, the results obtained suggests that phytochrome system control both the photoperiodic flower induction and jasmonates metabolism. Jasmonates inhibit flowering in P. nil.     

Sucrose Concentration at the Apoplastic Interface between Seed Coat and Cotyledons of Developing Soybean Seeds

The apoplastic sucrose concentration at the interface between cotyledons and surrounding seed coats of developing soybeans (Glycine max L. Merr. cv Wye) was found by three indirect methods to be in the range of 150 to 200 millimolar. This is an order of magnitude higher than has been reported elsewhere for soybean. It was also higher than the overall sucrose concentrations in the cotyledons and seed coats, each of which was approximately 90 millimolar. By defoliating plants 24 hours before measurement, both the overall sucrose concentration in the cotyledons and the interfacial apoplastic sucrose concentration were reduced by three-fourths. However, there was no day/night difference in overall tissue sucrose concentration of cotyledons or seed coats from intact plants suggesting the existence of a homeostatic mechanism compensating for the diurnal photosynthetic cycle. About 7 hours were required for a tritiated polyethylene glycol-900 solution to fully permeate developing cotyledons (from ~220 milligram fresh weight embryos), implying high diffusion resistance through the tissue.

These results indicate that a high interfacial sucrose concentration may exist in vivo. They suggest that the saturable carrier-mediated component of sucrose uptake may be of little physiological significance in the outermost cell layers of the cotyledons.

     

Sulphate can induce differential expression of thioglucoside glucohydrolases (myrosinases)

Thioglucoside glucohydrolase (EC 3.2.3.1; myrosinase) hydrolyses glucosinolates and thereby liberates glucose and sulphur and nitrogen compounds. To examine the hypothesis that the myrosinase-glucosinolate system is influenced by environmental factors, the effect of sulphate on the expression of myrosinases was examined. On examining different plant organs at various stages, it was observed that sulphate induces a differential expression of myrosinase polypeptides in plants ofSinapis alba L. (white mustard). Specific myrosinase polypeptides, dependent on sulphate in the growth medium, were detected on immunoblots. Without sulphate a maximum of three polypeptides was detected in buds, two in cotyledons and one in stems and roots. In plants cultured on medium with sulphate up to four polypeptides could be observed in cotyledons, five polypeptides in buds, two in stems and one in roots. Expression of myrosinases was, in general, high in plants cultured on a medium supplemented with sulphate. In floweringS. alba plants, sulphate-starved plants showed a higher expression of myrosinase in cotyledons and stems compared to plants fed with sulphate. Sulphate-fed plants had a high expression in inflorescences and roots. The organ- and time-specific induction of the myrosinase expression is discussed in relation to sulphate metabolism and availability of sulphate under normal conditions of cultivation and in relation to protection of Brassicaceae species. This is the first evidence for a specific induction of individual myrosinase proteins.     

UV-microscopic studies on the vacuolar changes caused by the flavone “aglycone” isovitexin inSilene pratensis plants

Summary UV-microscopic and chromatographic studies have been performed on the variation in contents and configuration of the flavones present in epidermal cells of the petals, stem leaves, rosette leaves and cotyledons ofSilene pratensis plants. Most of the flavone contents is located in the vacuole of the upper epidermis cells, the concentration depending on the light intensity at which the plants were grown. In plants able to glycosylate isovitexin in the petals (genotypegG/. gl/gl fg/fg, accumulating isovitexin 7-O-glucoside) the vacuole is completely filled with the UV absorbing flavone. In plants which are unable to glycosylate isovitexin in their petals (genotypeg/g gl/gl fg/fg, accumulating only isovitexin) the upper epidermal cells of stem leaves and petals contain droplet like structures in their vacuoles. At high light intensities these structures increase in mass and become detectable in the visible light. These denser structures often condense to structures with radiating threads.As compared with the accumulation of isovitexin in upper epidermal cells of stem leaves and petals in genotypeg/g gl/gl fg/fg, the cotyledons and the rosette leaves contain two isovitexin glycosides. In the latter organs the upper epidermal cells are very similar to the upper epidermal cells fromgG/. gl/gl fg/fg plants, having a vacuole filled with UV absorbing material. It appears therefore that isovitexin itself causes the formation of the structurés in the cells. It was shown by varying the light intensity that a relative high concentration of isovitexin is necessary for the droplet like structures to appear. Still higher concentrations are needed for the formation of the structures with radiating threads. It is hypothesized that isovitexin interferes with the energy supply of the cells, which therefore are not able to maintain their turgor.     

