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1.
The relation between N content and ribulose-l,5-bisphosphate(RuBP) carboxylase protein was examined in the 12th leaf bladeof rice. Plants were grown under different amounts of N afterthe emergence of the 12th leaf blade. RuBP carboxylase proteinincreased with leaf N during leaf expansion. The synthesis ofRuBP carboxylase predominated during this period, and changesin the amounts of carboxylase synthesized until leaf death paralleledchanges in the N influx to the leaves. When the carboxylasereached its maximum content, the proportion of RuBP carboxylaseto leaf N was 27 to 28% irrespective of N treatment. As theleaf senesced, however, this proportion differed significantlywith the treatment. It was higher in the N-deficient leaf thanin the N-sufficient leaf. This was due to different patternsof RuBP carboxylase degradation for the treatments during senescence.RuBP carboxylase was degraded actively during the early stageof senescence in the N-sufficient leaf, whereas its degradationproceeded almost constantly in the N-deficient leaf during senescence. (Received October 17, 1983; Accepted January 27, 1984)  相似文献   

2.
水稻生育过程中,RuBP羧化酶活性与光合速率、RuBP加氧酶活性与光呼吸速率、RuBP羧化酶活性与加氢酶活性以及光合速率与光呼吸速率之间是相关的。籼型品种与粳型品种间酶活性的高低及光合、光呼吸速率的高低基本一致,籼型三系杂交稻(F1)无明显的光合优势。酶的羧化活性的高低只在一定范围内与光合速率的高低平行。在正常生育条件下,酶蛋白的数量不是水稻光合速率的限制因子。  相似文献   

3.
Changes in the rates of gas exchange and the amount of ribulose1,5-bisphosphate (RuBP) carboxylase protein were determinedin the 12th leaf blades of rice during the reproductive stages.RuBP carboxylase exhibited a large change similar to that inthe assimilation rate at 2% O2 throughout the leaf's life, butits decrease during senescence was barely faster than the decreasein the assimilation rate. Consequently, the overall relationshipwas slightly curvilinear. By contrast, leaf conductance decreasedmore slowly than the assimilation rate which resulted in theintercellular CO2 concentration increasing during senescence. In order to determine the maximum activity of RuBP carboxylaseat the intercellular CO2 concentration, the kinetic parametersand their pH response were determined using purified, and completelyactivated, rice RuBP carboxylase. The maximum carboxylase activityat the intercellular CO2 concentration was linearly correlatedwith the assimilation rate at 2% O2 (r=0.989), and was veryclose to that needed to account for the assimilation rate. We conclude that changes in both the amount of RuBP carboxylaseprotein and leaf conductance reflect the change in photosynthesisduring the life span of the leaf. (Received November 26, 1983; Accepted February 20, 1984)  相似文献   

4.
水稻叶片的衰老与超氧物歧化酶活性及脂质过氧化作用的关系   总被引:102,自引:0,他引:102  
研究了从抽穗开花到籽粒成熟过程中,水稻植株顶部三片叶子的超氧物歧化酶(SOD),脂质过氧化产物丙二醛(MDA)含量及二磷酸核酮糖羧化酶活性的变化。实验结果表明:叶片的衰老伴随着 SOD 活性、RuBP 羧化酶活性及叶绿素含量的降低、丙二醛含量显著增高。分离了三个 SOD 的同工酶,证明为 Cu—Zn SOD。观察了 SOD 同工酶在叶片老化及酶液存放不同时间中的变化。讨论了叶片衰老过程中氧自由基对酶及质膜的损伤影响。  相似文献   

5.
Phosphoenolpyruvate (PEP) carboxylase (EC 4.1.1.31) and ribulose-1,5-bisphospate (RuBP) carboxylase (EC 4.1.1.39) activities in leaves of different maize hybrids grown under field conditions (high light intensity) and in a growth chamber (low light intensity) were determined. Light intensity and leaf age affected PEP carboxylase activity, whereas RuBP carboxylase was affected by leaf age only at low light intensity. PEP carboxylase/RuBP carboxylase activity ratio decreased according to light intensity and leaf age. Results demonstrate that Zea mays grown under field conditions is a typical C4 species in all leaves independently from their position on the stem, whereas it may be a C3 plant when it is grown in a growth chamber at low light intensityAbbreviations PEP phosphoenolpyruvate - RuBP ribulose-1,5-bisphosphate  相似文献   

