Improving the Mineral Nutrition in Grafted Watermelon Plants: Nitrogen Metabolism

Watermelon (Citrullus lanatus [Trumb.] Mansfeld cv. Early Star), was used as scion grafted onto three cultivars of pumpkin (Cucurbita pepo L. cvs. Brava, Shintoza and Kamel) used as rootstocks and ungrafted Early Star plants were used as control. The rootstocks showed a high capacity for N uptake and transport to the scion where N reduction and assimilation improved growth of the scion in grafted plants with respect to the control.     

光质对水稻幼苗蛋白质、氨基酸含量的影响

蓝光对水稻幼苗可溶性蛋白积累的促进效应,在幼苗生长的初期比较明显;第５天,幼苗的可溶性蛋白质、蛋白氮、非蛋白氮以及Ａｓｐ、Ａｓｎ、Ｇｌｕ、Ｇｌｎ等游离氨基酸含量都远远高于白光或红光的处理。随着苗龄的增加,蓝光的促进作用减弱,到第１７天,各项指标都低于白光处理的幼苗。红光处理的幼苗可溶性蛋白始终低于白光或蓝光的处理,其Ａｓｎ、Ｇｌｎ两种酰胺含量在第１０天以后明显高于同期的白光或蓝光的处理。     

Effect of Choline Chloride on the Lipid Content and Composition in the Leaves of Principal Magnetically-Oriented Radish Types

The effects of radish seed treatment with choline chloride on the number and weight of leaves, the weight of roots, as well as the content and composition of polar and neutral lipids and their component fatty acids in the leaves of principal magnetically-oriented types (MOTs) of radish (cv. Rosovo-krasnyi s belym konchikom), that is, North–South (NS) and West–East (WE) ones, were investigated. It was shown that seed treatment with 1% choline chloride increased the proportion of WE MOT in plant population. In spring and in autumn, this treatment increased the weight of roots of the NS MOT plants, but did not affect this index in the WE MOT plants. In the spring NS MOT plants, choline chloride treatment did not change the absolute content of polar lipids as compared to the control, but in autumn, this index increased. Meanwhile, in the WE MOT plants, it increased in spring and did not change in autumn. In the spring NS MOT plants, the content of neutral lipids increased, but in the autumn plants, it did not change. At the same time, in the WE MOT plants, this index decreased both in spring and in autumn. Seed treatment with choline chloride resulted in a substantial increase in the total content of phospholipids, in particular, that of phosphatidylcholine and phosphatidylethanolamine, in the NS and WE MOT plants sampled both in spring and in autumn. In addition, the ratio of unsaturated to saturated fatty acids, as well as that of linolenic to linoleic fatty acids, somewhat increased in the NS MOT leaf lipids, but decreased in the WE MOT ones. Presowing treatment of radish seeds with choline chloride variously and sometimes oppositely affected the content and composition in the NS and WE MOT leaf lipids. This seems to be caused by different response of these MOTs to the environmental factors.     

Anaerobic Amino Acid Metabolism

Anoxic stress induces a strong change in sugar, protein, and amino acid metabolism in higher plants. Sugars are rapidly consumed through the anaerobic glycolysis to sustain energy production. Protein degradation under anoxia is a mechanism to release free amino acids contributing in this way to maintaining the osmotic potential of the tissue under stress. Among free amino acids, a particular role is played by glutamic acid, being a precursor of some characteristic compounds of the anaerobic metabolism (alanine, -aminobutyric acid, and putrescine). The glutamine synthetase/glutamate synthase cycle contributes to ammonia reassimilation and primary assimilation of nitrate, and resynthesizes constantly glutamate for the synthesis of other compounds. Some polypeptides involved in these pathways are expressed under anoxia. The importance of amino acid metabolism for the response to anaerobic stress is discussed.     

