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1.
2.
We purified recombinant glucose-6-phosphate isomerase from Pyrococcus furiosus using heat treatment and Hi-Trap anion-exchange chromatography with a final specific activity of 0.39 U mg−1. The activity of the glucose-6-phosphate isomerase for l-talose isomerization was optimal at pH 7.0, 95°C, and 1.5 mM Co2+. The half-lives of the enzyme at 65°C, 75°C, 85°C, and 95°C were 170, 41, 19, and 7.9 h, respectively. Glucose-6-phosphate isomerase catalyzed the interconversion between two different aldoses and ketose for all pentoses and hexoses via two isomerization reactions. This enzyme has a unique activity order as follows: aldose substrates with hydroxyl groups oriented in the same direction at C2, C3, and C4 > C2 and C4 > C2 and C3 > C3 and C4. l-Talose and d-ribulose exhibited the most preferred substrates among the aldoses and ketoses, respectively. l-Talose was converted to l-tagatose and l-galactose by glucose-6-phosphate isomerase with 80% and 5% conversion yields after about 420 min, respectively, whereas d-ribulose was converted to d-ribose and d-arabinose with 53% and 8% conversion yields after about 240 min, respectively.  相似文献   

3.
It is generally assumed that respiratory complexes exclusively use protons to energize the inner mitochondrial membrane. Here we show that oxidation of NADH by submitochondrial particles (SMPs) from the yeast Yarrowia lipolytica is coupled to protonophore-resistant Na+ uptake, indicating that a redox-driven, primary Na+ pump is operative in the inner mitochondrial membrane. By purification and reconstitution into proteoliposomes, a respiratory NADH dehydrogenase was identified which coupled NADH-dependent reduction of ubiquinone (1.4 μmol min−1 mg−1) to Na+ translocation (2.0 μmol min−1 mg−1). NADH-driven Na+ transport was sensitive towards rotenone, a specific inhibitor of complex I. We conclude that mitochondria from Y. lipolytica contain a NADH-driven Na+ pump and propose that it represents the complex I of the respiratory chain. Our study indicates that energy conversion by mitochondria does not exclusively rely on the proton motive force but may benefit from the electrochemical Na+ gradient established by complex I. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.  相似文献   

4.
A novel alkylsulfatase gene, sdsAP, was cloned from a newly isolated bacterium Pseudomonas sp. S9. It encoded a protein of 675 amino acids with a calculated molecular mass of 74.9 kDa. The protein contained a typical N-terminal signal peptide of 41 amino acid residues, followed by a metallo-β-lactamase like domain at the N-terminus and a SCP-2-like domain at the C-terminus. This domain organization mode suggested that it belonged to the type III sulfatase. The mature alkylsulfatase was overexpressed in Escherichia coli. The optimal temperature and pH of the recombinant SdsAP were 70°C and 9.0, respectively. Notably, at optimal conditions, the purified recombinant SdsAP had a high specific activity of 23.25 μmol min−1 mg−1, a K m (app) of 264.3 μmol, and a V max (app) of 33.8 μmol min−1 mg−1 for SDS. Additionally, it still retained more than 90% activity after incubation at 65°C for 1 h, which was much different from other alkylsulfatases reported. The recombinant enzyme hydrolyzed the primary alkyl sulfate such as sodium octyl sulfate and sodium dodecyl sulfate (SDS). It was a Zn2+-containing and Ca2+ activated alkylsulfatase. This is the first report to explore the various characteristics of the heterologous recombinant alkylsulfatase in details. These favorable properties could make SdsAP attractive to be useful in the degradation of SDS-containing waste.  相似文献   