6.
Determining the degradation characteristics of proteins is difficult due to the lack of appropriate methodologies, particularly in the case of leaf proteins. Previous studies suggest that ribulose bisphosphate carboxylase (RuBP carboxylase; EC 4.1.1.39) proteolysis may be fundamentally different in C3 and C4 plants. To test this hypothesis, the relative degradation rates of the total soluble protein, RuBP carboxylase and glycolate oxidase (EC 1.1.3.1) in the second leaves of intact C3 (Triticum aestivum L.) and C4 (Zea mays L) and Sorghum bicolor L.)plants was measured. The methodology utilized involved an efficient procedure to label the leaf proteins, the use of a double-labelling method to measure protein degradation and a single-step purification of the labelled proteins under study. RuBP carboxylase is subjected to continuous degradation in all plants investigated. Its rate of degradation is higher for Z. mays, intermediate for T. aestivum and lower for S. bicolor. When the rate of RuBP carboxylase degradation was compared with that of the total soluble protein a differential pattern was obtained for the plant species examined: whereas maize presents a faster rate of RuBP carboxylase degradation than of the total soluble protein, wheat and sorghum show similar rates. However, the rate of RuBP carboxylase proteolysis in the three plant species studied is much lower than the rate of glycolate oxidase degradation. The results obtained indicate that, under the conditions of study, the degradation characteristics of plant RuBP carboxylase, as those of glycolate oxidase, are species specific, in a way suggesting that they do not depend on the type of photosynthetic metabolism of the species considered (C3 or C4).  相似文献   

7.
Activity of ribulose 1,5-bisphosphate (RuBP) carboxylase in leaf extracts of the constitutive Crassulacean acid metabolism (CAM) plant Kalanchoe pinnata (Lam.) Pers. decreased with increasing leaf age, whereas the activity of phosphoenolpyruvate (PEP) carboxylase increased. Changes in enzyme activities were associated with changes in the amount of enzyme proteins as determined by immunochemical analysis, sucrose density gradient centrifugation, and SDS gel electrophoresis of leaf extracts. Young developing leaves of plants which received high amounts of NO 3 - during growth contained about 30% of the total soluble protein in the form of RuBP carboxylase; this value declined to about 17% in mature leaves. The level of PEP carboxylase in young leaves of plants at high NO 3 - was an estimated 1% of the total soluble protein and increased to approximately 10% in mature leaves, which showed maximum capacity for dark CO2 fixation. The growth of plants at low levels of NO 3 - decreased the content of soluble protein per unit leaf area as well as the extractable activity and the percentage contribution of both RUBP carboxylase and PEP carboxylase to total soluble leaf protein. There was no definite change in the ratio of RuBP carboxylase to PEP carboxylase activity with a varying supply of NO 3 - during growth. It has been suggested (e.g., Planta 144, 143–151, 1978) that a rhythmic pattern of synthesis and degradation of PEP carboxylase protein is involved in the regulation of -carboxylation during a day/night cycle in CAM. No such changes in the quantity of PEP carboxylase protein were observed in the leaves of Kalanchoe pinnata (Lam.) Pers. or in the leaves of the inducible CAM plant Mesembryanthemum crystallinum L.Abbreviations CAM Crassulacean acid metabolism - RuBP ribulose 1,5-bisphosphate - PEP phosphoenolpyruvate - G-6-P glucose-6-phosphate  相似文献   

8.
Makino A  Mae T  Ohira K 《Plant physiology》1983,73(4):1002-1007
Changes in photosynthesis and the ribulose 1,5-bisphosphate (RuBP) carboxylase level were examined in the 12th leaf blades of rice (Oryza sativa L.) grown under different N levels. Photosynthesis was determined using an open infrared gas analysis system. The level of RuBP carboxylase was measured by rocket immunoelectrophoresis. These changes were followed with respect to changes in the activities of RuBP carboxylase, ribulose 5-phosphate kinase, NADP-glyceraldehyde 3-phosphate dehydrogenase, and 3-phosphoglyceric acid kinase.

