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1.
S–SI, an microbial alkaline protease inhibitor, was produced in the culture broth of Streptomyces albogriseolus S–3253. S–SI was isolated from culture filtrate by salting out with ammonium sulfate, column chromatographies on DEAE-cellulose and Sephadex G–100. S–SI was also isolated by pH adjustment of the effluent from DEAE-cellulose column.

Crystallization of S–SI was carried out, and two distinct shaped crystals, needle shaped and rhombic crystal, were obtained. Homogeneity of these crystals were identified by polyacrylamide disc electrophoresis at various pHs.

S–SI retained its perfect inhibitory activity after treatment at 37°C for 25 hr in the pH range from 3 to 10, and 100°C for 10 min in the pH range from 4 to 6.

From the examination of molecular weight determination with Sephadex G–100, the molecular weight of S–SI was decided to be about 27,000.

S–SI was found to be highly specific towards microbial alkaline proteases.  相似文献   

2.
Non pepsin inhibitor (S–PI) and diazoacetyl-dl-norleucine methylester (DAN) sensitive acid proteases producing microorganism was isolated from farm soil of Osaka Prefecture.

The isolated strain was identified as Scytalidium lignicolum M–133. When it was aerobically grown on a medium consisting of glucose 5%, meat extract 1.5%, yeast extract 0.1%, KH2PO4 0.2%, MgSO4·7H2O 0.05% at pH 3.5 and 25°C, the strain produced two acid proteases, A and B, in the culture broth.

The acid proteases A and B were not at all inactivated by S–PI and DAN. These acid proteases were expected to be a new type of acid protease from the viewpoint of the active site.  相似文献   

3.
In the screening of actinomycetes’ culture filtrate for inhibitor of subtilisin and various microbial alkaline proteinases, a novel inhibitor was found in a cultured broth of strain WT-27. This inhibitor was named as MAPI, abbreviation of microbial alkaline proteinase inhibitor.Judging from the morphological and physiological properties of the actinomycetes which produced MAPI, this strain was identified as Streptomyces nigrescens.

For the production of MAPI, this strain was aerobically cultured at 25 ~ 27%C in a jar fermentor which contained an optimum medium consisting of polypepton 3 %, meat extract 1%, glucose 1%, NaCl 0.1%, K2HPO4 0.1% and MnSO4·nH2O 0.0001%, pH 7.0. The production of MAPI reached its maximum after 21 ~ 24 hr cultivation.

MAPI had an inhibitory activity against various microbial alkaline proteinases, α-chymotrypsin and papain but not against trypsin, kallikrein, thermolysin, or pepsin.  相似文献   

4.
An alkaline protease producerBacillus licheniformis strain was isolated from Van Lake in Turkey. The strain is Gram positive, aerobic, motile, sporulating rod-shaped bacterium. Spores were ellipsoidal and positioned central in nonswollen sporangium. The cells were able to grow well at a pH range of 5.7–10. The optimal growth temperature was found to be 37 °C. Growth at a wide range of NaCl concentration (from 0 to 20%) showed that BA17 is halotolerant. Main fatty acid composition of BA17 was anteiso-C15:0 and iso-C15∶0. The strain was presumptively identified asB. licheniformis according to 16S rDNA gene sequence analysis. The most appropriate medium for the growth and protease production is composed of 0.5% yeast extract, 0.5% NaNO3, 0.02% MgSO4\7H2O, 0.1% K2HPO4 and 0.5% maltose. The optimum temperature and pH of the alkaline protease of strain BA17 were found to be 60 °C and pH 11, respectively. The activity was completely lost in the presence of PMSF, suggesting that the preparation contains serine-alkaline protease(s).  相似文献   

5.
A novel process for the microbial production of alkaline protease on an industrial scale was successfully established by using a kabicidin resistant mutant, No. 5–128B, derived from Fusarium sp. S–19–5. The most suitable carbon source for producing alkaline protease was n-paraffins (C10~C14) and the effective nitrogen source was dried-yeast cells containing no nucleic acid, the optimum concentrations being 12.5% (w/v) and 7.0% (w/v), respectively. The optimal temperature and initial pH for protease production were 24°C and 6.0, respectively. Under the optimal conditions using a shaker flask mutant No. 5–128B produced 41000 PU/ml of alkaline protease, which corresponded to about 10 times the amount produced by the parent strain. The relation between the high ability to produce alkaline protease and the resistance to kabicidin, a polyene antibiotic, is discussed.  相似文献   

6.
Screening tests were undertaken to obtain microorganisms which produce myrosinase. One strain of microorganism indicated a strong capasity for producing myrosinase. The morphological and physiological characteristics of this strain were studied. The organism was identified as Enterobacter cloacae, no. 506.

