Your search keyword '"Avena chemistry"' showing total 54 results

1. Impact of compositionally diverse cereal flour water extracts on the gas cell size distribution and extensional rheology of model gluten-starch doughs.

Author

Monterde V, Janssen F, Verma U, Cardinaels R, Verboven P, Nicolaï BM, and Wouters AGB

Subjects

Edible Grain chemistry, Secale chemistry, Plant Extracts chemistry, Food Handling methods, Flour analysis, Glutens analysis, Rheology, Starch analysis, Starch chemistry, Bread analysis, Triticum chemistry, Water chemistry, Avena chemistry

Abstract

The role of water-extractable (WE) cereal flour constituents, and particularly WE proteins, in determining bread dough gas cell stability and bread specific volume (SV) remains ill-understood. We investigated the impact of compositionally diverse cereal flour aqueous extracts on bread SV, dough extensional rheology, and dough gas cell size distribution. To this end, aqueous extracts from wheat, rye, and defatted oat flours were either used as such, or their composition was modified by dialyzing out (i) low molecular mass constituents or (ii) both low molecular mass constituents and enzymatically hydrolyzed carbohydrates. These modifications generated wheat, rye, and oat extracts with increasing protein purities. Incorporating wheat or rye extracts in model gluten-starch (GS) doughs increased bread SV by 12-18%, regardless of modification, suggesting that not WE carbohydrates but probably proteins drive this effect. Dough extensional rheology and gas cell size distribution data could not explain these bread SV increases. It is hypothesized that wheat/rye WE proteins stabilize gas cells in dough by adsorbing at their interfaces. Incorporating oat extracts in GS dough led to a 50% decrease in bread SV. This was associated with oat extract-containing doughs having a lower strain hardening index, a lower gas cell number density, and a more heterogeneous gas cell size distribution. That similar effects were observed irrespective of the modification type suggests that oat WE proteins may be responsible for the adverse impact on dough and bread properties. Future efforts will focus on investigating direct gas cell stabilization effects by WE cereal flour constituents., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

2. In situ fortification of cereal by-products with vitamin B12: An eco-sustainable approach for food fortification.

Author

Călinoiu LF, Odochean R, Martău GA, Mitrea L, Nemes SA, Ștefănescu BE, and Vodnar DC

Subjects

Edible Grain chemistry, Edible Grain microbiology, Edible Grain metabolism, Vitamin B 12 analysis, Vitamin B 12 metabolism, Avena chemistry, Avena metabolism, Avena microbiology, Fermentation, Triticum chemistry, Triticum metabolism, Triticum microbiology, Triticum growth & development, Food, Fortified analysis

Abstract

Vitamin B12 deficiency poses significant health risks, especially among populations with limited access to animal-based foods. This study explores the utilisation of cereal bran by-products, wheat (WB) and oat bran (OB), as substrates for in situ vitamin B12 fortification through solid-state fermentation (SSF) using Propionibacterium freudenreichii. The impact of various precursors addition, including riboflavin, cobalt, nicotinamide and DMBI on vitamin B12 production, along with changes in microbial growth, chemical profiles, and vitamin B12 yields during fermentation was evaluated. Results showed that WB and OB possess favourable constituents for microbial growth and vitamin B12 synthesis. The substrates supplemented with riboflavin, cobalt, and DMBI demonstrated enhanced B12 production. In addition, pH levels are essential in microbial viability and cobalamin biosynthesis. Monosaccharides and organic acids play a crucial role, with maltose showing a strong positive association with B12 production in OB, while in WB, citric acid exhibits significant correlations with various factors., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

3. Efficacy of Aflatoxin B1 and Fumonisin B1 Adsorption by Maize, Wheat, and Oat Bran.

Author

Lee Y, Lemmetty JM, Nihtilä H, Koivula H, Samandoulougou S, Sawadogo-Lingani H, Katina K, and Maina NH

Subjects

Adsorption, Temperature, Hydrogen-Ion Concentration, Zea mays chemistry, Fumonisins chemistry, Triticum chemistry, Aflatoxin B1 chemistry, Avena chemistry, Dietary Fiber, Food Contamination prevention & control, Food Contamination analysis

Abstract

Mycotoxins, especially aflatoxin B1 (AFB1) and fumonisin B1 (FMB1), are common contaminants in cereal-based foods. Instances of contamination are predicted to increase due to the current challenges induced by climate change. Despite the health benefits of whole grains, the presence of mycotoxins in bran remains a concern. Nonetheless, previous research indicates that wheat bran can adsorb mutagens. Therefore, this study investigated the capacity of maize, wheat, and oat brans to adsorb AFB1 and FMB1 under varying in vitro conditions, including pH, binding time, temperature, particle size, and the amount of bran utilized. Maize bran demonstrated a high AFB1 adsorption capacity (>78%) compared to wheat and oat brans. However, FMB1 was not adsorbed by the brans, possibly due to its hydrophilic nature. Lower temperature (≤25 °C) enhanced AFB1 adsorption efficacy in wheat and oat bran, while for maize bran, the highest adsorption occurred at 37 °C. A linear model following Henry's law best explained AFB1 adsorption by the brans. Further studies identified the pericarp layer of bran as the primary site of AFB1 adsorption, with the initial liquid volume being a critical factor. The study concludes that bran could potentially act as an effective bioadsorbent. Further research is essential to confirm the adsorption efficacy and the bioavailability of AFB1 through in vivo experiments.

Published

2024

4. Structure-function relationship of oat flour fractions when blended with wheat flour: Instrumental and nutritional quality characterization of resulting breads.

Author

Rashed MS, Pojić M, McDonagh C, Gallagher E, Frias JM, and Pathania S

Subjects

Particle Size, Viscosity, Structure-Activity Relationship, beta-Glucans analysis, beta-Glucans chemistry, Bread analysis, Avena chemistry, Flour analysis, Triticum chemistry, Nutritive Value, Food Handling methods

Abstract

The present work investigated the structure-function relationship of dry fractionated oat flour (DFOF) as a techno-functional ingredient using bread as a model system. Mechanically, DFOF fractions (F), that is, F1: <224 µm, F2: 250-280 µm, F3: 280-500 µm, F4: 500-600 µm, and whole oat flour (F5) were blended with white wheat flour at 10%, 30%, and 50% substitution levels for bread making. The blended flours, doughs, and bread samples were assessed for their techno-functional, nutritional, and structural characteristics. The results of Mixolab and the Rapid Visco Analyzer show that the 50% substituted F3 fraction exhibits the highest water absorption properties (69.53%), whereas the 50% F1 fraction exhibits the highest peak viscosity of the past slurry. Analysis of bread samples revealed a lower particle size of DFOF fractions and higher supplementation levels, increased β-glucan levels (0.13-1.29 g/100 bread (db), reduced fermentable monosaccharides, that is, glucose (1.44-0.33 g/100 g), and fructose (1.06-0.28 g/100 g). The effect of particle size surpassed the substitution level effect on bread volume reduction. The lowest hardness value for F1 is 10%, and the highest value for F2 is 50%. The total number of cells in the bread slice decreased from the control to the F4 fraction (50%). Multi-criteria analysis indicated that DFOF fractions produced breads with similar structure and higher nutritional value developed from white wheat flour. PRACTICAL APPLICATION: The use of mechanically fractionated oat flours fractions in white wheat flour breads can improve the nutritional profile without affecting the physical properties of the bread product. Based on the oat flour fractions, bakers and food processing companies can tailor the bread formulations for high β-glucan, high fiber, and low reduced sugar claims., (© 2024 The Authors. Journal of Food Science published by Wiley Periodicals LLC on behalf of Institute of Food Technologists.)

Published

2024

5. Modelling the Effects of Weather Conditions on Cereal Grain Contamination with Deoxynivalenol in the Baltic Sea Region.

Author

Marzec-Schmidt K, Börjesson T, Suproniene S, Jędryczka M, Janavičienė S, Góral T, Karlsson I, Kochiieru Y, Ochodzki P, Mankevičienė A, and Piikki K

Subjects

Avena microbiology, Baltic States, Edible Grain microbiology, Hordeum microbiology, Lithuania, Models, Theoretical, Poland, Seasons, Sweden, Trichothecenes chemistry, Triticum microbiology, Avena chemistry, Edible Grain chemistry, Food Contamination analysis, Hordeum chemistry, Trichothecenes analysis, Triticum chemistry, Weather

Abstract

Fusarium head blight (FHB) is one of the most serious diseases of small-grain cereals worldwide, resulting in yield reduction and an accumulation of the mycotoxin deoxynivalenol (DON) in grain. Weather conditions are known to have a significant effect on the ability of fusaria to infect cereals and produce toxins. In the past 10 years, severe outbreaks of FHB, and grain DON contamination exceeding the EU health safety limits, have occurred in countries in the Baltic Sea region. In this study, extensive data from field trials in Sweden, Poland and Lithuania were analysed to identify the most crucial weather variables for the ability of Fusarium to produce DON. Models were developed for the prediction of DON contamination levels in harvested grain exceeding 200 µg kg -1 for oats, spring barley and spring wheat in Sweden and winter wheat in Poland, and 1250 µg kg -1 for spring wheat in Lithuania. These models were able to predict high DON levels with an accuracy of 70-81%. Relative humidity (RH) and precipitation (PREC) were identified as the weather factors with the greatest influence on DON accumulation in grain, with high RH and PREC around flowering and later in grain development and ripening correlated with high DON levels. High temperatures during grain development and senescence reduced the risk of DON accumulation. The performance of the models, based only on weather variables, was relatively accurate. In future studies, it might be of interest to determine whether inclusion of variables such as pre-crop, agronomic factors and crop resistance to FHB could further improve the performance of the models.

