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1.
1. In axolotl liver, the activity of carbamoyl-phosphate synthase (ammonia), expressed per mg liver protein, decreases to a minimum at 5 months of age, then increases to a maximum at 8 months of age which is followed by a decrease again. The initial decrease between 3 and 5 months of age appears to be largely due to an increase in non-carbamoyl-phosphate synthase protein and the following increase between 5 and 8 months of age to a relative increase of carbamoyl-phosphate synthase protein. 2. Treatment of the animals with triiodothyronine causes an increase in carbamoyl-phosphate synthase activity, the extent of which is dependent upon hormone concentration and age of the animal. After 8 months of age no increase of enzyme occurs upon thyroid hormone treatment, although metamorphosis occurs. 3. Glucocorticosteroid hormones stimulate carbamoyl-phosphate synthase activity 2-to 3-fold in animals older than 6 months. However, in animals younger than 6 months, low concentrations of thyroid hormone, insufficient to induce metamorphosis, are necessary as permissive agents. 4. The stimulatory effects of high concentrations of thyroid hormones (T3) on carbamoyl-phosphate synthase appear to be mediated via a stimulatory effect on glucocorticosteroid biosynthesis. 5. The natural rise in enzyme activity between 5 and 8 months of age seems to be due to a rise in the concentration of circulating glucocorticosteroid hormones.  相似文献   

2.
The pumping activity of the plasma membrane-bound Na+,K+-ATPase shows considerable variation during the cell cycle of mouse neuroblastoma Neuro-2A cells. Addition of external ATP at millimolar concentrations, which selectively enhances the plasma membrane permeability of Neuro-2A cells for sodium ions, stimulates the Na+,K+-ATPase pumping activity at all phases of the cell cycle from a factor of 1.05 in mitosis up to 2.2 in G1 phase. Determination of the number of Na+,K+-ATPase copies per cell by direct 3H-ouabain binding studies in the presence of external ATP shows a gradual increase in the number of pump sites on passing from mitosis to the late S/G2-phase by approximately a factor of 2. From these data the pumping activity per copy of Na+,K+-ATPase, optimally stimulated with respect to its various substrate ions, has been determined during the various phases of the cell cycle. This optimally stimulated pumping activity per enzyme copy, which is a reflection of the physicochemical state of the plasma membrane, is high in mitosis, almost twofold lower in early G1 phase, and increases gradually again during the other phases of the cell cycle. This shows that the observed regulation of Na+,K+-ATPase activity during the cell cycle is caused by a combination of three independent factors--namely variation in intracellular substrate availability (Na+), changes in number of enzyme copies per cell, and modulation of the plasma membrane environment of the protein molecules. The modulation of the optimal pumping activity per enzyme copy shows a good correlation (rho = 0.96) with the known modulation of protein lateral mobility during the cell cycle, such that a high protein lateral mobility correlates with a low enzyme activity. It is concluded that changes in plasma membrane properties take place during the Neuro-2A cell cycle that result in changes in the rate of protein lateral diffusion and Na+,K+-ATPase activity in directly correlated way.  相似文献   

3.
Enzyme activities and DNA content have been measure in axolotl liver during the metamorphic period (4-8 months after spawning). Three different types of enzyme activity profiles were observed. In the type I profile (carbamoyl-phosphate synthase, arginase, ornithine transcarbamoylase, and glutamate dehydrogenase) enzyme activity is high in the youngest animals studied, and shows a minimum at 5 months followed by a maximum at 8 months of age. Thereafter activities do not change or slightly decrease. In the type II profile (tyrosine aminotransferase, glucose-6-phosphatase) enzyme activity shows a peak at 5 months of age and is low thereafter. Hexokinase, the enzyme with a type III profile, shows high activity throughout the metamorphic period. DNA content remains high throughout the metamorphic period but decreases 50% between 9 and 12 months of age, probably due to an increase in the size of the hepatocytes. No glucokinase activity was detected. High activities of cluster II enzymes represent early metamorphic events, while the rising part of cluster I is associated with late metamorphic events. The apparent molecular specific activity increases during natural development between 5 and 9 months of age, or precociously, upon thyroid hormone treatment. This change in apparent molecular specific activity is correlated to the advent of ureotelism.  相似文献   

