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1.
Prenatal intake of choline has been reported to lead to enhanced cognitive function in offspring, but little is known about the effects on spatial learning deficits. The present study examined the effects of prenatal choline supplementation on developmental low-protein exposure and its potential mechanisms. Pregnant female rats were fed either a normal or low-protein diet containing sufficient choline (1.1 g/kg choline chloride) or supplemented choline (5.0 g/kg choline chloride) until delivery. The Barnes maze test was performed at postnatal days 31–37. Choline and its metabolites, the synaptic structural parameters of the CA1 region in the brain of the newborn rat, were measured. The Barnes maze test demonstrated that prenatal low-protein pups had significantly greater error scale values, hole deviation scores, strategy scores and spatial search strategy and had lesser random search strategy values than normal protein pups (all P<.05). These alterations were significantly reversed by choline supplementation. Choline supplementation increased the brain levels of choline, betaine, phosphatidylethanolamine and phosphatidylcholine of newborns by 51.35% (P<.05), 33.33% (P<.001), 28.68% (P<.01) and 23.58% (P<.05), respectively, compared with the LPD group. Prenatal choline supplementation reversed the increased width of the synaptic cleft (P<.05) and decreased the curvature of the synaptic interface (P<.05) induced by a low-protein diet. Prenatal choline supplementation could attenuate the spatial learning deficits caused by prenatal protein malnutrition by increasing brain choline, betaine and phospholipids and by influencing the hippocampus structure.  相似文献   

2.
A sulfate-reducing vibrio was isolated from a methanogenic enrichment with choline as the sole added organic substrate. This organism was identified as a member of the genus Desulfovibrio and was designated Desulfovibrio strain G1. In a defined medium devoid of sulfate, a pure culture of Desulfovibrio strain G1 fermented choline to trimethylamine, acetate, and ethanol. In the presence of sulfate, more acetate and less ethanol were formed from choline than in the absence of sulfate. When grown in a medium containing sulfate, a coculture of Desulfovibrio strain G1 and Methanosarcina barkeri strain Fusaro degraded choline almost completely to methane, ammonia, and hydrogen sulfide and presumably to carbon dioxide. Methanogenesis occurred in two distinct phases separated by a lag of about 6 days. During the first phase of methanogenesis choline was completely converted to trimethylamine, acetate, hydrogen sulfide, and traces of ethanol by the desulfovibrio. M. barkeri fermented trimethylamine to methane, ammonia, and presumably carbon dioxide via dimethyl- and methylamine as intermediates. Simultaneously, about 60% of the acetate expected was metabolized. In the second phase of methanogenesis, the residual acetate was almost completely catabolized.  相似文献   

3.
Choline (N,N,N-trimethylethanolamine), which is widely distributed in membrane lipids and is a component of sediment biota, has been shown to be utilized anaerobically by mixed prokaryote cultures to produce methane but not by pure cultures of methanogens. Here, we show that five recently isolated Methanococcoides strains from a range of sediments (Aarhus Bay, Denmark; Severn Estuary mudflats at Portishead, United Kingdom; Darwin Mud Volcano, Gulf of Cadiz; Napoli mud volcano, eastern Mediterranean) can directly utilize choline for methanogenesis producing ethanolamine, which is not further metabolized. Di- and monomethylethanolamine are metabolic intermediates that temporarily accumulate. Consistent with this, dimethylethanolamine was shown to be another new growth substrate, but monomethylethanolamine was not. The specific methanogen inhibitor 2-bromoethanesulfonate (BES) inhibited methane production from choline. When choline and trimethylamine are provided together, diauxic growth occurs, with trimethylamine being utilized first, and then after a lag (∼7 days) choline is metabolized. Three type strains of Methanococcoides (M. methylutens, M. burtonii, and M. alaskense), in contrast, did not utilize choline. However, two of them (M. methylutens and M. burtonii) did metabolize dimethylethanolamine. These results extend the known substrates that can be directly utilized by some methanogens, giving them the advantage that they would not be reliant on bacterial syntrophs for their substrate supply.  相似文献   