Published

2021

6. Evaluation of the discriminatory potential of antibodies created from synthetic peptides derived from wheat, barley, rye and oat gluten.

Author

Poirier D, Théolier J, Marega R, Delahaut P, Gillard N, and Godefroy SB

Subjects

Animals, Peptides immunology, Peptides chemistry, Antibodies immunology, Enzyme-Linked Immunosorbent Assay methods, Celiac Disease immunology, Rabbits, Amino Acid Sequence, Humans, Glutens immunology, Glutens analysis, Triticum chemistry, Triticum immunology, Secale immunology, Secale chemistry, Avena immunology, Avena chemistry, Hordeum chemistry, Hordeum immunology

Abstract

Celiac disease (CD) is triggered by ingestion of gluten-containing cereals such as wheat, barley, rye and in some cases oat. The only way for affected individuals to avoid symptoms of this condition is to adopt a gluten-free diet. Thus, gluten-free foodstuffs need to be monitored in order to ensure their innocuity. For this purpose, commercial immunoassays based on recognition of defined linear gluten sequences are currently used. These immunoassays are designed to detect or quantify total gluten regardless of the cereal, and often result in over or underestimation of the exact gluten content. In addition, Canadian regulations require a declaration of the source of gluten on the label of prepackaged foods, which cannot be done due to the limitations of existing methods. In this study, the development of new antibodies targeting discrimination of gluten sources was conducted using synthetic peptides as immunization strategy. Fourteen synthetic peptides selected from unique linear amino acid sequences of gluten were bioconjugated to Concholepas concholepas hemocyanin (CCH) as protein carrier, to elicit antibodies in rabbit. The resulting polyclonal antibodies (pAbs) successfully discriminated wheat, barley and oat prolamins during indirect ELISA assessments. pAbs raised against rye synthetic peptides cross-reacted evenly with wheat and rye prolamins but could still be useful to successfully discriminate gluten sources in combination with the other pAbs. Discrimination of gluten sources can be further refined and enhanced by raising monoclonal antibodies using a similar immunization strategy. A methodology capable of discriminating gluten sources, such as the one proposed in this study, could facilitate compliance with Canadian regulations on this matter. This type of discrimination could also complement current immunoassays by settling the issue of over and underestimation of gluten content, thus improving the safety of food intended to CD and wheat-allergic patients., Competing Interests: Samuel Benrejeb Godefroy’s research activities are funded by the Ministry of Agriculture, Fisheries, and Food, Government of Quebec, Canada; the Ministry of Science, Technology, and Innovation, Government of Quebec; Canada’s Innovation Foundation; the U.S. Department of Agriculture Foreign Agriculture Service; r‐Biopharm GmbH; and r-Biopharm Canada Inc. Samuel Benrejeb Godefroy acts as an expert advisor for members of the food and beverage industry, international organizations (the Food and Agriculture Organization of the United Nations, the United Nations Industrial Development Organization, and the World Bank), and international food regulators such as the China National Centre for Food Safety Risk Assessment and consumer organizations such as Food Allergy Canada. The other authors declare that they have no conflicts of interest.

Published

2021

7. Immunonutritional Protease Inhibitors from T. durum and A. sativa Display Metabolic Similarities When Assayed on Human Macrophage-like Cells.

Author

Fotschki B, Garcia Tejedor A, Nieto Fuentes JA, and Laparra Llopis JM

Subjects

Humans, Macrophages drug effects, Avena chemistry, Macrophages immunology, Macrophages metabolism, Plant Extracts pharmacology, Protease Inhibitors pharmacology, Proteome drug effects, Triticum chemistry

Abstract

This study evaluated the immunonutritional effects caused by protease inhibitors from Avena sativa and Triticum durum to human macrophage-like cells. Macrophages were exposed (3 h) to extracts obtained from flours, and mitochondrial-associated oxygen consumption rates and inflammatory, metabolic, and proteome adaptations were quantified. Mass spectrometry ' m / z ' signals of the extracts obtained from T. durum and A. sativa revealed molecular weights of 18-35 kDa and 16-22 kDa, respectively, for the compounds present at highest concentrations. Extracts from T. durum exhibited lower susceptibility to degradation by gastrointestinal enzymes than those from A. sativa : 9.5% vs 20.2%. Despite their different botanical origin, both extracts increased TLR4 expression. Metabolic protein levels were indicative of a decreased glycolytic to lactate flux in cell cultures upon stimulation with A. sativa extracts, which improved mitochondrial respiration in relation to those from T. durum . Principal components analysis confirmed relative similarities between immune-metabolic events triggered by immunonutritional ingredients in T. durum and A. sativa . Collectively, immunonutritional effects help to interpret the differences between both crops, worsening or improving, macrophage immune reactivity (tolerogenicity), and better control of inflammatory processes.

Published

2021

8. Bioaccessibility of folate in faba bean, oat, rye and wheat matrices.

Author

Liu F, Kariluoto S, Edelmann M, and Piironen V

Subjects

Biological Availability, Digestion, Folic Acid pharmacokinetics, Avena chemistry, Folic Acid analysis, Secale chemistry, Triticum chemistry, Vicia faba chemistry

Abstract

Cereals and legumes are rich in folate. However, due to the instability of folate, processing and digestion can induce significant folate loss. In this paper, folate bioaccessibility of faba bean, oat, rye and wheat flours and pastes was studied using a static in vitro digestion model. Folate bioaccessibility depended on food matrices, varying from 42% to 67% in flours and from 40% to 123% in pastes. Digestion was associated with the interconversion of formyl folates, as well as the increase of oxidised vitamers and decrease of reduced vitamers. Especially in faba bean, 5-methyltetrahydrofolate showed surprisingly good stability both in digestion and heat treatment, resulting in high bioaccessibility. The physiological concentration of ascorbic acid did not stabilise folate in digestion; however, a higher level helped to maintain reduced vitamers. Heat treatment (10-min paste making) could improve folate bioaccessibility by liberating folate from the food matrices and by altering folate vitamer distribution., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

9. Variation in Lignin, Cell Wall-Bound p -Coumaric, and Ferulic Acid in the Nodes and Internodes of Cereals and Their Impact on Lodging.

Author

Jo Heuschele D, Smith KP, and Annor GA

Subjects

Avena chemistry, Avena growth & development, Cell Wall chemistry, Coumaric Acids chemistry, Hordeum chemistry, Hordeum growth & development, Lignin chemistry, Triticum chemistry, Triticum growth & development, Avena metabolism, Cell Wall metabolism, Coumaric Acids metabolism, Hordeum metabolism, Lignin metabolism, Triticum metabolism

Abstract

Understanding the contribution of stem cell wall components to lodging is important in developing breeding programs aimed at reducing lodging in cereal crops. This study is one of the first to investigate the correlation between the amounts of cell wall-bound ferulic acid, p -coumaric acid, and lignin in the nodes and internodes of cereals (oat, wheat, and barley) and their lodging susceptibility during grain fill. All samples, except two-row barley, were susceptible to lodging and expressed a significantly lower stalk strength. Lignin and phenolic contents between nodes and internodes of all samples were significantly different, with internodes having higher amounts (5.5-7.0 and 10.9-16.2 μg/g p- coumaric acid, and 2.5-3.2 and 3.9-7.1 μg/g ferulic acid in nodes and internodes, respectively). The acid-soluble lignin content was different between nodes and internodes but not between crops. This data set did not correlate with lodging classification, possibly due to sample size and type.

Published

2020

10. FTIR Nanospectroscopy Shows Molecular Structures of Plant Biominerals and Cell Walls.

Author

Zancajo VMR, Lindtner T, Eisele M, Huber AJ, Elbaum R, and Kneipp J

Subjects

Avena metabolism, Cell Wall metabolism, Epoxy Resins chemistry, Nanotechnology, Plant Leaves chemistry, Plant Leaves metabolism, Silicon Dioxide chemistry, Sorghum metabolism, Triticum metabolism, Avena chemistry, Cell Wall chemistry, Sorghum chemistry, Spectroscopy, Fourier Transform Infrared methods, Triticum chemistry

Abstract

Plant tissues are complex composite structures of organic and inorganic components whose function relies on molecular heterogeneity at the nanometer scale. Scattering-type near-field optical microscopy (s-SNOM) in the mid-infrared (IR) region is used here to collect IR nanospectra from both fixed and native plant samples. We compared structures of chemically extracted silica bodies (phytoliths) to silicified and nonsilicified cell walls prepared as a flat block of epoxy-embedded awns of wheat ( Triticum turgidum ), thin sections of native epidermis cells from sorghum ( Sorghum bicolor ) comprising silica phytoliths, and isolated cells from awns of oats ( Avena sterilis ). The correlation of the scanning-probe IR images and the mechanical phase image enables a combined probing of mechanical material properties together with the chemical composition and structure of both the cell walls and the phytolith structures. The data reveal a structural heterogeneity of the different silica bodies in situ , as well as different compositions and crystallinities of cell wall components. In conclusion, IR nanospectroscopy is suggested as an ideal tool for studies of native plant materials of varied origins and preparations and could be applied to other inorganic-organic hybrid materials.