4.
Acetylcholinesterase activity in developing skeletal muscle cells   总被引:5,自引:0,他引:5  
Acetylcholinesterase activity has been demonstrated biochemically and cytochemically in developing chick embryo skeletal muscle cells growing in culture. The enzyme shows the same pattern of drug sensitivity as that of adult skeletal muscle acetylcholinesterase and in present in cultured myogenic cells before the time of cell fusion, the formation of myotubes, and the subsequent increase in rate of myosin synthesis. Myogenic cell fusion is accompanied, however, by a large increase in activity of acetylcholinesterase. The enzyme activity is restricted in these cultures to myogenic cells. Neighboring fibroblasts show no cytochemical responses when challenged with techniques showing intense activity in myoblasts and myotubes. In addition, evidence is presented which strongly suggests that acetylcholinesterase activity in dividing myogenic cells is not constant over the cell cycle.  相似文献   

5.
—Dissociated cells from brains of 7-day chick embryos were grown in primary culture for as long as 20 days. Many of the plated cells grew out long processes. Others, which proliferated rapidly, formed a confluent layer of flat cells after 4-6 days. Total DNA and protein increased five-fold, and activity of choline acetyltransferase (EC2.3.1.6) increased about 40-fold in 20 days. Acetylcholinesterase (EC3.1.1.7) increased three-fold by the fourth day of culture and then declined. The pattern of increase for choline acetyltransferase was similar to that for the in vivo development of the enzyme. l -Thyroxine, cyclic AMP (adenosine-3′,5′-monophosphate) or theophylline promoted increased levels of both enzymes by 30-200 per cent. l -Thyroxine also increased the activity of acetylcholinesterase in vivo by 40 per cent. When overgrowth by flat cells was prevented by the addition of 10-3m -5-flourouracil, there was a decrease in the activity of choline acetyltransferase and an increase in the activity of acetylcholinesterase in comparison to control activities. The addition of 10-3m -morphine or cocaine produced a 30 per cent elevation in the activity of choline acetyltransferase, but this effect could be mimicked with equimolar concentrations of ammonium ion.  相似文献   

6.
Myotubes of a mouse muscle-cell line (C2) synthesize in culture a 16S form of acetylcholinesterase that is normally found only in regions of adult mouse muscle that contain endplates. The 16S enzyme in C2 cell extracts has the properties expected of acetylcholinesterase forms that have a collagen-like tail. In intact cells, the active site of the 16S acetylcholinesterase is protected by a membrane-impermeable inhibitor, and this form of the enzyme can be removed by treatment of the cells with collagenase. Thus the enzyme is extracellular. Its extraction by high ionic strength solutions lacking detergent suggests that the 16S form is associated with the extracellular matrix by ionic interactions. Histochemical staining shows focal patches of acetylcholinesterase activity on the cell surface. Collagenase treatment, which removes only the 16S form, abolishes this staining pattern, indicating that the patches consist of the 16S enzyme. We conclude that the 16S enzyme in C2 myotubes occurs in focal patches on the cell surface, where it is associated with the extracellular matrix.  相似文献   

