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1.
Efficient ATP generation is required to produce glutathione and NADP. Hence, the generation of ATP was investigated using the glycolytic pathway of yeast. Saccharomyces cerevisiae cells immobilized using polyacrylamide gel generated ATP from adenosine, consuming glucose and converting it to ethanol and carbon dioxide. Under optimal conditions, the ATP-generating activity of immobilized yeast cells was 7.0 μmol h?1 ml?1 gel. A column packed with these immobilized yeast cells was used for continuous ATP generation. The half-life of the column was 19 days at a space velocity of (SV) 0.3 h?1 at 30°C. The properties of glutathione- and NADP-producing reactions coupled with the ATP-generating reaction were investigated. Escherichia coli cells with glutathione synthesizing activity and Brevibacterium ammoniagenes cells with NAD kinase activity were immobilized in a polyacrylamide gel lattice. Under optimal conditions, the immobilized E. coli cells and immobilized B. ammoniagenes cells produced glutathione and NADP at the rates of 2.1 and 0.65 μmol h?1 ml?1 gel, respectively, adding ATP to the reaction mixture. In order to produce glutathione and NADP economically and efficiently, the glutathione- and NADP-producing reactions were finally coupled with the ATP-generating reaction catalysed by immobilized S. cerevisiae cells. To compare the productivities of glutathione and NADP, and to compare the efficiency of ATP utilization for the production of these two compounds, the two reactor systems, co-immobilized cell system and mixed immobilized cell system, were designed. As a result, these two compounds were also found to be produced by these two kinds of reactor systems. Using the data obtained, the feasibility and properties of ATP generation by immobilized yeast cells are discussed in terms of the production of glutathione and NADP.  相似文献   

2.
The reaction mechanism and decay behavior of aspartase activity for immobilized Escherichia coli cells were investigated by using a sectional packed column. Reaction within the immobilized cell column proceeded at zero-order on substrate solutions ranging in concentration from 0.1 to 1.0M, and the initial reaction rate was found to be 1.556 × 10?2 mol/min/liter of immobilized cells. The effect of temperature on the reaction rate constant was investigated. The Arrhenius plot was straight line at temperatures below 43°C, and the activation energy for immobilized cells was calculated to be 12.36 kcal/mol. Asparatase activity in the immobilized cell column decayed exponentially and uniformly in all sections of a column. Its half-life was approximately 120 days. The rate of formation of L-aspartic acid was shown to be independent of column dimensions.  相似文献   

3.
The aim of this work was to study the use of silicon oxide matrices for the immobilization and preservation of recombinant-protein-producing bacteria. We immobilized Escherichia coli BL21 transformants containing different expression plasmids. One contained DNA coding for a T-cell receptor β chain, which was expressed as inclusion bodies in the cytoplasm. The other two encoded bacterial superantigens Staphylococcal Enterotoxin G and Streptococcal Superantigen, which were expressed as soluble proteins in the periplasm. The properties of immobilization and storage stability in inorganic matrices prepared from two precursors, silicon dioxide and tetraethoxysilane, were studied. Immobilized E. coli was stored in sealed tubes at 4 and 20°C and the number of viable cells and level of recombinant protein production were analyzed weekly. Different tests showed that the biochemical characteristics of immobilized E. coli remained intact. At both temperatures selected, we found that the number of bacteria in silicon dioxide-derived matrix was of the same order of magnitude (109 cfu ml−1) as before immobilization, for 2 months. After 2 weeks, cells immobilized in an alkoxide-derived matrix decreased to 104 cfu ml−1 at 4°C, and no viable cells were detected at 20°C. We found that immobilized bacteria could be used as a starter to produce recombinant proteins with yields comparable to those obtained from glycerol stocks: 15 mg l−1 for superantigens and 2 mg l−1 for T-cell receptor β chain. These results contribute to the development of methods for microbial cell preservation under field conditions. Martín F. Desimone and Mauricio C. De Marzi contributed equally to this work  相似文献   