Published

2020

11. Evaluation of bioactive compounds in cereals. Study of wheat, barley, oat and selected grain products.

Author

Nogala-Kałucka M, Kawka A, Dwiecki K, and Siger A

Subjects

Antioxidants analysis, Flour, Food Handling, Hot Temperature, Humans, Minerals analysis, Nutrients analysis, Phenols analysis, Tocotrienols analysis, Whole Grains chemistry, Xylans analysis, Avena chemistry, Edible Grain chemistry, Hordeum chemistry, Triticum chemistry

Abstract

Background: One of the requirements for proper nutrition and maintenance of good health is to supply the body, through diet, with an appropriately increased quantity of bioactive compounds. With this in mind, modern milling and baking industries keep introducing new types of products. The use of such additives as wholegrain flours and bran in baked products provided the basis for research in this paper., Methods: The aim of the study was to conduct a qualitative and quantitative evaluation of marketable wheat, barley and oat grain, used as raw materials to produce dehulled kernels, ground grain, wholemeal flour and wheat flour type 550 (all-purpose or plain flour), as well as wheat bran. Additionally, analyses were performed to determine the chemical composition and contents of nutrients, selected bioactive compounds and antioxidant activity., Results: The studied raw materials in commercial cereal differ in their chemical composition. Dehulling of wheat, barley and oat grains significantly contributed to the reduction of minerals, protein and total dietary fiber (TDF) contents, except for the amount of protein in dehulled wheat and oat grains. Oat bran, in contrast to other oat products, was characterized by the highest contents of minerals, protein, TDF, and the smallest amounts of saccharides and total starch. The lowest content of minerals was recorded in wheat flour type 550. Thermal processes affect the concentration of tocochromanols in the grain, with tocotrienols being more resistant to hydrothermal treatment than tocopherols. Grain dehulling also significantly decreased the total amount of tocochromanols in relation to the original grains., Conclusions: Wheat products differ in the contents of their individual components. They are characterized by high contents of tocochromanols, phenolic compounds and water-extractable arabinoxylans, with the exception of white refined wheat flour, which is mainly a source of saccharides. In the case of barley and oat products, the analysis showed no differences between these product groups. It was also shown that dehulling of barley and oat grain causes statistically significant differences in the contents of nutrients and natural antioxidants.

Published

2020

12. The role of lipids in determining the air-water interfacial properties of wheat, rye, and oat dough liquor constituents.

Author

Janssen F, Wouters AGB, Linclau L, Waelkens E, Derua R, Dehairs J, Moldenaers P, Vermant J, and Delcour JA

Subjects

Bread analysis, Phase Transition, Surface Tension, Viscosity, Water chemistry, Avena chemistry, Lipids chemistry, Secale chemistry, Triticum chemistry

Abstract

Bread is mainly made from wheat but also from other cereals such as rye and oats. We here report on the role of dough liquor (DL) proteins and lipids in determining the stability of gas cell air-water (A-W) interfaces in wheat, rye, and oat bread making. Surprisingly, most lipids in DLs of these cereals are nonpolar. Their main polar DL lipids are phospholipids. Lipids at wheat and rye DL stabilized A-W interfaces impair interactions between its proteins, as reflected by an increased A-W interfacial shear viscosity of the adsorbed film upon defatting. In contrast, removing most lipids from oat DL pronouncedly increased the A-W interface surface tension, demonstrating that lipids are the prominent adsorbed species., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

13. Synthesis and application of magnetic-surfaced pseudo molecularly imprinted polymers for zearalenone pretreatment in cereal samples.

Author

Huang Z, He J, Li H, Zhang M, Wang H, Zhang Y, Li Y, You L, and Zhang S

Subjects

Adsorption, Chromatography, High Pressure Liquid, Magnetics, Solid Phase Extraction methods, Avena chemistry, Edible Grain chemistry, Molecular Imprinting methods, Polymers chemistry, Triticum chemistry, Zea mays chemistry, Zearalenone chemistry

Abstract

Zearalenone (ZEA) is a fungal contaminant widely found in grains. In cereal samples, trace zearalenone was extracted and enriched using magnetic-surfaced pseudo molecularly imprinted polymers (SPMIPs) and detected. SPMIPs were prepared with Fe 3 O 4 as the magnetic core, modified halloysites nanotubes as supporting materials, and selective imprinted polymers as shells. Vinyl was modified on the surface of halloysites nanotube. SPMIPs were synthesized with pseudo templates. SPMIPs as the adsorbent of dispersed-solid phase extraction (μ-SPE) were used to purify and enrich ZEA from maize samples. After optimized, the pretreatment method was evaluated. The linearity of the method was ranged within 10-200 ng mL -1 . LOD and LOQ were 2.5 ng mL -1 and 8 ng mL -1 respectively. The ZEA spiking recoveries in maize samples ranged within 74.95-88.41% were with good RSDs lower than 4.25%. The developed method was successful applied in maize, oat, and wheat sample treatments and compared., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

14. Cereal type significantly affects the composition and reconstitution characteristics of dried fermented milk-cereal composites.

Author

Shevade AV, O'Callaghan YC, Kennedy D, O'Brien NM, O'Connor TP, and Guinee TP

Subjects

Animals, Cattle, Food Handling, Avena chemistry, Cultured Milk Products analysis, Hordeum chemistry, Milk chemistry, Triticum chemistry

Abstract

Background: Dairy and cereal products are frequently combined to create composites with enhanced nutritional benefits. Commercially available dried dairy-cereal composites are typically reconstituted and cooked to produce porridge or soup., Results: Dried fermented milk-cereal composites (FMCC) with ∼193 g kg -1 protein were prepared by blending fermented milk with parboiled oats (FMCCo), wheat (FMCCw), or barley (FMCCb), incubating the blend, drying, and milling. Cereal type significantly affected the composition of the FMCC and the properties of the reconstituted, cooked FMCC (R-FMCC). The FMCCo had a higher starch and fat content and lower levels of lactose, lactic acid, and amylose than FMCCb. The R-FMCCo had higher viscosity during cooking at 95 °C and cooling to 35 °C, and higher values of yield stress (σ 0 ), consistency index (K) and viscosity on shearing from 20 to 120 s -1 at 60 °C than R-FMCCb. The FMCCw had lower levels of fat and β-glucan than FMCCo or FMCCb, but was otherwise closer to FMMCb with respect to composition, cooking properties and flow behavior., Conclusion: Differences in composition and consistency associated with cereal type are likely to affect the nutritional value of the FMCC. © 2018 Society of Chemical Industry., (© 2018 Society of Chemical Industry.)

Published

2019

15. Effects of high hydrostatic pressure on quality changes of blends with low-protein wheat and oat flour and derivative foods.

Author

Lee NY and Koo JG

Subjects

Dietary Fiber, Flour standards, Avena chemistry, Flour analysis, Hydrostatic Pressure, Triticum chemistry

Abstract

This study aimed to investigate the effect of high hydrostatic pressure (HHP) on the physicochemical characteristics of blended low-protein wheat (LW) and oat flour. Additionally, quality changes in noodles made from blends treated with HHP were investigated. Crude protein and fiber contents of LW were not affected by HHP; however, those of blends were significantly higher than those of LW (p < 0.05). Water-holding capacity (WHC) of blends increased with HHP treatment. The peak viscosity of LW did not differ significantly because of HHP, and the peak and final viscosities of blends increased upon oat flour addition. The hardness, gumminess, chewiness of noodles made using LW improved with the addition of oat flour combined with HHP. The results indicated that the use of blends containing LW and oat flour as well as HHP treatment improved the quality and properties of noodles made using LW., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

16. Foliar application of selenium for protection against the first stages of mycotoxin infection of crop plant leaves.

Author

Kornaś A, Filek M, Sieprawska A, Bednarska-Kozakiewicz E, Gawrońska K, and Miszalski Z

Subjects

Avena chemistry, Avena drug effects, Avena genetics, Crop Production, Fungi drug effects, Fungi metabolism, Genotype, Hordeum chemistry, Hordeum drug effects, Hordeum genetics, Plant Diseases genetics, Plant Diseases microbiology, Plant Diseases prevention & control, Plant Leaves chemistry, Plant Leaves genetics, Plant Leaves microbiology, Triticum chemistry, Triticum drug effects, Triticum genetics, Zearalenone metabolism, Avena microbiology, Hordeum microbiology, Plant Leaves drug effects, Selenium pharmacology, Triticum microbiology, Zearalenone analysis

Abstract

Background: The aim of this study was to investigate whether the application of selenium (Se) ions directly to the leaf surface can protect plants against infection by the fungal toxin zearalenone (ZEA). The experiments were performed for the most common and agronomically important crops such as wheat, oat, and barley (both tolerant and sensitive varieties) because mycotoxin accumulation in plants is the cause of many diseases in animals and people., Results: ZEA at a concentration of 10 µmol L -1 either alone or in combination with Se (5 µmol L -1 Na 2 SeO 4 ) was applied to the second leaf of seedlings. Visualization of leaf temperature profiles by infrared thermography demonstrated a decrease in temperature at the location of ZEA infection that was more noticeable in sensitive genotypes. The presence of Se significantly suppressed changes at the site of ZEA application in all tested plants, especially the tolerant genotypes. Microscopic observations confirmed that foliar administration of ZEA resulted in its penetration to deeper localized cells and that damage induced by ZEA (mainly to chloroplasts) decreased after Se application. Analyses of antioxidant enzymes demonstrated the involvement of Se in antioxidation mechanisms, in particular by activating SOD and CAT under ZEA-induced stress conditions., Conclusion: The foliar application of Se to seedling leaves may be a non-invasive method of protecting crops against the first steps of ZEA infection. © 2018 Society of Chemical Industry., (© 2018 Society of Chemical Industry.)