RuBP carboxylase activity was highly correlated with the net rate of photosynthesis (r = 0.968). Although high correlations between the activities of other enzymes and photosynthesis were also found, the activity per leaf of RuBP carboxylase was much lower than those of other enzymes throughout the leaf life. The specific activity of RuBP carboxylase on a milligram of the enzyme protein basis remained fairly constant (1.16 ± 0.07 micromoles of CO2 per minute per milligram at 25°C) throughout the experimental period.

Kinetic parameters related to CO2 fixation were examined using the purified carboxylase. The Km(CO2) and Vmax values were 12 micromolar and 1.45 micromoles of CO2 per minute per milligram, respectively (pH 8.2 and 25°C). The in vitro specific activity calculated at the atomospheric CO2 level from the parameters was comparable to the in situ true photosynthetic rate per milligram of the carboxylase throughout the leaf life.

The results indicated that the level of RuBP carboxylase protein can be a limiting factor in photosynthesis throughout the life span of the leaf.

  相似文献   

9.
Ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBP carboxylase, EC 4.1.1.39) has been purified from orange [ Citrus sinensis (L.) Osbeck cv. Washington Navel] leaves using sucrose gradient centrifugation in a fixed angle rotor. Following sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), two major bands corresponding to the two subunits of RuBP carboxylase were found. The large subunit coincided with the polypeptide band that has been previously reported to be preferentially mobilized during the spring and summer flush periods.
The degradation of RuBP carboxylase during autodigestion of Citrus leaf extracts, investigated by SDS-PAGE, occurred mainly at acidic (2.5-5.5) pH. The two subunits showed differences in the rate of degradation, the smaller being more rapidly hydrolyzed than the larger. At least four proteolytic activities were identified by means of inhibitor experiments: 1) a pepstatin A-sensitive activity that acts on both RuBP carboxylase subunits, 2) a mercurial ( p -hydroxymercuribenzoate and p -chloromercuriphenylsulfonate)-sensitive activity that degrades only the small subunit, 3) an EDTA-sensitive activity that hydrolyzes both the large and small subunits, and 4) a mercurial-stimulated activity that acts only on the large subunit. It is suggested that the last two proteases may be responsible for the degradation of RuBP carboxylase observed in vivo during the periods of mobilization of leaf protein in Citrus .  相似文献   

10.
棉花缺钾引起的形态和生理异常   总被引:22,自引:4,他引:18  
随着棉花新品种特别是转Bt(Bacillus thuringiensis)基因抗虫棉应用于生产和单位面积产量不断提高,棉花缺钾现象在许多植棉国家已越来越普遍和严重。棉花缺钾症状通常首先表现在棉株中下部的老叶上,但近年来也发现症状首先表现在中上部嫩叶上的状况。缺钾导致棉花生育异常,突出表现为叶面积系数,光合速率和于物质生产降低,但比叶重提高、棉花早熟。土壤供钾不足,钾吸收受抑,高产转基因棉花品种的应用以及不良环境因子的胁迫等是导致缺钾的重要原因。缺钾时单叶光合速率的下降主要是叶片气孔导度降低、叶绿素含量减少、叶绿体超微结构受损、光合产物运转不畅、RuBP羧化酶活性降低等所致。群体光合能力的下降则源于单叶光合速率降低和叶面积系数下降。棉株上部功能叶的叶片和叶柄中的K^ 含量可作为缺钾的诊断指标。  相似文献   

11.
The purpose of this study was to explore if sink manipulations which affect leaf carbon exchange rate (CER) are mediated by ribulose 1,5-bisphosphate (RuBP) carboxylase activity. Tomato leaf (Lycopersicon esculentum Mill. cv. Vendor) RuBP carboxylase was assayed using a rapid extraction method. Over a diurnal period, leaf CER fluctuated independent of carboxylase activity. Differences in leaf CER induced by fruit pruning in one leaf-one cluster plants were not accompanied by changes in carboxylase activity.During leaf expansion, carboxylase activity and percent enzyme in the active form paralleled the increase and then decrease in leaf carbon exchange rate. Differences in leaf CER induced by root warming at ambient air temperature, were accompanied by parallel changes in carboxylase activity.These results suggest that modifications in leaf CER are not mediated exclusively through changes in carboxylase activity, but rather that modifications in carboxylase activity coincide with overall changes in leaf physiology and morphology in response to sink demand.  相似文献   

