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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)
High
iron
consumption has been proposed to relate to an increase in the risk of colon cancer, whereas high levels of supplemental sodium phytate effectively reduce
iron
-induced oxidative injury and reverse
iron
-dependent augmentation of colorectal tumorigenesis. However, the protective role of intrinsic dietary phytate has not been determined. In this study, we examined the impact of removing phytate present in a corn-soy diet by supplemental microbial
phytase
on susceptibility of pigs to the oxidative stress caused by a moderately high dietary
iron
intake. Thirty-two weanling pigs were fed the corn-soy diets containing two levels of
iron
(as ferrous sulfate, 80 or 750 mg/kg diet) and microbial
phytase
(as Natuphos, BASF, Mt. Olive, NJ, 0 or 1200 units/kg). Pigs fed the
phytase
-supplemented diets did not receive any inorganic phosphorus to ensure adequate degradation of phytate. After 4 months of feeding, liver, colon, and colon mucosal scrapings were collected from four pigs in each of the four dietary groups. Colonic lipid peroxidation, measured as thiobarbituric acid reacting substances (TBARS), was increased by both the high
iron
(P< 0.0008) and
phytase
(P< 0.04) supplementation. Both TBARS and F2-isoprostanes, an in vivo marker of lipid peroxidation, in colonic mucosa were affected by dietary levels of
iron
(P< 0.03). Mean hepatic TBARS in pigs fed the
phytase
-supplemented, high
iron
diet was 43%-65% higher than that of other groups although the differences were nonsignificant. Moderately high dietary
iron
induced hepatic glutathione peroxidase activity (P= 0.06) and protein expression, but decreased catalase (P< 0.05) in the colonic mucosa. In conclusion, intrinsic phytate in corn and soy was protective against lipid peroxidation in the colon associated with a moderately high level of dietary
iron
.
...
PMID:Dietary intrinsic phytate protects colon from lipid peroxidation in pigs with a moderately high dietary iron intake. 1032 Jun 35
Five groups of individually housed albino rats (n = 7 each, initial average weight = 42 g) were fed diets based on corn starch and casein over a 4-week period. All diets were supplemented with 35 mg/kg of
iron
from FeSO4 x 7 H2O. Group I (control) was fed the basal diet free of phytic acid (PA) and
phytase
. By replacing corn starch by 7.5 g (groups II and IV) and 15 g phytic acid (groups III and V) from sodium phytate per kg diet, molar PA/
iron
ratios of 18 and 36 were obtained. In groups IV and V, 1000 U
phytase
from Aspergillus niger per kg diet were added. Food conversion efficiency ratio and growth rate as well as
iron
in plasma and spleen, hemoglobin, red blood cell count and erythrocyte zinc protoporphyrin were not influenced by the different dietary treatments. Dietary phytate reduced apparent
iron
absorption in groups II and III. Furthermore hematocrit, transferrin saturation and
iron
concentration in liver and femur were lowered in rats fed diets with PA, while total and latent
iron
-binding capacity of plasma increased. Microbial
phytase
supplementation (groups IV and V) partly counteracted the antinutritive effects of phytic acid on
iron
availability.
...
PMID:Supplemental sodium phytate and microbial phytase influence iron availability in growing rats. 1061 76
Marginal zinc deficiency and suboptimal zinc status have been recognized in many groups of the population in both less developed and industrialized countries. Although the cause in some cases may be inadequate dietary intake of zinc, inhibitors of zinc absorption are most likely the most common causative factor. Phytate, which is present in staple foods like cereals, corn and rice, has a strong negative effect on zinc absorption from composite meals. Inositol hexaphosphates and pentaphosphates are the phytate forms that exert these negative effects, whereas the lower phosphates have no or little effect on zinc absorption. The removal or reduction of phytate by enzyme (
phytase
) treatment, precipitation methods, germination, fermentation or plant breeding/genetic engineering markedly improves zinc absorption.
Iron
can have a negative effect on zinc absorption, if given together in a supplement, whereas no effect is observed when the same amounts are present in a meal as fortificants. Cadmium, which is increasing in the environment, also inhibits zinc absorption. The amount of protein in a meal has a positive effect on zinc absorption, but individual proteins may act differently; e.g., casein has a modest inhibitory effect of zinc absorption compared with other protein sources. Amino acids, such as histidine and methionine, and other low-molecular-weight ions, such as EDTA and organic acids (e.g., citrate), are known to have a positive effect on zinc absorption and have been used for zinc supplements. Knowledge about dietary factors that inhibit zinc absorption and about ways to overcome or remove these factors is essential when designing strategies to improve the zinc nutrition of vulnerable groups.
...
PMID:Dietary factors influencing zinc absorption. 1080 47
Cereals are rich in fiber but also in phytate which is considered the principal inhibitor of mineral availability. On this basis,
iron
availability of fortified rice, and the inhibitory effect of bran phytate was studied in: white rice fortified with electrolytic
iron
(ABF) from commercial origin; and mixtures of ABF plus 4.76% and 9.09% of rice bran (ABF2 and ABF3 respectively) to simulate brown rice. Samples were analysed before and after phytic acid hydrolysis with
phytase
: Dietary fiber and phytic acid were assessed according AOAC;
iron
availability, expressed as dialisable
iron
by the in vitro method of Kapsokefalou and Miller modified by Valencia et al.;
iron
content was assessed by AAS. Results showed that added bran depressed
iron
availability, 9.65%; 4.04% and 1.82% as expected (ABF, ABF2 and ABF3 respectively). After phytic acid hydrolysis
iron
availability reached 28.20%; 27.95% and 25.30% for the same samples. These values were not different. After phytic acid hydrolysis, fiber content of ABF2 and ABF3 were lower than before. However multiple regression analysis of the data showed that fiber had not influence on
iron
availability and that phytic acid would be the principal responsible of it. These results indicate that brown rice should have a higher level of
iron
fortification than in white rice or be combined with other foods that improve
iron
availability as meats, vegetables or fruits.