4.
Isolated cultures of premigratory neural crest cells were used to study the initial stages of autonomic neuron development. Autonomic neurons are phenotypically characterized on the basis of their neurotransmitter synthetic enzymes, dopamine β-hydroxylase (DBH) and choline acetyltransferase (CAT). DBH converts dopamine to norepinephrine in noradrenergic neurons while CAT synthesizes acetylcholine from choline in cholinergic neurons. Activities of both enzymes were detected in isolated cultures of trunk neural crest and head neural crest. DBH was detected at all culture ages examined (from 1 to 20 days) whereas CAT activity was first detected only after 5 days in vitro. While specific enzyme activity of DBH peaks on Day 6 and specific enzyme activity of CAT peaks on Day 10, absolute activity for both enzymes increases throughout the 20-day culture period. DBH and CAT develop in vitro without any spinal presynaptic input, without typical target tissue interactions (such as blood vascular elements or heart tissue), and without addition of conditioned medium factors.  相似文献   

5.
Phosphatidylcholine (PC), a common phospholipid of the eukaryotic cell membrane, is present in the cell envelope of the intracellular pathogen Brucella abortus, the etiological agent of bovine brucellosis. In this pathogen, the biosynthesis of PC proceeds mainly through the phosphatidylcholine synthase pathway; hence, it relies on the presence of choline in the milieu. These observations imply that B. abortus encodes an as-yet-unknown choline uptake system. Taking advantage of the requirement of choline uptake for PC synthesis, we devised a method that allowed us to identify a homologue of ChoX, the high-affinity periplasmic binding protein of the ABC transporter ChoXWV. Disruption of the choX gene completely abrogated PC synthesis at low choline concentrations in the medium, thus indicating that it is a high-affinity transporter needed for PC synthesis via the PC synthase (PCS) pathway. However, the synthesis of PC was restored when the mutant was incubated in media with higher choline concentrations, suggesting the presence of an alternative low-affinity choline uptake activity. By means of a fluorescence-based equilibrium-binding assay and using the kinetics of radiolabeled choline uptake, we show that ChoX binds choline with an extremely high affinity, and we also demonstrate that its activity is inhibited by increasing choline concentrations. Cell infection assays indicate that ChoX activity is required during the first phase of B. abortus intracellular traffic, suggesting that choline concentrations in the early and intermediate Brucella-containing vacuoles are limited. Altogether, these results suggest that choline transport and PC synthesis are strictly regulated in B. abortus.  相似文献   

6.
Argyrotaenia velutinana, the red-banded leaf roller, and Heliothis virescens, the tobacco budworm, both require choline for growth and development when reared on semisynthetic diets. The optimum level for A. velutinana is 50 mg100 g of diet whereas that for H. virescens exceeds 100 mg100 g of diet.No choline analog tested can adequately replace choline in the diet. One compound, dimethylethylcholine, will permit some adut emergence but development is slower and mortality is greater than on the corresponding diet containing choline. This is in sharp contrast to a number of Diptera in which mary choline analogs can not only replace choline in the diet but are also incorporated into phospholipids analogous to phosphatidylcholine.In A. velutinana, dimethylisopropylcholine and β-methylcholine, although inadequate as choline replacements, can spare the dietary choline requirement, Isopropylethanolamine is a growth inhibitor for A. velutinana but not for H. virescens.  相似文献   

7.
An attempt has been made to determine the location of the site at which the metabolism of ethanol interacts with that of choline to produce an increase in the oxidation of choline. The first enzyme in the oxidation pathway for choline, choline dehydrogenase, was assayed using a newly developed spectro-photometric assay and freshly isolated intact rat liver mitochondria. No changes were observed in either the ‘apparent’ V or the ‘apparent’ Km values of choline dehydrogenase for choline after ethanol ingestion. However, when the choline oxidase system was assayed, a 28% decrease in ‘apparent’ Km for choline and a 53% increase in ‘apparent’ V was observed. The effects of ATP on choline oxidase were studied further, and a 29.4% decrease was observed in mitochondrial ATP levels from freshly isolated mitochondria from the ethanoltreated rats. In vitro aging of mitochondria further decreased the level of ATP, and the rate of decrease was considerably faster during the first hour in the mitochondria from the ethanol-treated animals. The decreases in ATP from both control and experimental mitochondria were accompanied by increases in choline oxidase activity. The initial decrease in ATP was correlated with an increase in mitochondrial ATPase activity which may be related to an increase in mitochondrial Mg2+. Because chronic ethanol ingestion has resulted in decreased oxidation rates of succinate and β-hydroxybutyrate while at the same time increasing the oxidation rates of choline, the studies reported here suggest that the effect of chronic ethanol ingestion is primarily on a step that is unique to choline and which probably exists prior to the electron transport chain.  相似文献   