12.
To further explore the function of NADH-dependent glutamate synthase (GOGAT), the tissue distribution of NADH-GOGAT protein and activity was investigated in rice (Oryza sativa L.) leaves. The distributions of ferredoxin (Fd)-dependent GOGAT, plastidic glutamine synthetase, and cytosolic glutamine synthetase proteins were also determined in the same tissues. High levels of NADH-GOGAT protein (33.1 μg protein/g fresh weight) and activity were detected in the 10th leaf blade before emergence. The unexpanded, nongreen portion of the 9th leaf blade contained more than 50% of the NADH-GOGAT protein and activity per gram fresh weight when compared with the 10th leaf. The expanding, green portion of the 9th leaf blade outside of the sheath contained a slightly lower abundance of NADH-GOGAT protein than the nongreen portion of the 9th blade on a fresh weight basis. The fully expanded leaf blades at positions lower than the 9th leaf had decreased NADH-GOGAT levels as a function of increasing age, and the oldest, 5th blade contained only 4% of the NADH-GOGAT protein compared with the youngest 10th leaf blade. Fd-GOGAT protein, on the other hand, was the major form of GOGAT in the green tissues, and the highest amount of Fd-GOGAT protein (111 μg protein/g fresh weight) was detected in the 7th leaf blade. In the nongreen 10th leaf blade, the content of Fd-GOGAT protein was approximately 7% of that found in the 7th leaf blade. In addition, the content of NADH-GOGAT protein in the 10th leaf blade was about 4 times higher than that of Fd-GOGAT protein. The content of plastidic glutamine synthetase polypeptide was also the highest in the 7th leaf blade (429 μg/g fresh weight) and lowest in nongreen blades and sheaths. On the other hand, the relative abundance of the cytosolic glutamine synthetase polypeptide was the highest in the oldest leaf blade, decreasing to 10 to 20% of that value in young, nongreen leaves. These results suggest that NADH-GOGAT is important for the synthesis of glutamate from the glutamine that is transported from senescing source tissues through the phloem in the nongreen sink tissues in rice leaves.  相似文献   

13.
Leaf senescence and ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBP carboxylase, EC 4.1.1.39) degradation in orange [ Citrus sinensis (L.) Osbeck cv. Washington Navel] explants have been investigated. Explants consisted of a segment of stem (ca 15 cm) and 5 mature leaves. In vitro RuBP carboxylase degradation was determined by culturing the explants in water for different periods of time (3 days usually) and quantifying the two RuBP carboxylase subunits in the extracts following sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). In vitro RuBP carboxylase degradation was estimated by autodigestion of leaf extracts and SDS-PAGE. The extent of in vivo RuBP carboxylase degradation in explants cultured under 16 h light/8 h dark photoperiod varied throughout the year and showed a cyclic behaviour correlated with the growth cycle of Citrus. The highest proteolytic activity both in vivo and in vitro was found in explants made from April to August coinciding with the maximum vegetative growth period of the tree.
Leaf senescence and abscission could be retarded significantly at any time of the year by maintaining the explants continuously in the dark. Treatment of the explants in the dark with a continuous flow of ethylene enhanced both leaf abscission and rate of RuBP carboxylase degradation, proportionally to ethylene concentration (0.1-0.6 ppm). Ethylene-induced senescence of Citrus leaf explants in the dark appears to be a convenient model system to study the regulation of the proteolytic degradation of RuBP carboxylase.  相似文献   

14.
Application of a 17-millimolar solution of glyphosate (GLP) to sugarbeet (Beta vulgaris L.) leaves resulted in an immediate and rapid decline in the level of ribulose bisphosphate (RuBP). Phosphoglyceric acid level began to decrease about 2 hours following the decline in RuBP level. Photosynthesis rate declined linearly with RuBP level, but only when the RuBP level had decreased to about twice the RuBP carboxylase active site concentration. This occurred about 4 hours following GLP-application. At this time starch synthesis also declined abruptly. The activation state of RuBP carboxylase did not change for 8 hours following GLP application and then decreased slightly from 70 to 50% when the RuBP level fell below the RuBP carboxylase active-site concentration. Triose-phosphate, hexose-phosphate, and adenylate energy charge did not change for 8 hours following GLP-application. These data indicate that GLP induced a depletion of carbon or phosphate or both from the photosynthetic carbon reduction cycle, reducing the rate of regeneration of RuBP, photosynthesis, and starch synthesis, while having little effect upon the rate of sucrose synthesis and transport.  相似文献   