...
PMID:[In vitro analysis of the iron availability in fortified rice]. 1134 96
After reduction of phytate with
phytase
, water slurries of two high-tannin cereal flours were incubated with polyphenol oxidase (mushroom tyrosinase), and the effects on different phenolic groups and on in vitro accessible
iron
were studied. Enzyme incubation was also performed after cooking, soaking, and germination of the cereals. Phytase incubation significantly decreased the phytate content, and incubation with polyphenol oxidase had a reducing effect on the total phenol content, as well as on the amount of catechol and resorcinol groups. The in vitro accessible
iron
increased when the cereals were incubated with
phytase
and polyphenol oxidase, and the highest accessibility of
iron
was obtained when the germinated samples were incubated. The results from this study imply that oxidation of polyphenols in high-tannin cereals, after reduction of phytate, may be used to increase the bioavailability of
iron
in foods prepared from these cereals.
...
PMID:Oxidation of polyphenols in phytate-reduced high-tannin cereals: effect on different phenolic groups and on in vitro accessible iron. 1171 70
Iron
and phosphorus are essential minerals for both humans and plants. Advances in our understanding of the molecular mechanisms involved in the mobilization, transport and storage of these minerals now allow us to engineer plants to improve the yield and mineral nutrition of crops. Strategies range from increasing the expression of endogenous genes, such as that encoding the
iron
storage protein ferritin, to expressing a
phytase
gene from the fungus Aspergillus in Arabidopsis, thereby allowing the plants to obtain a previously unusable pool of phosphorus.
...
PMID:Limiting nutrients: an old problem with new solutions? 1185 13
Modern genetic and molecular technologies provide a number of tools that can be utilized for the development of staple foods with a higher
iron
and zinc content and improved bioavailability of these minerals. This article summarizes current strategies aimed at increasing the
iron
-sequestering capacity of the endosperm and improving mineral bioavailability via in planta synthesis of microbial phytases. A case study is presented for wheat, and future strategies are discussed addressing the importance of
phytase
thermostability.
...
PMID:Transgenic approaches in commonly consumed cereals to improve iron and zinc content and bioavailability. 1188 May 83
In plant seeds, most of the phosphate is in the form of phytic acid. Phytic acid is largely indigestible by monogastric animals and is the single most important factor hindering the uptake of a range of minerals. Engineering crop plants to produce a heterologous
phytase
improves phosphate bioavailability and reduces phytic acid excretion. This reduces the phosphate load on agricultural ecosystems and thereby alleviates eutrophication of the aquatic environment. Improved phosphate availability also reduces the need to add inorganic phosphate, a non-renewable resource.
Iron
and zinc uptake might be improved, which is significant for human nutrition in developing countries.
...
PMID:Engineering crop plants: getting a handle on phosphate. 1190 35
This study describes a community-based method used in rural Malawi to remove dietary phytate, an inhibitor of
iron
absorption, and notes an improvement in the
iron
status of ten children who participated in the trial. Phytate was removed by soaking maize flour in excess water with
phytase
and decanting the water before cooking the flour.
Iron
status, as measured by soluble transferrin receptor and zinc protoporphyrin, was improved but not normal.
...
PMID:Community-based dietary phytate reduction and its effect on iron status in Malawian children. 1207 Sep 48
Saccharomyces cerevisiae was engineered to express different amount of heavy (H)- and light (L)-chain subunits of human ferritin by using a low-copy integrative vector (YIp) and a high-copy episomal vector (YEp). In addition to pep4::HIS3 allele, the expression host strain was bred to have the selection markers leu2(-) and ura3(-) for YIplac128 and YEp352, respectively. The heterologous expression of
phytase
was used to determine the expression capability of the host strain. Expression in the new host strain (2805-a7) was as high as that in the parental strain (2805), which expresses high levels of several foreign genes. Following transformation, Northern and Western blot analyses demonstrated the expression of H- and L-chain genes. The recombinant yeast was more
iron
tolerant, in that transformed cells formed colonies on plates containing more than 25 mM ferric citrate, whereas none of the recipient strain cells did. Prussian blue staining indicated that the expressed isoferritins were assembled in vivo into a complex that bound
iron
. The expressed subunits showed a clear preference for the formation of heteropolymers over homopolymers. The molar ratio of H to L chains was estimated to be 1:6.8. The gel-purified heteropolymer took up
iron
faster than the L homopolymer, and it took up more
iron
than the H homopolymer did. The
iron
concentrations in transformants expressing the heteropolymer, L homopolymer, and H homopolymer were 1,004, 760, and 500 micro g per g (dry weight) of recombinant yeast cells, respectively. The results indicate that heterologously expressed H and L subunits coassemble into a heteropolymer in vivo and that the
iron
-carrying capacity of yeast is further enhanced by the expression of heteropolymeric isoferritin.
...
PMID:Expression of heteropolymeric ferritin improves iron storage in Saccharomyces cerevisiae. 1267 75
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