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1.
《Communications in Soil Science and Plant Analysis》2012,43(9-10):981-991
Abstract Factors affecting the in vivo nitrate reductase (NR) assay were investigated in order to optimize the assay conditions for various tissues of MM 106 apple trees. The addition of nitrate and phosphate to the assay medium significantly increased nitrate reductase activity (NRA), but high concentrations of nitrate and phosphate inhibited the NRA. The optimum concentrations of nitrate and phosphate for in vivo NRA ranged from SO to 100 mM and were tissue‐specific. The optimum pH of the assay medium was 7.5. The addition of 2% (v/v) n‐propanol to the assay medium stimulated NRA, but concentrations of n‐propanol greater than 2% significantly decreased the NRA. Vacuum infiltration was effective in stimulating NRA. The in vivo NR assays for leaves and stems were linear for at least 60 minutes following an initial 30 minute lag, whereas there was no lag phase in root tissues. 相似文献
2.
Nitrate reductase activity (NRA; EC 1.6.6.1) was measured in leaves, stems and roots of Pisum sativum cv. Lincoln supplied with different nitrate concentrations and inoculated with selected Rhizobium leguminosarum strains. As a control, noninoculated plants were grown in the same nutrient medium. NRA was determined by an in vivo‐nitrate assay. Although differences in tissue NRA were mainly related to nitrate concentration in the growing medium, nodulation much affected the NRA in the different plant organs, especially in root. An increased proportion of total plant NRA occurred in the leaves and stems as nitrate concentration was increased. Nitrate accumulation in leaves, stems and roots was correlated with the concentration of this ion in the nutrient solution. Nodulation also affects the nitrate accumulation in the different plant organs. 相似文献
3.
Nitrate reductase activity (NRA) was determined to investigate the effect of salinity and nitrogen (N) interactions on alfalfa [Medicago sativa (L) cv. Gilboa] during its vegetative growth. Increasing levels of sodium chloride (NaCl) (0, 30, 65, and 100 mM) decreased NRA in both plant parts, i.e., root and leaf, however to a lesser extent in leaves. The inclusion of Neither as nitrate (NO3) or ammonium (NH4) (0, 3, and 6 mM) to the nutrient medium resulted in a substantial enhancement of NR activity in salinized and non‐salinized plants as well. 相似文献
4.
The combined effects of NaCl and N nutrition (NO3 ‐ and NH4 ++NO3 ‐) on nitrate reductase activity (NRA) in intact tomato (Lvcopersicum esculentum) and cucumber (Cucumis sativus) seedlings were studied. NRA decreased in leaves of both plant species as salinity increased. Within each salinity level, NRA increased with the external NO3 ‐ concentration. An interference of C1‐ on NO3 ‐ uptake was observed. Based on these results, it appears that the NRA was affected directly by the presence of excessive NaCl in the root media at least in two ways, by either interfering with the uptake of NO3 ‐ by roots, or by inhibiting the transport of NO3 ‐ from vacuole to cytosol. The effects were accentuated by the presence of NH4 + as N source. 相似文献
5.
Supply of 0.1 mM sodium selenite (Na2SeO3 to excised maize leaf segments during greening reduced total chorophylls and inhibited in vivo nitrate reductase activity (NRA). Inhibition of chlorophyll formation by selenite was affected by ammonium but remained unaltered by nitrate. Selenite also inhibited NADH-glutamate dehydrogenase (NADH-GDH) and NADH-glutamate synthase (NADH-GOGAT) activities. Inclusion of ammonium enhanced the inhibition of NADH-GDH activity by selenite but decreased the inhibition of NADH-GOGAT activity by selenite. The results suggest the involvement of the glutamine synthetase/glutamate synthase (GS/GOGAT) pathway of ammonia assimilation in selenite toxicity during chlorophyll formation in greening maize leaf segments. 相似文献
6.
We examined the effects of high concentrations (4, 8, or 16 mM) of nitrate (NO3) and ammonium (NH4) on water relations and growth of trembling aspen seedlings in solution culture. In contrast to 16 mM ammonium, after four weeks of treatments, the 16 mM nitrate treatment resulted in the highest growth rates, root hydraulic conductivity and aquaporin-mediated root water flux. At lower (4 and 8 mM) ammonium concentrations, seedling growth and water relations were comparable to equivalent nitrate concentrations. When after the four weeks of treatments, ammonium concentrations were reduced by 50% (to 2, 4 and 8 mM) for additional 4 weeks, slight increases in seedling growth and water relations as well as decreases in mortality were observed indicating that aspen seedlings were capable of recovery from higher ammonium concentrations. The results indicate that aspen seedlings are tolerant of high nitrate concentrations, but intolerant of high ammonium concentrations. The study also suggested that ammonium was not toxic to aspen seedlings at moderate concentrations and that the seedlings were capable of assimilating and utilizing both ammonium and nitrate as a nitrogen source. 相似文献
7.