8.
The fluxes of choline across the plasma membrane were measured in primary nerve cell cultures from chick embryo cerebral hemispheres containing neurons and supporting cells.The incubation of cells with exogenous concentrations of choline far below the concentrations present in the growth medium (~30–50 μM) and in the range of the high affinity uptake mechanism (about 0.5 μM) profoundly affected the steady state of the endocellular free choline levels. The kinetics of the uptake were dependent upon the endocellular status of the choline pool since after preincubation in the absence of choline two Kms are observed (Km1: 0.8 μM; Vmax1: 44.8 pmol/mg protein/2 min; Km2: 14.3 μM, Vmax2: 333.3 pmol/mg protein/2 min) while only one mechanism can be found when the endocellular pool of choline was kept in steady state conditions (Km: 14.3 μM, Vmax: 545.5 pmol/mg protein/2 min). The presence of an homoexchange phenomenon was suspected since choline efflux could be increased by increasing the concentrations of choline in the incubation medium.The results suggest that the movement of choline into nerve cells in culture appears to be mediated by a single mechanism which is regulated by the endocellular status of the choline pool.  相似文献   

9.
Krebs II ascites cells have a low affinity uptake system for choline (Km = 36 μM, Vm = 76 nmol/min per 2·108 cells). Choline entered the cells and was rapidly phosphorylated (95% of total intracellular soluble label). Trans acceleration of labeled choline from cells preloaded with radiolabeled choline and postincubated in the presence of unlabeled choline indicates that choline transport in Krebs II ascites cells is carrier mediated. Ethanolamine competed for the choline carrier. The uptake was reduced by hemicholinium-3, iodoacetamide and ouabain. The mechanism of choline transport in Krebs Ii ascites cells is in agreement with a linear transport model.  相似文献   

10.
The role of choline in osmoprotection in the moderate halophile Halomonas elongata has been examined. Transport and conversion of choline to betaine began immediately after addition of choline to the growth medium. Intracellular accumulation of betaine synthesized from choline was salt dependent up to 2.5 M NaCl. Oxidation of choline was enhanced at 2.0 M NaCl in the presence or absence of externally provided betaine. This indicates that the NaCl concentration in the growth medium has major effects on the choline-betaine pathway of H. elongata.  相似文献   

11.
Bacillus subtilis can synthesize the compatible solute glycine betaine as an osmoprotectant from an exogenous supply of the precursor choline. Import of choline is mediated by two osmotically inducible ABC transport systems: OpuB and OpuC. OpuC catalyzes the import of various osmoprotectants, whereas OpuB is highly specific for choline. OpuBC is the substrate-binding protein of the OpuB transporter, and we have analyzed the affinity of the OpuBC/choline complex by intrinsic tryptophan fluorescence and determined a Kd value of about 30 μM. The X-ray crystal structure of the OpuBC/choline complex was solved at a resolution of 1.6 Å and revealed a fold typical of class II substrate-binding proteins. The positively charged trimethylammonium head group of choline is wedged into an aromatic cage formed by four tyrosine residues and is bound via cation-pi interactions. The hydroxyl group of choline protrudes out of this aromatic cage and makes a single interaction with residue Gln19. The substitution of this residue by Ala decreases choline binding affinity by approximately 15-fold. A water network stabilizes choline within its substrate-binding site and promotes indirect interactions between the two lobes of the OpuBC protein. Disruption of this intricate water network by site-directed mutagenesis of selected residues in OpuBC either strongly reduces choline binding affinity (between 18-fold and 25-fold) or abrogates ligand binding. The crystal structure of the OpuBC/choline complex provides a rational for the observed choline specificity of the OpuB ABC importer in vivo and explains its inability to catalyze the import of glycine betaine into osmotically stressed B. subtilis cells.  相似文献   