15.
The rate of photosynthesis under high light (1000 micromole quanta per square meter per second) and at 25°C was measured during development of the third leaf on wheat plants and compared with the activity of several photosynthetic enzymes and the level of metabolites. The rate of photosynthesis reached a maximum the 7th day after leaf emergence and declined thereafter. There was a high and significant correlation between the rate of photosynthesis per leaf area and the activities of the enzymes ribulose 5-phosphate kinase (r = 0.91), ribulose 1,5-bisphosphate (RuBP) carboxylase (r = 0.94), 3-phosphoglycerate (PGA) kinase (r = 0.82), and fructose 1,6-bisphosphatase (r = 0.80) per leaf area. There was not a significant correlation of photosynthesis rate with chlorophyll content. The rate of photosynthesis was strongly correlated with the level of PGA (r = 0.85) and inversely correlated with the level of triose phosphate (dihydroxyacetone phosphate and glyceraldehyde 3-phosphate) (r = 0.92). RuBP levels did not change much during leaf development; therefore photosynthesis rate was not correlated with the level of RuBP. The rate of photosynthesis was at a maximum when the ratio of PGA/triose phosphate was high, and when the ratio of RuBP/PGA was low. Although several enzymes change in parallel with leaf development, the metabolite changes suggest the greatest degree of control may be through RuBP carboxylase. The sucrose content of the leaf was highest under high rates of photosynthesis. There was no evidence that later in leaf development, photosynthesis (measured under high light and at 25°C) was limited by utilization of photosynthate.  相似文献   

16.
The interacting effects of the rate of ribulose 1,5-bisphosphate (RuBP) regeneration and the rate of RuBP utilization as influenced by the amount and activation of RuBP carboxylase on photosynthesis and RuBP concentrations were resolved in experiments which examined the kinetics of the response of photosynthesis and RuBP concentrations after step changes from a rate-saturating to a rate-limiting light intensity in Xanthium strumarium. Because RuBP carboxylase requires several minutes to deactivate in vivo, it was possible to observe the effect of reducing the rate of RuBP regeneration on the RuBP concentration at constant enzyme activation state by sampling very soon after reducing the light intensity. Samples taken over longer time periods showed the effect of changes in enzyme activation at constant RuBP regeneration rate on RuBP concentration and photosynthetic rate. Within 15 s of lowering the light intensity from 1500 to 600 microEinsteins per square meter per second the RuBP concentration in the leaves dropped below the enzyme active site concentration, indicating that RuBP regeneration rate was limiting for photosynthesis. After longer intervals of time, the RuBP concentration in the leaf increased as the RuBP carboxylase assumed a new steady state activation level. No change in the rate of photosynthesis was observed during the interval that RuBP concentration increased. It is concluded that the rate of photosynthesis at the lower light intensity was limited by the rate of RuBP regeneration and that parallel changes in the activation of RuBP carboxylase occurred such that concentrations of RuBP at steady state were not altered by changes in light intensity.  相似文献   

17.
The effect of genotype and ploidy on RuBP carboxylase (EC 4.1.1.39) activity, chlorophyll content, leaf area, chloroplast ultrastructure and not photosynthesis among monoploid. diploid and tetraploid anther-derived plants of Solanum phureja Juz, and Buk. was studied. Within the monoploid group, RuBP carboxylase activity and concentration displayed a significant genotypic effect. For the diploids, variation among genotypes was significant for total protein content and maximum specific activity of RuBP carboxylase, and among the tetraploids for net photosynthesis and specific leaf weight. Ploidy effect was evident regarding net photosynthesis, leaf area and chlorophyll content. The different ploidy groups among the anther-derived plants surpassed the anther donor plant for all characteristics except maximum activity of RuBP carboxylase and net photosynthesis. For the latter only the tetra-ploid group was superior to the anther source plant. However, a monoploid genotype with an increase of 9% in maximum activity of RuBP carboxylase over the anther-donor plant was identified. Segregation of trails rind differential gene expression together with possible mutations during androgenesis are discussed as sources of variation.  相似文献   