Changes in Nitrogen Metabolism of Vigna Radiata in Response to Elevated CO2

With the aim to determine the effects of CO₂ on nitrogen metabolism mungbean (Vigna radiata) plants were grown from seedling emergence to maturity inside open top chambers under ambient CO₂ (CA, 350 ± 25 µmol mol^–1) and elevated CO₂ (CE, 600 ± 50 µmol mol^–1) concentrations at the Indian Agricultural Research Institute, New Delhi. Leaflet blades of the same physiological age were sampled at 20, 35 and 50 d after germination. Total nitrogen concentration in dry mass was consistently lower under CE than in CA. Non-protein nitrogen and protein nitrogen were also decreased under CE Total soluble protein content also decreased up to 35 d after germination under CE. However, a 27 % increase in protein content at 50 d after germination due to CE was observed. A significant decrease in total free amino acid under CE at 20 d after germination was observed. CE also brought about a remarkable decrease in the activity of nitrate reductase in leaves at 20 d after germination but increase at 35 d and 50 d after germination. Nitrogenase activity increased at all growth stages due to CE. Although total harvested leaves of CE plants accumulated more nitrogen, the relative amount of nitrogen on a percentage basis was low, probably due to a comparatively greater accumulation of sugars in the leaves of CE plants.     

Temporal Pattern of Photosynthesis under Continuous Illumination of Radish Plants

Changes in photosynthetic activity, redox state of photosystem I (PSI) and photosystem II (PSII), as well as starch and sucrose content were studied on the source leaves of 18- to 20-day-old radish (Raphanus sativus L.) plants that were dark-adapted for 12 h and then exposed to continuous white light (170 mol quanta/(m² s)). The kinetic pattern of photosynthetic activity comprised three phases. Within the first 6 h of light adaptation (first phase), the maximum photosynthetic rate and the quantum yield of photosynthesis increased 1.6 times in the illuminated leaves compared to the leaves of plants placed in darkness. Further illumination led to the decrease of both photosynthetic indices by about 20% (12 h after the onset of light exposure, second phase) and finally increased them to the level observed after 6-h light exposure (72 h, third phase). The stationary photooxidation level of PSI primary donor was relatively low within the first 6 h of light adaptation, and then it steeply increased. The linear relationship between the amounts of photoreduced PSII primary acceptor and photooxidized PSI primary donor did not change during prolonged light adaptation, showing a highly coordinated functioning of both photosystems. The amount of sucrose in leaves attained its peak after 12 h of light adaptation and did not change further on. The starch content increased to its peak within 24 h of illumination and decreased gradually upon longer exposures. It is concluded that, despite active export of assimilates to the developing storage organ, the source leaves exhibit a nonmonotonic temporal course of endogenously regulated photosynthetic activity, which was related to changes in the effectiveness and, possibly, the number of the components of photosynthetic apparatus.     

Effect of sulfur on nitrate reductase and ATP sulfurylase Activities in groundnut (Arachis hypogea L.)

Field experiments were conducted to determine the effect of sulfur (S) and Nitrogen (N) on nitrate reductase (NR) and ATP-sulfurylase activities in groundnut cultivars (Arachis hypogea L. cv. Ambar and Kaushal). Two combinations of S (in kg ha^-1): OS (-S) and 20S (+S) were used with 20 kg ha^-1 N. The application of S enhanced the NR and ATP-sulfurylase activities in both the cultivars at all the growth stages. The application of S also increased soluble protein and chlorophyll content in the all growth stages of both the cultivars. NR and ATP-sulfurylase activities in the leaves were measured at various growth stages as the two enzymes catalyze the rate limiting steps of the assimilatory pathways of nitrate and sulfate, respectively.     

Nitrogen metabolism of Plantago major ssp. major as dependent on the supply of mineral nutrients

Various aspects of the nitrogen metabolism of Plantago major L. ssp. major , a grassland species from a relatively nutrient-rich habitat, were investigated with plants that were grown in nutrient-rich and nutrient-poor culture solutions. In addition the influence of a change in the nutrient supply, both from high to low and from low to high nutrient conditions was studied. The data on P. major major showed that the activities of nitrate reductase (NR) and the reduced nitrogen content were all rather independent of the nutrient supply. These findings are in contrast with those of P. lanceolata , a grassland species from a relatively nutrient-poor habitat, where both the activities of NR, GDH and GS and the reduced nitrogen content were correlated with the level of the nutrient supply. The rigidity of the nitrogen metabolism of P. major major may be of advantage if the nutrient supply is limited only for relatively short periods.     