12.
This study assessed the choline status in newborns, infants, children, breast-feeding women, breast milk, infant formula, breast-fed and formula-fed infants. The serum free choline level was 35.1+/-1.1 micromol/L at birth and decreased to 24.2+/-1.6, 18.1+/-0.8, 16.3+/-0.9, 14.3+/-0.8, 12.9+/-0.6 or 10.9+/-0.6 micromol/L at 22-28, 151-180, 331-365, 571-730, 731-1095 or 4016-4380 days after birth, respectively. The serum phospholipid-bound choline level was 1997+/-75 micromol/L at birth and increased gradually to 2315+/-190 or 2572 +/-100 micromol/L at 571-730 or 4016-4380 days after birth, respectively. In breast-feeding women, serum free and phospholipid-bound choline levels were doubled at 12-28 days after birth, they decreased toward the control values with time. Free choline, phosphocholine and glycerophosphocholine were major choline compounds in breast milk. Their concentrations in mature milk were much greater than in colostrum and serum. Choline contents of breast milk varied greatly between mothers, and milk free choline levels were correlated with serum free choline (r=.541; P<.001), phospholipid-bound choline (r=.527; P<.001) and glycerophosphocholine (r=.299; P<.01) concentrations and lactating days (r=.520; P<.001). In breast-fed infants, serum free choline concentrations were correlated with free choline (r=.47; P<.001), phosphocholine (r=.345; P<.002), glycerophosphocholine (r=.311; P<.01) and total choline (r=.306; P<.01) contents of breast milk. Serum free choline concentration in formula-fed infants was lower than breast-fed infants. These data show that (a) circulating choline status is elevated during infancy and lactation, (b) choline contents of breast milk vary between mothers and milk free choline contents are influenced by maternal circulating choline status, and (c) the choline contents of breast milk can influence infants' circulating choline status.  相似文献   

13.
—A method to achieve labelling of the acetylcholine stores of the brain under ideal physiological conditions is described. To this end, mice fed on a choline free diet were supplied with deuterium labelled choline in the drinking water. Labelled and unlabelled choline in plasma and in the brain as well as labelled and unlabelled acetyicholine in the brain were measured by a gas chromatographic-mass spectrometric method. It was found that after 1–25 days on the deuterium choline diet, substantial amounts of the plasma choline and brain acetylcholine were displaced by deuterium choline and deuterium acetylcholine, respectively. Already on the first day, the mole ratio of deuterium choline/total choline in plasma was 0·22, and it approached a maximum of 0·57 on the 14th day. The mole ratios of deuterium acetylcholine/total acetylcholine in the brain were slightly but significantly lower than those of deuterium choline/total choline in plasma 1–14 days, but asymptotically approached the mole ratios of deuterium Ch/total Ch in plasma by 25 days. Intact brains submitted to incubation at room temperature for 10 min increased their total choline content by about 500 per cent. Concurrently, in brains from animals kept on a deuterium choline diet for 1–2 days, the level of deuterium choline rose only by 50 per cent after incubation. Deuterium choline levels increased, however, by 200–300 per cent in the brains from animals kept on the deuterium diet for longer time periods. On the basis of these data it is suggested that: (a) choline in plasma is partly supplied from the food and partly from endogenous sources; (b) plasma choline rapidly equilibrates (less than one day) with a pool of Ch in the brain which is responsible for biosynthesis of acetylcholine; (c) the size of this choline pool is in the order of 34–40 nmol/g.  相似文献   

14.
Choline oxidation by intact spinach chloroplasts   总被引:4,自引:3,他引:1       下载免费PDF全文
Plants synthesize betaine by a two-step oxidation of choline (choline → betaine aldehyde → betaine). Protoplast-derived chloroplasts of spinach (Spinacia oleracea L.) carry out both reactions, more rapidly in light than in darkness (AD Hanson et al. 1985 Proc Natl Acad Sci USA 82: 3678-3682). We investigated the light-stimulated oxidation of choline, using spinach chloroplasts isolated directly from leaves. The rates of choline oxidation obtained (dark and light rates: 10-50 and 100-300 nanomoles per hour per milligram chlorophyll, respectively) were approximately 20-fold higher than for protoplast-derived chloroplasts. Betaine aldehyde was the main product. Choline oxidation in darkness and light was suppressed by hypoxia. Neither uncouplers nor the Calvin cycle inhibitor glyceraldehyde greatly affected choline oxidation in the light, and maximal choline oxidation was attained far below light saturation of CO2 fixation. The light stimulation of choline oxidation was abolished by the PSII inhibitors DCMU and dibromothymoquinone, and was partially restored by adding reduced diaminodurene, an electron donor to PSI. Both methyl viologen and phenazine methosulfate prevented choline oxidation. Adding dihydroxyacetone phosphate, which can generate NADPH in organello, doubled the dark rate of choline oxidation. These results indicate that choline oxidation in chloroplasts requires oxygen, and reducing power generated from PSI. Enzymic reactions consistent with these requirements are discussed.  相似文献   

