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1.
J C Tsang  J Landes  W Nehmer 《Microbios》1979,24(96):103-111
The effect of aqueous-ether treatment according to the method of Ribi et al. (1961) on the release of alkaline phosphatase from cells of two strains of Serratia marcescens was studied. By this method, lipopolysaccharide-protein (endotoxin) complexes associated with alkaline phosphatase activities were released from both strain 08 and strain Bizio. SDS-polyacrylamide gel electrophoresis followed by enzymatic assay showed the presence of two active components in each strain. Fractions released from strain 08 contained alkaline phosphatase A (140,000 dalton) and alkaline phosphatase B (110,000) daltons) while those from strain Bizio contained alkaline phosphatase A' (190,000 daltons) and alkaline phosphatase B (110,000 daltons). Although it is known that saline plays a role in the release of alkaline phosphatase activities from cell envelope of Gram-negative bacteria the presence of saline in the extracting medium affects only slightly the chemical composition and not at all on the enzymatic nature of the released components. By comparing the enzymatic profiles of the materials released by other techniques, such as polymyxin B treatment and osmotic shock, it appears that alkaline phosphatase activities released by aqueous-ether treatment of whole cells of S. marcescens originate from the periplasmic space.  相似文献   

2.
D M Kranz  J C Tsang 《Microbios》1976,15(61-62):165-175
The effect of 0.9% sodium chloride solution on the release of alkaline phosphatases from cells of four strains of Serratia marcescens was studied. Saline had a greater action in the releasability of the enzyme on cells of the polymyxin B sensitive strains than those of the polymyxin B resistant strains. SDS-polyacrylamide gel electrophoresis of the released materials showed the presence of proteins and lipopolysaccharide components of the outer membrane as well as enzyme activity in all four strains. Cells from strains harvested under higher temperatures contained more releasable activity in the salin wash fraction than those harvested under refrigerated condition. Active components with molecular weights of 190,000 and 110,000 daltons were either absent or present to a lesser degree in the extracts released by the polymyxin B treatment of the washed cells. However, active components not released by saline were found in the polymyxin B extracts. Contrary to other reports, results of this study clearly showed the ubiquitous nature of alkaline phosphatase in S. marcescens. It appears that their releasability is related to the polymyxin B susceptibility as well as the instability of the outer membrane of the cell envelope.  相似文献   

3.
Summary 5 to 6% of the total cellular protein was released into the medium from Escherichia coli B which was harvested from a logarithmically growing culture in a glycerol-salts medium, suspended in 0.14 M NaCl, pH 7.3, at a tenfold cell density (about 1.5×1010/ml or 1.6 mg protein/ml) and treated for 1 min at 37° C with 200 g polymyxin B/ml. The protein patterns of this material obtained by polyacrylamide gel electrophoresis were identical with those derived from an osmotic shock supernatant according to Neu and Heppel (1965). Periplasmic enzyme activities found in the polymyxin-supernatant included 5-nucleotidase, 3-nucleotidase, ribonuclease I, acid phosphatase and alkaline phosphatase. Upon further incubation with polymyxin B (up to 60 min), cell autolysis occurred with a concomitant release of 68% of total protein and up to 100% of cytoplasmic enzyme activities like -galactosidase, inorganic pyrophosphatase and aldolase. This autolysis was not observed with stationary phase cells or with cells grown in a complex yeast extract-glucose broth. The mechanism of action of polymyxin B leading to the specific release of periplasmic proteins in discussed.  相似文献   

4.
Increased enterotoxigenicity of Vibrio cholerae 569B grown with low concentrations of lincomycin, previously described in terms of increased extracellular biological activity (capillary permeability factor and fluid accumulation in ligated rabbit ileal loops), was further characterized. Polyacrylamide gel electrophoresis and single radial immunodiffusion showed that lincomycin-stimulated cells produced increased molar quantities of cholera toxin (CT) both extra- and intracellularly. The intracellular CT was released in comparable amounts by sonication, deoxycholate extraction, and polymyxin B treatment. Polymyxin B release of CT was nearly complete under conditions wherein only 6% of total cellular beta-galactosidase was released, implying a periplasmic pool of CT in stimulated cells. No intracellular choleragenoid (CT subunit B) was found in stimulated cells by polymyxin B release. No proteolysis of 14C-labeled CT was detected after prolonged incubation with sonicated nonstimulated cultures or sonicated concentrated cells. These data support the conclusion that the stimulatory effect of lincomycin involves an increase in the rate of synthesis of the CT molecule, and argue against alternative models involving inhibition of putative normal degradation of CT, increased release of otherwise cell-bound CT, or activation of inactive, or less active, forms of CT.  相似文献   

