EC:3.1.3.8 - FACTA Search

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Query: EC:3.1.3.8 (phytase)
1,997 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aspergillus carneus (Van Tiegh) Blockwitz synthesized moderate quantities of phytase in culture filtrate. Maximal enzyme yield was obtained after eight days incubation statically in a medium containing sucrose and K2HPO4 in a C/P ratio of 591.8/1 with 0.1% corn steep liquor (CSL) as the sole source of nitrogen. Substitution of (NH4)2SO4 with certain amino acids decreased phytase yields significantly. Addition of fish or soybean meal to the nitrogen-free medium failed to enhance phytase production. The enzyme was purified about 43-fold from the culture filtrate by precipitation with acetone, gel filtration through Sephadex G-75 and ion exchange chromatography on DEAE-cellulose. Activity of both crude and purified phytase was influenced greatly by changing of pH and reaction temperature: maximum activity of the crude enzyme occurred at 35 degrees C and pH 5.6, whereas that of the purified preparation at 40 degrees C and pH 5.6. The pure enzyme was found stable between pH 5.6-6.2. About 68% of the enzyme activity was lost by heating at 45 degrees C for 60 min. The pure phytase retained its activity over a long period when stored at 4 degrees C.
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PMID:Biosynthesis, purification and some properties of extracellular phytase from Aspergillus carneus. 217 69

Rhizopus oligosporus strain CT11K2, commonly used in tempeh (fermented soybean) production produced both extra- and intracellular phytases. The enzymes were isolated from growth media and the cultured mould and partially purified by acetone fractionation, gel filtration on Sephadex G-100 and DEAE-cellulose chromatography. Intracellular phytase activity was higher than that of the extracellular enzyme. Both enzymes showed maximum activity at pH 4.5 and 55 degrees C, suggesting relatively high thermostability. The enzymes were partially inhibited by high concentrations of substrate. The Km and Vmax values of the extracellular phytase were 0.15 mM and 0.076 mumol Pi per min per ml DEAE-cellulose purified enzyme, respectively, and for the intracellular phytase were 0.17 mM and 0.34 mumol Pi per min per ml enzyme, respectively. Extracellular phytases showed inactivation and activation energies for the hydrolysis of phytic acid of approximately 28,300 cal per mol and 6100 cal per mol, respectively, while inactivation and activation energies for the intracellular phytase were approximately 33,200 per mol and 9500 cal per mol, respectively.
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PMID:Characterization of extra- and intracellular phytases from Rhizopus oligosporus used in tempeh production. 285 46

Bacillus species producing a thermostable phytase was isolated from soil, boiled rice, and mezu (Korean traditinal koji). The activity of phytase increased markedly at the late stationary phase. An extracellular phytase from Bacillus sp. KHU-10 was purified to homogeneity by acetone precipitation and DEAE-Sepharose and phenyl-Sepharose column chromatographies. Its molecular weight was estimated to be 46 kDa on gel filtration and 44 kDa on SDS-polyacrylamide gel elctrophoresis. Its optimum pH and temperature for phytase activity were pH 6.5-8.5 and 40 degrees C without 10 mM CaCl2 and pH 6.0-9.5 and 60 degrees C with 10 mM CaCl2. About 50% of its original activity remained after incubation at 80 degrees C or 10 min in the presence of 10 mM CaCl2. The enzyme activity was fairly stable from pH 6.5 to 10.0. The enzyme had an isoelectric point of 6.8. As for substrate specificity, it was very specific for sodium phytate and showed no activity on other phosphate esters. The Km value for sodium phytate was 50 microM. Its activity was inhibited by EDTA and metal ions such as Ba2+, Cd2+, Co2+, Cr3+, Cu2+, Hg2+, and Mn2+ ions.
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PMID:Purification and properties of extracellular phytase from Bacillus sp. KHU-10. 1159 62

A recombinant fungal phytase was produced by cultures of sesame hairy roots transformed with Agrobacterium rhizogenes, purified and its molecular properties were characterized. Its transcription level and the phytase production were rapidly increased after 4 weeks of the cultures, suggesting that its transcription and protein synthesis might concur. Western blot analysis provided evidence that the recombinant fungal phytase was secreted into the liquid culture medium of the hairy roots. The phytase enzyme secreted was purified by three steps of ultrafiltration, DEAE-Sepharose ion exchange chromatography, and Sephadex G-100 size-exclusion chromatography. As a result, one single band signal was observed with SDS-PAGE, indicating that the purification step was reasonable. The positive signs of both the zymogram and the PAS staining on SDS-PAGE suggested that the activity of the final product phytase was active and glycosylated. The optimal reaction temperature of the phytase was between 50 and 60 degrees C and at over 60 degrees C its activity was reduced by 30-90%, depending on the temperatures applied. Pre-incubation at temperatures of 20-50 degrees C showed stable catalytic activity, while at over 50 degrees C the phytase activity was gradually decreased by 90%. The optimal pH was between 4 and 5 pH values for the recombinant fungal phytase, while for native phytase it was at pH 5.0. Addition of iron ion inhibited the phytase activity but treatments of some cations, EDTA, and PMSF showed no effect on the activity or slightly stimulated it positively.
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PMID:Expression and characterization of extracellular fungal phytase in transformed sesame hairy root cultures. 1535 75

