Characterization of the Cellulase Complex of Penicillium echinulatum

New cellulases from a strain of Penicillium echinulatum were characterized for their filter paper activity and β-glucosidase activity. Both activities showed maximum values between pH 4 and 5. With citrate buffer, activities were slightly higher than in acetate buffer of the same pH. Thermal stability of both activities was good up to 55°C. Filter paper activity was significantly reduced at higher temperatures.     

粘虫中肠α-淀粉酶活性的敏感性研究

研究了不同酶反应缓冲体系、pH值、氯离子浓度以及噁唑哒嗪对5龄2日粘虫 Pseudaletia separata Walker 中肠α－淀粉酶活性的影响。结果表明,乙酸-乙酸钠缓冲体系（pH 5.8）和磷酸氢二钠-磷酸二氢钠缓冲体系（pH 8.0）有利于增强α-淀粉酶活性,比活力最高分别达到4.49和4.97。在乙酸-乙酸钠缓冲体系（pH 5.8）中,5、10、20、40和80 mmol/L氯离子浓度引起α-淀粉酶活性呈现先减弱后增强的变化规律,而在磷酸氢二钠-磷酸二氢钠缓冲体系（pH 8.0）中仅呈现减弱的趋势。1.4 mmol/L噁唑哒嗪对α-淀粉酶活性的抑制率可达70%,但抑制程度随着反应体系中蛋白含量的增加而逐渐降低。     

Investigating and optimizing the immobilization of levansucrase for increased transfructosylation activity and thermal stability

Levansucrase (LS) represents a key enzyme in glycoside synthesis of novel prebiotics and β-2,6-levan. The study of the effects of immobilization parameters of LS, produced from Bacillus amyloliquefaciens, onto glyoxyl agarose-iminodiacetic acid/Cu (glyoxyl agarose-IDA/Cu) by response surface methodology revealed the significance of their interactive effects. Retention of activity was altered by interactive effects from buffer molarity/time and buffer pH/buffer molarity. The optimized immobilization conditions were identified to be a protein loading of 9.09 mg protein/g support, a buffer concentration of 608 mM at pH 6.8 and an incubation time of 49 h. Normally a reducing agent is applied to the immobilized enzyme in order to promote the formation of covalent bonds. This step was replaced with the addition of the ionic polymer polyethylenimine (PEI), which provided a better compromise between retained activity and thermal stability of the immobilized LS. Indeed, LS immobilized onto glyoxyl agarose-IDA/Cu/PEI had a retention of activity of 70.91% with a protein yield of 44.73% and an activity yield of 54.69%, while exhibiting a half-life 4.7 times higher than that of the free LS at 50 °C.     

A survey of proteases in edible mushrooms with synthetic peptides as substrates

The protease activities in six edible mushrooms were surveyed using synthetic fluorogenic substrates that have different specificities for each protease group. The activity was determined by measuring the fluorogenic intensity of the 7-amino-4-methylcoumarin (AMC) liberated by an enzyme. Various types of activities were found in all mushrooms, and their activities depended largely on the mushroom species, but also on the pH and localization. Flammulina velutipes and Pleurotus eryngii had the widest and highest proteolytic activities among the six mushrooms examined. The proteasome-like protease activities were generally much higher than those of other proteases. High caspase activities, which occur during apoptosis in cells, were detected in two mushrooms, F. velutipes and Hypsizigus marmoreus. The pH optima of the proteolytic activities were largely divided into two groups, acidic pH 5–6 for caspases and neutral to alkaline (pH 6.5–11) for the others. In F. velutipes, higher proteolytic activity was observed in the basement of the stem than in the cap and stem. Purification and characterization of protease were also carried out to identify a protease from Grifola frondosa using t-butyloxycarbonyl-Leu-Arg-Arg-4-methylcoumaryl-7-amide (Boc-LRR-MCA) as the substrate.     