4.
Bacterial immobilization by metal hydroxides can be used for enrichment of various bacterial strains including Gram (+) and Gram (−). The polymerase chain reaction (PCR)-based bacterial detection without enrichment culture could be implemented by concentrating bacteria from food matrix by metal hydroxides. To distinguish between viable and non-viable cells, it is often required to detect the mRNA, an indicator of viable cells. This technique, although provides accurate and reliable result, is expensive and time-consuming. Here, we report the studies on application of DNase I treatment to eliminate DNA from dead cells and subsequently detect the presence of viable pathogens by conventional PCR. It was found that treatment of immobilized cells with DNase I for 1 h at 37°C prior to DNA extraction could efficiently eliminate false positives due to the presence of non-viable cells. The technique was used to detect the presence of various pathogens in food model. The detection limits for Escherichia coli O157:H7 (384 bp), Listeria monocytogenes (482 bp), and E. coli wild type (580 bp) was 5 × 101 cells and that for Salmonella typhimurium (685 bp) was 5 × 102 cells in 10 ml of whole milk. An erratum to this article can be found at  相似文献   

5.
The binding of viable Escherichia coli cells to an immobilized ligand of a surface receptor for maltodextrins has recently been demonstrated (T. Ferenci and K. S. Lee, J. Mol. Biol. 160:431-444, 1982). The interaction of bacteria and ligand immobilized in a chromatographic column was investigated over a wide range of applied cell densities, temperatures, eluant pH values, osmotic concentrations, and flow rates. Over 95% retention of bacteria applied to starch-Sepharose was found at cell densities up to 109 per ml of matrix, between pH 5.5 and 8.0, between 8 and 55°C, in the presence of 0 to 0.5 M NaCl, and at elution flow rates up to 37 column volumes per h. The catalytic capability and stability of affinity-immobilized cells was demonstrated with the cytoplasmic β-galactosidase activity of starch-bound cells. Intact immobilized bacteria exhibited slowly increasing β-galactosidase activity over several days with a plateau after 6 days. Bacteria made permeable by treatment with toluene were also bound to starch-Sepharose but showed maximum β-galactosidase activity within 1 day and exhibited no loss of enzyme activity in 8 days of continuous elution at ambient temperatures.  相似文献   

6.
The characteristics of levan formation by different preparations of levansucrase (free and immobilized enzyme and toluene-permeabilized whole cells), derived from recombinant levansucrase from Zymomonas mobilis expressed in Escherichia coli, were investigated. The maximal yield of levan by the three preparations were similar and were about 70–80% on a fructose-released basis with sucrose as nutrient at 100 g l–1. Immobilized enzyme and toluene-permeabilized whole cells produced low molecular weight levan (2–3 × 106), as determined by HPLC while high molecular weight levan (>6 × 106) was the major product with the free levansucrase. The size of levan can thus be controlled by immobilized levansucrase and toluene-permeabilized whole cells in high yield.  相似文献   

7.
Various methods were tried for the immobilization of aspartase, and the preparation having the highest activity was obtained when partially purified aspartase from Escherichia coli was entrapped into polyacrylamide gel Iattice. Enzymatic properties of the immobilized aspartase were investigated and compared with those of the native aspartase. With regard to optimum pH, temperature, concentration of Mn++, kinetic constants and heat stability, no marked difference was observed between the native and immobilized aspartases. By employing an enzyme column packed with the immobilized aspartase, conditions for continuous production of L -aspartic acid from ammonium fumarate were investigated. When a solution of 1M ammonium fumarate (pH 8.5, containing 1mM MnCl2) was passed through the aspartase column at the flow rate of SV = 0.08 at 37°C, the highest rate of reaction was attained. From the column effluents, L-aspartic acid was obtained in a good yield.  相似文献   

8.
Summary The diffusivities ofl-malic acid and glucose in an agar membrane entrapping small amounts ofEscherichia coli orRhodospirillum rubrum whole cells were measured using time lag (TL) and steady state (SS) methods. Diffusivities were overestimated by the SS method. For concentrations of immobilizedR. rubrum cells ranging between 104 and 109 organisms cm–3 agar (20 ng-2 mg dry weight cm–3 agar), the diffusion coefficient ofl-malic acid, determined by both methods, was related to the logarithm of the membrane cell content by a decreasing linear relationship. The diffusion coefficient of glucose obtained by TL analysis was not significantly affected by the presence in the membrane of 3 ng-0.3 mg dry wt.E. coli cm–3 agar. However, values arising from the SS method decreased linearly as a function of the amount of immobilized organisms. Membranes containingR. rubrum cells offered higher diffusional resistance tol-malic acid and glucose than those loaded with the same amount ofE. coli cells.  相似文献   