Published

2019

17. Down-regulation of partial substitution for staple food by oat noodles on blood lipid levels: A randomized, double-blind, clinical trial.

Author

Liao MY, Shen YC, Chiu HF, Ten SM, Lu YY, Han YC, Venkatakrishnan K, Yang SF, and Wang CK

Subjects

Adult, Aged, Avena chemistry, Blood Pressure, Double-Blind Method, Down-Regulation, Female, Humans, Hypercholesterolemia blood, Hypercholesterolemia physiopathology, Male, Middle Aged, Avena metabolism, Hypercholesterolemia diet therapy, Lipids blood, Oryza metabolism, Triticum metabolism

Abstract

This clinical trial was conducted to assess the lipid-lowering activity of oat noodles by replacing partial staple food (wheat or rice noodle) in normal and mildly hypercholesterolemic subjects. Totally 84 healthy and mild hypercholesterolemic subjects were recruited and divided into 2 groups as experimental (oat noodles) and placebo (wheat noodles) and instructed to consume 100 g of oat noodles or wheat noodles (replacing one or two meals/day) for 10 weeks and followed by 2 weeks of follow up (without noodle consumption). Various anthropometric measurements and biochemical analysis were carried out during initial (baseline), 2nd, 6th, 10th and 12th week (follow-up). Consumption of oat noodles by replacing staple food for 10 weeks significantly reduced (**p < 0.01) the levels of total cholesterol (TC; 17.46%) and low-density lipoprotein LDL-c (19.03%) in both healthy and mildly hypercholesterolemic subjects. However, the hypocholesterolemic effect is significantly higher in mildly hypercholesterolemic subjects as compared with normal subjects. A pronounced decline (*p < 0.05) in the levels of various cardiovascular diseases (CVDs) markers including TC/HDL and LDL/HDL ratios and blood pressure (SBP; 11.09% and DBP; 7.48%) were observed in oat noodles supplemented subjects as equivalence with the placebo group. The partial replacement of staple food with oat noodle could considerably improve the health status of all subjects especially in hypercholesterolemic subjects and thus lower the risk of CVDs., (Copyright © 2018. Published by Elsevier Taiwan LLC.)

Published

2019

18. Simultaneous determination of pesticides, mycotoxins, tropane alkaloids, growth regulators, and pyrrolizidine alkaloids in oats and whole wheat grains after online clean-up via two-dimensional liquid chromatography tandem mass spectrometry.

Author

Urban M, Hann S, and Rost H

Subjects

Chlormequat analysis, Food Analysis methods, Limit of Detection, Mycotoxins analysis, Online Systems, Pesticide Residues analysis, Piperidines analysis, Plant Growth Regulators analysis, Pyrrolizidine Alkaloids analysis, Reproducibility of Results, Tropanes analysis, Avena chemistry, Chromatography, Liquid methods, Food Contamination analysis, Tandem Mass Spectrometry methods, Triticum chemistry

Abstract

In this study, a two-dimensional liquid chromatography tandem mass spectrometry method was developed and validated for the determination of pesticide residues and contaminants in whole wheat grains and oats. The samples were extracted with a mixture of acetonitrile and water and were injected into the two-dimensional LC-MS/MS system without any further clean-up or sample preparation. Samples were analyzed with four different matrix matched calibrations. Matrix effects were evaluated by comparing analyte signals in the respective matrix matched standard with the neat solvent standards. The final method was validated according to the current Eurachem validation guide and SANTE document. The number of successfully validated analytes throughout all three validation levels in oats and wheat, respectively, were as follows: 330 and 316 out of 370 pesticides, 6 and 13 out of 18 pyrrolizidine alkaloids and 7 out of 9 regulated mycotoxins. Moreover, both plant growth regulators mepiquat and chlormequat as well as the tropane alkaloids atropine and scopolamine met the validation criteria. The majority of pesticides showed limits of detection below 1 µg kg -1 , pyrrolizidine alkaloids below 0.7 µg kg -1 , tropane alkaloids below 0.2 µg kg -1 , growth regulators below 0.7 µg kg -1 and mycotoxins below 8 µg kg -1 in both matrices.

Published

2019

19. Relating the composition and air/water interfacial properties of wheat, rye, barley, and oat dough liquor.

Author

Janssen F, Wouters AGB, Pauly A, and Delcour JA

Subjects

Avena metabolism, Fermentation, Glutens chemistry, Hordeum metabolism, Lipids analysis, Secale metabolism, Triticum metabolism, Ultracentrifugation, Viscosity, Water chemistry, Xylans analysis, Xylans metabolism, beta-Glucans analysis, beta-Glucans metabolism, Avena chemistry, Bread, Hordeum chemistry, Secale chemistry, Triticum chemistry

Abstract

Gas cell stabilization in dough by its aqueous phase constituents is arguably more important in non-wheat than in wheat dough due to weaker protein networks in the former. Dough liquor (DL), a model for the dough aqueous phase, was isolated from fermented wheat, rye, barley, and oat doughs by ultracentrifugation. DL composition (protein, lipid, arabinoxylan, β-glucan) and air/water interfacial functionality [foaming, viscosity, surface tension, surface dilatational modulus (E)] were related to bread quality. Poor foaming and low E of wheat DL were ascribed to lipids and proteins co-occurring at the interface. Nonetheless, the presence of a gluten network resulted in high-quality wheaten breads. Homogeneous and heterogeneous crumb structures of rye and barley breads, respectively, were attributed to high and low E values of their respective DLs. High lipid content and low surface tension of oat DL indicated a lipid-dominated interface, which may explain the heterogeneous crumb structure of oat breads., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

20. Sprouted and Freeze-Dried Wheat and Oat Seeds - Phytochemical Profile and in Vitro Biological Activities.

Author

Aborus NE, Šaponjac VT, Čanadanović-Brunet J, Ćetković G, Hidalgo A, Vulić J, and Šeregelj V

Subjects

Albumins antagonists & inhibitors, Animals, Anti-Inflammatory Agents, Non-Steroidal chemistry, Anti-Inflammatory Agents, Non-Steroidal isolation & purification, Antihypertensive Agents chemistry, Antihypertensive Agents isolation & purification, Antioxidants chemistry, Antioxidants isolation & purification, Chickens, Colorimetry, Eggs, Freeze Drying, Phytochemicals chemistry, Phytochemicals isolation & purification, alpha-Glucosidases, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Antihypertensive Agents pharmacology, Antioxidants pharmacology, Avena chemistry, Phytochemicals pharmacology, Seeds chemistry, Triticum chemistry

Abstract

This research was carried out to study phytochemical profile, in vitro antioxidant capacity, reducing power, anti-hyperglycemic, anti-inflammatory activities and simulated gastrointestinal digestion of 7-day old cereal sprouts: spelt wheat 'Nirvana' (WSSpe), wheat 'Simonida' (WSSim), oat 'Golozrni' (OSG) and oat 'Jadar' (OSJ). OSG expressed significantly higher (P ≤ 0.05) total phenols (TPC) and flavonoids content (TFC), antioxidant capacities (DPPH and ABTS assays) and reducing power (EC 50 DPPH  = 2.12 mg/ml; EC 50 ABTS  = 0.87 mg/ml; EC 0.5 RP  = 12.24 mg/ml) as well as anti-hyperglycemic activity (EC 50 AH gA  = 0.96 mg/ml). WSSpe had the highest content of chlorophyll (131.23 mg/100 g) and carotenoids (22.84 mg/100 g). WSSim possessed the most potent anti-inflammatory activity (2.71 mg/ml), though not significantly different from OSG (2.77 mg/ml). The in vitro simulation of gastro-intestinal digestion showed higher release of phenolic compounds in intestinal than in gastric fluid., (© 2018 Wiley-VHCA AG, Zurich, Switzerland.)