Rat albumin inhibits the formation of apoceruloplasmin during storage

Purified rat ceruloplasmin is extraordinarily unstable in storage at –70 °C. In a 20 mM phosphate buffer, pH 7.0, the ferroxidase and amine oxidase of ceruloplasmin are over 90% inactivated within two weeks. Holoceruloplasmin stored for three months in a 20 mM barbital buffer (or acetate buffer), pH 7.0 (or pH 5.5) was transformed into an apo-protein and amine (o-dianisidine) oxidase of ceruloplasmin was inactivated by 50–55%. The patterns of ferroxidase activity loss were similar to those of amine oxidase activity loss. On the contrary, when holoceruloplasmin was mixed with rat serum albumin, transformation into apoceruloplasmin was significantly prevented in a 20 mM barbital buffer, pH 7.0 (or 20 mM acetate buffer, pH 5.5). Consequently, ferroxidase and amine oxidase activities of ceruloplasmin were not inactivated and the immunochemical reactivity was not changed. These results can be applied for laboratorial and clinical purposes.     

Stability of the fluorogenic enzyme substrates and pH optima of enzyme activities in different Finnish soils

Fluorogenic artificial substrates facilitate sensitive enzyme activity measurements for a variety of processes in soil and other environmental samples. It is possible to use in situ pH for measurements on condition that the substrates are chemically stable. We studied the stability of 12 different methyl umbellipherone (MUF) and amino methyl coumarine (AMC) derivatives used as substrates for arylsulphatase, alpha-glucosidase, beta-glucosidase, beta-xylosidase, cellobiosidase, chitinase, phosphomonoesterase (PME), phoshodiesterase (PDE), esterase, lipase and alanine- and leucine aminopeptidases (AP) over the pH range from 4.0 to 8.0 in modified universal buffer (MUB). Stability of the substrates for lipase (4-MUF-heptanoate) and esterase (4-MUF-acetate) measurements was poor, especially at the higher pH values. Chitinase substrate, 4-MUF-N-acetyl-beta-D-glucosamide, was unstable at high pH values whereas the substrate for PME activity measurement (4-MUF-phosphate) disintegrated at low pH. The other substrates and MUF and AMC standard solutions were stable over the pH range studied. The optima between pH 4 and 8 of the 11 different enzyme activities were measured in three forest and two agricultural soil samples and in one activated sludge sample. In soil, for alanine and leucine AP the pH optima were usually 7.5 or higher, for arylsulphatase, beta-glucosidase, beta-xylosidase, esterase and PDE between 4 and 5.5, and for cellobiosidase between 4 and 5. alpha-Glucosidase had an optimum below 5.5 but also exhibited high activity at pH 7. Soil-dependent variation in pH optima were observed for chitinase, esterase, PDE and PME. Enzyme activities were also measured in 0.5 M acetate buffer at pH 5.5. This buffer yielded the highest activities in all soil samples for arylsulphatase, PDE and PME.     

Recombinant Escherichia coli cell for d-p-hydroxyphenylglycine production from d-N-carbamoyl-p-hydroxyphenylglycine

Recombinant Escherichia coli cell containing D-amidohydrolase was employed to convert D-N-carbamoyl-p-hydroxyphenylglycine (D-CpHPG) to D-p-hydroxyphenylglycine (D-pHPG). Biotransformations under pH 7 and 40 degrees C allowed to complete conversion of D-CpHPG into D-pHPG. Under the same reaction pH, the D-amidohydrolase activity of the cell in the phosphate buffer was higher than that in the Tris buffer. The activity decreased with the increase of phosphate buffer concentration. Instead of using buffer, the reaction pH maintained constant at 7 by titrating with 1 N HCl resulted in a higher D-pHPG production rate. Flocculating the cell suspension with chitosan and cross-linked by glutaraldehyde made the cell recovery for repeated use much easier. Both the cross-linking and (PMSF; a protease inhibitor) treatments could increase the cell reusability and storage stability. However, the cross-linking decreased the D-amidohydrolase activity of the cell to about 50%. The D-amidohydrolase activities of free and cross-linked cell were inhibited at substrate concentration higher than 150 mM and 100 mM, respectively. The conversion of 150 mM D-CpHPG to D-pHPG could be completed within 7 h for the free cell at the concentration of 10% (wet weight/volume).     

