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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)
Four acid phosphatase (phosphomonoesterase E.C.3.1.3.2) genes were cloned by polymerase chain reaction (PCR). These were pho3, pho5 and pho11 from Saccharomyces cerevisiae and the gene for a phosphate-respressible acid phosphatase from Aspergillus niger. The individual genes were subcloned into an A. oryzae expression vector downstream from a starch-inducible
alpha-amylase
promoter and the resulting expression constructs were transformed into a mutant strain of A. oryzae, AO7. Southern hybridization analysis confirmed that the acid phosphatase genes had been integrated into the host genome with estimates of integrated copy numbers ranging from 2 to 20 for individual transformants. Northern hybridization analysis of total RNA from individual transformants revealed the presence of a single transcript of the expected size of 1.8 kb. Production of recombinant protein was induced by the addition of 30 g L-1 of soluble starch in the fermentation media. Active acid phosphatases, not present in control cultures, were detected in the supernatant fractions of transformant cultures by acid phosphatase activity staining of non-denaturing polyacrylamide gels. The ability of the recombinant acid phosphatases to hydrolyze phytate was assessed by referenced
phytase
(myoinositol hexakisphosphate phosphohydrolase E.C. 3.1.3.8) activity assay procedures. A two- to six-fold increase in
phytase
activity was measured in transformants compared to control, untransformed A. oryzae. Sufficient quantities of A. niger and pho5 recombinant acid phosphatases were generated from large-scale fermentations to assess the efficacy of these enzymes as phytate-degrading enzymes when included in poultry diets.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Molecular cloning, expression and evaluation of phosphohydrolases for phytate-degrading activity. 761 16
Phytase enzymes can increase the nutritional value of food and feed by liberating inorganic phosphate from phytate, the major storage form of phosphorus in plants. The
phytase
(phyC) from Bacillus subtilis VTT E-68013 was expressed in Lactobacillus plantarum strain 755 using Lact. amylovorus
alpha-amylase
secretion signals. In an overnight cultivation in MRS medium containing cellobiose for induction of the
alpha-amylase
promoter, catalytically active
phytase
was secreted as a predominant extracellular protein. However, Western blot analysis revealed unprocessed and processed
phytase
in the cell fraction. Pulse chase experiments showed that the recombinant
phytase
was secreted at a slower rate in comparison to the native proteins of Lact. plantarum 755.
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PMID:Expression of Bacillus subtilis phytase in Lactobacillus plantarum 755. 1079 56
The possible use of
phytase
as a breadmaking improver has been tested in whole wheat breads by adding different amounts of fungal
phytase
. The effect of
phytase
addition on the fermentation stage and the final bread quality was analyzed. The
phytase
addition shortened the fermentation period, without affecting the bread dough pH. Regarding the whole wheat bread, a considerable increase of the specific bread volume, an improvement of the crumb texture, and the width/height ratio of the bread slice were obtained. An in vitro assay revealed that the improving effect of
phytase
on breadmaking might be associated with the activation of
alpha-amylase
, due to the release of calcium ions from calcium-phytate complexes promoted by
phytase
activity. As a conclusion,
phytase
offers excellent possibilities as a breadmaking improver, with two main advantages: first, the nutritional improvement produced by decreasing phytate content, and second, all the benefits produced by
alpha-amylase
addition can be obtained by adding
phytase
, which promotes the activation of endogenous
alpha-amylase
.
...
PMID:Use of fungal phytase to improve breadmaking performance of whole wheat bread. 1171 42
1. Non-genetically modified (non-GM)
phytase
product derived from Aspergillus niger possesses various side active enzymes including
alpha-amylase
, protease, cellulase and hemicellulase. In contrast, the product of genetically modified (GM)
phytase
product has much less side active enzyme since the capacity of
phytase
production is reinforced by gene modification. In the present study we have tried to determine whether the difference of side enzyme activity of
phytase
product affects growth performances and nutritive value in chicks; in addition we tried to characterise the physiological change induced by the difference of side active enzymes. 2. Single Comb White Leghorn male chicks at 7 d of age were fed on experimental barley-based diets for 10 d. The feeding trial was of a factorial design (3 x 2 x 2), having three types of dietary
phytase
products (control, non-GM or GM
phytase
products derived from A. niger at 1000 U/kg diet), two levels of dietary available P supplement (0 or 6 g/kg diet) and two levels of dietary protein (CP 180 or 120 g/kg). 3. The non-GM
phytase
product caused a 6% increase in final body weight and feed efficiency compared with the control and the GM
phytase
product without interacting with dietary protein and available P level. However, in birds given available P-free diet, both non-GM and GM
phytase
products induced a 20% increase in plasma P concentration, suggesting no difference in
phytase
activity between the non-GM and GM
phytase
products. 4. The balance study showed that the metabolisable energy of the non-GM
phytase
product (15.6 +/- 0.05 kJ/g diet) was significantly higher among the treatments (control, 15.1 +/- 0.05; GM
phytase
product 15.3 +/- 0.07). The non-GM
phytase
product also increased the rate of food passage through the crop, and caused a drastic reduction in intestinal weight, perhaps as a consequence of digestion of non-starch polysaccharides. 5. We conclude that the side active enzymes in non-GM
phytase
product improve growth performance and nutritive value of the diet in chicks. However, the efficacy of
phytase
activity should not be different between non-GM and GM
phytase
products.