7.
Acetylcholinesterase is an enzyme whose best-known function is to hydrolyze the neurotransmitter acetylcholine. Acetylcholinesterase is expressed in several noncholinergic tissues. Accordingly, we report for the first time the identification of acetylcholinesterase in human umbilical cord vein endothelial cells. Here we further performed an electrophoretic and biochemical characterization of this enzyme, using protein extracts obtained by solubilization of human endothelial cell membranes with Triton X-100. These extracts were analyzed under polyacrylamide gel electrophoresis in the presence of Triton X-100 and under nondenaturing conditions, followed by specific staining for cholinesterase or acetylcholinesterase activity. The gels revealed one enzymatically active acetylcholinesterase band in the extracts that disappeared when staining was performed in the presence of eserine (an acetylcholinesterase inhibitor). Performing western blotting with the C-terminal anti-acetylcholinesterase IgG, we identified a single protein band of approximately 70 kDa, the molecular mass characteristic of the human monomeric form of acetylcholinesterase. The western blotting with the N-terminal anti-acetylcholinesterase IgG antibody revealed a double band around 66-70 kDa. Using the Ellman's method to measure the cholinesterase activity in human umbilical vein endothelial cells, regarding its substrate specificity, we confirmed the existence of an acetylcholinesterase enzyme. Our studies revealed a predominance of acetylcholinesterase over other cholinesterases in human endothelial cells. In conclusion, we have demonstrated the existence of a membrane-bound acetylcholinesterase in human endothelial cells. In future studies, we will investigate the role of this protein in the endothelial vascular system.  相似文献   

8.
In agreement with previous data, membrane protein phosphorylation was found to be altered in intact sickle cells (SS) relative to intact normal erythrocytes (AA). Similar changes were observed in their isolated membranes. The involvement of protein kinase C (PKC) in this process was investigated. The membrane PKC content in SS cells, measured by [3H]phorbol ester binding, was about 6-times higher than in AA cells. In addition, the activity of the enzyme, measured by histone phosphorylation was also found to be increased in SS cell membranes but decreased in their cytosol compared to the activity in AA cell membranes and cytosol. The increase in membrane PKC activity was observed mostly in the light fraction of SS cells, fractionated by density gradient, whereas the decrease in cytosolic activity was only observed in the dense fraction. PKC activity, measured in cells from the blood of reticulocyte-rich patients, exhibited an increase in both membranes and cytosol, thus explaining some of the effects observed in the SS cell light fraction, which is enriched in reticulocytes. The increase in PKC activity in the membranes of SS cells is partly explained by their young age but the loss of PKC activity in their cytosol, particularly in that of the dense fraction, seems to be specific to SS erythrocytes. The relative decrease in membrane PKC activity between the dense and the light fractions of SS cells might be related to oxidative inactivation of the enzyme.  相似文献   

9.
Twenty stages in the life cycle of Canton-S, a normal strain of Drosophila melanogaster, were investigated for protein content and the activities of choline acetyltransferase and acetylcholinesterase, enzymes associated with the metabolism of acetylcholine. The maximum protein content is reached at the prepupal stage. Specific activities of choline acetyltransferase and acetylcholinesterase were high in the larval stages and again in the mature fly. The activities of these enzymes expressed on a per fly basis were compared with the activities of other enzymes, previously published by other workers, expressed on the same basis. The developmental pattern of acetylcholinesterase and choline acetyltransferase differed from the patterns exhibited by the other enzymes described earlier. It was possible to relate the different enzyme patterns to known changes occurring in the life cycle of Drosophila melanogaster.Supported by grants from the National Multiple Sclerosis Society (347), and from the National Institutes of Health (FR 05471; NB 08864 and NB 08014).  相似文献   

10.
We have carried out a comparative study of the developmental profiles of the enzyme acetylcholinesterase, and of its collagen-tailed and globular structural forms, solubilized in the presence of 1 M NaCl, 1% (w/v) sodium cholate and 2 mM EDTA, in the chick retina and optic lobes. The overall acetylcholinesterase activities, both per mg protein and per embryo or chick, are substantially higher in tectum than in retina, from embryonic day 16. The A12 collagen-tailed form of the enzyme is present in similar amounts in the embryonic retina and optic tectum; however, while the A12 activity increases significantly in retina after birth, both by percentage and in absolute terms, the tectal tailed enzyme follows a declining developmental profile, reaching a minimum after 6 months of life. On the other hand, the globular G4 species shows developmental profiles, both in retina and tectum, rather similar to those obtained for the overall enzyme activity, while the G2 and G1 forms are present in comparable concentrations in both tissues. Besides, G4 is the predominant globular form in the chick optic lobe after hatching, G2 and G1 being enriched in the embryonic tectum. In the case of retina, however, all the globular forms contribute more evenly to the total acetylcholinesterase activity, along the developmental period considered.The potential significance of some of the postnatal developmental profiles is discussed in terms of the progressive adjustment of retina and tectum to the requirements of visual function.  相似文献   