Improvement of pectinase,xylanase and cellulase activities by ultrasound: Effects on enzymes and substrates,kinetics and thermodynamic parameters

Ultrasound effects were investigated on pectinase (PE), xylanase (XLN) and cellulase (CE) activities at different pH, temperatures, and by sonication pre-treatment, comparing the reaction at ultrasound bath (US) and at a mechanical stirring (MS). In general, US increased the activity of the enzymes by 5% for PE, 30 % for XLN and 25% for CE compared to MS. US provided a higher activity at extremes pH (pH 3 and 7), mainly for XLN and CE. The substrate and enzyme pre-sonication enhanced the activities. The previous sonication of xylan increased the xylanase activity in almost 30% under US and almost 20% under MS. On the other hand, cellulase pre-sonication increased the activity in 50% under US and 40% under MS. The catalytic efficiency (V_max/K_M) increase 25% for PE and 17% for higher XLN and CE under US. US affected the PE activity at low temperature improving 10% the PE activity, while its effect was more representative at high temperatures, where the enzymatic activities of XLN and CE were 33% and 15% higher. Our results demonstrated that ultrasound can affect enzymes and substrates, making it a powerful tool for enzymatic-catalyzed reactions.     

Lipoxygenase activity in apples in relation to storage and physiological disorders

Different methods for the preparation of active lipoxygenase (LOX) extracts from apples were compared. Highest activities were obtained using a 0.25 M phosphate buffer (pH 7) containing 1% Triton X-100 and 10^?2 M metabisulphite as extraction solvent. LOX activity during storage was investigated in the core, flesh, and peel. Activity was always highest in the core and peel. On storage, activity was increased in each part of the fruit but especially in the core and peel. Increase in LOX preceded the browning of the core. LOX may be responsible for the browning and may be concerned in the induction of superficial scald.     

Evaluation of antibacterial activity of crude protein extracts from seeds of six different medical plants against standard bacterial strains

A huge group of natural antimicrobial compounds are active against a large spectrum of bacterial strains causing infectious threat. The present study was conducted to investigate the crude extracts of antimicrobial protein and peptide efficacy from six medicinal plant seeds. Extraction was carried out in Sodium phosphate citrate buffer, and Sodium acetate buffer using different pH. Antimicrobial activities of these plants were determined by the microbiological technique using Agar well diffusion Assay. Extremely strong activity was observed in the seed extracts of Allium ascolinicum extracted in sodium phosphate citrate buffer at pH (5.8) against Proteus vulgaris, Escherichia coli and Staphylococcus aureus with zone of inhibition 17 mm, 17 mm and 15 mm and Rumex vesicarius at pH (7.6), Ammi majus at pH (6.8), Cichorium intybus at pH (7.4) and Cucumis sativus at pH (7.8) also showed better sensitivity against the bacterial strains with zone of inhibition ranges 16–10 mm and some of the strains were found to be resistant. Antibacterial activity pattern of different plant extracts prepared in sodium acetate buffer pH (6.5), among all the plant seed extracts used Foeniculum vulgare had shown good inhibition in all the bacterial strains used, with zone of inhibition ranges 11–12.5 mm, The extracts of C. intybus and C. sativus were found to be effective with zone of inhibition 11–6 mm and some of the strains were found to be resistant. Most of the strains found to have shown better sensitivity compared with the standard antibiotic Chloramphenicol (25 mcg). Our results showed that the plants used for our study are the richest source for antimicrobial proteins and peptides and they may be used for industrial extraction and isolation of antimicrobial compounds which may find a place in medicine industry as constituents of antibiotics.     