Published

2018

21. The retrogradation kinetics of starches of different botanical origin in the presence of glucose syrup.

Author

Berski W, Ziobro R, Witczak M, and Gambuś H

Subjects

Species Specificity, Avena chemistry, High Fructose Corn Syrup chemistry, Starch chemistry, Triticum chemistry

Abstract

The influence of glucose syrup on the retrogradation of cereal starches was investigated. Laboratory isolated starches from wheat (WS) and oats (OS - oat starch and ROS - residual oat starch) were used in this research. ROS was isolated from the flour left after the industrial separation of β-glucans. Gelatinization temperature of oat starches (63.82°C and 64.01°C for OS and ROS, respectively) was higher than for WS (62.26°C), whereas gelatinization enthalpy for oat starches (8.87J/g and 9.09J/g for OS and ROS, respectively) was lower than for WS (9.99J/g). Moreover, retrogradation percentage (%R) was similar for both oat starches (29.76% and 27.72% for OS and ROS, respectively), and was substantially lower than for WS (42.04%). The introduction of glucose syrup into system reduced the extent of the retrogradation. Rate of the process was suppressed for WS and ROS, whereas for OS it was increased. β-Glucan production process had no significant effect on the gelatinization and retrogradation of oat starch., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

22. The impact of short-term UV irradiation on grains of sensitive and tolerant cereal genotypes studied by EPR.

Author

Kurdziel M, Filek M, and Łabanowska M

Subjects

Avena chemistry, Avena metabolism, Edible Grain chemistry, Edible Grain genetics, Edible Grain metabolism, Electron Spin Resonance Spectroscopy, Food Irradiation, Genotype, Hordeum chemistry, Hordeum genetics, Hordeum metabolism, Oxidative Stress, Reactive Oxygen Species metabolism, Triticum chemistry, Triticum genetics, Triticum metabolism, Ultraviolet Rays, Avena radiation effects, Edible Grain radiation effects, Hordeum radiation effects, Triticum radiation effects

Abstract

Background: UV irradiation has ionisation character and leads to the generation of reactive oxygen species (ROS). The destructive character of ROS was observed among others during interaction of cereal grains with ozone and was caused by changes in structures of biomolecules leading to the formation of stable organic radicals. That effect was more evident for stress sensitive genotypes. In this study we investigated the influence of UV irradiation on cereal grains originating from genotypes with different tolerance to oxidative stress., Results: Grains and their parts (endosperm, embryo and seed coat) of barley, wheat and oat were subjected to short-term UV irradiation. It was found that UV caused the appearance of various kinds of reactive species (O 2 -• , H 2 O 2 ) and stable radicals (semiquinone, phenoxyl and carbon-centred). Simultaneously, lipid peroxidation occurred and the organic structure of Mn(II) and Fe(III) complexes become disturbed., Conclusions: UV irradiation causes damage of main biochemical structures of plant tissues, the effect is more significant in sensitive genotypes. In comparison with ozone treatment, UV irradiation leads to stronger destruction of biomolecules in grains and their parts. It is caused by the high energy of UV light, facilitating easier breakage of molecular bonds in biochemical compounds. © 2017 Society of Chemical Industry., (© 2017 Society of Chemical Industry.)

Published

2018

23. Novel insights into pericarp, protein body globoids of aleurone layer, starchy granules of three cereals gained using atomic force microscopy and environmental scanning electronic microscopy.

Author

Antonini E, Zara C, Valentini L, Gobbi P, Ninfali P, and Menotta M

Subjects

Microscopy, Atomic Force, Avena chemistry, Edible Grain chemistry, Elements, Hordeum chemistry, Plant Proteins chemistry, Starch chemistry, Triticum chemistry

Abstract

In this study, we applied Environmental Scanning Electron Microscopy-Energy Dispersive Spectroscopy (ESEM-EDS) and Atomic Force Microscopy (AFM) analysis to three different cereal caryopses: barley, oat and einkorn wheat. The morphological structures, chemical elemental composition and surface characteristics of the three cereals were described. Regarding the morphology, barley showed the thickest pericarp, providing a strong barrier digestion and absorption of nutrients. The aleurone layer of each cereal type contained protein body globoids within its cells. Large type-A and small type-B starchy granules were revealed in the endosperm of barley and einkorn wheat, whereas irregular starchy granules were found in oats. The starchy granule elemental composition, detected by ESEM-EDS, was rather homogenous in the three cereals, whereas the pericarp and protein body globoids showed heterogeneity. In the protein body globoids, oats showed higher P and K concentrations than barley and einkorn wheat. Regarding the topographic profiles, detected by AFM, einkorn wheat starchy granules showed a surface profile that differed significantly from that of oats and barley, which were quite similar to one another. The present work provides insights into the morphological and chemical makeup of the three grains shedding light on the higher bio-accessibility of einkorn wheat nutrients compared to barley and oats, providing important suggestions for human nutrition and technological standpoints.

Published

2018

24. Isolation and characterization of gluten protein types from wheat, rye, barley and oats for use as reference materials.

Author

Schalk K, Lexhaller B, Koehler P, and Scherf KA

Subjects

Calibration, Chromatography, High Pressure Liquid, Electrophoresis, Polyacrylamide Gel, Enzyme-Linked Immunosorbent Assay, Flour analysis, Hydrolysis, Peptides analysis, Protein Domains, Reference Values, Spectrometry, Mass, Electrospray Ionization, Avena chemistry, Food Analysis methods, Glutens analysis, Hordeum chemistry, Secale chemistry, Triticum chemistry

Abstract

Gluten proteins from wheat, rye, barley and, in rare cases, oats, are responsible for triggering hypersensitivity reactions such as celiac disease, non-celiac gluten sensitivity and wheat allergy. Well-defined reference materials (RM) are essential for clinical studies, diagnostics, elucidation of disease mechanisms and food analyses to ensure the safety of gluten-free foods. Various RM are currently used, but a thorough characterization of the gluten source, content and composition is often missing. However, this characterization is essential due to the complexity and heterogeneity of gluten to avoid ambiguous results caused by differences in the RM used. A comprehensive strategy to isolate gluten protein fractions and gluten protein types (GPT) from wheat, rye, barley and oat flours was developed to obtain well-defined RM for clinical assays and gluten-free compliance testing. All isolated GPT (ω5-gliadins, ω1,2-gliadins, α-gliadins, γ-gliadins and high- and low-molecular-weight glutenin subunits from wheat, ω-secalins, γ-75k-secalins, γ-40k-secalins and high-molecular-weight secalins from rye, C-hordeins, γ-hordeins, B-hordeins and D-hordeins from barley and avenins from oats) were fully characterized using analytical reversed-phase high-performance liquid chromatography (RP-HPLC), sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), N-terminal sequencing, electrospray-ionization quadrupole time-of-flight mass spectrometry (LC-ESI-QTOF-MS) and untargeted LC-MS/MS of chymotryptic hydrolyzates of the single GPT. Taken together, the analytical methods confirmed that all GPT were reproducibly isolated in high purity from the flours and were suitable to be used as RM, e.g., for calibration of LC-MS/MS methods or enzyme-linked immunosorbent assays (ELISAs).

Published

2017

25. The Gluten-Free Diet: Can Oats and Wheat Starch Be Part of It?

Author

Poley JR

Subjects

Avena adverse effects, Diet, Gluten-Free, Food Contamination, Gliadin chemistry, Glutamine, Glutens adverse effects, Glutens chemistry, Humans, Prolamins, Proline, Triticum adverse effects, Avena chemistry, Celiac Disease diet therapy, Starch, Triticum chemistry

Abstract

Objective and Conclusion: Uncertainty still exists about the use of oats and wheat starch as part of a gluten-free diet in patients with celiac disease (CD). This review should help to clarify the issues at hand. Whereas uncontaminated (from gluten/gliadin) oats and oats from cultivars not containing celiac-activating sequences of proline and glutamine can be used without risk of intestinal damage, wheat starch should not be used, unless it is free of gluten-that is, deglutinized-because even small amounts of gluten over time are able to induce small intestinal mucosal damage.

Published

2017

26. The glycemic response to fibre rich foods and their relationship with gastric emptying and motor functions: an MRI study.

Author

Gopirajah R, Raichurkar KP, Wadhwa R, and Anandharamakrishnan C

Subjects

Adult, Blood Glucose analysis, Breakfast, Chemical Phenomena, Cross-Over Studies, Dietary Fiber metabolism, Female, Gastric Mucosa diagnostic imaging, Glycemic Index, Humans, Magnetic Resonance Imaging, Male, Particle Size, Stomach diagnostic imaging, Viscosity, Young Adult, Avena chemistry, Dietary Fiber administration & dosage, Gastric Emptying, Gastric Mucosa physiology, Stomach physiology, Triticum chemistry, Whole Grains chemistry

Abstract

The chief motor functions of human stomach, namely receiving, storing, mixing and emptying, influence the absorption of ingested food and hence determine the glycemic response to the meal. However, among these functions, the gastric emptying pattern of the stomach is essentially regulated by the meal characteristics such as particle size, volume, nutrient composition and viscosity. Understanding the complex relationship between the stomach motor functions and the physicochemical characteristics of meal on glycemic control needs more attention in the formulation of functional foods. Hence, the objective of this study is to employ the magnetic resonance imaging (MRI) technique in ten healthy human volunteers to elucidate the relationship between the motor functions of the stomach and the glycemic response to fibre rich foods. For this, wheat and oat based breakfast meals were selected as fibre rich foods with low (0.042 Pa s) and high (0.266 Pa s) viscosity, respectively. Although wheat meal had a lower viscosity compared to oatmeal, the gastric emptying was found to be delayed for the former due to its high caloric density. This was reflected in the glycemic response as well, with wheat meal having a lower area under the curve (AUC) value than oatmeal. The antral contraction frequency is significantly reduced (P < 0.05) with delayed gastric emptying in the case of high nutrient wheat meal. Overall, the study demonstrated the synergistic effect of gastric emptying, stomach motor functions and physicochemical characteristics of food on the glycemic response to a meal. This information will aid in the development of functional foods with specific end applications.

Published

2016

27. The Profile and Bioaccessibility of Phenolic Compounds in Cereals Influenced by Improved Extrusion Cooking Treatment.