11.
Growth of methotrexate-resistant dihydrofolate reductase gene-amplified KB cells in the presence of 5-fluorouracil results in an increase in dihydrofolate reductase mRNA. This increase can be solely attributed to a species of RNA of approximately 3.5 kilobase pairs in size. Although dihydrofolate reductase enzyme activity increases per cell with increasing 5-fluorouracil, there is a decrease of enzyme activity per mg of protein (Dolnick, B. J., and Pink, J. J. (1983) J. Biol. Chem. 258, 13299-13306). The rate of in vivo enzyme synthesis, as assayed by immunoprecipitation and supported by gel electrophoresis, does not decrease and may in fact increase with increasing 5-fluorouracil. Translation of purified dihydrofolate reductase mRNA in vitro shows that the rate of translation is unaffected by 5-fluorouracil incorporation into mRNA. The inhibition of dihydrofolate reductase by a monospecific polyclonal antiserum is reduced with extracts from 5-fluorouracil-treated cells. Inhibition of dihydrofolate reductase by methotrexate is significantly reduced in extracts from 5-fluorouracil-treated cells compared to control extracts. Tight binding of [3H]methotrexate is also different in extracts from 5-fluorouracil-treated cells. This data supports the hypothesis of translational miscoding during protein synthesis as a major mechanism of 5-fluorouracil-mediated cytotoxicity and suggests a new mechanism of 5-fluorouracil-methotrexate antagonism.  相似文献   

12.
Summary Newborn BALB/c mouse brain was cultured as disaggregated cells after serial trypsin dissociations. The ontogeny of the cultures was followed by assays of cell number, deoxyribonucleic acid, and protein content and by the activities of three enzymes considered to be markers of neuronal differentiation. Aliquots of the freshly dissociated cells were assayed for choline acetylase, acetylcholinesterase, and glutamic acid decarboxylase activities and compared with intact brain. The percentages of recovery of activities, expressed as14C product formed per mg of protein per 10 min, at pH 6.8 and 37°C, were 37% for choline acetylase, 54% for acetylcholinesterase, and 24% for glutamic acid decarboxylase. The remainder of the freshly dissociated cells were placed into culture; enzyme assays were performed as the cells multiplied and then when the cultures became static. Choline acetylase activity increased as the cells rapidly divided, and glutamic acid decarboxylase activity increased only after the cultures became confluent. Under the culture conditions, acetylcholinesterase was not induced, despite active synthesis of acetylcholine. Neuroblastoma clone N18, C1300 cell line, was grown in cell culture, and the activity of acetylcholinesterase was measured as the cells multiplied and came to confluency. The specific activity of mouse neuroblastoma acetylcholinesterase increased 25-fold when the rate of cell division was restricted. The rate of cell division could be regulated by adjusting the serum concentration. By removing fetal calf serum during the growth period, cell division ceased, and acetylcholinesterase activity was significantly and rapidly induced. Choline-O-acetyltransferase specific activity was measured in rapidly dividing and in static cultures. Its specific activity was highest in nondividing cultures, compared to cultures containing actively dividing cells (6-fold), and the specific activity of thymidylate synthetase was increased 2.5-fold in actively dividing cultures, compared to static cultures. Glioblastoma cells obtained from the rat astrocytoma, clone C6, were grown in culture, and glucose metabolism was measured in control cultures, and in cultures containing norepinephrine (0.017 mg per ml). Norepinephrine produced a 50% inhibition in the incorporation ofd-[14C]glucose. Cells incubated for 2 hr in the presence ofd-[14C]glucose, washed and then incubated in control medium or in medium containing norepinephrine, resulted in the release of greater than 50% of radioactive metabolites in the norepinephrine treated plates. Norepinephrine caused a 50% increase in14CO2 production in glioblastoma cells incubated withd-[1-14C]glucose. Norepinephrine, under similar conditions, did not affect the metabolism of glucose in clone C46, C1300 mouse neuroblastoma cells. Portions of this work were supported by a research grant (6-444946-58605) from the American Cancer Society.  相似文献   