5.
β-galactosidase is an enzyme administered as a digestive supplement to treat lactose intolerance, a genetic condition prevalent in most world regions. The gene encoding an acid-stable β-galactosidase potentially suited for use as a digestive supplement was cloned from Aspergillus niger van Tiegh, sequenced and expressed in Pichia pastoris. The purified recombinant protein exhibited kinetic properties similar to those of the native enzyme and thus was also competitively inhibited by its product, galactose, at application-relevant concentrations. In order to alleviate this product inhibition, a model of the enzyme structure was generated based on a Penicillium sp. β-galactosidase crystal structure with bound β-galactose. This led to targeted mutagenesis of an Asp258-Ser-Tyr-Pro-Leu-Gly-Phe amino acid motif in the A. niger van Tiegh enzyme and isolation from the resultant library of a mutant β-galactosidase enzyme with reduced sensitivity to inhibition by galactose (K i of 6.46 mM galactose, compared with 0.76 mM for the wildtype recombinant enzyme). The mutated enzyme also exhibited an increased K m (3.76 mM compared to 2.21 mM) and reduced V max (110.8 μmol min−1 mg−1 compared to 172.6 μmol min−1 mg−1) relative to the wild-type enzyme, however, and its stability under simulated fasting gastric conditions was significantly reduced. The study nevertheless demonstrates the potential to rationally engineer the A. niger van Tiegh enzyme to relieve product inhibition and create mutants with improved, application-relevant kinetic properties for treatment of lactose intolerance.  相似文献   

6.
A nitrilase gene from Alcaligenes sp. ECU0401 was cloned and overexpressed in Escherichia coli BL21 (DE3) in a soluble form. The encoded protein with a His6-tag was purified to nearly homogeneity as revealed by SDS-PAGE with a molecular weight of approximately 38.5 kDa, and the holoenzyme was estimated to be composed of 10 subunits of identical size by size exclusion chromatography. The V max and K m parameters were determined to be 27.9 μmol min−1 mg−1 protein and 21.8 mM, respectively, with mandelonitrile as the substrate. The purified enzyme was highly thermostable with a half life of 155 h at 30 °C and 94 h at 40 °C. Racemic mandelonitrile (50 mM) could be enantioselectively hydrolyzed to (R)-(−)-mandelic acid by the purified nitrilase with an enantiomeric excess of 97%. The extreme stability, high activity and enantioselectivity of this nitrilase provide a solid base for its practical application in the production of (R)-(−)-mandelic acid.  相似文献   

7.
In this study, the effects of citrate addition on d-ribose production were investigated in batch culture of a transketolase-deficient strain, Bacillus subtilis EC2, in shake flasks and bioreactors. Batch cultures in shake flasks and a 5-l reactor indicated that supplementation with 0.2–0.5 g l−1 of citrate enhanced d-ribose production. When B. subtilis EC2 was cultivated in a 15-l reactor in a complex medium, the d-ribose concentration was 70.9 g l−1 with a ribose yield of 0.497 mol mol−1. When this strain was grown in the same medium supplemented with 0.3 g l−1 of citrate, 83.4 g l−1 of d-ribose were obtained, and the ribose yield was increased to 0.587 mol mol−1. Addition of citrate reduced the activities of pyruvate kinase and phosphofructokinase, while it increased those of glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase. Metabolic flux distribution in the stationary phase indicated that citrate addition resulted in increased fluxes in the pentose phosphate pathway and TCA cycle, and decreased fluxes in the glycolysis and acetate pathways.  相似文献   

8.
A xylanase gene xyn10A was isolated from the human gut bacterium Bacteroides xylanisolvens XB1A and the gene product was characterized. Xyn10A is a 40-kDa xylanase composed of a glycoside hydrolase family 10 catalytic domain with a signal peptide. A recombinant His-tagged Xyn10A was produced in Escherichia coli and purified. It was active on oat spelt and birchwood xylans and on wheat arabinoxylans. It cleaved xylotetraose, xylopentaose, and xylohexaose but not xylobiose, clearly indicating that Xyn10A is a xylanase. Surprisingly, it showed a low activity against carboxymethylcellulose but no activity at all against aryl-cellobioside and cellooligosaccharides. The enzyme exhibited K m and V max of 1.6 mg ml−1 and 118 μmol min−1 mg−1 on oat spelt xylan, and its optimal temperature and pH for activity were 37°C and pH 6.0, respectively. Its catalytic properties (k cat/K m = 3,300 ml mg−1 min−1) suggested that Xyn10A is one of the most active GH10 xylanase described to date. Phylogenetic analyses showed that Xyn10A was closely related to other GH10 xylanases from human Bacteroides. The xyn10A gene was expressed in B. xylanisolvens XB1A cultured with glucose, xylose or xylans, and the protein was associated with the cells. Xyn10A is the first family 10 xylanase characterized from B. xylanisolvens XB1A.  相似文献   