Enzyme production was induced by the addition of 0.01% sinigrin and 6% mustard extract*2 to the culture medium. The highest production was obtained after 36~40 hr cultivation when the strain was cultivated at 28°C in a medium containing 0.01% sinigrin, 6% Mustard ext., 0.1% KH2PO4, 0.1% NH4Cl, 0.1% NaCl and 0.1% MgSO4·7aq, (pH 7.0).  相似文献   

7.
A screening test was carried out to obtain microbes which produce hog pancreatic α-amylase inhibitor and a new inhibitor was found in culture broth of an actinomycete, strain YM-25. This inhibitor was designated as Haim, an abbreviation for hog pancreatic α-amylase inhibitor from a microbe. The determined morphological and physiological properties of strain YM-25 led to the conclusion that the microorganism was Streptomyces griseosporeus.

When the microorganism was aerobically cultured at 30°C in a jar fermentor containing the most suitable medium for growth which consisted of 5% glycerol, 0.5% polypepton, 0.2% meat extract, 0.1% yeast extract, 0.4% Na2HPO4 ? 12H2O, 0.1% KH2PO4, and 0.05% MgSO4 ? 7H2O (pH 7.3), the highest activity of Haim was obtained on 23~26hr cultivation.

Haim had specific inhibitory activities against animal α-amylases but not against microbial and plant α-amylases.  相似文献   

8.
Cladosporium sp. No. 45–2, an acid protease-producing microorganism, was cultured in medium containing a microbial acid protease inhibitor (S–PI). By the addition of S–PI, the amount of acid protease in the culture broth showed an increase of 50~80% over those of normal culture (S–PI-free). Acid protease was purified from the S–PI-added culture filtrate, and its enzymatic and physicochemical properties were compared with those of acid protease obtained from normal culture. It was determined that the acid protease obtained from S–PI-added culture was the same as that of normal culture, but that the productivity was increased by the addition of S–PI.

The increase in acid protease productivity is assumed to be due to a change in metabolism by the addition of S–PI.  相似文献   

9.
Proteases from halotolerant and halophilic microorganisms were found in traditional Chinese fish sauce. In this study, 30 fungi were isolated from fermented fish sauce in five growth media based on their morphology. However, only one strain, YL-1, which was identified as Penicillium citrinum by internal transcribed spacer (ITS) sequence analysis, can produce alkaline protease. This study is the first to report that a protease-producing fungus strain was isolated and identified in traditional Chinese fish sauce. Furthermore, the culture conditions of alkaline protease production by P. citrinum YL-1 in solid-state fermentation were optimized by response surface methodology. First, three variables including peptone, initial pH, and moisture content were selected by Plackett–Burman design as the significant variables for alkaline protease production. The Box–Behnken design was then adopted to further investigate the interaction effects between the three variables on alkaline protease production and determine the optimal values of the variables. The maximal production (94.30 U/mL) of alkaline protease by P. citrinum YL-1 took place under the optimal conditions of peptone, initial pH, and moisture content (v/w) of 35.5 g/L, 7.73, and 136%, respectively.  相似文献   

10.
The state of amino acid residues in alkaline protease of Bacillus No. 221 and that of subtiiisin BPN’ were compared by spectrophotometric tiiration of tyrosine residues and by several reagents: β-naphtoqumone-4,6-disulfonic acid and monochlorofluoroquinone for amino groups, H2O2-dioxane for tryptophan, glyoxal for arginine, and tetranitromethane for tyrosine.

The reactivity of both proteases was fairly similar to those reagents.