15.
Homeostatic regulation of the plasma choline concentration depends on the effective functioning of a choline transporter in the kidney. However, the nature of the choline transport system in the kidney is poorly understood. In this study, we examined the molecular and functional characterization of choline uptake in the rat renal tubule epithelial cell line NRK-52E. Choline uptake was saturable and mediated by a single transport system, with an apparent Michaelis-Menten constant (Km) of 16.5 μM and a maximal velocity (Vmax) of 133.9 pmol/mg protein/min. The Vmax value of choline uptake was strongly enhanced in the absence of Na+ without any change in Km values. The increase in choline uptake under Na+-free conditions was inhibited by Na+/H+ exchanger (NHE) inhibitors. Choline uptake was inhibited by the choline uptake inhibitor hemicholinium-3 (HC-3) and organic cations, and was decreased by acidification of the extracellular medium and by intracellular alkalinization. Collapse of the plasma membrane H+ electrochemical gradient by a protonophore inhibited choline uptake. NRK-52E cells mainly express mRNA for choline transporter-like proteins (CTL1 and CTL2), and NHE1 and NHE8. CTL1 protein was recognized in both plasma membrane and mitochondria. CTL2 protein was mainly expressed in mitochondria. The biochemical and pharmacological data indicated that CTL1 is functionally expressed in NRK-52E cells and is responsible for choline uptake. This choline transport system uses a directed H+ gradient as a driving force, and its transport functions in co-operation with NHE8. Furthermore, the presence of CTL2 in mitochondria provides a potential site for the control of choline oxidation.  相似文献   

16.
Explants of lung tissue from 19-day gestational age fetal rabbits were maintained in organ culture in medium with or without fetal calf serum for 1 to 11 days. Based on the results of biochemical and morphological studies it was apparent that the type II pneumonocyte differentiated in vitro at a time similar to that which occurs with maturation in vivo. The epithelial cells of the presumptive alveoli were undifferentiated at the start of incubation, but within 9 days developed increased amounts of Golgi apparatus and rough endoplasmic reticulum, many microvilli on the luminal surface and numerous lamellar bodies. Secreted lamellar bodies and tubular myelin figures were observed in the lumina of cultured explants. The incorporation of [3H]choline into phosphatidylcholine by lung tissue explants maintained in medium containing 10% fetal calf serum remained relatively constant for 7 days of incubation but thereafter increased two-fold. When explants were maintained in fetal calf serum-containing medium and cortisol (10?7M) or betamethasone (10?7M), the incorporation of choline into phosphatidylcholine was two to three times greater than that of explants maintained in serum-containing medium without cortisol. When explants of fetal lung tissue were incubated in the presence of cortisol without fetal calf serum there was no stimulatory effect of cortisol on phosphatidylcholine biosynthesis. Therefore, serum cofactors are necessary for the stimulatory effects of cortisol on fetal lung development. The specific activity of phosphatidate phosphohydrolase (PAPase) increased to very high levels during the culture period. In the presence of serum, cortisol or betamethasone had no effect on the specific activity of phosphatidate phosphohydrolase.  相似文献   

17.
In the seeds ofAllium altaicun (Pall.)Reyse a set of enzymes was found, metabolizing choline esters, composed of active choline esterases and choline acetyltransferase. Choline esterase cleaving acetylcholine occurs in five isoenzymes. The enzyme preparation hydrolyses strongly acetylthiocholine and sinapine, but weakly butyrylthiocholine (20%) in comparison with acetylthiocholine. The hydrolysis of the substrates mentioned is inhibited by physostigmine and neostigmine, but it is not inhibited by the specific inhibitor of acetylcholine esterase (BW 284 C51). In addition to hydrolytic activity a strong catalytic activity of choline acetyltransferase was also observed during the synthesis of sinapine from sinapic acid and choline. The detection of the mentioned enzymes in some representatives of theAllium genus indicates that choline esterases are more widely distributed in monocotyledons than previously assumed.  相似文献   