18.
Baldy, P. 1986. Comparison between growth chamber and field-grownZea mays plants for photosynthetic carboxylase activities andother physiological characteristics with respect to leaf position.—J.exp. Bot. 37: 309–314. The lengths and fresh weights of leaves, and the amounts ofchlorophyll and protein per leaf, were higher in maize grownin a controlled environment than for field-grown maize harvestedat a similar stage of growth with the seventh leaf just emerging.However, the fresh weight and chlorophyll per unit leaf areawere not different and more protein was present per Unit leafarea in maize cultivated in the field, particularly in the 4thleaf. Except in the seventh leaf the youngest present, the PEP carboxylaseactivity was 2-fold higher in field-grown maize than in plantsfrom the controlled environment. The RuBP carboxylase activitywas not significantly affected by growth conditions. The maximumactivities of the carboxylases were found in the 5th leaf formaize grown in the controlled environment and the 4th leaf forfield maize; in these two leaves the ratios of the PEP: RuBPcarboxylasc activities were 3·0 and 4·4 respectively. The results are used to justify the choice of the fully expanded4th leaf of l9-d-old plants grown in a controlled environmentfor studies of the enzymes involved in the photosynthetic carbonmetabolism of this C4 plant. Key words: Growth conditions, PEP carboxylase/RuBP carboxylase activity ratio, Zea mays leaf position  相似文献   

19.
T. Lanaras  G. A. Codd 《Planta》1982,154(3):284-288
Ribulose 1,5-bisphosphate (RuBP) carboxylase is present in the cytoplasm and carboxysomes (polyhedral bodies) of the cyanobacterium Chlorogloeopsis fritschii. In vitro enzyme activities have been measured throughout photoautotrophic batch culture, together with RuBP carboxylase protein concentrations, determined by rocket immunoelectrophoresis. Enzyme activities and protein levels in the cytoplasmic and carboxysomal fractions varied in an apparently inverse manner during growth. The RuBP carboxylase activities per unit enzyme protein were maximal in late lag phase/early exponential phase for both cellular enzyme pools. Both rates per unit enzyme protein declined during exponential phase, cytoplasmic enzyme activity remaining consistently higher than that of the carboxysomal enzyme. Activities per unit cytoplasmic and carboxysomal enzyme protein showed very low, similar rates in late stationary phase and death phase. Dialysis experiments indicated that such changes were not due to interference in activity assays by soluble endogenous effectors. Major shifts in the subcellular distribution of RuBP carboxylase protein were found versus culture age, enzyme protein levels being predominantly carboxysomal in lag phase, mainly soluble in exponential phase and then mainly carboxysomal again in stationary/death phase. The data are discussed in terms of carboxysome function and the question of control of RuBP carboxylase synthesis in cyanobacteria.Abbreviations RuBP D-ribulose 1,5-bisphosphate - LTIB low Tris isolation buffer - HTIB high Tris isolation buffer - RIE rocket immunoelectrophoresis  相似文献   

20.
High temperature injury to wheat ( Triticum aestivum L.) during grain development is manifested as acceleration of senescence. Experiments were conducted to elucidate the mode of senescence and site of high temperature responses. Wheat (cv. Chris) and rice ( Oryza sativa L. cv. Newbonnet), which have C3 photosynthesis but different temperature responses, were grown with and without inflorescences under three temperature regimes after anthesis. Plant growth and constituents associated with senescence were measured weekly until physiological maturity. Increasing temperatures from 25°C/15°C to 35°C/25°C day/night after anthesis decreased growth, leaf viability, chlorophyll and protein concentrations, and RuBP carboxylase activity and increased protease and RNase activities in wheat. Inflorescence removal increased vegetative weights and slowed most senescence processes more in wheat than in rice, but did not alter the course of high temperature responses. Results are interpreted as indicating that diversion of nutrients from roots by inflorescence sinks at normal temperatures and by increased respiration at high temperatures caused similar responses. Source and sink activities appeared to be regulated jointly, probably by cytokinins from roots, during senescence at normal and elevated temperatures.  相似文献   

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