...
PMID:Improvement of growth and nutritive value in chicks with non-genetically modified phytase product from Aspergillus niger. 1255 93
Phytase production was studied by three Mucor and eight Rhizopus strains by solid-state fermentation (SSF) on three commonly used natural feed ingredients (canola meal, coconut oil cake, wheat bran). Mucor racemosus NRRL 1994 (ATCC 46129) gave the highest yield (14.5 IU/g dry matter
phytase
activity) on coconut oil cake. Optimizing the supplementation of coconut oil cake with glucose, casein and (NH(4))(2)SO(4),
phytase
production in solid-state fermentation was increased to 26 IU/g dry matter (DM). Optimization was carried out by Plackett-Burman and central composite experimental designs. Using the optimized medium
phytase
,
alpha-amylase
and lipase production of Mucor racemosus NRRL 1994 was compared in solid-state fermentation and in shake flask (SF) fermentation. SSF yielded higher
phytase
activity than did SF based on mass of initial substrate. Because this particular isolate is a food-grade fungus that has been used for sufu fermentation in China, the whole SSF material (crude enzyme, in situ enzyme) may be used directly in animal feed rations with enhanced cost efficiency.
...
PMID:Production of phytase by Mucor racemosus in solid-state fermentation. 1267 65
The production of
phytase
by three feed-grade filamentous fungi ( Aspergillus ficuum NRRL 3135, Mucor racemosus NRRL 1994 and Rhizopus oligosporus NRRL 5905) on four commonly used natural feed ingredients (canola meal, cracked corn, soybean meal, wheat bran) was studied in solid substrate fermentation (SSF). A. ficuum NRRL 3135 had the highest yield [15 IU
phytase
activity/g dry matter (DM)] on wheat bran. By optimizing the supplementation of wheat bran with starch and (NH(4))(2)SO(4),
phytase
production increased to 25 IU/g DM. Optimization was carried out by Plackett-Burman and central composite experimental designs. Using optimized medium,
phytase
, phosphatase,
alpha-amylase
and xylanase production by A. ficuum NRRL 3135 was studied in Erlenmeyer flask and tray SSF. By scaling up SSF from flasks to stationary trays, activities of 20 IU
phytase
activity/g DM were reproducibly obtained.
...
PMID:Optimization of phytase production by solid substrate fermentation. 1271 56
Phytate is the main storage form of phosphorus in many plant seeds, but phosphate bound in this form is not available to monogastric animals. Phytase, an enzyme that hydrolyzes phosphate from phytate, has the potential to enhance phosphorus availability in animal diets when engineered in rice seeds as a feed additive. Two genes, derived from a ruminal bacterium Selenomonas ruminantium (SrPf6) and Escherichia coli (appA), encoding highly active phytases were expressed in germinated transgenic rice seeds. Phytase expression was controlled by a germination inducible
alpha-amylase
gene (alphaAmy8) promoter, and extracellular
phytase
secretion directed by an betaAmy8 signal peptide sequence. The two phytases were expressed in germinated transgenic rice seeds transiently and in a temporally controlled and tissue-specific manner. No adverse effect on plant development or seed formation was observed. Up to 0.6 and 1.4 U of
phytase
activity per mg of total extracted cellular proteins were obtained in germinated transgenic rice seeds expressing appA and SrPf6 phytases, respectively, which represent 46-60 times of
phytase
activities compared to the non-transformant. The appA and SrPf6 phytases produced in germinated transgenic rice seeds had high activity over broad pH ranges of 3.0-5.5 and 2.0-6.0, respectively. Phytase levels and inheritance of transgenes in one highly expressing plant were stable over four generations. Germinated transgenic rice seeds, which produce a highly active recombinant
phytase
and are rich in hydrolytic enzymes, nutrients and minerals, could potentially be an ideal feed additive for improving the phytate-phosphorus digestibility in monogastric animals.