13.
Acetylcholinesterase was studied in the superior oblique muscle of the duck embryo during the course of in vivo development. Normally developing, paralyzed, and uninnervated muscles were studied using velocity sedimentation for separation of various forms and biochemical determination of enzyme activity, and light and electron microscopy for histochemical and cytochemical localization of enzyme. Results indicate that neither muscle activity nor contact by the motor neurons is essential for the appearance of high-molecular-weight form of acetylcholinesterase on muscle cells developing in vivo. Acetylcholinesterase activity per muscle was considerably lower in the paralyzed and aneural muscles than the normal muscle. The absolute loss of acetylcholinesterase parallels loss of muscle protein in paralyzed and aneural muscles and may be secondary. Paralysis or absence of innervation had no significant effect on the specific activity of acetylcholinesterase.  相似文献   

14.
Hormonal modulation of neuronal cells behaviour in vitro   总被引:1,自引:0,他引:1  
In this study we have investigated the effect of insulin and/or of nerve growth factor (NGF) on enzyme activities of cholinergic neurotransmission, in cultured embryonic rat mesencephali. Our data show that choline-O-acetyltransferase (ChAT) and acetylcholinesterase (AChE) activity display a prominent change in the embryonic brain tissues as a function of time in vitro. The change depends on the age of embryos from which the brain cell cultures have been set up. Namely, ChAT activity increases in the cultures taken from 13-17-day-old embryos as a function of time in vitro. AChE activity shows a striking decrease if the cultures have been set up from the older embryos (17-day-old), while AChE activity increases in the cultures prepared from 13-day-old embryos continuously. Insulin (amount ranging 10-27 micrograms/ml) causes a significant inhibition in the ChAT activity in comparison with the increased enzyme activity measured in control cultures (insulin ranging from 1 to 100 ng). AChE activity of 13-day-old embryos was not influenced by insulin (20-27 micrograms/ml) but the same amount of insulin prevents the decrease of AChE activity in cultured brain cells originating from 17-day-old-embryos. Biochemical studies of NGF treated cultures (30 ng/ml) revealed that nerve growth factor resulted in 5-12-fold increase in specific activity of the cholinergic enzyme, choline acetyltransferase (ChAT). NGF did not influence the AChE activity in cultured brain cells (13-17-day-old).  相似文献   

15.
Summary Suspensions of sequentially isolated villus and crypt cells were obtained in order to study certain biochemical changes associated with differentiation of epithelial cells in the small intestine of the mouse. Microscopic observation of the various cell fractions reveals that the epithelial cells detach as individual cells or small sheets of epithelium from the tip to the base of the villus, whereas cells in the crypt regions are separated as entire crypt units. The isolated cells retain their ultrastructural integrity as judged by electron microscopy. Chemical characterization of the various fractions shows that the total cellular protein content, expressed in activity per cell, remains relatively constant throughout the villus region followed by a noticeable drop in the crypt zone. On the other hand, sharp variations in values of cell DNA content are observed in the crypt zone depending on the reference of activity being used. Activity profiles of several brush border enzymes confirm the biochemical changes that occur during the migration of cells from the crypt to the villus tip, as observed in other species, with maximum activity of sucrase in the mid-villus region, of glucoamylase, trehalase, lactase and maltase in the upper third region, and of alkaline phosphatase at the villus tip. Forty-eight-hour suspension cultures of cell fractions corresponding to cells at the base of the villus and crypt zones show a moderate decrease in protein and enzyme activities to approximately 70% of their original value, with DNA content remaining stable throughout the incubation period. The use of biochemical activities as indicators of cellular integrity during cell culture is discussed.Supported by a research grant from the Medical Research Council of Canada (J.H.)  相似文献   