9.
Helicobacter pylori is a microaerophilic bacterium, associated with gastric inflammation and peptic ulcers. d-Amino acid dehydrogenase is a flavoenzyme that digests free neutral d-amino acids yielding corresponding 2-oxo acids and hydrogen. We sequenced the H. pylori NCTC 11637 d-amino acid dehydrogenase gene, dadA. The primary structure deduced from the gene showed low similarity with other bacterial d-amino acid dehydrogenases. We purified the enzyme to homogeneity from recombinant Escherichia coli cells by cloning dadA. The recombinant protein, DadA, with 44 kDa molecular mass, possessed FAD as cofactor, and showed the highest activity to d-proline. The enzyme mediated electron transport from d-proline to coenzyme Q1, thus distinguishing it from d-amino acid oxidase. The apparent K m and V max values were 40.2 mM and 25.0 μmol min−1 mg−1, respectively, for dehydrogenation of d-proline, and were 8.2 μM and 12.3 μmol min−1 mg−1, respectively, for reduction of Q1. The respective pH and temperature optima were 8.0 and 37°C. Enzyme activity was inhibited markedly by benzoate, and moderately by SH reagents. DadA showed more similarity with mammalian d-amino acid oxidase than other bacterial d-amino acid dehydrogenases in some enzymatic characteristics. Electron transport from d-proline to a c-type cytochrome was suggested spectrophotometrically.  相似文献   

10.
A newly isolated Geobacillus sp. IIPTN (MTCC 5319) from the hot spring of Uttarakhand's Himalayan region produced a hyperthermostable α-amylase. The microorganism was characterized by biochemical tests and 16S rRNA gene sequencing. The optimal temperature and pH were 60°C and 6.5, respectively, for growth and enzyme production. Although it was able to grow in temperature ranges from 50 to 80°C and pH 5.5–8.5. Maximum enzyme production was in exponential phase with activity 135 U ml−1 at 60°C. Assayed with cassava as substrate, the enzyme displayed optimal activity 192 U ml−1 at pH 5.0 and 80°C. The enzyme was purified to homogeneity with purification fold 82 and specific activity 1,200 U mg−1 protein. The molecular mass of the purified enzyme was 97 KDa. The values of K m and V max were 36 mg ml−1 and 222 μmol mg−1 protein min−1, respectively. The amylase was stable over a broad range of temperature from 40°C to 120°C and pH ranges from 5 to 10. The enzyme was stimulated with Mn2+, whereas it was inhibited by Hg2+, Cu2+, Zn2+, Mg2+, and EDTA, suggesting that it is a metalloenzyme. Besides hyperthermostability, the novelty of this enzyme is resistance against protease.  相似文献   

11.
An artificial fusion protein of Arthrobacter oxydans dextranase and Klebsiella pneumoniae α-amylase was constructed and expressed in Escherichia coli. Most of the expressed protein existed as an insoluble fraction, which was solubilized with urea. The purified fusion enzyme electrophoretically migrated as a single protein band; M = 137 kDa, and exhibited activities of both dextranase (10.8 U mg−1) and amylase (7.1 U mg−1), which were lower than that of reference dextranase (13.3 U mg−1) and α-amylase (103 U mg−1). The fusion enzyme displayed bifunctional enzyme activity at pH 5–7 at 37°C. These attributes potentially make the fusion enzyme more convenient for use in sugar processing than a two-enzyme system.  相似文献   