钼对冬小麦硝态氮代谢的影响 总被引:8,自引:2,他引:8
采用全硝态氮霍格兰营养液为培养基质,在供应0(缺钼)、0.78(适钼)、2.74mol/L(高钼)3种钼浓度下培养小麦.,分期测定其体内NO3--N、NH4+-N、全N、吸氮量及硝酸还原酶活性.(NRA).,研究钼对小麦NO3--N代谢的影响。结果表明.,NRA受硝酸盐代谢库和贮存库之间的调节而不断变化.,但任何情况下钼对NRA都有明显影响。培养初期适钼处理NRA最高.,高钼次之.,缺钼最低.;培养后期由于缺钼处理的NO3--N浓度高于施钼处理.,NRA随之增至最高。植株内NH4+-N、NO3--N浓度之和在不同测定时间大致稳定.,NO3--N浓度高时则NH4+-N浓度低.,反之亦然.,两者之间存在一定的负相关关系。稳定情况与钼供应有关.,适钼条件下培养开始时高的NH4+-N与低的NO3--N浓度明显对应.,之后两者浓度接近.;缺钼条件下与此类似.,但NO3--N浓度变化不大.,NH4+-N、NO3--N浓度之和最高.;高钼条件下NH4+-N浓度一直高于NO3--N。作物由溶液吸收的NO3--N与作物的吸氮量一致.,适钼时最多.,高钼次之.,缺钼最少。从适钼时作物体内NH4+-N、NO3--N浓度之和最低.,而吸氮量又最高可以看出.,合适的钼供应不但有利于NO3--N的吸收和向NH4+-N转化.,也有利NH4+-N向有机氮转 相似文献
8.
9.
Silicon (Si)‐induced cadmium (Cd) tolerance in rice (Oryza sativa L.) was investigated by analyzing Cd uptake, growth, and physiological parameters. Silicon treatments (0.0, 0.2, or 0.6 mM) were added to 6 d–old seedlings, and Cd treatments (0.0 or 5.0 μM) were added to 20 d–old seedlings. Parameters determined included: maximum net CO2 assimilation (Amax), stomatal conductance (gsmax), and transpiration (Emax) rates at varying intercellular CO2 concentrations (Ci). Also measured were chlorophyll fluorescence, growth, and Cd‐uptake parameters. Results showed a Si‐induced inhibition of Cd uptake. However, 0.2 mM or 0.6 mM Si treatment concentrations did not differentially inhibit Cd uptake or differentially alleviate Cd‐induced growth inhibition, despite a significant increase in tissue Si concentration due to 0.6 mM Si treatment compared to 0.2 mM Si treatment. Additionally, photosynthesis and chlorophyll‐fluorescence analysis showed that treatment with Cd significantly inhibited photosynthetic efficiency. Interestingly, the addition of 0.2 mM Si, more so than the addition of 0.6 mM Si, significantly alleviated the inhibitory effects of Cd toxicity on photosynthesis and chlorophyll‐fluorescence parameters. Our results suggest that 0.2 mM Si could be close to an optimum Si‐dose requirement for the alleviation of toxicity symptoms mediated by moderate (5 μM) Cd exposure. 相似文献
10.
Kentucky bluegrass (Poapratensis L.) is a major C3‐type forage and turfgrass, but it is less efficient than many grasses in utilizing nitrogen(N). To determine how this grass can accommodate its greater N need, diurnal patterns of nitrate reductase activity (NRA) and nitrite reductase activity (NiRA) in its leaves and roots were examined and compared with those in barley (Hordeum vulgare L.). Plants were grown under greenhouse or growth room conditions and assayed for NRA and NiRA by optimized in vivo methods. The diurnal patterns of NRA and NiRA indicated that Kentucky bluegrass could assimilate nitrate during the night at rates greater than or similar to those during the day. Leaf NRA of Kentucky bluegrass was minimal approximately 4 and 10 h after illumination commenced and increased at night. The diurnal pattern of leaf NRA among Kentucky bluegrass cultivars did not differ significantly. In roots, NRA of Kentucky bluegrass was high in the morning and decreased sharply during the afternoon and evening, but increased again late at night. Unlike Kentucky bluegrass, barley exhibited greater leaf NRA during the day than during the night and exhibited the greatest activity 6 or 10 h after illumination commenced. In both species, the equilibrium leaf nitrate pool was 20 to 30 times larger than the ammonium pool and 3, 000 to 13, 000 times larger than the nitrite pool. Leaf nitrate pool size showed a diurnal pattern complementary to that of leaf NRA. Our results suggest that a nighttime N use strategy might exist in Kentucky bluegrass. 相似文献
11.