Growth and Protein Pattern in Cowpea Seedlings Subjected to Salinity

Cowpea (Vigna unguiculata) seeds were put to germinate on filter paper under control (distilled water) and salt stress (100 mM MaCl) conditions. Seeds and seedlings were classified in eight developmental stages (DS), according to their morphological traits. Under control conditions, 7 d after planting, 100 % of the seedlings reached DS VIII (seedlings with radicles measuring more than 5 cm, cotyledons leaving the filter paper, hypocotyls straight and cotyledonary leaves fully open) and under NaCl stress conditions, 11 d after planting only 68 % of the seedlings were at DS VIII. The length of the main root and of shoot has decreased 23 and 44 %, respectively. The two-dimensional electrophoretic patterns of the albumins isolated from stems and leaves were determined in seedlings at DS VIII. In stems 19 proteins (14.6 to 76.3 kDa) had their relative concentration increased by salinity, 8 (31.2 to 65.0 kDa) had their relative concentration decreased by salinity and 9 (16.3 to 39.8 kDa) were apparently synthesised de novo. In leaves, under salt conditions 9 proteins (18.2 to 33.2 kDa) increased in concentration, one (17.1 kDa) decreased in concentration and one (21.2 kDa) was apparently synthesised de novo. This revised version was published online in July 2006 with corrections to the Cover Date.     

A comparative analysis of developmental profiles for DNA methylation in 5-azacytidine-induced early-flowering flax lines and their control

Earlier experiments demonstrated that DNA from young plants of 5-azacytidine-induced flax (Linum usitatissimum) lines that flower earlier-than-normal is hypomethylated relative to DNA from their control lines and detected differences in methylation level between plants sampled at different ages, which suggested that the methylation level in flax changes during development. To investigate this possibility, and its potential impact on the difference in methylation level between early-flowering and control lines, developmental profiles were established for the cytosine methylation levels in DNA from post-germination seedlings and from the shoot tips of main stems and the cotyledons sampled throughout vegetative phase. The methylation profiles for two early-flowering lines and their control lines were compared. The methylation profiles were then compared to profiles for DNA content, tissue weight and chlorophyll content (green tissues); these additional parameters provided information on tissue status in terms of cell division, tissue expansion and/or photosynthetic maturity. With one exception, methylation levels were either static or increased with plant age and/or tissue maturity; the highest methylation levels were seen in senescent cotyledons. Although DNA from immature plants or tissues of the early-flowering lines was usually hypomethylated, the hypomethylation was not always apparent in tissues from older plants.     

Oscillations of Leaves of Abutilon theophrasti (Velvetleaf) and their Sensitivity to Bentazon in Relation to Low and High Humidity

The upper leaf surfaces of velvetleaf (Abutilon theophrasti Medic.) contain trichomes which facilitate the adhesion of droplets of solution, even when the leaves are oriented in a vertical (night) position. Leaves of plants subjected to conditions of high relative humidity were more injured by bentazon (3-isopropyl-1H-2,1,3-benzothiadiazin-4(3H)-one 2,2-dioxide) than leaves under low soil moisture and relative humidity. Although a significant 24-h oscillation in the sensitivity of leaves to bentazon was sometimes evident under both high and low humidity conditions, it was definitely more evident in the latter. Generally, the second leaves of plants in the three leaf stage were more consistent for displaying oscillations in sensitivity than the first. The youngest leaves were the most sensitive to bentazon but generally did not display pronounced daily oscillations. The abscission of cotyledons appeared to have possible merit as a bioassay for monitoring leaf injury.     

Hormone-mediated regulative action of the sunflower shoot apex on growth and cation level in the cotyledons: an additional manifestation of apical control

Decapitation of the shoot apex of seedlings of Helianthus annuus Lin. above the cotyledonary node brought about promotion of growth in the cotyledons. Potassium level in the cotyledons of decapitated plants was higher, and that of sodium lower, than in those of intact plants. IAA applied to the cut stem surface imitated the effects of the apex. Application of kinetin to the cotyledons antagonized the apex or the auxin in their influence on growth and cation level. Labeled IAA applied to the cut stem surface penetrated into the cotyledons in significant amounts. It was concluded that growth and monovalent cation level in the cotyledons are regulated by auxin released from the shoot apex and that at least part of the auxin effect is exerted directly in the cotyledons. A function of the apex as a sink for cytokinins may also be involved in the control mechanism.     

Physiology of Polyploid Plants: Water Balance in Autotetraploid and Diploid Tomato under Low and High Salinity

Diploid and autotetraploid plants of the cultivated tomato Lycopersicon esculentum cv. Lukullus (Luk) were studied under low and high salinity. Polyploids had a higher water content than diploid plants. Water content in both plant types decreased under salinity, the decrease being smaller in the polyploid plants. Dry weight of whole young plants decreased in both diploid and polyploid plants under salinity, the decrease being smaller in the latter. Transpiration of whole plants, grown in control solution, was lower in polyploid than in diploid plants and decreased more under salinity in the latter. Rate of change of water loss of detached drying leaves was similar in diploid and polyploid plants. Leaves of control diploid plants, however, lost more water per unit leaf area during the phase of stomatal closure apparently due to higher stomatal density. Polyploid plants had fewer but more open stomata per unit leaf area, under both control and saline conditions. Root pressure, determined only under control conditions, seemed to be higher in polyploid plants. No difference in Cl^? concentration per unit leaf dry weight was found between diploid and polyploid plants grown in either control or NaCl solution.     