12.
Three Pseudomonas species isolated from oil polluted soils in Lagos, Nigeria were studied for their pyrene degradation potentials. These isolates exhibited broad substrate specificities for hydrocarbon substrates including polycyclic aromatic hydrocarbons, petroleum fractions and chlorobenzoates. All three isolates tolerated salt concentrations of more than 3%. They resisted ampicillin, cenfuroxime, but susceptible to ofloxacin and ciprofloxacin. Pseudomonas sp. strain LP1 exhibited growth rates and pyrene degradation rates of 0.018 h−1 and 0.111 mg l−1 h−1 respectively, while P. aeruginosa strains LP5 and LP6 had corresponding values of 0.024, 0.082 and 0.017, 0.067 respectively. The overall respective percentage removal of pyrene obtained for strains LP1, LP5 and LP6 after a 30-day incubation period were 67.79, 66.61 and 47.09. Resting cell assay revealed that strain LP1 had the highest uptake rate. Strains LP1, LP5, and LP6 also used the ortho-cleavage pathway. Enzyme study confirmed activity of catechol 1,2-dioxygenase in all with values 0.6823, 0.9199, and 0.8344 μmol min−1 mg−1 respectively for LP1, LP3 and LP6. To the best of our knowledge, ours is the first report of pyrene-degraders from the sub-Saharan African environment.  相似文献   

13.
A 60 kDa phospholipase D (PLD) was obtained from Streptomyces olivochromogenes by one-step chromatography on Sepharose CL-6B. Maximal activity was at pH 8 and 75°C and the enzyme was stable from pH 7 to 13 and from 55 to 75°C. Thermal and pH stability with temperature optimum of the enzyme were highest among Streptomyces PLDs reported so far. The activity was Ca2+-dependent and enhanced by detergents. The Km and Vmax values for phosphatidylcholine were 0.6 mM and 650 μmol min−1 mg−1, respectively. In addition, the enzyme also revealed transphosphatidylation activity, which was optimum at pH 8 and 50°C. The first 15 amino acid residues of the N terminal sequence were ADYTPGAPGIGDPYY, which are significantly different from the other known PLDs. The enzyme may therefore be a novel PLD with potential application in the lipid industry.  相似文献   

14.
The effects of irradiance and photoperiod on growth rates, chlorophyll a, β-carotene, total protein, and fatty acid content of Chlorella vulgaris were determined. The maximum growth rate (1.13 day−1) was at 100 μmol photons m−2 s−1 and 16:8-h light/dark photoperiod. Chlorophyll a and β-carotene contents significantly differed under different light regimes with chlorophyll a content lower at high irradiance and longer light duration, while β-carotene showed the inverse trend. The total protein and fatty acid content also significantly differed in different light regimes; the maximum percentage of protein (46%) was at 100 μmol photons m−2 s−1 and 16:8 h photoperiod, and minimum (33%) was at 37.5 μmol photons m−2 s−1 and 8:16 h photoperiod; the total saturated fatty acids increased, while monounsaturated and polyunsaturated fatty acids decreased with increasing irradiance and light duration.  相似文献   

15.
Aspartate aminotransferase (AAT) is a key enzyme in the synthesis of amino acids. It plays an important role in regulating carbon and nitrogen metabolism in almost all organisms. In this study, we over-expressed in rice separately all three AAT genes from rice (OsAAT1~3) and one AAT gene from Escherichia coli (EcAAT). Over-expression was driven by the CaMV 35S promoter and constructs were introduced into rice by Agrobacterium tumefaciens-mediated transformation. Compared with control plants, the transformants showed significantly increased leaf AAT activity and greater seed amino acid and protein contents. No other phenotypic changes were observed. The total leaf AAT activities in plants over-expressing OsAAT1, OsAAT2, and EcAAT were 26.6, 23.6, and 19.6 A min−1 mg−1 FW (A: units of activity, defined as increase of absorbency per min per mg; FW: fresh weight), which were significantly higher than that in the wild-type control (17.7 A min−1 mg−1 FW). The amino acid content in seeds of transgenic plants over-expressing OsAAT1, OsAAT2, and EcAAT was 119.36, 115.36, and 113.72 mg g−1, respectively, which were 16.1, 12.0, and 5.4% higher, respectively, than that in the control plants. The transgenic plants over-expressing OsAAT1, OsAAT2, and EcAAT had significantly higher protein contents (increased 22.2, 21.1, and 11.1%, respectively) than wild-type plants. No significant changes were found in leaf AAT activity, seed amino acid content or protein content in OsAAT3 over-expressed plants. The expression patterns of the three OsAAT genes and their different functions are also discussed.  相似文献   