Phytase (myo-inositol-1,2,3,4,5,6-hexakisphosphate phosphohydrolase, EC 3.1.3.26) catalyses the stepwise hydrolysis of phytic acid (myo-inositol hexakisphosphate). Phytases are of great commercial importance due to their usage as supplement of food and animal feed, which can cater to nutrition demands and alleviate environmental problems, has been approved by many countries. Although acid phytases have been extensively studied, information regarding the phytases from Citrobacter is limited. In the work presented, a phytase was separated from Citrobacter freundii. After steps of electrophoretic homogeneity by successive ammonium sulfate between 60% and 80% saturation precipitation, DEAE-Sepharose ion-exchange chromatography and gel filtration through Superdex HR 10/30, final gel elution resulted in a 41.3-fold purification and yield of 9.3%. Gel elution is an effective method to purify the protein which contaminated with a few other proteins. The purified preparations were used in subsequent characterization studies. Based on SDS-PAGE analysis, the molecular weight of the purified phytase was calculated to be approximately 45.0kDa in monomeric form. The pure enzyme has an optimum pH of 4.0 to approximately 4.5. It was found stable between pH5.0 to approximately 7.0, about 90% of the enzyme activity was retained at 37 degrees C for 60min. The phytase has an optimum temperature of 40 degrees C which was lower than that of other phytases from Aspergillus or E. coli (average 50 to approximately 60 degrees C) and was close to the temperature of gastrointestinal tract in animals (37 to approximately 40 degrees C). Thus the enzyme is a promising candidate for animal feed applications. Activity of the purified phytase was influenced by changing the reaction temperature. Data showed that the enzyme retained its activity over a long period when stored at 4 degrees C, whereas thermal inactivation studies indicated that the enzyme lost 100% activity after treatment at 60 degrees C for 4min. The Km values of the phytase for dodecasodium phytate at 37 degrees C was 0.85nmol/L with a Vmax 0.53IU/(mg x min). Phytase activity was strongly inhibited by SDS, Zn2+ and moderately inhibited by Cu2+, Cr3+, Fe2+ and Fe3+. Activity was not significantly affected by EDTA, K+, Mg2+ and Ca2+. The phytase has excellent resistance to trypsin, but not pepsin. The N-terminal amino acids sequence of the phytase protein was determined as QCAPEGYQLQQVLMM which exhibited about 80% homology to Glucose-1-phosphatases from E. coli, Shigella flexneri and Salmonella, whereas it did not show apparent sequence similarity with any other phytase listed in the databases. Initial characterization of the purified enzyme suggested that it is a potential candidate for use as an animal feed supplement.
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PMID:[Purification and properties of Citrobacter freundii phytase]. 1657 82

An extracellular acid phosphatase isolated from the culture of a wild strain Aspergillus niger, producing the dephosphorylating 3-phytase, was obtained in a homogeneous form by sequential application of ultrafiltration through PS 50 membrane, gel filtration on Sephadex G-100 and ion exchange chromatography on DEAE-Sepharose CL 6B and CM-Sepharose CL 6B. The enzyme showed a maximum catalytic value in a strongly acidic range (pH 2.0-2.4) with pHopt 2.1 and topt 66 degrees C. The acid phosphatase showed a wide substrate specificity and a high affinity for sodium phytate, 2.5x higher than with 4-nitrophenyl phosphate. This property of the acid phosphatase demonstrated that it is a potent 3-phytase at pH 2.1 and is of great significance for a practical application of the dephosphorylating complex--its addition to the diets of monogastric animals in view of the low pH values in the digestive tract.
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PMID:Aspergillus niger pH 2.1 optimum acid phosphatase with high affinity for phytate. 1745 90