The effect of four concentrations (1.0, 0.1, 0.01, and 0.001 mM) of Cd on the rate of absorption of two sugars, glucose and fructose by the intestine of the fresh water cat fish, Heteropneustes fossilis has been studied after 1 h at 23 °C. Intestinal glucose and fructose transport was also assessed in fish exposed to a sublettral concentration (0.0023 mM) of Cd in the ambient water for 15 and 30 days. Control fish showed no marked difference in the rates of absorption of glucose and fructose. All four concentrations of Cd decreased the rate of transport of glucose and fructose significantly. Among the two sugars, decrease in the rate of transport of fructose was more marked than glucose. In fish exposed to Cd in the ambient water, reduction of glucose and fructose absorption was greater after 30 days of exposure than after 15 days. 相似文献
12.
Zujun Deng Wenfeng Wang Hongming Tan Lixiang Cao 《Water, air, and soil pollution》2012,223(8):5321-5329
A Cd-, Pb-, Zn-, Cu-resistant endophytic yeast CBSB78 was isolated from surface-sterilized rape roots. The isolate was identified as Cryptococcus sp. based on the ITS1?C5.8S?CITS2 sequence analysis. The strain was resistant to 20 mM Cd2+, 20 mM Pb2+, 10 mM Zn2+, and 7 mM Cu2+. The yeast CBSB78 was a low indole-3-acetic acid (IAA) producer and possessed low 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase activity. Overall, 29.4?C244 % of survival rates increased and the dry weight of Brassica alboglabra showed a 41.1 % increase when it was inoculated into the seedlings. The inoculation of CBSB78 could also increase the extraction amounts of Cd, Pb, and Zn by B. alboglabra simultaneously in the multi-metal contaminated soils, which showed the potential to improve extraction efficacy of Cd, Pb, Zn by B. alboglabra seedlings in the field. 相似文献
13.
Rai U. N. Gupta Meetu Tripathi R. D. Chandra P. 《Water, air, and soil pollution》1998,106(1-2):171-177
The study was conducted to evaluate the suitability of nitrate reductase activity and the level of some metabolites as an in vivo test system for cadmium toxicity in submerged macrophyte Hydrilla verticillata. Cadmium (Cd) concentrations ranging from 0.01-80 μM affected nitrate reductase activity in a differential way. It had stimulatory effect up to 1.0 μM Cd, while higher concentrations inhibited the enzyme activity significantly. The protein synthesis inhibitor cycloheximide inhibited Cd-stimulated nitrate reductase activity during in vivo and in vitro assays. However, the effect of Cd on NR activity under in vitro assay was more pronounced. Although low Cd exposures had no effect, higher metal exposures augmented nitrate uptake. This Cd-induced NO3 - uptake did not result in recovery of inhibited enzyme activity in vivo. It appears that nitrate reductase activity is more sensitive to Cd toxicity than the eventual products of nitrate assimilation such as total organic nitrogen and soluble proteins. There was a differential response of chlorophyll levels to Cd; lower concentrations enhanced the pigment level while higher ones reduced it. Cadmium exposure always enhanced the levels of carotenoids. Results showed that nitrate reductase activity could serve as an useful bioassay for Cd contamination using H. verticillata. 相似文献
14.