Author

Zeng Z, Liu C, Luo S, Chen J, and Gong E

Subjects

Antioxidants chemistry, Avena chemistry, Cooking methods, Oryza chemistry, Phenols chemistry, Triticum chemistry

Abstract

The aim of this study was to investigate the effect of Improved Extrusion Cooking Treatment (IECT) on the phenolics and its bioaccessibility in cereals, represented by brown rice, wheat, and oat. Data showed that total phenolic content and total antioxidant activity in free form were significantly decreased, while the bound form was increased after IECT. After IECT, the total free phenolic acids of brown rice and wheat were significantly decreased by 5.88% and 45.66%, respectively, while the total bound phenolic acids of brown rice, wheat, and oat were significantly increased by 6.45%, 8.78%, and 9.10%, respectively. Brown rice provided the most bioaccessible phenolics and antioxidant compounds, followed by oat and wheat. IECT significantly decreased the bioaccessible phenolics of brown rice and oat by 31.09% and 30.95%, while it had minimal effect on the bioaccessible phenolics of wheat. These results showed that IECT greatly affected the phenolics and its bioaccessibiltiy of cereals, with the effect depending on cereal matrix and the sensitivity of free and bound phenolics. Furthermore, bioaccessible phenolic acids of raw and processed cereals were considerably low, and it slightly contributed to the bioaccessible phenolics.

Published

2016

28. Metabolomic analysis can detect the composition of pasta enriched with fibre after cooking.

Author

Beleggia R, Menga V, Platani C, Nigro F, Fragasso M, and Fares C

Subjects

Amino Acids analysis, Amino Acids chemistry, Dietary Fiber administration & dosage, Dietary Fiber economics, Food Handling, Food Inspection methods, Food, Fortified economics, Food, Preserved analysis, Food, Preserved economics, Humans, Inulin administration & dosage, Inulin analysis, Inulin chemistry, Inulin economics, Italy, Metabolomics methods, Nutritive Value, Principal Component Analysis, Solubility, Stigmasterol analysis, Stigmasterol chemistry, Tocopherols analysis, Tocopherols chemistry, Whole Grains economics, Avena chemistry, Cooking, Dietary Fiber analysis, Food, Fortified analysis, Hordeum chemistry, Triticum chemistry, Whole Grains chemistry

Abstract

Background: Several studies have demonstrated that metabolomics has a definite place in food quality, nutritional value, and safety issues. The aim of the present study was to determine and compare the metabolites in different pasta samples with fibre, and to investigate the modifications induced in these different kinds of pasta during cooking, using a gas chromatography-mass spectrometry-based metabolomics approach., Results: Differences were seen for some of the amino acids, which were absent in control pasta, while were present both in the commercially available high-fibre pasta (samples A-C) and the enriched pasta (samples D-F). The highest content in reducing sugars was observed in enriched samples in comparison with high-fibre pasta. The presence of stigmasterol in samples enriched with wheat bran was relevant. Cooking decreased all of the metabolites: the high-fibre pasta (A-C) and Control showed losses of amino acids and tocopherols, while for sugars and organic acids, the decrease depended on the pasta sample. The enriched pasta samples (D-F) showed the same decreases with the exception of phytosterols, and in pasta with barley the decrease of saturated fatty acids was not significant as for tocopherols in pasta with oat. Principal component analysis of the metabolites and the pasta discrimination was effective in differentiating the enriched pasta from the commercial pasta, both uncooked and cooked., Conclusions: The study has established that such metabolomic analyses provide useful tools in the evaluation of the changes in nutritional compounds in high-fibre and enriched pasta, both before and after cooking. © 2015 Society of Chemical Industry., (© 2015 Society of Chemical Industry.)

Published

2016

29. Isolation and Identification of Potential Allelochemicals from Aerial Parts of Avena fatua L. and Their Allelopathic Effect on Wheat.

Author

Liu X, Tian F, Tian Y, Wu Y, Dong F, Xu J, and Zheng Y

Subjects

Allelopathy, Germination drug effects, Molecular Structure, Pheromones isolation & purification, Plant Components, Aerial chemistry, Plant Extracts isolation & purification, Triticum growth & development, Avena chemistry, Pheromones chemistry, Pheromones pharmacology, Plant Extracts chemistry, Plant Extracts pharmacology, Triticum drug effects

Abstract

Five compounds (syringic acid, tricin, acacetin, syringoside, and diosmetin) were isolated from the aerial parts of wild oats (Avena fatua L.) using chromatography columns of silica gel and Sephadex LH-20. Their chemical structures were identified by means of electrospray ionization and high-resolution mass spectrometry as well as (1)H and (13)C nuclear magnetic resonance spectroscopic analyses. Bioassays showed that the five compounds had significant allelopathic effects on the germination and seedling growth of wheat (Triticum aestivum L.). The five compounds inhibited fresh wheat as well as the shoot and root growth of wheat by approximately 50% at a concentration of 100 mg/kg, except for tricin and syringoside for shoot growth. The results of activity testing indicated that the aerial parts of wild oats had strong allelopathic potential and could cause different degrees of influence on surrounding plants. Moreover, these compounds could be key allelochemicals in wild-oat-infested wheat fields and interfere with wheat growth via allelopathy.

Published

2016

30. Multiplex liquid chromatography-tandem mass spectrometry for the detection of wheat, oat, barley and rye prolamins towards the assessment of gluten-free product safety.

Author

Manfredi A, Mattarozzi M, Giannetto M, and Careri M

Subjects

Chromatography, High Pressure Liquid, Tandem Mass Spectrometry, Avena chemistry, Diet, Gluten-Free, Food Analysis methods, Hordeum chemistry, Prolamins analysis, Secale chemistry, Triticum chemistry

Abstract

Celiac patients should feel confident in the safety of foods labelled or expected to be gluten-free. In this context, a targeted proteomic approach based on liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS) technique was proposed to assess the presence of celiotoxic cereals, namely wheat, oats, barley and rye, in raw and processed food products. To this aim, unique marker peptides were properly selected in order to distinguish between the different cereal types. A revised cocktail solution based on reducing and denaturing agents was exploited for prolamin extraction from raw and processed food; in addition, defatting with hexane was carried out for sample clean-up, allowing to largely reduce problems related to matrix effect. Method validation on fortified rice flour showed good analytical performance in terms of sensitivity (limits of detection in the 2-18 mg kg(-1) range). However, poor trueness was calculated for self-made incurred bread (between 3 and 30% depending on the peptide), probably due to baking processes, which reduce gluten extractability. Thus, it is evident that in the case of processed foods further insights into sample treatment efficiency and reference materials for protein calibration are required to obtain accurate gluten determination. Finally, the developed method was applied for the analysis of market food products, offering the possibility to discriminate among cereals, with good agreement with labelled ingredients for gluten-containing foodstuffs., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

31. Anomericity of T-2 toxin-glucoside: masked mycotoxin in cereal crops.

Author

McCormick SP, Kato T, Maragos CM, Busman M, Lattanzio VM, Galaverna G, Dall-Asta C, Crich D, Price NP, and Kurtzman CP

Subjects

Avena metabolism, Digestion, Food Contamination analysis, Glucosides metabolism, Humans, Isomerism, Kinetics, Models, Biological, Molecular Structure, Mycotoxins metabolism, T-2 Toxin chemistry, T-2 Toxin metabolism, Triticum metabolism, Avena chemistry, Glucosides chemistry, Mycotoxins chemistry, T-2 Toxin analogs & derivatives, Triticum chemistry

Abstract

T-2 toxin is a trichothecene mycotoxin produced when Fusarium fungi infect grains, especially oats and wheat. Ingestion of T-2 toxin contaminated grain can cause diarrhea, hemorrhaging, and feed refusal in livestock. Cereal crops infected with mycotoxin-producing fungi form toxin glycosides, sometimes called masked mycotoxins, which are a potential food safety concern because they are not detectable by standard approaches and may be converted back to the parent toxin during digestion or food processing. The work reported here addresses four aspects of T-2 toxin-glucosides: phytotoxicity, stability after ingestion, antibody detection, and the anomericity of the naturally occurring T-2 toxin-glucoside found in cereal plants. T-2 toxin-β-glucoside was chemically synthesized and compared to T-2 toxin-α-glucoside prepared with Blastobotrys muscicola cultures and the T-2 toxin-glucoside found in naturally contaminated oats and wheat. The anomeric forms were separated chromatographically and differ in both NMR and mass spectrometry. Both anomers were significantly degraded to T-2 toxin and HT-2 toxin under conditions that mimic human digestion, but with different kinetics and metabolic end products. The naturally occurring T-2 toxin-glucoside from plants was found to be identical to T-2 toxin-α-glucoside prepared with B. muscicola. An antibody test for the detection of T-2 toxin was not effective for the detection of T-2 toxin-α-glucoside. This anomer was produced in sufficient quantity to assess its animal toxicity.

Published

2015

32. Uptake and distribution of stable strontium in 26 cultivars of three crop species: oats, wheat, and barley for their potential use in phytoremediation.