16.
Erythrocytes from young (6–8 month old) and old (28–31 month old) WF rats were separated into four age fractions by centrifugation on a discontinuous, isotonic, arabinogalactan density gradient. Specific activities of super-oxide dismutase (SOD) with respect to activity per unit hemoglobin (Hb) and activity per cell were determined for each cell age group. SOD activity was found to diminish with respect to erythrocyte age. More significantly, it was found that young erythrocytes of old animals already contain considerably reduced SOD activity as compared to cells of young animals. The level of SOD catalytic activity per unit enzyme antigen was also found to decrease with both increasing cell and animal age. Young cells of old animals contain significant amounts of catalytically altered molecules.  相似文献   

17.
alpha-Ketoglutarate dehydrogenase has been demonstrated for the first time in cell extracts from the filamentous fungus Aspergillus niger. A minimum protein concentration of 5 mg/ml is necessary for detecting enzyme activity, but a maximum of ca. 0.060 mumol/min per mg of protein is observed only when the protein concentration is above 9 mg/ml. alpha-Ketoglutarate can partly stabilize the enzyme against dilution in the assay system. Neither bovine serum albumin nor a variety of substrates or effectors of the enzyme could stabilize the enzyme against inactivation by dilution. A kinetic analysis of the enzyme revealed Michaelis-Menten kinetics with respect to alpha-ketoglutarate, coenzyme A, and NAD. Thiamine PPi was required for maximal activity. NADH, oxaloacetate, succinate, and cis-aconitate were found to inhibit the enzyme; AMP was without effect. Monovalent cations including NH4+ were inhibitory at high concentrations (greater than 20 mM). The highest enzyme activity was found in rapidly growing mycelia (glucose-NH4+ or glucose-peptone medium). We discuss the possibility that citric acid accumulation is caused by oxaloacetate and NADH inhibition of the alpha-ketoglutarate dehydrogenase of A. niger.  相似文献   

18.
High density L cell suspension cultures were previously shown to remain viable for indefinite periods of time and to exhibit marked inhibition of DNA synthesis and mitosis while the fraction of total protein synthesis represented by collagen is increased. The present study demonstrates that regulation in this system extends to the activity of acetylcholinesterase found to be approximately 100-fold greater in the high density populations than in low density exponentially growing cultures. Kinetic studies of the increase of the activity, its fluctuation over an extended period of time and its decrease upon resumption of exponential growth after dilution of the cultures were performed. The data obtained indicate that the enzyme does not accumulate in high density populations merely as a result of the absence of net protein synthesis and cell division but that changes of its rates of synthesis and possibly degradation are involved. The expression of regulated acetylcholinesterase activity in a cell line of connective tissue origin is considered in relation to phenotype reprogramming and to cell membrane associated growth control mechanisms.  相似文献   

19.
1. Coding sequences for the human acetylcholinesterase (HuAChE; EC 3.1.1.7) hydrophilic subunit were subcloned in an expression plasmid vector under the control of cytomegalovirus IE gene enhancer-promoter. The human embryonic kidney cell line 293, transiently transfected with this vector, expressed catalytically active acetylcholinesterase. 2. The recombinant gene product exhibits biochemical traits similar to native "true" acetylcholinesterase as manifested by characteristic substrate inhibition, a Km of 117 microM toward acetylthiocholine, and a high sensitivity to the specific acetylcholinesterase inhibitor BW284C51. 3. The transiently transfected 293 cells (100 mm dish) produce in 24 hr active enzyme capable of hydrolyzing 1500 nmol acetylthiocholine per min. Eighty percent of the enzymatic activity appears in the cell growth medium as soluble acetylcholinesterase; most of the cell associated activity is confined to the cytosolic fraction requiring neither detergent nor high salt for its solubilization. 4. The active secreted recombinant enzyme appears in the monomeric, dimeric, and tetrameric globular hydrophilic molecular forms. 5. In conclusion, the catalytic subunit expressed from the hydrophilic AChE cDNA species has the inherent potential to be secreted in the soluble globular form and to generate polymorphism through self-association.  相似文献   

20.
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   

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