Summary Mature (flowering) tobacco (Nicotiana tabacum cv. PBD6, Nicotiana rustica cv. Brasilia) and maize (Zea mays cv. INRA 260) plants were grown in an acid sandy-clay soil, enriched to 5.4 mg Cd kg–1 dry weight soil with cadmium nitrate. The plants were grown in containers in the open air. No visible symptoms of Cd toxicity developed on plant shoots over the 2-month growing period. Dry-matter yields showed that while the Nicotiana spp. were unaffected by the Cd application the yield of Z. mays decreased by 21%. Cd accumulation and distribution in leaves, stems and roots were examined. In the control treatment (0.44 mg Cd kg–1 dry weight soil), plant Cd levels ranged from 0.4 to 6.8 mg kg–1 dry weight depending on plant species and plant parts. Soil Cd enrichment invariably increased the Cd concentrations in plant parts, which varied from 10.1 to 164 mg kg–1 dry weight. The maximum Cd concentrations occurred in the leaves of N. tabacum. In N. rustica 75% of the total Cd taken up by the plant was transported to the leaves, and 81% for N. tabacum irrespective of the Cd level in the soil. In contrast, the Cd concentrations in maize roots were almost five times higher than those in the leaves. More than 50% of the total Cd taken up by maize was retained in the roots at both soil Cd levels. The Cd level in N. tabacum leaves was 1.5 and 2 times higher at the low and high Cd soil level, respectively, than that in N. rustica leaves, but no significant difference was found in root Cd concentrations between the two Nicotiana spp.Cd bioavailability was calculated as the ratio of the Cd level in the control plants to that in the soil or as the ratio of the additional Cd taken up from cadmium nitrate to the amount of Cd applied. The results showed that the plant species used can be ranked in a decreasing order as follows: N. tabacum > N. rustica > Z. mays. 相似文献
15.
The effects of sulfur (S) nutrition at 0.1 or 1 mM S on cadmium (Cd) toxicity measured by photosynthesis in barley (Hordeum vulgare L. cv. UC 476) seedlings were studied. Eight‐day‐old seedlings were treated with 25 μM Cd by adding cadmium chloride (CdCl2) to the nutrient solution. Then photosynthetic carboxylation efficiency (ACi curve) and stomatal conductance of the primary and second leaves were measured at four and eight days after Cd treatment. Fluorescence parameters were measured every 24 h for eight days after two days of Cd treatment. At 20 days, plant growth parameters were measured and dry biomass determined. The results showed that ACi was significantly reduced by Cd, but more in the low (0.1 mM) S than in the high (1 mM) S‐treated plants. Stomatal conductance of plants was also decreased by Cd, but more in the low S‐treated plants. Low S‐treated plants exposed to Cd showed an increase in Fo and Fq, and a decrease in Fv/Fm and T1/2, indicating photoinhibitory damage to PSII. Analysis of the growth parameters showed that Cd decreased plant size and biomass, but the reduction was more severe in the low S‐treated plants. These results support the hypothesis that S is a critical nutritional factor in plants which is important for the reduction of Cd toxicity. 相似文献
16.
Nitrate levels and nitrate reductase activity (NRA) of the widely cultivated prickly‐pear Opuntia ficus‐indica were measured for 5‐year‐old orchard plants in the field between flowering and fruit ripening (May‐August) and for rooted cladodes (stem segments) in a glasshouse in pots that were supplied with 0.8,4, or 16 mM nitrate during the early growth of new cladodes (6 weeks). Nitrate levels were much higher in the cladodes than in the fruit peels or the roots; in both cladodes and fruit peels, nitrate levels were higher in the inner water‐storing layer (parenchyma) than in the outer green photosynthetic layer (chlorenchyma). NRA was confined to the cladode chlorenchyma and was higher in new cladodes than in the underlying cladodes. The orchard study suggested that the nitrate accumulated in 2‐ and 3‐year‐old cladodes served as a reserve for the growth of new organs. At the beginning of the reproductive season, such older cladodes had high nitrate levels of 7 mg/g DW in the chlorenchyma and 45 mg/g DW in the parenchyma, which decreased by 72% and 43%, respectively, by the end of the season. The glasshouse experiments indicated that the cladodes were more important for nitrate reduction than the roots, particularly under high external nitrate concentrations. 相似文献
17.