18.
Mechanism of choline O-sulphate utilization in fungi   总被引:6,自引:2,他引:4       下载免费PDF全文
1. The position of the enzyme blocks in a number of parathiotrophic mutants of Aspergillus nidulans A 69 and mutants A and C of a biotinless mutant of Aspergillus nidulans were examined by nutritional and heterokaryosis experiments and by assay in vitro of enzyme systems and specific enzymes. 2. The mutants were in five groups: A and C blocked at sulphate transport; gamma at ATP sulphurylase; iota at adenosine 5′-sulphatophosphate kinase; eta at the adenosine 3′-phosphate 5′-sulphatophosphate reductase system; alpha, beta and zeta between sulphite and thiosulphate. 3. The ability of the various mutants to synthesize choline O-sulphate in vivo and in vitro and to utilize choline O-sulphate as a source of sulphur indicated that the utilization of endogenously formed choline O-sulphate involved the splitting off of inorganic sulphate, which was then reduced. 4. Choline O-sulphate acted as a source of choline for cholineless strains of Neurospora crassa, suggesting that choline O-sulphate breakdown occurred by simple hydrolysis involving a choline sulphatase. 5. After de-repression of mycelia by growing for a period on a sulphur-free medium the presence of choline sulphatase in physiologically significant amounts was demonstrated in all the A. nidulans strains tested. 6. Choline O-sulphate is transported across the mycelial wall by a mechanism different to that responsible for inorganic sulphate transport.  相似文献   

19.
Choline kinase in mammals is encoded by two genes, Chka and Chkb. Disruption of murine Chka leads to embryonic lethality, whereas a spontaneous genomic deletion in murine Chkb results in neonatal forelimb bone deformity and hindlimb muscular dystrophy. Surprisingly, muscular dystrophy isn't significantly developed in the forelimb. We have investigated the mechanism by which a lack of choline kinase β, encoded by Chkb, results in minimal muscular dystrophy in forelimbs. We have found that choline kinase β is the major isoform in hindlimb muscle and contributes more to choline kinase activity, while choline kinase α is predominant in forelimb muscle and contributes more to choline kinase activity. Although choline kinase activity is decreased in forelimb muscles of Chkb−/− mice, the activity of CTP:phosphocholine cytidylyltransferase is increased, resulting in enhanced phosphatidylcholine biosynthesis. The activity of phosphatidylcholine phospholipase C is up-regulated while the activity of phospholipase A2 in forelimb muscle is not altered. Regeneration of forelimb muscles of Chkb−/− mice is normal when challenged with cardiotoxin. In contrast to hindlimb muscle, mega-mitochondria are not significantly formed in forelimb muscle of Chkb−/− mice. We conclude that the relative lack of muscle degeneration in forelimbs of Chkb−/− mice is due to abundant choline kinase α and the stable homeostasis of phosphatidylcholine.  相似文献   

20.
The chemical synthesis of the amide analogs of 1-O-alkyl-2-O-glyceryl-3-O-phosphoryl choline as its phosphono analog (phosphono-AGEPC) and 1-O-alkyl-2-O-acetyl-glyceryl-3-O-phosphoryl ethanolamine as its phosphono analog (phosphono-AGEPE) is reported.The intermediate acetamides for the subsequent phosphonylations were obtained (i) by classical organic reactions and (ii) by the method of Chandrakumar and Hadju (Tetrahedron Lett., 23 (1982) 1043–1046). Phosphonylation for the choline analog was accomplished with 2-bromoethyl phosphonic acid monochloride in anhydrous and ethanol-free chloroform in the presence of triethylamine. This was followed by reaction with anhydrous trimethylamine in dimethylformamide in a sealed tube at 50–55°C for 3 days.Phosphonylation for the ethanolamine analog was accomplished with 2-pinthalimidoethyl-phosphonic acid monochloride in anhydrous and ethanol-free chloroform in the presence of anhydrous triethylamine, followed by hydrazinolysis in 90% ethanol under reflux for 4 h. The products were identified by elemental analysis, thin-layer chromatography (TLC) and IR spectroscopy.  相似文献   

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