16.
A β-mannanase gene, designated as man5S27, was cloned from Streptomyces sp. S27 using the colony polymerase chain reaction (PCR) method and expressed in Escherichia coli BL21 (DE3). The open reading frame consisted of 1,161 bp and encoded a 386-amino-acid polypeptide (Man5S27) with calculated molecular mass of 37.2 kDa. The encoded protein comprised a putative 38-residue signal peptide, a family 5 glycoside hydrolase domain, and a family 10 carbohydrate-binding module. Purified recombinant Man5S27 had high specific activity of 2,107 U mg−1 and showed optimal activity at pH 7.0 and 65°C. The enzyme remained stable at pH 5.0–9.0 and had good thermostability at 50°C. The K m values for locust bean gum and konjac flour were 0.16 and 0.41 mg ml−1, with V max values of 3,739 and 1,653 μmol min−1 mg−1, respectively. Divalent metal ions such as Mn2+, Zn2+, Ca2+, Pb2+, and Fe2+ enhanced the enzyme activity, but Ag+ and Hg2+ strongly inhibited the activity. Man5S27 also showed resistance to various neutral proteases (retaining >95% activity after proteolytic treatment for 2 h).  相似文献   

17.
Nitrite-driven anaerobic ATP synthesis in barley and rice root mitochondria   总被引:4,自引:0,他引:4  
Mitochondria isolated from the roots of barley (Hordeum vulgare L.) and rice (Oryza sativa L.) seedlings were capable of oxidizing external NADH and NADPH anaerobically in the presence of nitrite. The reaction was linked to ATP synthesis and nitric oxide (NO) was a measurable product. The rates of NADH and NADPH oxidation were in the range of 12–16 nmol min−1 mg−1 protein for both species. The anaerobic ATP synthesis rate was 7–9 nmol min−1 mg−1 protein for barley and 15–17 nmol min−1 mg−1 protein for rice. The rates are of the same order of magnitude as glycolytic ATP production during anoxia and about 3–5% of the aerobic mitochondrial ATP synthesis rate. NADH/NADPH oxidation and ATP synthesis were sensitive to the mitochondrial inhibitors myxothiazol, oligomycin, diphenyleneiodonium and insensitive to rotenone and antimycin A. The uncoupler FCCP completely eliminated ATP production. Succinate was also capable of driving ATP synthesis. We conclude that plant mitochondria, under anaerobic conditions, have a capacity to use nitrite as an electron acceptor to oxidize cytosolic NADH/NADPH and generate ATP.  相似文献   