Author

Qi L, Qin X, Li FM, Siddique KH, Brandl H, Xu J, and Li X

Subjects

Avena chemistry, Avena classification, Biodegradation, Environmental, Environmental Restoration and Remediation instrumentation, Hordeum chemistry, Hordeum classification, Strontium analysis, Triticum chemistry, Triticum classification, Avena metabolism, Environmental Restoration and Remediation methods, Hordeum metabolism, Strontium metabolism, Triticum metabolism

Abstract

The main objective of this study was to investigate the accumulation and distribution of strontium (Sr) in 26 cultivars of wheat (Triticum aestivum L.), husk oat (Avena sativa L) and naked oat (Avena nuda), and barley (Hordeum vulgare L.) for their potential use in phytoremediation.Sr levels had no effect on the accumulation of shoot biomass at tillering or at maturity. Mean shoot Sr concentration of naked oat and barley at tillering was significantly (P<0.05) higher than that of wheat; Neimengkeyimai-1, a naked oat cultivar, had the highest Sr concentrations. At maturity, of four naked oat cultivars, Neimengkeyimai-1 had the highest Sr content at all measured Sr levels. Leaves had the highest Sr concentrations, followed by roots and straw, and then grain with the lowest. Mean enrichment coefficients from soil to shoots ranged from 0.521 to 1.343; the percentage of stable Sr removed from the soil to the shoots at harvest time was more than 1.4% after 120 days. Neimengkeyimai-1 could be used as a model for further research to find more effective cultivars; and naked oat plants could be selected for phytoremediation to clean up contaminated soil.

Published

2015

33. Adverse Effects of Wheat Gluten.

Author

Koning F

Subjects

Avena chemistry, Celiac Disease diet therapy, Diet, Gluten-Free methods, Diet, Western adverse effects, Edible Grain adverse effects, Edible Grain chemistry, Glutens immunology, Hordeum adverse effects, Hordeum chemistry, Humans, Nutritive Value, Secale adverse effects, Secale chemistry, Triticum chemistry, Celiac Disease etiology, Glutens adverse effects, Triticum adverse effects

Abstract

Man began to consume cereals approximately 10,000 years ago when hunter-gatherers settled in the fertile golden crescent in the Middle East. Gluten has been an integral part of the Western type of diet ever since, and wheat consumption is also common in the Middle East, parts of India and China as well as Australia and Africa. In fact, the food supply in the world heavily depends on the availability of cereal-based food products, with wheat being one of the largest crops in the world. Part of this is due to the unique properties of wheat gluten, which has a high nutritional value and is crucial for the preparation of high-quality dough. In the last 10 years, however, wheat and gluten have received much negative attention. Many believe that it is inherently bad for our health and try to avoid consumption of gluten-containing cereals; a gluten-low lifestyle so to speak. This is fueled by a series of popular publications like Wheat Belly; Lose the Wheat, Lose the Weight, and Find Your Path Back to Health. However, in reality, there is only one condition where gluten is definitively the culprit: celiac disease (CD), affecting approximately 1% of the population in the Western world. Here, I describe the complexity of the cereals from which gluten is derived, the special properties of gluten which make it so widely used in the food industry, the basis for its toxicity in CD patients and the potential for the development of safe gluten and alternatives to the gluten-free diet., (© 2015 S. Karger AG, Basel.)

Published

2015

34. Rapid and highly accurate detection of steryl glycosides by ultraperformance liquid chromatography-quadrupole time-of-flight mass spectrometry (UPLC-Q-TOF-MS).

Author

Oppliger SR, Münger LH, and Nyström L

Subjects

Methanol, Avena chemistry, Chromatography, High Pressure Liquid methods, Glycosides chemistry, Plant Extracts chemistry, Tandem Mass Spectrometry methods, Triticum chemistry

Abstract

This study describes the development and validation of a fast, accurate, and precise UPLC-Q-TOF-MS method for the analysis of steryl glycosides (SGs). The best combination of separation and sensitivity was obtained with a methanol/water gradient and formic acid as additive, using electrospray ionization (ESI). SGs were detected almost exclusively as sodiated adducts, allowing identification of the intact molecule, including the sugar moiety. The TOF-MS system offered high mass accuracy (1.3 ppm), providing a valuable tool for SG identification. The method was used to quantify single SG species in oat bran and whole wheat, and it was demonstrated that reliable quantification requires accounting for the matrix effect, which may reduce the SG signal by up to 50% in some samples. The level of matrix effect also depends on food matrices with various SG contents, indicating that it should be individually considered for each sample.

Published

2014

35. Screening of plant and fungal metabolites in wheat, maize and animal feed using automated on-line clean-up coupled to high resolution mass spectrometry.

Author

Ates E, Godula M, Stroka J, and Senyuva H

Subjects

Animal Feed microbiology, Automation, Avena chemistry, Avena microbiology, Mass Spectrometry instrumentation, Mycotoxins metabolism, Triticum microbiology, Zea mays microbiology, Animal Feed analysis, Food Contamination analysis, Fungi metabolism, Mass Spectrometry methods, Mycotoxins analysis, Triticum chemistry, Zea mays chemistry

Abstract

A wide range of plant and fungal metabolites can occur in cereals and feed but only a limited number of target compounds are sought. This screening method is using a database of over 600 metabolites to establish contamination profiles in food and feed. Extracts were injected directly into an automated turbulent flow sample clean-up system, coupled to a liquid-chromatography-high-resolution-mass-spectrometer (Orbitrap). Compound identification criteria for database searching were defined and the approach was validated by spiking plant and fungal metabolites into cereals and feed. A small survey of market samples (15) and quality control materials (9) of maize, wheat and feed was conducted using this method. Besides regulated and known secondary metabolites, fumiquinazoline F, fusarochromanone and dihydrofusarubin were identified for the first time in samples of maize and oats. This method enables clean-up of crude extracts within 18min and screening and confirmation of a wide range of different compound classes., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2014

36. Effects of phytate and minerals on the bioavailability of oxalate from food.

Author

Israr B, Frazier RA, and Gordon MH

Subjects

Biological Availability, Edible Grain chemistry, Avena chemistry, Fabaceae chemistry, Hordeum chemistry, Minerals analysis, Oxalates analysis, Phytic Acid analysis, Triticum chemistry

Abstract

Phytate and mineral cations are both considered as important dietary factors for inhibiting the crystallisation of calcium oxalate kidney stones in susceptible individuals. In this paper, the phytate and mineral composition of whole bran cereals (wheat, barley and oat) and legumes were determined together with their soluble and insoluble oxalate concentrations in order to investigate the effects on oxalate solubility. The oat bran sample had the highest soluble oxalate concentration at 79±1.3 mg/100 g, while total and soluble oxalate concentrations in the food samples studied range from 33 to 199 mg/100 g and 14 to 79 mg/100 g, respectively. The phytate concentration was in the range from 227 to 4393 mg/100 g and the concentrations of cations were in the range 54-70 mg/100 g for calcium, 75-398 mg/100 g for magnesium, 244-1529 mg/100 g for potassium and 4-11 mg/100 g for iron. Soluble oxalate concentration did not increase in proportion to total oxalate, and the phytate concentration in all foods was sufficient to contribute to an increase in soluble oxalate concentration by binding calcium., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

37. Physicochemical characterisation of dietary fibre components and their ability to bind some process-induced mutagenic heterocyclic amines, Trp-P-1, Trp-P-2, AαC and MeAαC.

Author

Raman M, Nilsson U, Skog K, Lawther M, Nair B, and Nyman M

Subjects

Food Handling, Amines chemistry, Avena chemistry, Carbolines chemistry, Dietary Fiber analysis, Mutagens chemistry, Solanum tuberosum chemistry, Triticum chemistry

Abstract

The physicochemical properties of potato fibre, wheat bran and oat samples were investigated, along with their binding capability to heterocyclic amines (HCAs). Potato fibre displayed highest total dietary fibre content (71.8/100g dry weight basis, dwb), followed by wheat bran (57.2/100 g dwb) and oat sample 2 (53.0/100 g dwb). Oat samples 1, 3 and 4 displayed considerably lower dietary fibre content (20.5-28.8/100g, dwb). Oat samples 3 and 4 displayed highest soluble fibre content (70-83%), and oat sample 3 also displayed highest swelling and water retention capacity (WRC). Dietary fibre samples, except samples 3 and 4, displayed improved binding to HCAs as sample weight increased. The behaviour of wheat bran and potato fibre was similar to oat samples 1 and 2. Binding of MeAαC was comparatively greater than that of other HCAs. Dietary fibre fractions with high insoluble fibre and functional groups of HCAs may significantly contribute to the binding capacity., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

38. Effect of incorporating hydrothermal, kilned and defatted oats on antioxidant and chapatti making properties of wheat flour.

Author

Gujral HS, Sharma P, Gill BS, and Kaur S

Subjects

Cooking, Food Handling, Antioxidants analysis, Avena chemistry, Bread analysis, Fats analysis, Flour analysis, Triticum chemistry

Abstract

Oats were subjected to treatments like defatting, hydrothermal cooking and kilning, milled into flour and then the control and treated flours were incorporated into wheat flour at 25% and 50% levels and chapatti making behaviour and antioxidant properties were studied. The treatments significantly affected the antioxidant properties of oats. Incorporating oat flours to wheat increased total phenolic content but lowered the antioxidant activity however both were decreased significantly upon baking. The reducing power of the oat blended flour was higher than the wheat flours and ranged from 8.0 to 15.5 μmol AAE/g and was further increased upon baking. The metal chelating activity of flour blends varied from 62.0% to 73.8% and further increased upon baking. After baking the total flavonoid content was lowered and ranged from 308 to 389 μg CE/g. The non-enzymatic browning index significantly increased up to 27.6% upon baking., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

39. Determination of aflatoxins, deoxynivalenol, ochratoxin A and zearalenone in wheat and oat based bran supplements sold in the Spanish market.