9.
Summary Flow microcalorimeter was used for the study of microkinetic properties of Escherichia coli cells enriched with the penicillin G acylase activity immobilized in calcium pectate gel. The experimental kinetic data were obtained by measurement of the thermometric signal in the microcalorimetric column with immobilized enzyme and described by the introduced mathematical model involving the mass transfer and reaction kinetic phenomena.  相似文献   

10.
The role of glutathione and other antioxidant systems in the response of Escherichia coli to acetamidophenol (paracetamol), rifampicin, and chloramphenicol was studied. The exposure of aerobically growing E. coli cells to acetamidophenol diminished the intracellular level of glutathione by 40% and the reduced-to-oxidized glutathione ratio in the cells by 50%, while it enhanced the expression of the antioxidant genes soxS and sodA by 2.7 and 1.8 times, respectively. Glutathione-deficient cells were more susceptible to acetamidophenol than were normal cells. All this suggests that acetamidophenol induces a mild oxidative stress in E. coli cells. The oxidative stress induced by rifampicin was still less pronounced, whereas chloramphenicol-treated E. coli cells exhibited no signs of oxidative stress at all.__________Translated from Mikrobiologiya, Vol. 74, No. 2, 2005, pp. 149–156.Original Russian Text Copyright © 2005 by Smirnova, Torkhova, Oktyabrskii  相似文献   

11.
Recombinant Escherichia coli whole cells harboring Bacillus licheniformis l-arabinose isomerase (BLAI) were immobilized with alginate. The operational conditions for immobilization were optimized with response surface methodology. Optimal alginate concentration, Ca2+ concentration, and cell mass loading were 1.8% (w/v), 0.1 M, and 44.5 g L−1, respectively. The interactions between Ca2+ concentration, alginate concentration, and initial cell mass were significant. After immobilization of BLAI, cross-linking with 0.1% glutaraldehyde significantly reduced cell leakage. The half-life of immobilized whole cells was 150 days, which was 50-fold longer than that of free cells. In seven repeated batches for l-ribulose production, the productivity was as high as 56.7 g L−1 h−1 at 400 g L−1 substrate concentration. The immobilized cells retained 89% of the initial yield after 33 days of reaction. Immobilization of whole cells harboring BLAI, therefore, makes a suitable biocatalyst for the production of l-ribulose, particularly because of its high stability and low cost.  相似文献   

12.
Summary For continuous production of 6-aminopenicillanic acid (6-APA) the microbial cells ofEscherichia coli ATCC 9637 having high penicillin amidase (penicillin amidohydrolase, E.C. 3. 5. 1. 11) activity were immobilized by entrapment in a polyacrylamide gel lattice.Enzymatic properties of penicillin amidase of the immobilizedE. coli cells were investigated and compared with those of the intact cells. With regard to optimal pH and temperature, no marked difference was observed. The heat stability was somewhat increased by immobilization of the cells.The enzyme activity of the immobilized cell column was stable, and its half-life was 17 days at 40°C and 42 days at 30°C. From the effluent of the column, 6-APA was easily obtained in a good yield.Abbreviations 6-APA 6-aminopenicillanic acid - BIS N,N-methylenebisacrylamide - DMAPN -dimethylaminopropionitrile - SV space velocity  相似文献   

13.
Escherichia coli PrlC is a trypsin-like proteinase regulating the cell cycle. The Escherichia coli prlC gene has been cloned into the pET28a prokaryotic expression vector. The recombinant fusion protein was produced mostly in the soluble, active form and the expression level amounted to approximately 70% of total protein. The recombinant proteinase was efficiently adsorbed to a resin containing immobilized Ni2+ via its amino terminal fusion hexahistidine tail to give a PrlC proteinase affinity column. The adsorbed fusion proteinase hydrolyzed 4-methylcoumaryl-7-amide of tert-butoxycarbonyl-l-valyl-l-prolyl-l-arginine (Boc-Val-Pro-Arg-NH-Mec), the specific substrate for the trypsin-like proteinase activity of E. coli PrlC.  相似文献   