Cellulase and Xylanase Expression in Response to Different pH Levels of Penicillium echinulatum S1M29 Medium

The effect of pH on the production of cellulases and xylanases by Penicillium echinulatum S1M29 was evaluated in a shake flask and in a bioreactor. To control the pH in a shake flask, a buffer made with citric acid and disodium phosphate was used. The buffer was capable of maintaining the culture pH values for the first 48 h. In the bioreactor, the pH was controlled automatically by the addition of NaOH and H₂SO₄. In the shake flask, the highest activities of xylanases (18.5 IU/mL) and endoglucanases (8.2 IU/mL), as well as the highest filter paper activity (FPA) (0.9 IU/mL), were obtained at initial pH values of between 6.0 and 7.0. In the bioreactor, the highest activities of these enzymes were obtained in a pH range of 5.5 to 6.5. Different isoforms of the endoglucanases were found in the various cultures depending on the pH. More acidic pH ranges favored the production of β-glucosidases in both the shake flask and the bioreactor.     

Synthesis,structure analysis,solution chemistry,and in vitro insulinomimetic activity of novel oxovanadium(IV) complexes with tripodal ligands containing an imidazole group derived from amino acids

Structures, chemical properties, and in vitro insulinomimetic activities of new vanadyl [oxovanadium(IV), VO(2+)] complexes with five tripodal ligands containing an imidazole functionality were examined. The ligands, N-(carboxymethyl)- N-(4-imidazolylmethyl)amino acids, contain glycine, ( S)- and ( R)-alanine, and ( S)- and ( R)-leucine residues. The molecular structures of the latter four alanine- and leucine-containing complexes were determined by X-ray analysis. The coordination geometry around each vanadium center was octahedral, where an imino nitrogen occupied the apical site and two carboxylate oxygens, an imidazole nitrogen, and a water molecule coordinated in the equatorial plane. The spectroscopic properties of the complexes were characterized by means of IR, electronic absorption, and CD spectra. Acid dissociation constants (p K(a)) and protonation sites of the ligands were determined by a combination of potentiometric titrations and (1)H NMR spectra. The potentiometric study demonstrated that stability constants (log beta) were not so different among the present complexes (14.0-14.9) and a species of molecular complex with a 1:1 metal:ligand ratio existed predominantly at physiological pH 7.4. EPR parameters indicated that the species at pH 7.4 had an octahedral structure similar to the complex in the solid state. On the other hand, an EPR study in phosphate buffer (pH 7.4) suggested that inorganic phosphate coordinated to the vanadium center instead of the imidazole group in the presence of excess phosphate ion. Cyclic voltammograms in the phosphate buffer showed chemically reversible oxidation waves, whereas irreversible oxidation waves were observed in non-coordinating HEPES buffer. Moreover, the oxidation potential of each complex in phosphate buffer was more positive than that in HEPES buffer. Partition coefficients of the present complexes in a n-octanol/saline system were very low, probably due to hydrophilicity of the imidazole group. The in vitro insulinomimetic activities were estimated on the basis of the ability of the complexes to inhibit epinephrine-stimulated free fatty acid release from isolated rat adipocytes. The achiral glycine-derivative complex exhibited the highest insulinomimetic activity, which was higher than that of VOSO(4) as a positive control. Putting our previous observations together, it was found that the vanadyl complexes with tetradentate amino acid derivatives having no alkyl side chain tend to have high in vitro insulinomimetic activity.     

Antibacterial Activity and Drug Release of Chitosan Sponge Containing Doxycycline Hyclate

The purpose of the present study was to develop and characterize the chitosan sponges loading with doxycycline hyclate and their antibacterial activities. The pore density of chitosan sponge prepared with freeze drying technique was increased as the higher concentrated chitosan solution was used. The sponge prepared from 10% w/w of the chitosan solution and crosslinking with glutaraldehyde solution was utilized for loading with doxycycline hyclate. The drug release and sustainable antibacterial activity of fabricated sponge were assessed using dissolution test and agar diffusion test, respectively. Drug release from non-crosslinked sponge into phosphate buffer pH7.4 was slower than that from crosslinked sponge since the former could absorb the medium and form gel to retard the initial drug diffusion. Sustainable antibacterial activity of developed sponge was evident against S. aureus and E. coli. In conclusion, the in vitro release profile and antibacterial efficiency indicated that doxycycline hyclate could be sustained using chitosan sponge.     