LED不同光质对萝卜愈伤组织诱导、增殖和萝卜硫素含量的影响

以白水萝卜无菌苗及其愈伤组织为实验材料,研究其在LED白、红、黄、蓝、绿和蓝红6种光质下的愈伤诱导和增殖。结果表明：LED不同光质下胚轴愈伤组织的诱导效应不同,诱导率顺序依次为黄光〉红光〉蓝红光〉白光〉蓝光〉绿光;蓝光、黄光和红光有利于子叶愈伤组织的诱导;子叶诱导愈伤组织的效果较下胚轴好;LED红光下愈伤组织的增殖倍数和萝卜硫素含量均为最高。     

光质对水稻幼苗初级氮同化的影响

用滤光膜过滤蓝色或红色荧光灯,得到纯的蓝光和红光,以白光为对照,研究不同光质对水稻（Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．）幼苗初级氮同化的影响。结果表明：蓝光促进水稻黄化幼苗吸收ＮＯ＾－３含量,并促进ＮＲ（硝酸还原酶）的诱导。在蓝光下生长５￣７ｄ的幼苗的ＮＲ、ＮＩＲ（亚硝酸还原酶）、ＧＳ（谷氨酰胺合成酶）和ＧＯＧＡＴ（谷氨酸合酶）活性均高于白光下生长的,但第１０天以后,白光下生长的幼苗酶活性最高。与白光     

蓝光对水稻幼苗碳水化合物和蛋白质代谢的调节

分别以白光和黑暗处理为对照,蓝光处理１０ｄ的水稻幼苗碳水化合物含量下降,蛋白质含量增加,亚胺环已酮可抑制蓝光引起的蛋白质含量增加。蓝光处理的水稻幼苗总氨基酸含量比白光和黑暗处理分别提高１２％和３６％,游离态Ｇｌｕ、Ａｓｐ含量也比对照增加。蓝光处理促进水稻幼苗的呼吸作用,对丙酮酸激酶、硝酸还原酶、谷氨酰胺合成酶、谷氨酸合酶和转氨酶的活性表现出一致的促进效应。     

支链氨基酸对运动大鼠氨基酸代谢和运动能力的影响

观察了支链氨基酸(BCAA)对大鼠运动能力和血清游离氨基酸代谢的影响。实验用21只雄性wistar大鼠,随机分为3组:正常组、游泳对照组和游泳补充BCAA组。2个运动组每天游泳训练1h,10天后游泳6h,观察补充BCAA对大鼠游泳运动能力和血清游离氨基酸水平的影响。实验结果表明,补充BCAA可明显提高大鼠游泳存活率,抑制血清中必需氨基酸、非必需氨基酸和总氨基酸水平升高,游泳运动后大鼠的血清中乳酸和LDH的升高幅度有所降低,抑制骨骼肌LDH活力的下降。说明补充BCAA可明显提高大鼠的运动能力,减少运动造成的蛋白质分解     

Influence of Triadimefon on the Metabolism of NaCl Stressed Radish

The effect of triadimefon (TDM) on various biochemical parameters was studied in NaCl stressed radish (Raphanus sativus L.). Stress imposed by 80 mM NaCl decreased the protein content and proline oxidase activity, and increased the proline and glycine betaine contents, and protease, -glutamyl kinase and ATPase activities. The TDM treatment alleviated the stress by increasing protein, and glycine betaine contents, and by decreasing proline accumulation, and proline oxidase and ATPase activities.     