5.
Escherichia coli subjected to cold osmotic shock released 30 to 40% of their fatty acid esters and 42% of their cellular hexosamine. In contrast, Enterobacter, although they released 40% of fatty acid esters, release only 25% of hexosamine. Proteus released less than 15% of either fatty acid esters or hexosamine. These differences are taken to explain the differences among the Enterobacteriaceae in releasing surface enzymes after osmotic shock. It is felt that the release of additional lipopolysaccharide after osmotic shock is necessary for the release of surface enzymes that are not freed by ethylenediaminetetraacetic acid-tris(hydroxymethyl)aminomethane exposure.  相似文献   

6.
Hydrodynamic cavitation results in flow restriction in a flow system causing rapid pressure fluctuations and significant fluid forces. These can be harnessed to mediate microbial cell damage. Hydrodynamic cavitation was studied for the partial disruption of E. coli and selective release of specific proteins relative to the total soluble protein. The effects of the cavitation number, the number of passes, and the specific growth rate of E. coli on the release of periplasmic and cytoplasmic proteins were studied. At the optimum cavitation number of 0.17 for this experimental configuration, 48% of the total soluble protein, 88% of acid phosphatase, and 67% of beta-galactosidase were released by hydrodynamic cavitation in comparison with the maximum release attained using multiple passes through the French Press. The higher release of the acid phosphatase over the total soluble protein suggested preferred release of periplasmic compounds. This was supported by SDS-PAGE analysis. The absence of micronization of cell material resulting in the potential for ease of solid-liquid separation downstream of the cell disruption operation was confirmed by TEM microscopy. E. coli cells cultivated at a higher specific growth rate (0.36 h(-1)) were more easily disrupted than slower grown cells (0.11 h(-1)). The specific activity of the enzyme of interest released by hydrodynamic cavitation, defined as the units of enzyme in solution per milligram of total soluble protein, was greater than that obtained on release by the French Press, high-pressure homogenization, osmotic shock, and EDTA treatment. The selectivity offered indicates the potential of enzyme release by hydrodynamic cavitation to ease the purification in the subsequent downstream processing.  相似文献   

7.
When over-expressed in the cytoplasm of Escherichia coli, carboxylesterase Est55 of Geobacillus stearothermophilus was found to be released from cells upon osmotic shock. Comparing two osmotic shock protocols showed that release of Est55 was abolished in the absence of mechanosensitive channel MscL by one method but not the other. The discrepancy extended to several previously reported cytoplasmic proteins released by osmotic shock, including: EF-Tu, thioredoxin, and DnaK in E. coli. Stepwise analyses of parameters between these two protocols revealed that the use of mechanical pipetting instead of gentle dilution of cells prior to exposure to hypotonic solution abolished the effect of MscL. Furthermore, while this phenomenon of release of certain cytoplasmic proteins was sustained in all three wild type strains of E. coli, presence of gadolinium was able to serve as an MscL channel blocker and prevented release of Est55 and EF-Tu in the process. An optimized protocol of osmotic shock was developed from this study to provide a more reliable assessment of location of proteins in E. coli. This method allowed release of authentic periplasmic MalE and beta-lactamase proteins comparable to that by EDTA-lysozyme treatment.  相似文献   

8.
Release of surface enzymes in Enterobacteriaceae by osmotic shock   总被引:37,自引:12,他引:25       下载免费PDF全文
The process of osmotic shock, which has been used to release degradative enzymes from Escherichia coli, can be applied successfully to other members of the Enterobacteriaceae. Cyclic phosphodiesterase (3'-nucleotidase), 5'-nucleotidase (diphosphate sugar hydrolase), acid hexose phosphatase, and acid phenyl phosphatase are released from Shigella, Enterobacter, Citrobacter, and Serratia strains. Some strains of Salmonella also release these enzymes. Members of Proteus and Providencia groups fail to release enzymes when subjected to osmotic shock and do not show a lag in regrowth, although they do release their acid-soluble nucleotide pools. In contrast to E. coli, release of enzymes from other members of the Enterobacteriaceae studied is affected by growth conditions and strain of organism. None of the organisms was as stable to osmotic shock in exponential phase of growth as was E. coli. Exponential-phase cells of Shigella, Enterobacter, and Citrobacter could be shocked only with 0.5 mm MgCl(2) to prevent irreparable damage to the cells. These observations suggest that this group of degradative enzymes is probably loosely bound to the cytoplasmic membrane through the mediation of divalent cations.  相似文献   