14.
Agar discs containing different amounts of viable Escherichia coli cells (from 10 to 106 organisms·g–1 agar) were incubated in a nutrient medium and the growth of agar-entrapped bacteria and free (released) cells was monitored. The study was repeated with composite immobilized-cell structures obtained by placing a microporous membrane filter between the gel matrix and the incubation medium. In both cases, immobilized cells grew exponentially and reached a peak concentration an order of magnitude higher than that of free (suspended) cell cultures. The maximum specific growth rates of entrapped bacteria, ranging between 0.0115 min–1 and 0.0145 min–1, i.e., slightly higher than that of control free cultures (0.011 min–1), showed no clear dependence on the initial cell loading (ICL). The microporous filter proved efficient in limiting cell leakage since it noticeably lengthened the leakage time at a given ICL. This efficiency, however, decreased at high ICL and high growth rate of immobilized organisms. Correspondence to: G.-A. Junter  相似文献   

15.
Wang  Qi  Xin  Yinqiang  Zhang  Feng  Feng  Zhiyong  Fu  Jin  Luo  Lan  Yin  Zhimin 《World journal of microbiology & biotechnology》2011,27(3):693-700
γ-aminobutyric acid (GABA) is an important bioactive regulator, and its biosynthesis is primarily through the α-decarboxylation of glutamate by glutamate decarboxylase (GAD). The procedures to obtain GABA by bioconvertion with high activity recombinant Escherichia coli GAD have been seldom understood. In this study, Escherichia coli GAD (gadA) was highly expressed (about 70–75% of total protein) as soluble protein in Escherichia coli BL21(DE3) containing pET28a-gadA, which was induced by 0.4 mM IPTG in LB medium, and maximal GABA-forming activity of the recombinant GAD was 40 U/mL at a concentration (0.15 mM) of pyridoxal phosphate (PLP) and a concentration (0.6 mM) of Ca2+ at optimal pH of 3.8. The optimal concentration (7.5 mM) of Mn2+ can also improve the activity of recombinant enzyme, but the co-effect of Ca2+ and Mn2+ exhibited antagonism effect when added simultaneously. LB and 0.1% (w/v) lactose were selected as culture medium and inducer, respectively. The relative activity was markedly higher activated by Ca2+ (174%), Mn2+ (164%) than that by other seven bivalent cations. Finally, the yield of GABA was high of 94 g/L detected by paper chromatography or HPLC in 1 L reaction system with 30 mL crude GAD (12 U/mL). By entrapping Escherichia coli glutamate decarboxylase into sodium alginate and carrageenan gel beads, the activity of immobilized GAD (IGAD) remained 85% during the initial five batches and the activity still remained 50% at the tenth batch, these results indicated that the recombinant Escherichia coli GAD was feasible for the future industrial production of GABA.  相似文献   

16.
TLHS1 is a class I low molecular weight heat-shock protein (LMW HSP) of tobacco (Nicotiana tabacum). For a functional study of TLHS1, a recombinant DNA coding for TLHS1 with a hexahistidine tag at the aminoterminus was constructed and expressed in Escherichia coli. An expressed fusion protein, H6TLHS1, was purified using a Ni2+ affinity column and a Sephacryl S400 HR column. A polyclonal antibody against H6TLHS1 was produced to follow the fate of H6TLHS1 in E. coli. The fusion protein in E. coli maintained its solubility at a temperature of up to 90°C and most of the proteins in the E. coli cell lysate with H6TLHS1 were prevented from thermally induced aggregation at up to 90°C. We compared the viability of E. coli cells expressing H6TLHS1 to the E. coli cells without H6TLHS1 at a temperature of 50°C. After 8 h of high temperature treatment, E. coli cells with H6TLHS1 survived about three thousand times more than the bacterial cells without H6TLHS1. These results showed that a plant class I LMW HSP, TLHS1, can protect proteins of E. coli from heat denaturation, which could lead to a higher survival rate of the bacterial cells at high temperature.  相似文献   

17.
Role of Glutathione in the Response of Escherichia coli to Osmotic Stress   总被引:1,自引:0,他引:1  
The growth of Escherichia coli mutants deficient in glutathione synthesis (gshA) and in glutathione reductase (gor) was suppressed in medium of elevated osmolarity. A mutant in -glutamyl transpeptidase (ggt) displayed better ability for osmoadaptation than the parental strain. The unfavorable effect of the gsh mutation on osmoadaptation of growing E. coli cells was more pronounced at low concentrations of K+ in the medium. An increase in osmolarity caused an increase in the intracellular content of glutathione. Changes in the extracellular glutathione level were biphasic: the glutathione level rapidly decreased during the first stage of the response and increased during the second stage. The changes in glutathione levels suggest that under hyperosmotic shock the glutathione transport from the medium into the cell can contribute to the intracellular glutathione accumulation. Changes in the level of intracellular K+ were similarly biphasic: a rapid increase in the K+ level during the first stage of the response to hyperosmotic shock changed to a gradual decrease during the second stage. In mutant gshA cells adapted to osmotic shock, the intracellular K+ level was markedly higher than in the parental strain cells. The possible role of glutathione in the response of E. coli to osmotic shock is discussed.  相似文献   