Properties and synthesis de novo of auxin-induced α-amylase in pea cotyledons

Analysis of starch-degrading enzymes in a crude extract of detached cotyledons of Pisum sativum L. by polyacrylamide gel electrophoresis (PAGE) demonstrated the presence of one band of -amylase (EC 3.2.1.1) activity. The activity of only this amylase was promoted in cotyledons incubated with 2,4-dichlorophenoxyacetic acid (2,4-D). The auxin-induced -amylase from pea cotyledons was purified to homogeneity, as judged by the criterion of a single band after PAGE. The relative molecular mass (M_r), estimated by gel filtration, was approx. 42 000 and the enzyme contained no carbohydrate moiety. Sodium dodecylsulfate-PAGE yielded a single band that corresponded to an M_r of 41 000. The isoelectric point was 5.85 and the aminoacid composition was similar to that of -amylase from other plants. When [³H]leucine was fed to detached dry cotyledons prior to incubation, the radioactivity in -amylase from cotyledons incubated in the presence of 2,4-D was found to be approx. 10-fold higher than that from cotyledons incubated in distilled water. When -amylase from cotyledons incubated with ²H₂O that contained 2,4-D and the tritiated amylase were centrifuged together in a CsCl density gradient, the peak of enzymatic activity of deuterated -amylase was shifted to a denser fraction than the peak of radioactivity of the tritiated enzyme. These results show that auxin-induced -amylase in pea cotyledons is synthesized de novo.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - M_r relative molecular mass - PAGE polyacrylamide gel electrophoresis - PAS periodic acid-Schiff - pI isoelectric point - SDS sodium dodecyl sulfate We are very grateful to Mr. Kazuo Itoh and Mrs. Matsumi Doe for carrying out the analysis of amino-acid composition.     

Effect of elevated CO2 concentration on acclimation of tobacco plantlets to ex vitro conditions

Nicotiana tabacum L. plants grown in vitro were transferred to ex vitro conditions and grown for 28 d in a greenhouse under normal CO2 concentration (C, 330 mol mol^-1) or elevated CO2 concentration (E, 1000 mol mol^-1). Stomatal conductances of abaxial and adaxial epidermes measured under optimal conditions were not significantly affected by growth under E, but the stomatal regulation of gas exchange was better. Leaf photosynthetic rate (A) of elevated CO2 plants was similar to that of control plants when both were measured under normal CO2, but higher when both were measured under elevated CO2. The A of elevated CO2 plants was much higher than the A of control plants when measured under their respective growth CO2 concentration, which resulted in their higher growth rate. Chlorophyll a and b contents, and activities of whole electron transport chain and of photosystem (PS) II were not markedly affected by growth under E, and the maximum efficiency of PSII measured as the ratio of variable to maximum fluorescence was even slightly increased. Hence no down-regulation of photosynthesis occurred in transplanted plants grown for 4 weeks under E. The contents of -carotene and of xanthophyll cycle pigments (violaxanthin + antheraxanthin + zeaxanthin) were lower in E plants. The degree of de-epoxidation of xanthophyll cycle pigments was not changed or was even lower after transfer to ex vitro conditions, which indicated that no photoinhibition occurred. Therefore, CO2 enrichment can improve acclimation of in vitro-grown plantlets to ex vitro conditions.Keywords: Carotenoids, chlorophyll content and fluorescence, Nicotiana tabacum stomatal conductance      

Gravitropism of hypocotyls of wild-type and starch-deficient Arabidopsis seedlings in spaceflight studies

The major purpose of this spaceflight project was to investigate the starch-statolith hypothesis for gravity perception, and a secondary goal was to study plant growth and development under spaceflight conditions. This research was based on our ground studies of gravity perception in the wild type and three starch-deficient (one starchless and two reduced starch) mutants of Arabidopsis thaliana (L.) Heynh. Dark-grown seedlings that developed in microgravity were given one of several (30 min, 60 min, or 90 min) 1-g stimuli by an on-board centrifuge, and additional controls for seedling development also were performed. These latter control experiments included a morphological study of plants that developed in space in microgravity (F μg), in space on a centrifuge (F 1g), on the ground (G 1g), and on a rotating clinostat on the ground. Since elevated levels of ethylene were reported in the spacecraft atmosphere, additional controls for morphology and gravitropism with added ethylene also were performed. While exogenous ethylene reduced the absolute magnitude of the response in all four strains of Arabidopsis, this gas did not appear to change the relative graviresponsiveness among the strains. The relative response of hypocotyls of microgravity-grown seedlings to the stimuli provided by the in-flight centrifuge was: wild type > starch-deficient mutants. Although the protoplast pressure model for gravity perception cannot be excluded, these results are consistent with a statolith-based model for perception in plants. Received: 12 February 1999 / Accepted: 9 March 1999