Factors affecting the protease activity of venom from jellyfish Rhopilema esculentum Kishinouye

In this paper, the effects of some chemical and physical factors such as temperature, pH values, glycerol, and divalent metal cations on the protease activity of venom from jellyfish, Rhopilema esculentum Kishinouye, were assayed. Protease activity was dependent on temperature and pH values. Zn²⁺, Mg²⁺, and Mn²⁺ in sodium phosphate buffer (0.02 M, pH 8.0) could increase protease activity. Mn²⁺ had the best effects among the three metal cations and the effect was about 20 times of that of Zn²⁺ or Mg²⁺ and its maximal protease activity was 2.3 × 10⁵ U/mL. EDTA could increase protease activity. PMSF had hardly affected protease activity. O-Phenanthroline and glycerol played an important part in inhibiting protease activity and their maximal inhibiting rates were 87.5% and 82.1%, respectively.     

pH-dependent regulation of myeloperoxidase activity

The balance between peroxidase and chlorinating activities of myeloperoxidase (MPO) is very important for the enhancement of antimicrobial action and prevention of damage caused by hypochlorite. In the present paper, the peroxidase and chlorinating activities have been studied at various pH values. The possibility of using neutrophil protein solution for the evaluation of MPO activity has been demonstrated. It is shown that at neutral pH MPO had higher affinity to peroxidase substrate guaiacol: at pH 7.4, chloride ions did not compete with guaiacol up to the concentration of 150 mM. At acidic pH, chlorinating activity of MPO dominates: only hypochlorite production can be detected at equal chloride and guaiacol concentrations of 15 mM. However, horseradish peroxidase does not exhibit any difference in activity in the presence of chloride ions even at acidic pH values. It was demonstrated by MALDI-TOF mass-spectrometry that the amount of hypochlorite produced is sufficient to modify phospholipids (with formation of Cl- and Br-hydrins and lyso-derivatives) only at acidic pH (5.0). Thus, in the presence of phenolic peroxidase substrate, MPO chlorinating activity can be displayed at acidic pH only. It can lead to elimination of hypochlorite production in normal tissues at neutral pH (7.4) and its enhancement in phagosomes where the pH range is 4.7-6.0.     

Pyrrolooxygenases from Argentine wheat varieties

Pyrrolooxygenase activities were examined in different varieties of Argentine wheat (Triticum aestivum) which included the traditional Klein varieties and the new mixed Mexican and traditional varieties (DeKalb and Cargill). The enzymatic activities were variety-dependent and were more inhibited in some varieties than in others, while some (Cargill) were devoid of the proteic inhibitor. The enzymes were isolated from the flours as two isoenzymes of different charge whose relative proportions were dependent on the variety of wheat used. The more cationic isoenzymes were eluted with 10 mM Tris-HCl buffer (pH 7.6 from DEAE-cellulose and the less cationic were eluted with 50 mM NACl in the same buffer. The protein inhibitor, when present, was associated with the more cationic isoenzymes. Porphobilinogen oxygenase and skatole pyrrolooxygenase activities were higher in the endosperm, while tryptophan pyrrolooxygenase activity was higher in the embryo. The proteic inhibitors were mainly concentrated in the embryo.     

Antiviral and antiproliferative activity of human fibroblast interferon fractions

The affinity chromatography of Human crude beta-interferon preparations on Blue Dextran Sepharose columns resulted in isolation of several fractions with different ratio of antiviral to antiproliferative activities. The results of investigation of two of these fractions are described in this report. The first of them was eluted by 1N NaCl in 0.01 M tris buffer at pH 7.8, the second was eluted by 1 M NaCl, 50% methylethylenglycol in 0.01 M tris-HCl buffer at pH 7.8. The first of the fractions possessed presumably antiproliferative and the second presumably antiviral activity. Both fractions induced the increase of 2'5'-oligoadenylatesynthetase activity in cells although the inducing activity of the first fraction was about 6-fold higher than that of the second one as compared with their antiviral activities. The obtained results indicate that purification of interferon preparation for interferons main antiviral activity may lead to the loss of the great part of antiproliferative material.     