The use of chlorate as a nitrate analogue to screen soft red winter wheat (Triticum aestivum L.) cultivars for differences in nitrate reductase activity (NRA) was studied by adding potassium chlorate to a hydroponic nutrient solution in which wheat seedlings were growing. After 14 days, leaf symptoms indicating chlorate‐induced toxicity were rated. It was hypothesized that wheat plants which were susceptible to chlorate‐induced toxicity reduced chlorate and nitrate more rapidly than did resistant plants. In experiments testing the potential of this assay, wheat and barley (Hordeum vulgare L.) cultivars previously reported to have low NRA were less susceptible to chlorate‐induced toxicity than were cultivars reported to have high NRA. The assay was used to screen 15 soft red winter wheat cultivars for differences in sensitivity to chlorate‐induced toxicity. Variable toxic reactions were observed both among and within the cultivars. To determine whether the within‐cultivar variation was environmental or genetic, single plant selections for contrasting chlorate response were made, and bulked progeny were rescreened. In eight of 15 cultivars, the contrasting selections were different for chlorate‐induced toxic response, indicating heterogeneity for this trait within these eight cultivars. These chlorate‐selected lines may also be near‐isogenic lines for NRA. Seedling screening of wheat for chlorate response may be useful for identification of high NRA breeding lines. 相似文献
18.
不同浓度镉胁迫对玉米幼苗光合作用、脂质过氧化和抗氧化酶活性的影响 总被引:17,自引:0,他引:17
以玉米为材料,通过营养液培养试验,研究浓度为5~100 μmol/L的镉胁迫后不同时间内,植株体内活性氧代谢及其抗氧化酶活性的变化特征,探讨镉胁迫导致植物体内活性氧自由基累积的原因及不同程度镉胁迫对植物体内活性氧代谢的影响。随着加镉量的增加,玉米地上部生物量明显降低,而根部生物量未表现出差异。镉处理降低了叶片光合作用速率,高镉处理的影响较早。镉处理4d后,5、20、和100 mol/L Cd2+浓度处理玉米叶片Fv/Fm减小,PSII系统的原初光能转换效率下降,但比光合作用速率下降的时间要晚;镉处理7d的叶片中丙二醛(MDA)含量还没有受到明显影响,但20和100 μmol/L Cd2+处理4d后,根系膜质过氧化增强,MDA含量升高。随着镉浓度升高,处理时间延长,活性氧酶清除系统包括超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)和谷胱甘肽还原酶(GR)等酶活性明显增加,受到镉胁迫诱导,高浓度镉处理该现象出现更早。本文试验结果表明,镉胁迫下植物体内活性氧形成增多,诱导活性氧酶清除系统活性升高,其中一个重要原因是与CO2同化受到限制有关。 相似文献
19.
The optimum nitrogen requirement along with nitrogen uptake efficiency of finger millet (Eleusine coracana) for obtaining plants of a high phenotypic quality was studied in this research using hydroponic culture. 20 days old seedlings were transferred in nutrient solution containing all the essential macro and micro nutrients. Plants were subjected to three treatments of nitrate viz. 0.05 mM, 0.1 mM and 0.5 mM by dissolving it in the nutrient solution. Plants grown in nutrient solution devoid of nitrate were treated as control. Plants grown in 0.5 mM nitrate conc. attained more height compared to other low nitrogen treatments (0.1 mM and 0.05 mM). Similarly plants of 0.5 mM nitrate treatments possessed more number of lateral roots, surface area of leaves, dry weight of plants and chlorophyll content compared to other low nitrogen treatments. Specific activity of nitrate reductase in plants treated with 0.5 mM concentration was found nearly 3 times higher than that of control plants; similarly, specific activity of nitrite reductase in 0.5 mM treated plants was also high compared to other low nitrogen treatments followed by control. The results of the present investigation therefore indicate that nitrogen uptake efficiency as revealed by the activities of nitrate reductase and nitrite reductase was high in 0.5 mM nitrate treatment. It also shows that 0.5 mM nitrate is optimum nitrogen concentration for the growth of finger millet in hydroponic condition. 相似文献
20.
选用3个菠菜品种,设置N.0.1和0.3.g/kg2个施氮水平进行盆栽试验。在不同时期采样测定叶片内、外源硝酸还原酶活性、硝态氮代谢/贮存库大小,以及加入外源硝态氮培养后叶片硝酸还原酶活性的变化,探讨菠菜叶片的硝态氮还原与叶柄硝态氮含量的关系。结果表明,叶片内源硝酸还原酶活性、内源/外源硝酸还原酶活性比值、叶片的硝态氮代谢库大小及代谢/贮存库比值与叶柄硝态氮含量呈相反趋势。加入外源硝态氮培养后叶片硝酸还原酶活性的增加程度与叶柄硝态氮含量相一致。叶片内源硝酸还原酶活性高低及其发挥程度,叶片硝态氮代谢库大小及硝态氮在代谢、贮存库中的分配是造成品种间叶柄硝态氮含量高低差异的重要原因。 相似文献