9.
本文通过改变温度,水活度,气体条件和营养含量等影响绿脓杆菌生长的主要环境因素,测定多粘菌素B对绿脓杆菌的最小杀菌浓度(MBC)。结果表明环境因素导致或显著影响绿脓杆菌对抗生素的生态耐受性。实验表明多粘菌素B对绿脓杆菌的杀菌效力,除药物对细菌特有的药理学作用外,还取决于细菌的生长环境。结合冷休克率试验表明,环境影响细菌群体处于分裂状态的菌数。若分裂状态菌数下降表明生长速度减慢。提示了多粘菌素B对绿脓杆菌的效力指数,定量分析可以作为其综合效力作用的表现。以同步培养法确定在单个细胞周期中的抗生素敏感阶段。同时以冷休克率试验资料证明细菌处于分裂状态和幼龄期是其敏感阶段。初步阐述了生长速度缓慢与药物的生态耐受性密切相关。  相似文献   

10.
气单胞菌Aeromonassp.2016菌株能产生多种几丁质酶,其中的胞外酶C可能聚集于细胞外周胞质。为了避免破碎菌体而产生过多的杂蛋白,探索了用渗压震扰法(osmoticshock)来释放这部分酶。主要步骤是:先将菌体悬浮在20%蔗糖-0.03mol/LTris-HCI(pH8.0)高渗透压的溶液中,再快速转移到纯水低渗透压溶液中,产生瞬间渗压震荡,释放细胞外周胞质中的酶。结果表明,通过渗压震扰法释放出的酶纯度最高,比活力达到142.79U/g,比培养液上清液的54.46U/g和菌体破碎样品的14.66U/g分别高1.6倍和8.7倍,可用于纯化目的蛋白。  相似文献   

11.
Brevibacterium sp. JCM 6894 cells grown in the presence of 1.5-2.5 M NaCl for 24 h at 30 degrees C were subjected to the osmotic downshock. Downshocked cells after ectoine release were grown for further 24 h in the fresh medium with same salinity as before shock. When this cyclic system was applied to the strain JCM 6894, the amount of ectoine in the cells increased with an increase of incubation time, which indicates that the cells manipulated by the present conditions were enough active to survive and synthesize ectoine after several times of osmotic downshock. In the presence of 2 M NaCl, the highest yield of ectoine released was achieved in this cyclic system, more than 2.4 g/L during 7 days of incubation. (1)H and (13)C-NMR analyses of solutes released from the cells by the osmotic downshock showed the presence of only ectoine with high purity. Release of ectoine from the cells was carried out within 5 min and its rates were increased by the dilution in the downshock treatment. For the convenience of operations, non-sterilized medium containing 2 M NaCl was examined for the cell growth in the present system, in which almost same level of ectoine yield, release rates, and cell viability were observed as those of sterilized medium.  相似文献   

12.
When a rat hepatoma cell (R-Y121B) homogenate was incubated at 37 degrees C, 30-70% of the total alkaline phosphatase was released into the supernatant fluid from the precipitate fractions. The release reached a plateau level after 10 h of incubation at 37 degrees C. The optimum pH value for the release was 7.4. Alkaline phosphatase activity increased during the incubation of the cell homogenates, but this increase was independent of the enzyme release. Serum increased not only alkaline phosphatase activity in the cultured cells but also enzyme release in their homogenates. In addition, we examined a rat liver homogenate and the following 11 cell lines: 3 hepatoma cell lines, including the R-Y121B cell line, 4 liver cell lines, 2 human urinary bladder carcinoma cell lines, a kidney cell line, and a mouse adrenal tumor cell line. Only in the cultured liver cell line and hepatoma cell lines, 30-60% of the total enzyme was released into the soluble fraction from the precipitate fractions; the release was not observed in the other cell lines, nor in the rat liver homogenate. The release of alkaline phosphatase took place in both heat-stable and heat-labile alkaline phosphatases. Alkaline phosphatase, extracted from cell homogenates, showed two bands during polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The mobilities of the two bands changed inversely with or without sodium dodecyl sulfate. In general, the alkaline phosphatase which showed slow mobility with sodium dodecyl sulfate was more readily released from the plasma membrane.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