The helix content of alkaline protease of Bacillus No. 221 (37%) was higher than that of subtilisin BPN’ (20%).

The Km and Vmax of alkaline protease of Bacillus No. 221 toward ATEE and BTEE were obtained from Lineweaver-Burk plot and compared with those of α-chymotrypsin and subtiiisin BPN’.  相似文献   

11.
Among three alkaline protease inhibitors (API-2a, -2b, -2c) produced by Streptomyces griseoincarnatus strain No. KTo-250, API-2b was converted to API-2c in the growing system.

The cultural conditions were examined exclusively for the production of API-2b→ API-2c converting protease in the culture filtrate. The protease was purified about 1080-folds by salting-out with ammonium sulfate, column chromatography on DEAE-cellulose and gel filtration on Sephadex G–100.

The optimal and maximal caseinolytic activities of the protease were around pH 9.0 and at 28°C, respectively. The protease activity was inhibited by EDTA and DFP, but not by PCMB, o-phenanthroline, TPCK, TLCK, AP-I and S-SI. The protease was a DFP and EDTA-sensitive alkaline protease, and it required Ca2+ ion for its activity and stability.  相似文献   

12.
While much attention has been given to marine microorganisms for production of enzymes, which in general are relatively more stable and active compared to those from plants and animals, studies on alkaline protease production from marine microorganisms have been very limited. In the present study, the alkaline protease producing marine bacterial strain SD8 isolated from sea muds in the Geziwo Qinhuangdao sea area of China was characterized and its optimal culture conditions were investigated. Strain SD8 was initially classified to belong to genus Pseudomonas by morphological, physiological and biochemical characterizations, and then through 16S rDNA sequence it was identified to be likely Pseudomonas hibiscicola. In addition, the culture mediums, carbon sources and culture conditions of strain SD8 were optimized for maximum production of alkaline protease. Optimum enzyme production (236U/mL when cultured bacteria being at 0.75 mg dry weight/mL fermentation broth) was obtained when the isolate at a 3% inoculum size was grown in LB medium at 20 mL medium/100mL Erlenmeyer flask for 48h culture at 30°C with an initial of pH 7.5. This was the first report of strain Pseudomonas hibiscicola secreting alkaline protease, and the data for its optimal cultural conditions for alkaline protease production has laid a foundation for future exploration for the potential use of SD8 strain for alkaline protease production.  相似文献   

13.
An amylase inhibitor-producing microorganism was identified as a subspecies of Strepto- myces diastaticus from morphological and physiological studies and was named Streptomyces diastaticus subsp. amylostaticus No. 2476.

When this strain was aerobically cultured in a shaking flask containing 100 ml of medium consisting of 4% corn starch, 2% soy bean flake extract, 0.3 % NaCl, 0.1 % K2HPO4, 0.05% MgSO4·7H2O, 0.001% FeS04 · 7H2O, 0.0001% CuSO4-5H2O, 0.0001% ZnSO4·7H2O, and 0.0001% MnS04 nH2O (pH 7.0) at 30°C, the highest inhibitory activity was obtained after 70 ~ 80 hr of cultivation.

This amylase inhibitor (S-AI) had inhibitory activity on α-amylases and glucoamylase, but not on β-amylases and pullulanase.  相似文献   

14.
Abstract

Protease inhibitors are known to resist damage to host organisms against external threats, hence form a part of their defense system. This property of protease inhibitors was studied on protecting oxidatively stressed Saccharomyces cerevisiae yeast cells. The protease inhibitor was extracted from Agaricus bisporus, an edible mushroom. The inhibitor showed the presence of antioxidant activity as the purified inhibitor fraction gave an IC50 value of 45.13?±?0.88?µg/mL and 33.30?±?1.5?µg/mL when checked, respectively, by 2, 2-diphenyl-1-picrylhydrazyl, DPPH and 2, 2′-azo-bis(3-ethylbenzthiazoline-6- sulfonic acid), ABTS?+ scavenging activity. The yeast cells’ survival rate (%), was determined through 3-(4, 5-dimethylthiazol-2-yl) - 2, 5-diphenyltetrazolium bromide, MTT assay, and it was found that in the presence of 2?mM H2O2 cell survival decreased to 26.33%, whereas when the experiment was conducted in the presence of protease inhibitor and 2?mM H2O2 cell survival percentage rose to 74%. The protease inhibitor’s effect on the oxidatively stressed yeast cells was further studied by using Scanning Electron Microscopy (SEM), Atomic Force Microscopy (AFM) and Confocal Microscopy to understand the morphological changes. The viable and non-viable cell populations were quantified using Fluorescence Assorted Cell Sorting (FACS) using propidium iodide, PI, 4′, 6-diamidino-2-phenylindole, DAPI and 2′, 7′-dichlorofluorescein, DCF dyes.  相似文献   