Acid phosphatase activity was detected in peanut (Arachis hypogaea) cotyledons during germination. Four (4) to six (6) days of germination was the meantime corresponding to maximum hydrolytic activity of this enzyme. The understanding of the role of acid phosphatase activity during germination led to purify this enzyme by successive chromatography separations on DEAE-Sepharose CL-6B, Sephacryl S-100 HR and Phenyl-Sepharose HP to apparent homogeneity from germinated peanut cotyledon five days old. This enzyme designated peanut cotyledon acid phosphatase (AP) had native molecular weight of 24 kDa by gel permeation. SDS-PAGE of the purified acid phosphatase resolved a single protein band that migrated to approximately 21.5 kDa. Thus, this acid phosphatase likely functions as a monomer. The enzyme had optimum pH (5.0) and temperature (55 degrees C), and appeared to be stable in the presence of anionic, cationic and non-ionic detergents. Substrate specificity indicated that the purified acid phosphatase hydrolyzed a broad range of phosphorylated substrates. However, natural substrates such as ADP and ATP were the compounds with highest rate of hydrolysis for the enzyme. Moreover, the purified acid phosphatase exhibited phytase activity. These results showed that this enzyme played a peculiar role during germination, notably in reducing the rate of phytic acid, an antinutritional substance contained in peanut seed.
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PMID:Purification, kinetic properties and physicochemical characterization of a novel acid phosphatase (AP) from germinating peanut (Arachis hypogaea) seed. 1772 56

The extracellular phytase in the supernatant of cell culture of the marine yeast Kodamaea ohmeri BG3 was purified to homogeneity with a 7.2-fold increase in specific phytase activity as compared to that in the supernatant by ammonium sulfate fractionation, gel filtration chromatography (Sephadextrade mark G-75), and anion-exchange chromatography (DEAE Sepharose Fast Flow Anion-Exchange). According to the data from sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the molecular mass of the purified enzyme was estimated to be 98.2 kDa while the molecular mass of the purified enzyme was estimated to be 92.9 kDa and the enzyme was shown to be a monomer according to the results of gel filtration chromatography. The optimal pH and temperature of the purified enzyme were 5.0 and 65 degrees C, respectively. The enzyme was stimulated by Mn(2+), Ca(2+), K(+), Li(+), Na(+), Ba(2+), Mg(2+) and Co(2+) (at a concentrations of 5.0 mM), but it was inhibited by Cu(2+), Hg(2+), Fe(2+), Fe(3+), Ag(+), and Zn(2+) (at a concentration of 5.0 mM). The enzyme was also inhibited by phenylmethylsulfonyl fluoride (PMSF), iodoacetic acid (at a concentration of 1.0 mM), and phenylgloxal hydrate (at a concentration of 5.0 mM), and not inhibited by EDTA and 1,10-phenanthroline (at concentrations of 1.0 mM and 5.0 mM). The K (m), V (max), and K (cat) values of the purified enzyme for phytate were 1.45 mM, 0.083 micromol/ml . min, and 0.93 s(-1), respectively.
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PMID:Purification and characterization of extracellular phytase from a marine yeast Kodamaea ohmeri BG3. 1804 Jul 41

A novel phytase was isolated from Aspergillus ficuum NTG-23 with a procedure involving ion-exchange chromatography on DEAE-cellulose, CM-cellulose and FPLC-gel filtration on Superdex 75. The protein exhibited a molecular mass of 65.5kDa in gel filtration and SDS-PAGE. It possessed an optimal pH of 1.3 and an optimal temperature of 67 degrees C, and manifested a K(m) of 0.295mM and a V(max) of 55.9nmol (phosphate)/min. Phytase activity was not significantly affected by metal ions such as Ca(2+), Mg(2+), Mn(2+), Zn(2+), but was slightly stimulated in the presence of EDTA. The phytase was stable at 60 degrees C with no obvious loss of activity upon its incubation at 70 degrees C for 20min. The enzyme exhibited a broad substrate selectivity and showed strong resistance toward pepsin and trypsin. The unique properties suggest that the phytase has the potential to be useful as an animal feed supplement.
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PMID:Purification, characterization, and cloning of a novel phytase with low pH optimum and strong proteolysis resistance from Aspergillus ficuum NTG-23. 2014 43

A novel phytase with a molecular mass of 14 kDa was isolated from fresh fruiting bodies of the common edible mushroom Volvariella volvacea (Straw mushroom). The isolation procedure involved successive chromatography on DEAE-cellulose, CM-cellulose, Affi-gel blue gel, Q-Sepharose and Superdex-75. The enzyme was a monomeric protein and was unadsorbed on DEAE-cellulose, CM-cellulose and Affi-gel blue gel, but was adsorbed on Q-Sepharose. The enzyme was purified 51.6-fold from the crude extract with 25.9% yield. Its N-terminal amino acid sequence GEDNEHDTQA exhibited low homology to the other reported phytases. The optimal pH and temperature of the purified enzyme was 5 and 45 degrees C, respectively. The enzyme was quite stable over the pH range of 3.0 to 9.0 with less than 30% change in its activity, suggesting that it can be used in a very wide pH range. The enzyme exhibited broad substrate selectivity towards various phosphorylated compounds, but lacked antifungal activity against tested plant pathogens.
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PMID:Purification and characterization of phytase with a wide pH adaptation from common edible mushroom Volvariella volvacea (Straw mushroom). 2243 44

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