18.
Chloroplasts or chromoplasts were purified from sweet-pepper (Capsicum annuum L. cv. Yolo Wonder) fruits and analysed with respect to their enzymic equipment, the transport properties across the envelope membrane, and for the presence of a functional oxidative pentose-phosphate pathway (OPPP). It was demonstrated that both types of plastid contain enzyme activities that allow glycolysis and OPPP. During the developmental conversion from chloroplasts to chromoplasts the activities of enzymes catalysing potentially rate-limiting reactions in glycolysis increased considerably. Most enzyme activities involved in the plastidic OPPP stayed constant or decreased during ripening, but transaldolase activity increased by more than 500%. To analyse whether pepper fruit chromoplasts are able to use exogenously supplied carbohydrates for the OPPP we measured the rate of 14CO2 release after application of radioactively labelled precursors. Isolated pepper fruit chromoplasts used exogenously supplied [U14C]glucose- 6-phosphate (Glc6P) as a precursor for the OPPP. The metabolic flux through this pathway was stimulated by the presence of additional compounds which require reducing equivalents for further conversion, e.g. nitrite, or 2-oxoglutarate plus glutamine. The [14C]Glc6P-driven OPPP in isolated chromoplasts exhibited saturation with rising concentrations of Glc6P, reaching highest rates at an external concentration of about 2 mM. Exogenously given [U14C]glucose 1-phosphate (Glc1P)′ did not lead to a release of 14CO2, indicating that this hexose phosphate is not taken up into the intact plastid. Using a proteoliposome system in which the envelope membrane proteins from sweet-pepper chromoplasts were functionally reconstituted we demonstrated that Glc6P is transported in counter-exchange with inorganic phosphate (Pi) or other phosphorylated intermediates. The Glc6P was taken up into proteoliposomes with an apparent K m of 0.34 mM. Surprisingly, in contrast to tomato fruit plastids, isolated chromoplasts from sweet-pepper fruits do not possess a phosphate translocator allowing the uptake of Glc1P. Rising exogenous concentrations of dihydroxyacetone phosphate strongly inhibited the metabolic flux through the OPPP. This observation is discussed with respect to the presence of two phosphate translocator proteins in the envelope of sweet-pepper chromoplasts and with respect to possible metabolic changes occurring in heterotrophic tissues during development. Received: 24 April 1997 / Accepted: 16 June 1997  相似文献   

19.
Experimental ecology methods and chlorophyll fluorescence technology were used to study the effects of different concentrations of manganese (10−12– 10−4 mol L−1) on the growth, photosystem II and superoxide dismutase (SOD) activity of Amphidinium sp. MACC/D31. The results showed that manganese had a significant effect on the growth rate, fluorescence parameters (maximal photochemical efficiency of PSII (F v /F m ), photochemical quenching (qP) and non-photochemical quenching (NPQ)) in the exponential stage (days 1–3) and SOD activity of Amphidinium sp. (P < 0.05). F v/F m in the exponential stage in 10−12 mol L−1 manganese concentration was significantly lower whilst qP and NPQ significantly higher than those in the other concentrations. F v /F m (days 6–9) in 10−4 mol L−1 manganese was significantly higher than those in the other concentrations. F v /F m (days 3–6) increased with increased concentration of manganese from 10−12 to 10−4 mol L−1. The values of qP and NPQ decreased with decreased concentrations of manganese, except for those in days 4–6. F v /F m under each concentration increased earlier and decreased later with culture stage whilst NPQ decreased earlier and increased later. The SOD activity increased with increased concentration of manganese from 10−12 to 10−8 mol L−1. The SOD activity in 10−4 mol L−1 manganese was significantly higher than those in the other concentrations and in 10−12 mol L−1 manganese, it was significantly lower than those in the other concentrations.  相似文献   

20.
In this study, the glucose 6-phosphate dehydrogenase gene (XOO2314) was inactivated in order to modulate the intracellular glucose 6-phosphate, and its effects on xanthan production in a wild-type strain of Xanthomonas oryzae were evaluated. The intracellular glucose 6-phosphate was increased from 17.6 to 99.4 μmol g−1 (dry cell weight) in the gene-disrupted mutant strain. The concomitant increase in the glucose 6-phosphate was accompanied by an increase in xanthan production of up to 2.23 g l−1 (culture medium). However, in defined medium supplemented with 0.4% glucose, the growth rate of the mutant strain was reduced to 52.9% of the wild-type level. Subsequently, when a family B ATP-dependent phosphofructokinase from Escherichia coli was overexpressed in the mutant strain, the growth rate was increased to 142.9%, whereas the yields of xanthan per mole of glucose remained approximately the same.  相似文献   

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