15.
An extracellular bleach stable protease producing strain was isolated from marine water sample and identified as Bacillus mojavensis A21 on the basis of the 16S rRNA gene sequencing and biochemical properties. The A21 alkaline protease was purified from the culture supernatant to homogeneity using acetone precipitation, Sephadex G-75 gel filtration and CM-Sepharose ion exchange chromatography, with a 6.43-fold increase in specific activity and 16.56% recovery. The molecular weight of the purified enzyme was estimated to be 20 kDa by SDS-PAGE and gel filtration. The enzyme was highly active over a wide range of pH from 7.0 to 13.0, with an optimum at pH 8.5. The relative activities at pH 11.0 and 12.0 were about 80 and 71.7% of that obtained at pH 8.5. The enzyme was extremely stable in the pH range of 7.0–12.0. It exhibited maximal activity at 60 °C. The thermostability of the enzyme was significantly increased by the addition of CaCl2. The activity of the enzyme was totally lost in the presence of PMSF, suggesting that the purified enzyme is a serine protease.The N-terminal amino acid sequence of the first 20 amino acids of the purified protease was DINGGGATLPQKLYQTSGVL. B. mojavensis A21 protease showed low homology with bacterial peptidases, suggesting that the enzyme is a new protease.The alkaline protease showed high stability towards anionic (0.1% SDS) and non-ionic (1 and 5% Tween 80 and 1% Triton X-100) surfactants. In addition, the enzyme was relatively stable towards oxidizing agents, retaining more than 79 and 70% of its initial activity after 1 h incubation in the presence of 1% H2O2 and 0.1% sodium perborate, respectively. The enzyme showed excellent stability with a wide range of commercial solid and liquid detergents at 30 and 40 °C. Considering its promising properties, B. mojavensis A21 may find potential application in laundry detergents.  相似文献   

16.
In this study, we isolated and characterized a novel feather-degrading bacterium that shows keratinolytic, antifungal and plant growth-promoting activities. A bacterium S8 was isolated from forest soil and confirmed to belong to Bacillus subtilis by BIOLOG system and 16S rRNA gene analysis. The improved culture conditions for the production of keratinolytic protease were 0.1% (w/v) sorbitol, 0.3% (w/v) KNO3, 0.1% (w/v) K2HPO4, 0.06% (w/v) KH2PO4 and 0.04% (w/v) MgCl2·6H2O (pH 8.0 and 30°C), respectively. In the improved medium containing 0.1% (w/v) feather, keratinolytic protease production was around 53.3 ± 0.3 U/ml at 4 day; this value was 10-fold higher than the yield in the basal feather medium (5.3 ± 0.1 U/ml). After cultivation for 5 days in the improved medium, intact feather was completely degraded. Feather degradation resulted in free –SH group, soluble protein and amino acids production. The concentration of free –SH group in the culture medium was 15.5 ± 0.2 μM at 4 days. Nineteen amino acids including all essential amino acids were produced in the culture medium; the concentration of total amino acid produced was 3360.4 μM. Proline (2809.9 μM), histidine (371.3 μM) and phenylalanine (172.0 μM) were the major amino acids released in the culture medium. B. subtilis S8 showed the properties related to plant growth promotion: hydrolytic enzymes, ammonification, indoleacetic acid (IAA), phosphate solubilization, and broad-spectrum antimicrobial activity. Interestingly, the strain S8 grown in the improved medium produced IAA and antifungal activity, indicating simultaneous production of keratinolytic and antifungal activities and IAA by B. subtilis S8. These results suggest that B. subtilis S8 could be not only used to improve the nutritional value of feather wastes but also is useful in situ biodegradation of feather wastes. Furthermore, it could also be a potential biofertilizer or biocontrol agent applicable to crop plant soil.  相似文献   