13.
The effect of brief heat shock on Chenopodium cells was investigated by measuring biochemical parameters for cellular vitality, membrane function and integrity: extracellular pH, release of osmotic compounds, phosphatase, protein and betalain, and cellular reduction of DCPIP and MTT. A threshold temperature was found at 45 degrees C, where release of osmotic compounds, protein and betalain, and reduction of DCPIP and MTT indicate loss of vitality. Extracellular pH and an alkaline phosphatase responded 10-20 degrees C below this threshold, suggesting that extracellular alkalinization, and probably the release of a phosphatase, are part of a specific cellular response to abiotic stress induced by heat shock. The extracellular proton concentration did not increase above 45 degrees C: this may indicate equilibration of gradients driving this process or an inactivation of cellular mechanisms responsible for extracellular alkalinization. The response of extracellular pH to heat shock in Chenopodium cell suspensions was fast, i.e., up to +1 pH in 5 min. Addition of the K+/H+ antiporter nigericin to Chenopodium cells caused an extracellular alkalinization similar to heat shock. The heat shock-induced extracellular alkalinization was characterized by Q10 values for distinct ranges of temperature (Q10 of 56 for 24-31 degrees C, 2.3 for 31-42 degrees C, and 1.0 for 42-50 degrees C). To the author's knowledge, the Q10 of 56 is the highest found up to now. These results suggest that extracellular protons are involved in temperature sensing and signalling in plant cells, probably via a channel-mediated pathway.  相似文献   

14.
The release of several R factor and chromosomal beta-lactamases by osmotic shock treatment was studied. It was found that those beta-lactamases with a molecular weight of about 20,000 were released, but those with a molecular weight of about 30,000 to 44,000 were not released during osmotic shock. This differential release did not depend on whether the structural genes were on the chromosome or on the genome of an R factor. The release or retention of the beta-lactamases appeared to be a characteristic of the enzyme rather than the host cell since the same results were obtained when the R factors were harbored by a variety of host bacteria. Studies with bacteria which produced more than one beta-lactamase showed that each enzyme reacted independently to the presence of other beta-lactamases produced by the host bacterium.  相似文献   

15.
When cells of either Bdellovibrio bacteriovorus 109J or Bdellovibrio stolpii UKi2 were subjected to osmotic shock by treatment with sucrose-EDTA and MgCl2 solutions, only trace amounts of proteins or enzyme activities were released into the shock fluid. In contrast, when nongrowing cells were converted to motile, osmotically stable, peptidoglycan-free spheroplasts by penicillin treatment, numerous proteins were released into the suspending fluid. For both species, this suspending fluid contained substantial levels of 5'-nucleotidase, purine phosphorylase, and deoxyribose-phosphate aldolase. Penicillin treatment also released aminoendopeptidase N from B. bacteriovorus, but not from B. stolpii. Penicillin treatment did not cause release of cytoplasmic enzymes such as malate dehydrogenase. The data indicated that bdellovibrios possess periplasmic enzymes or peripheral enzymes associated with the cell wall complex. During intraperiplasmic bdellovibrio growth, periplasmic and cytoplasmic enzymes of the Escherichia coli substrate cell were not released upon formation of the spherical bdelloplast during bdellovibrio penetration. Most of the E. coli enzymes were retained within the bdelloplast until later in the growth cycle, when they became inactivated or released into the suspending buffer or both.  相似文献   

16.
The release of enzymes by osmotic shock from Escherichia coli strain 30E, an unsaturated fatty acid auxotroph, was examined in culture supplemented with either cis- or trans-unsaturated fatty acids. Cultures grown in oleate-supplemented medium release a large fraction of the total cyclic phosphodiesterase, acid hexose phosphatase, and 5'-nucleotidase following osmotic shock. Cultures grown in elaidate-supplemented medium release much less of these same enzymes after shock treatment. Cultures grown with either supplementation show total release of these enzymes upon conversion to spheroplasts, demonstrating that the enzymes are in the periplasmic space in both cases. Cultures grown with either oleate or elaidate as fatty acid source were washed and suspended in medium containing the other isomer. The change from oleate to elaidate resulted in a rapid decrease in ability of the cells to release the three enzymes after osmotic shock so that within a 25% increase in cell mass the culture responded to osmotic shock as would a culture grown overnight in elaidate-supplemented medium. The reverse experiment resulted in a gradual increase in the ability of the cells to respond to osmotic shock. The outer membrane of E. coli is altered by the incorporation of elaidate, as indicated by electron microscopic data.  相似文献   

