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1.
J Am Coll Nutr ; 27(2): 222-8, 2008 Apr.
Article in English | MEDLINE | ID: mdl-18689553

ABSTRACT

BACKGROUND: Oxidative stress is implicated in the etiology of many diseases, but most of clinical trials failed to demonstrate beneficial effects of antioxidant supplementation. METHODS: In the present experiment, we assessed the mean-term effect of wheat germ supplementation, as a dietary source of vitamin E, on antioxidant protection in rat. RESULTS: Feeding rats a 20% wheat germ diet significantly increased plasma and liver vitamin E levels, compared to the low vitamin E basal diet. Concurrently, wheat germ diet consumption strongly decreased the susceptibility of heart and liver lipids to oxidation, as well as the plasma. Wheat germ feeding did not change triglycerides (TG) nor total cholesterol concentrations in plasma or liver, resulting in higher vitamin E/TG ratio compared to controls. Similar results were found with a diet in which wheat germ oil provided the same amount of vitamin E. CONCLUSIONS: Wheat germ appears thus very effective to improve antioxidant defense status, especially in tissues, irrespective of modifications of lipids status.


Subject(s)
Antioxidants/pharmacology , Plant Oils/pharmacology , Vitamin E/blood , Animals , Cholesterol/blood , Liver/metabolism , Male , Malondialdehyde/urine , Myocardium/metabolism , Oxidative Stress/drug effects , Oxidative Stress/physiology , Random Allocation , Rats , Rats, Wistar , Thiobarbituric Acid Reactive Substances/metabolism , Triglycerides/blood , Vitamin E Deficiency/blood , Vitamin E Deficiency/drug therapy , Vitamin E Deficiency/urine
2.
J Agric Food Chem ; 54(5): 1710-5, 2006 Mar 08.
Article in English | MEDLINE | ID: mdl-16506823

ABSTRACT

The current study was undertaken to provide solutions to optimize the unsaponifiable antioxidants content of bread. We report a complete description of changes in wheat carotenoids and vitamin E content from grain to bread and highlight the most important processing steps affecting their level in wheat bread. Major carotenoids losses occurred during kneading. A close correlation (r(2) = 0.97; P = 0.05) was found between carotenoid pigment losses and lipoxygenase (LOX) activity, both parameters depending on wheat genotype. The use of wheat species exhibiting high carotenoid contents and low LOX activity was shown to preserve significant carotenoid level in the bread. No relation was found between vitamin E losses during doughmaking and LOX activity. In addition, moderate kneading resulted in higher vitamin E retention in comparison with carotenoids (12% and 66% losses, respectively). It is concluded that carotenoids are more susceptible to oxidation by endogenous lipoxygenase than vitamin E during breadmaking. This study showed that bread nutritional quality, in terms of antioxidant content, could be improved by selecting suitable cereal genotypes, if this potential is preserved by milling and baking processes.


Subject(s)
Bread/analysis , Carotenoids/metabolism , Food Handling , Lipoxygenase/metabolism , Triticum/enzymology , Vitamin E/metabolism , Carotenoids/analysis , Tocopherols/analysis , Vitamin E/analysis
3.
J Agric Food Chem ; 53(1): 98-102, 2005 Jan 12.
Article in English | MEDLINE | ID: mdl-15631515

ABSTRACT

Whole wheat bread is an important source of minerals but also contains considerable amounts of phytic acid, which is known to impair their absorption. An in vitro trial was performed to assess the effect of a moderate drop of the dough pH (around 5.5) by way of sourdough fermentation or by exogenous organic acid addition on phytate hydrolysis. It was shown that a slight acidification of the dough (pH 5.5) with either sourdough or lactic acid addition allowed a significant phytate breakdown (70% of the initial flour content compared to 40% without any leavening agent or acidification). This result highlights the predominance of wheat phytase activity over sourdough microflora phytase activity during moderate sourdough fermentation and shows that a slight drop of the pH (pH value around 5.5) is sufficient to reduce significantly the phytate content of a wholemeal flour. Mg "bioaccessibility"of whole wheat dough was improved by direct solubilization of the cation and by phytate hydrolysis.


Subject(s)
6-Phytase/metabolism , Bread , Fermentation , Flour/analysis , Phytic Acid/analysis , Triticum/chemistry , Food Handling/methods , Hydrogen-Ion Concentration , Magnesium/chemistry , Solubility
4.
Plant J ; 38(1): 27-37, 2004 Apr.
Article in English | MEDLINE | ID: mdl-15053757