17.
18.
A subtilisin inhibitor was purified from the seeds of Canavalia lineata by ammonium sulfate precipitation, ultrafiltration on a YM-30 membrane, column chromatography on DEAE-Toyopearl and SP-Toyopearl, followed by reverse-phase HPLC. The inhibitor (CLSI-I) is a low molecular weight protein (Mr about 6500) containing no half-cystine residue, and quite stable as to extreme heat and pH treatment. CLSI-I inhibited subtilisin-type serine proteases including S. griseus alkaline protease. The amino acids of CLSI-I were sequenced by manual Edman degradation after enzymatic digestion with Achromobacter lyticus lysyl endopeptidase and Staphylococcus aureus V8 protease. CLSI-I contains 65 amino acid residues and showed a high homology to potato inhibitor I family proteins.  相似文献   

19.
Protease secreted into the culture medium by alkalophilic Thermoactinomyces sp. HS682 was purified to an electrophoretically homogeneous state through only two chromatograhies using Butyl-Toyopearl 650M and SP-Toyopearl 650S columns. The purified enzyme has an apparent relative molecular mass of 25, 000 according to gel filtration on a Sephadex G-75 column and SDS-PAGE and an isoelectric point above 11.0.

Its proteolytic activity was inhibited by active-site inhibitors of serine protease, DFP and PMSF, and metal ions, Cu2+ and Hg2+. The enzyme was stable toward some detergents, sodium perborate, sodium triphosphate, sodium-n-dodecylbenzenesulfonate, and sodium dodecyl sulfate, at a concentration of 0.1% and pH 11.5 and 37°C for 60 min. The optimum pH was pH 11.5–13.0 at 37°C and the optimum temperature was 70°C at pH 11.5. Calcium divalent cation raised the pH and heat stabilities of the enzyme. In the presence of 5 mM CaCl2, it showed maximum proteolytic activity at 80°C and stability from pH 4–12.5 at 60°C and below 75°C at pH 11.5. The stabilization by Ca2+ was observed in secondary conformation deduced from the circular dichroic spectrum of the enzyme. The protease hydrolyzed the ester bond of benzoyl leucine ester well. The amino acid terminal sequence of the enzyme showed high homology with those of Microbiol serine protease, although alanine of the NH2-terminal amino acid was deleted.  相似文献   

20.
Proteolytic Aeromonas caviae P-1-1 growing at wide-ranging pH (7.0–11.0) and moderate salinity (0–5% NaCl) was isolated from cattle shed of Thanjavur, India. It produced lipase, gelatinase, and polyhydroxybutyrate. Different culture conditions, incubation time, carbon and nitrogen sources, vitamins, amino acids, surfactants, and metal ions for optimal growth and protease production of P-1-1 were examined. Maximum protease (0.128?U/mL) production was achieved with 1% fructose, 1% yeast extract, 0.1% ammonium sulfate, 3% NaCl, 0.1% CaCl2?·?2H2O, 1% glycine, 0.1% vitamin E, and 0.1% Tween-40 at pH 8.0 after 42?hr of incubation at 37°C. It was active over broad range of pH (7.0–12.0), temperature (15–100°C), and salinity (0–9% NaCl) with optima at pH 10.0, 55°C, and 3% NaCl. It retained 65 and 48% activities at pH 12.0 and 100°C, respectively. Partially purified protease was highly stable (100%) within pH range 7.0–12.0 and salinities of 0–5% NaCl for 48?hr. Cu2+, Mn2+, Co2+, and Ca2+ did not inhibit its activity. Its stability at extreme pHs, temperatures, and in the presence of surfactants and commercial detergents suggests its possible application in laundry detergents. Partially purified protease was immobilized and reused. This is the first report of alkali-thermotolerant, surfactant–detergent-stable partially purified extracellular protease from A. caviae.  相似文献   

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