...
PMID:Production of two highly active bacterial phytases with broad pH optima in germinated transgenic rice seeds. 1507 73
The process of red sorghum malt production was monitored three times in five production units (PU) selected upon their ability to produce malt flours having a high capacity to fluidify high-energy-density gruels. Raw, germinated and degermed seeds were analysed for macronutrient, soluble sugars, phytate and cyanide contents and
alpha-amylase
activity. Know-how differences between producers lay mainly in the duration and type of equipment used for steeping and germination. Moreover, three PUs applied a maturation step before sun-drying and one PU added ashes to steeped seeds before germination. No significant difference was detected in the proximate composition of malts from the five PUs. For all PUs, traditional malting increased the protein content and decreased the lipid and ash contents, while the fibre content was not affected. Significant increases in sugar contents and in
alpha-amylase
activity were observed but in variable proportions from one PU to another. The phytate content decreased significantly in all PUs. The cyanide content increased in all PUs but more drastically or less drastically according to the PU. Finally, degerming lowered the cyanide content to an acceptable level for human consumption. The between-PU variability may be due either to the nature and origin of the raw seeds or to technological know-how differences between producers. Further investigations are needed to optimize and standardize the malting process with a view to maximizing
alpha-amylase
and
phytase
activities and minimizing the variability of their biochemical characteristics.
...
PMID:Influence of the technological know-how of producers on the biochemical characteristics of red sorghum malt from small scale production units in Ouagadougou (Burkina Faso). 1741 57
The production of
phytase
and associated feed enzymes (phosphatase, xylanase, CMCase,
alpha-amylase
and beta-glucosidase) was determined in a thermotolerant fungus Mucor indicus MTCC 6333, isolated from composting soil. Solid-substrate culturing on wheat bran and optimizing other culture conditions (C and N sources, level of N, temperature, pH, culture age, inoculum level), increased the yield of
phytase
from 266 +/- 0.2 to 513 +/- 0.4 nkat/g substrate dry mass. The culture extract also contained 112, 194, 171, 396, and 333 nkat/g substrate of phosphatase, xylanase, CMCase, beta-glucosidase and
alpha-amylase
activities, respectively. Simple 2-step purification employing anion exchange and gel filtration chromatography resulted in 21.9-fold purified
phytase
. The optimum pH and temperature were pH 6.0 and 70 degrees C, respectively. The
phytase
was thermostable under acidic conditions, showing 82% residual activity after exposure to 60 degrees C at pH 3.0 and 5.0 for 2 h, and displayed broad substrate specificity. The Km was 200 nmol/L and v(lim) of 113 nmol/s per mg protein with dodecasodium phytate as substrate. In vitro feed trial with feed enzyme resulted in the release of 1.68 g inorganic P/kg of feed after 6 h of incubation at 37 degrees C.
...
PMID:Production of feed enzymes (phytase and plant cell wall hydrolyzing enzymes) by Mucor indicus MTCC 6333: purification and characterization of phytase. 1829 46
Phytase liberates inorganic phosphate from phytic acid (myo-inositol hexakisphosphate) which is the major phosphate reserve in plant-derived foods and feeds. An industrial strain of Saccharomyces cerevisiae expressing the Debaryomyces castellii
phytase
gene (phytDc) and D. occidentalis
alpha-amylase
gene (AMY) was developed. The phytDc and AMY genes were constitutively expressed under the ADC1 promoter in S. cerevisiae by using the delta-integration system, which contains DNA derived exclusively from yeast. The recombinant industrial strain secreted both
phytase
and
alpha-amylase
for the efficient degradation of phytic acid and starch as main components of plant seeds. This new strain hydrolyzed 90% of 0.5% (w/v) sodium phytate within 5 days of growth and utilized 100% of 2% (w/v) starch within 48 h simultaneously.
...
PMID:Simultaneous degradation of phytic acid and starch by an industrial strain of Saccharomyces cerevisiae producing phytase and alpha-amylase. 1862 38
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