17.
Plasma membrane vesicles of rat myometrium were prepared in media containing 240 mM sucrose. The vesicles were exposed to isotonic, hypertonic, and hypotonic sucrose concentrations, fixed, sectioned, and studied using the electron microscope. The vesicles fixed in isotonic media were circular in appearance. Vesicles fixed in hypertonic media were distorted and showed a reduced volume to surface ratio consistent with the hypothesis that greater than 80% of the vesicles were osmotically active to sucrose. Cationized ferritin binding studies and Ca binding and release studies were also consistent with this finding. Exposure to hypotonic media also yielded membranes with distorted profiles indicating that they had been ruptured. [3H]Sucrose trapping experiments revealed that the vesicles had an internal volume of 1.20-1.44 mL/g protein. Hypotonic shock treatment reduced this intravesicular volume to 0.20-0.28 mL/g protein. The hypotonic shock treatment also led to enhanced galactose oxidase catalyzed Na3B3H4 labelling of the membranes and to increased K+-activated ouabain-sensitive p-nitrophenyl phosphatase activity. The enhancement was the same (55 +/- 10%) in the various membrane preparations for both the parameters. The data are interpreted to conclude that the rat myometrium plasma membrane vesicles consisted of 20% broken vesicles and equal proportions of intact vesicles of inside-out and rightside-out orientations.  相似文献   

18.
Myxococcus coralloides produces two different phosphatases, one acid and the other alkaline. Both enzymes were localized by physical and biochemical techniques. Spheroplasts from M. coralloides released 20–30% of the phosphatase activities. Osmotic shock or treatment with high MgCl2 or LiCl concentrations did not produce a greater release. Cytochemical localization situated the phosphatases in the outer membrane and the periplasmic space. Separation of the cytoplasmic membrane and outer membrane of the cells by sucrose gradient centrifugation showed that phosphatases are located primarily in the outer membrane. membrane.  相似文献   

19.
The isolated outer membrane from cells of a Pseudomonas aeruginosa strain exhibiting adaptive resistance to polymyxin was not affected by polymyxin treatment, as monitored by electron microscopy of negatively stained preparations. This was in sharp contrast with extensive disruption by polymyxin of the outer membranes of the parent polymyxin-sensitive strain and the resistant strain following reversion to greater polymyxin sensitivity. The isolated cytoplasmic membrane of the polymyxin-resistant strain, on the other hand, remained sensitive to the disruptive effects of polymyxin treatment. The permeability characteristics of the resistant strains appear to be altered, as indicated by differences in minimal inhibitory concentrations for a variety of antibiotics between the polymyxin-sensitive and polymyxin-resistant strains. No evidence was found for a polymyxin-inactivating enzyme in osmotic shock fluid from the polymyxin-resistant strain. No evidence for a cytoplasmic membrane repair mechanism was found in the polymyxin-resistant strain. These observations suggest that the mechanism of adaptive polymyxin resistance in this model system is the alteration of the outer membrane so that it excludes polymyxin from reaching the still sensitive cytoplasmic membrane.  相似文献   

20.
Kanamycin acetyltransferase acylates aminoglycoside antibiotics using acetyl-CoA, and thereby conveys bacterial resistance to several clinically important antibiotics, notably amikacin. The enzyme was quantitatively and reproducibly released from Escherichia coli W677 harboring plasmid pMH67 by a modified osmotic shock procedure (bacterial cells are incubated overnight in sucrose and again without sucrose before onset of osmotic shock). The enzyme was purified by dye-ligand chromatography on Affi-Gel Blue in addition to antibiotic affinity chromatography on neomycin-Sepharose-4B. The activity did not increase with subsequent chromatography on ion-exchange, hydrophobic, or molecular-exclusion gels. However, both dye-ligand and molecular-exclusion chromatography, as well as disc-gel electrophoresis, separated the purified enzyme equally into two active protein fractions. Based on the more active of the two forms, the purification was 112-fold with a specific activity of 1.9 IU/mg. The less-active form has an unusual absorbance spectrum, with a maximum near 255 nm, which cannot be explained by the amino acid composition. Chromatography of this form alone regenerated both forms, suggesting that the enzyme is noncovalently conjugated to an uncharged chromophore, such as a lipid. The purified enzyme has a very sharp pH optimum at 5.5 with a plateau on the alkaline side, but is most stable between pH 8.5 and 9.5. Data from electrophoresis in the presence of sodium dodecyl sulfate and gel-filtration on Ultrogel AcA 44 are consistent with a tetrameric protein of 60-70,000 Da.  相似文献   

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