Nitrate reductase in cotyledons of cucumber seedlings as affected by nitrate, phytochrome and calcium

Regulation by the active form of phytochrome (P_FR) and the effect of Ca²⁺ was examined with nitrate reductase (NR) in etiolated cucumber ( Cucumis sativus cv. Beilpuig). Nitrate reductase activity (NRA) was studied in excised cotyledons of cucumber seedlings grown in distilled water and in darkness for seven days at 24 ± 0.5°C. All experiments were performed in the dark and a dim green safelight was used during analyses. In etiolated cucumber cotyledons NRA was induced by nitrate and a brief irradiation (15 min) with red light (R) resulted in 62% increase in NRA. This effect was nullified when R was followed immediately by a brief (5 min) far-red light (FR). NRA also showed a semidian (12 h) rhythmicity. Both P_FR, and nitrate effects were age dependent. Calcium seemed to be involved since the phytochrome effect was only observed when calcium was supplied in the external solution. The effect of R on NRA depended on the period of calcium nitrate incubation. An external supply of calcium ionophore mimicked the effect of R and, if supplied to R-irradiated cotyledons, produced a higher NR level than that caused by R alone. This suggested that intracellular free calcium was involved.     

Equilibrium Dialysis Measurements of the Ca2+-Binding Properties of Recombinant Radish Vacuolar Ca2+-Binding Protein Expressed in Escherichia coli

Vacuoles of radish (Raphanus sativus) contained a Ca²⁺-binding protein (RVCaB) of 43 kDa. We investigated the Ca²⁺-binding properties of the protein. RVCaB was expressed in Escherichia coli and was purified from an extract by ion-exchange chromatography, nitrocellulose membrane filtration, and gel-filtration column chromatography. Ca²⁺-binding properties of the recombinant protein were examined by equilibrium dialysis with ⁴⁵Ca²⁺ and small dialysis buttons. The protein was estimated to bind 19Ca²⁺ ions per molecule with a K _d for Ca²⁺ of 3.4 mM. Ca²⁺ was bound to the protein even in the presence of high concentrations of Mg²⁺ or K⁺. The results suggested that the protein bound Ca²⁺ with high ion selectivity, high capacity, and low affinity.     

不同抽薹性不结球白菜抽薹过程中碳氮指标的分析

以抽薹性不同的不结球白菜自交系为材料,研究了抽薹前后6个发育阶段叶片中碳水化合物、可溶性蛋白质、游离氨基酸含量的变化。结果表明,可溶性总糖、蔗糖、淀粉含量在花芽分化时不断升高,分化完成后下降,抽薹时又有所升高;还原糖仅在花芽分化中期升高;三个自交系相比,晚抽薹自交系08-1P-89在花芽分化时糖含量最高;可溶性蛋白质和游离氨基酸变化趋势与可溶性总糖基本一致,但游离氨基酸含量在抽薹时明显下降,整个过程中晚抽薹自交系含量都最高;在花芽分化过程和抽薹期,碳氮比呈升高趋势。     

Biosynthesis of acyclic and cyclic carotenoids in higher plants and the control by phytochrome

Radish plants ( Raphanus sativus L. cv. Saxa treib) were grown in the presence of three different herbicides interfering with the biosynthesis of cyclic carotenoids. The herbicides caused an accumulation of acyclic biosynthetic intermediates. Plants were then irradiated using four different light programs in order to gain more insight into the first steps of carotenoid biosynthesis and their control by light and phytochrome. Plants grown in the dark in the presence of SAN 6706 or aminotriazole accumulated the acyclic intermediate phytoene, and those treated with J 852, the intermediates phytoene, phytofluene and zeta-carotene. In herbicide-treated plants short time irradiation with red light enhanced the formation of phytoene, phytofluene, zeta-carotene or lycopene, consistent with an effect of phytochrome on the early steps of carotenoid biosynthesis. Biosynthesis of cyclic carotenoids was also enhanced by red light in the untreated controls. In amitrole-treated plants formation of β-carotene, but not that of xanthophylls was stimulated by red light. In many cases neither the red light-induced biosynthesis of cyclic carotenoids nor the formation of acyclic intermediates could be prevented by a subsequent irradiation with far-red light. Similar enhancement as with red light was also obtained after treatment with far-red light only. Presented data may be taken as evidence that the biosynthesis and dehydrogenation of phytoene and the cyclization of lycopene are activated by a low threshold of active phytochrome. This may be further supported by the observation that far-red light itself stimulated carotenoid biosynthesis.