ABSTRACT

Xyloglucan-acting enzymes are believed to have effects on type I primary plant cell wall mechanical properties. In order to get a better understanding of these effects, a range of enzymes with different in vitro modes of action were tested against cell wall analogues (bio-composite materials based on Acetobacter xylinus cellulose and xyloglucan). Tomato pericarp xyloglucan endo transglycosylase (tXET) and nasturtium seed xyloglucanase (nXGase) were produced heterologously in Pichia pastoris. Their action against the cell wall analogues was compared with that of a commercial preparation of Trichoderma endo-glucanase (EndoGase). Both 'hydrolytic' enzymes (nXGase and EndoGase) were able to depolymerise not only the cross-link xyloglucan fraction but also the surface-bound fraction. Consequent major changes in cellulose fibril architecture were observed. In mechanical terms, removal of xyloglucan cross-links from composites resulted in increased stiffness (at high strain) and decreased visco-elasticity with similar extensibility. On the other hand, true transglycosylase activity (tXET) did not affect the cellulose/xyloglucan ratio. No change in composite stiffness or extensibility resulted, but a significant increase in creep behaviour was observed in the presence of active tXET. These results provide direct in vitro evidence for the involvement of cell wall xyloglucan-specific enzymes in mechanical changes underlying plant cell wall re-modelling and growth processes. Mechanical consequences of tXET action are shown to be complimentary to those of cucumber expansin.


Subject(s)
Cellulose/metabolism , Glucans/metabolism , Glycoside Hydrolases/metabolism , Glycosyltransferases/metabolism , Solanum lycopersicum/enzymology , Tropaeolum/enzymology , Xylans/metabolism , Base Sequence , Biomechanical Phenomena , Cell Wall/enzymology , Cellulose/chemistry , Cellulose/ultrastructure , Cross-Linking Reagents , DNA, Plant/genetics , Elasticity , Glucans/chemistry , Glucans/ultrastructure , Glycoside Hydrolases/genetics , Glycosyltransferases/genetics , Hydrolysis , Solanum lycopersicum/genetics , Microscopy, Electron , Pichia/genetics , Recombinant Proteins/genetics , Recombinant Proteins/metabolism , Tropaeolum/genetics , Viscosity , Xylans/chemistry , Xylans/ultrastructure
5.
Int J Biol Macromol ; 32(1-2): 28-35, 2003 Mar.
Article in English | MEDLINE | ID: mdl-12719129

ABSTRACT

The polymeric basis for the mechanical properties of primary plant cell walls has been investigated by forming analogous composites based on fermentation of the bacterium Acetobacter xylinus, either alone or in the presence of xyloglucan or pectin. Simultaneous small-angle X-ray scattering and uniaxial deformation experiments has shown how the cellulose microfibrils reorient during deformation. Despite very different stress/strain curves, the reorientation behaviour is similar, regardless of the presence or absence of xyloglucan or pectin. A simple theory has been developed to predict the orientation behaviour. This is qualitatively similar to the measured behaviour, but differs quantitatively.


Subject(s)
Bacterial Physiological Phenomena , Cellulose/chemistry , Gluconacetobacter xylinus/metabolism , Biomechanical Phenomena , Cell Wall/chemistry , Fermentation , Microfibrils/chemistry , Pectins/chemistry , Polymers/chemistry , Scattering, Radiation , Stress, Mechanical , Tensile Strength , X-Rays
6.
Planta ; 215(6): 989-96, 2002 Oct.
Article in English | MEDLINE | ID: mdl-12355159

ABSTRACT

Mechanical effects of turgor pressure on cell walls were simulated by deforming cell wall analogues based on Acetobacter xylinus cellulose under equi-biaxial tension. This experimental set-up, with associated modelling, allowed quantitative information to be obtained on cellulose alone and in composites with pectin and/or xyloglucan. Cellulose was the main load-bearing component, pectin and xyloglucan leading to a decrease in modulus when incorporated. The cellulose-only system could be regarded as an essentially linear elastic material with a modulus ranging from 200 to 500 MPa. Pectin incorporation modified extensibility properties of the system by topology/architecture changes of cellulose fibril assemblies, but the cellulose/pectin composites could still be described as a linear elastic material with a modulus ranging from 120 to 250 MPa. The xyloglucan/cellulose composite could not be modelled as a linear elastic material. Introducing xyloglucan into a cellulose network or a cellulose/pectin composite led to very compliant materials characterised by time-dependent creep behaviour. Modulus values obtained for the composite materials were compared with mechanical data found for plant-derived systems. After comparing bi-axial and uni-axial behaviour of the different composites, structural models were proposed to explain the role of each polysaccharide in determining the mechanical properties of these plant primary cell wall analogues.


Subject(s)
Cell Wall/chemistry , Cellulose/metabolism , Glucans , Microfibrils/metabolism , Plants/chemistry , Xylans , Acetobacter/chemistry , Acetobacter/physiology , Acetobacter/ultrastructure , Biomechanical Phenomena , Cell Wall/physiology , Cell Wall/ultrastructure , Cellulose/ultrastructure , Elasticity , Microfibrils/ultrastructure , Microscopy, Electron , Models, Biological , Osmotic Pressure , Pectins/metabolism , Plants/ultrastructure , Polysaccharides/metabolism , Stress, Mechanical
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