18.
Summary Our aim was to examine whether lipopolysaccharide of Escherichia coli, polyamines of dietetic and/or bacterial origin, and products of the bacterial metabolism influence cell proliferation in epithelial cells from the colon and small intestine. Lipopolysaccharide of Escherichia coli 0111:B4 was incubated with cultures from human colonic mucosa. The mitoses were arrested with Vincristine and the total number of metaphases per crypt was counted. In addition, lipopolysaccharide was incubated with a human colonic epithelial cell line from adenocarcinoma (LS-123 cells) and with a nontransformed small intestinal cell line from germ-free rats (IEC-6 cells) for 24 h. In the last 4 h, the cells were labeled with tritiated thymidine. The cells were incubated with putrescine, cadaverine, and spermidine at 10−11–10−3 M and with acetic acid (10−5–10−1 M), acetaldehyde (10−10–10−4 M) and ammonium chloride (1–20 mM). Lipopolysaccharide of Escherichia coli increased the number of arrested metaphases in human colonic crypts and DNA synthesis in L-123 and IEC-6 cells (P<0.001). All polyamines increased DNA synthesis in the colonic and small intestinal cell lines, the effects being more marked for putrescine (P<0.001). The higher concentrations of acetic acid increased DNA synthesis in both epithelial cell lines (P<0.001). Acetaldehyde slightly decreased DNA synthesis in LS-123 cells at cytotoxic concentrations. Ammonium chloride did not significantly affect DNA synthesis. The final concentration of nonionized ammonia was less than 3%. It is concluded that lipopolysaccharides of Escherichia coli and intraluminal factors derived from microorganisms increase cell proliferation in human colonic crypts and intestinal epithelial cell lines.  相似文献   

19.
The electrophile N-ethylmaleimide (NEM) elicits rapid K+ efflux from Escherichia coli cells consequent upon reaction with cytoplasmic glutathione to form an adduct, N-ethylsuccinimido-S-glutathione (ESG) that is a strong activator of the KefB and KefC glutathione-gated K+ efflux systems. The fate of the ESG has not previously been investigated. In this report we demonstrate that NEM and N-phenylmaleimide (NPM) are rapidly detoxified by E. coli. The detoxification occurs through the formation of the glutathione adduct of NEM or NPM, followed by the hydrolysis of the imide bond after which N-substituted maleamic acids are released. N-Ethylmaleamic acid is not toxic to E. coli cells even at high concentrations. The glutathione adducts are not released from cells, and this allows glutathione to be recycled in the cytoplasm. The detoxification is independent of new protein synthesis and NAD+-dependent dehydrogenase activity and entirely dependent upon glutathione. The time course of the detoxification of low concentrations of NEM parallels the transient activation of the KefB and KefC glutathione-gated K+ efflux systems.  相似文献   

20.
D‐alanine is widely used in medicine, food, additives, cosmetics, and other consumer items. Esterase derived from Bacillus cereus WZZ001 exhibits high hydrolytic activity and stereoselectivity. In this study, we expressed the esterase gene in Escherichia coli BL21 (DE3). We analyzed the biocatalytic resolution of N‐acetyl‐DL‐alanine methyl ester by immobilized whole Ecoli BL21 (DE3) cells, which were prepared through embedding and cross‐linking. We analyzed biocatalytic resolution under the optimal conditions of pH of 7.0, temperature of 40°C and substrate concentration of at 700 mM with an enantiomeric excess of 99.99% and e.e.p of 99.50%. The immobilized recombinant Bcereus esterase Ecoli BL21 (DE3) cells exhibited excellent reusability and retained 86.04% of their initial activity after 15 cycles of repeated reactions. The immobilized cells are efficient and stable biocatalysts for the preparation of N‐acetyl‐D‐alanine methyl esters.  相似文献   

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