Glycosidase activities of the 293 and NS0 cell lines, and of an antibody-producing hybridoma cell line

We have previously demonstrated that Chinese hamster ovary (CHO) cell lysates harbor sialidase, beta-galactosidase, beta-hexosaminidase, and fucosidase activities that can accumulate extracellularly in CHO cell culture, thereby potentially leading to extracellular modification of glycoprotein oligosaccharides. The sialidase activity in CHO cell lysates was surprisingly active and stable at pH 7.5, with a half-life of 57 h at 37 degrees C.We have extended this work to determine whether 293, NS0, or hybridoma cell lysates contain similar glycosidase activities. The pH-activity profiles of beta-galactosidase and beta-hexosaminidase in lysates of these three cell lines resemble the pH-activity profiles for these enzymes in CHO cell lysate, whereas the pH-activity profiles of sialidase and fucosidase appear to be cell-type dependent. Sialidase activities were relatively stable at pH 4.5 in 293, NS0, and hybridoma cell lysates. However, the activities in 293 and NS0 cell lysates were unstable at pH 7.5, with no activity remaining after a 2-h incubation at 37 degrees C. The sialidase activity in hybridoma cell lysate was moderately stable at pH 7.5 with 30% of the activity remaining after a 2-h incubation at 37 degrees C. We conclude that the sialidase activites from 293, NS0, and hybridoma cells have characteristics similar to the vast majority of reported mammalian sialidase activities, and that these activities are markedly differant from the CHO cell sialidase activity.Finally, sialidase, beta-galactosidase, beta-hexosaminidase, and fucosidase activities were measured at pH 7 in cell-free bioreactor supernatants of the hybridoma cell line. As previously observed in CHO cell culture, all four glycosidase activities were present in the hybridoma supernatants. However, the sialidase activity in hybridoma supernatant was an order of magnitude lower than in CHO cell culture supernatant despite the fact that the hybridoma cell lysis rate was an order of magnitude higher. (c) 1994 John Wiley & Sons, Inc.     

Aldehyde Dehydrogenases in Rat Brain. Subcellular Distribution and Properties

Abstract: Kinetic studies suggested the presence of several forms of NAD-dependent aldehyde dehydrogenase (ALDH) in rat brain. A subcellular distribution study showed that low- and high- K _m activities with acetaldehyde as well as the substrate-specific enzyme succinate semialdehyde dehydrogenase were located mainly in the mitochondrial compartment. The low- K _m activity was also present in the cytosol (<20%). The low- K _m activity in the homogenate was only 10–15% of the total activity with acetaldehyde as the substrate. Two K _m values were obtained with both acetaldehyde (0.2 and 2000 μ m ) and 3,4-dihydroxyphenylacetaldehyde (DOPAL) (0.3 and 31 μ m ), and one K _m value with succinate semialdehyde (5 μ m ). The main part of the aldehyde dehydrogenase activities with acetaldehyde, DOPAL, and succinate semialdehyde, but only little activity of the marker enzyme for the outer membrane (monoamine oxidase, MAO), was released from a purified mitochondrial fraction subjected to sonication. Only small amounts of the ALDH activities were released from mitochondria subjected to swelling in a hypotonic buffer, whereas the main part of the marker enzyme for the intermembrane space (adenylate kinase) was released. These results indicate that the ALDH activities with acetaldehyde, DOPAL and succinate semialdehyde are located in the matrix compartment. The low- K _m activity with acetaldehyde and DOPAL, but not the high- K _m activities and succinate semialdehyde dehydrogenase, was markedly stimulated by Mg²⁺ and Ca²⁺ in phosphate buffer. The low- and high- K _m activities with acetaldehyde showed different pH optima in pyrophosphate buffer.