Author

Vidal A, Marín S, Ramos AJ, Cano-Sancho G, and Sanchis V

Subjects

Avena chemistry, Consumer Product Safety, Diet, Dietary Fiber analysis, Dietary Fiber microbiology, Environmental Exposure analysis, Food Contamination analysis, Food Microbiology, Reproducibility of Results, Spain, Triticum chemistry, Aflatoxins analysis, Avena microbiology, Dietary Supplements analysis, Ochratoxins analysis, Trichothecenes analysis, Triticum microbiology, Zearalenone analysis

Abstract

The aflatoxins (AFs), deoxynivalenol (DON), ochratoxin A (OTA) and zearalenone (ZEA) are mycotoxins produced by fungal species which can contaminate, alone or simultaneously, cereal-based raw materials. Usually, the higher mycotoxins concentrations in cereals are found in the external layers of the grain (bran). Nowadays bran is increasingly consumed for its high fibre concentration. The objectives of this study were determining the concentration of these mycotoxins in bran samples intended for direct human consumption and to study the influence of some characteristics of the samples that may affect the mycotoxins content, there are not studies about fibre for direct human consumption. 67 bran samples from shops and supermarkets from two different Spanish cities were analyzed, being 37 samples of wheat bran and the remaining of oat bran. The results showed a major presence of DON in the analyzed samples, with levels above the EU legislation in some samples. Presence of DON was more frequent in wheat samples, compared to oats ones (p<0.05). Extruded or toasted samples, subjected to a heat treatment during processing, presented a significantly lower concentration of OTA, and differences between the organically and conventionally produced samples were also detected in OTA, which showed higher levels in the organic samples. Co-occurrence was frequently found between the Fusarium mycotoxins (ZEA and DON). Due to the high levels of DON in the analyzed samples, a calculation of DON intake has been made and it has been demonstrated that bran can account for an important percentage of DON exposure in the total diet., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

40. Mycotoxin co-occurrence in rice, oat flakes and wheat noodles used as staple foods in Ecuador.

Author

Ortiz J, Van Camp J, Mestdagh F, Donoso S, and De Meulenaer B

Subjects

Avena adverse effects, Avena economics, Avena microbiology, Calibration, Chromatography, High Pressure Liquid, Consumer Product Safety, Diet ethnology, Ecuador, Food Handling, Food Supply, Fungi growth & development, Fungi metabolism, Humans, Limit of Detection, Molecular Structure, Mycotoxins chemistry, Mycotoxins metabolism, Mycotoxins toxicity, Oryza adverse effects, Oryza economics, Oryza microbiology, Seeds adverse effects, Seeds microbiology, Spectrometry, Mass, Electrospray Ionization, Triticum adverse effects, Triticum economics, Triticum microbiology, Water analysis, Avena chemistry, Food Contamination, Food Inspection methods, Mycotoxins analysis, Oryza chemistry, Seeds chemistry, Triticum chemistry

Abstract

The co-occurrence of aflatoxin B₁ (AFB₁), B₂ (AFB₂), G₁ (AFG₁) and G₂ (AFG₂), ochratoxin A (OTA), deoxynivalenol (DON), fumonisin B₁ (FB₁), zearalenone (ZEN), and HT-2 and T-2 toxins in the main Ecuadorian staple cereals (rice, oat flakes, and yellow and white wheat noodles) was evaluated. A ultra high performance liquid chromatography/time-of-flight mass spectrometry (UHPLC/TOFMS) method was developed and validated to screen for the presence of these mycotoxins in those cereal matrices. Matrix-matched calibration curves were used to compensate for ion suppression and extraction losses and the recovery values were in agreement with the minimum requirements of Regulation 401/2006/EC (70-110%). For most mycotoxins, the LODs obtained allowed detection in compliance with the maximum permitted levels set in Regulation EC/2006/1881, with the exception of OTA in all cereals and AFB1 in yellow noodles. Extra target analysis of OTA in oat flakes and wheat noodles was performed by HPLC with fluorescence detection. High rates of contamination were observed in paddy rice (23% DON, 23% FB₁, 7% AFB₁, 2% AFG₁ and 2% AFG₂), white wheat noodles (33% DON and 5% OTA) and oat flakes (17% DON, 2% OTA and 2% AFB₁), whereas the rates of contamination were lower in polished rice (2% AFG₁ and 4% HT-2 toxin) and yellow noodles (5% DON). Low rates of co-occurrence of several mycotoxins were observed only for white wheat noodles (5%) and paddy rice (7%). White noodles were contaminated with DON and/or OTA, while combinations of AFG₁, AFB₁, DON and FB₁ were found in paddy rice. Yellow noodles were contaminated with DON only; oat flakes contained DON, OTA or AFB₁, and polished rice was contaminated with AFG₁ and HT-2 toxin.

Published

2013

41. Formation of phenolic microbial metabolites and short-chain fatty acids from rye, wheat, and oat bran and their fractions in the metabolical in vitro colon model.

Author

Nordlund E, Aura AM, Mattila I, Kössö T, Rouau X, and Poutanen K

Subjects

Butyrates analysis, Butyrates metabolism, Cell Wall metabolism, Colon metabolism, Coumaric Acids analysis, Coumaric Acids metabolism, Dietary Fiber administration & dosage, Dietary Fiber metabolism, Digestion, Fatty Acids, Volatile metabolism, Feces chemistry, Feces microbiology, Fermentation, Humans, Intestine, Small metabolism, Metagenome, Phenols metabolism, Propionates analysis, Propionates metabolism, beta-Glucans analysis, beta-Glucans metabolism, Avena chemistry, Colon microbiology, Fatty Acids, Volatile analysis, Phenols analysis, Secale chemistry, Triticum chemistry

Abstract

Rye bran and aleurone, wheat bran and aleurone, and oat bran and cell wall concentrate were compared in their in vitro gut fermentation patterns of individual phenolic acids and short-chain fatty acids, preceded by enzymatic in vitro digestion mimicking small intestinal events. The formation of phenolic metabolites was the most pronounced from the wheat aleurone fraction. Phenylpropionic acids, presumably derived from ferulic acid (FA), were the major phenyl metabolites formed from all bran preparations. The processed rye, wheat, and oat bran fractions contained more water-extractable dietary fiber (DF) and had smaller particle sizes and were thus more easily fermentable than the corresponding brans. Rye aleurone and bran had the highest fermentation rate and extent probably due to high fructan and water-extractable arabinoxylan content. Oat samples also had a high content of water-extractable DF, β-glucan, but their fermentation rate was lower. Enzymatic digestion prior to in vitro colon fermentation changed the structure of oat cell walls as visualized by microscopy and increased the particle size, which is suggested to have retarded the fermentability of oat samples. Wheat bran was the most slowly fermentable among the studied samples, presumably due to the high proportion of water-unextractable DF. The in vitro digestion reduced the fructan content of wheat samples, thus also decreasing their fermentability. Among the studied short-chain fatty acids, acetate dominated the profiles. The highest and lowest production of propionate was from the oat and wheat samples, respectively. Interestingly, wheat aleurone generated similar amounts of butyrate as the rye fractions even without rapid gas production.

Published

2012

42. Identification and characterization of new Fusarium masked mycotoxins, T2 and HT2 glycosyl derivatives, in naturally contaminated wheat and oats by liquid chromatography-high-resolution mass spectrometry.

Author

Lattanzio VM, Visconti A, Haidukowski M, and Pascale M

Subjects

Chromatography, High Pressure Liquid methods, Glucosides chemistry, Glucosides isolation & purification, T-2 Toxin chemistry, T-2 Toxin isolation & purification, Avena chemistry, Avena microbiology, Fusarium chemistry, Mass Spectrometry methods, T-2 Toxin analogs & derivatives, Triticum chemistry, Triticum microbiology

Abstract

The presence of glucoside derivatives of T-2 and HT-2 toxins (type A trichothecene mycotoxins) in naturally contaminated wheat and oats is reported for the first time. The use of advanced high-resolution mass spectrometry based on Orbitrap technology allowed to obtain molecular structure details by measuring exact masses of main characteristic fragments, with mass accuracy lower than 2.8 ppm (absolute value). A monoglucoside derivative of T-2 toxin and two monoglucoside derivatives of HT-2 toxin were identified and characterized. The analysis of their fragmentation patterns provided evidence for glucosylation at C-3 position for T-2 toxin and at C-3 or C-4 position for HT-2 toxin. A screening for the presence of these new masked forms of mycotoxins was carried out on a set of naturally contaminated wheat and oats samples. On the basis of peak area ratio between glucoside derivatives and free T-2 and HT-2 toxins, the presence of glucoside derivatives was more likely in wheat than in oats samples. The present work confirms the widespread occurrence of trichothecene glucosides in cereal grains naturally contaminated with the relevant unconjugated toxins, thus suggesting the importance of developing suitable analytical methods for their detection. Besides toxicity studies, tracking down these new masked forms of trichothecenes along the food/feed chain would enable to collect information on their relevance in human/animal exposure to mycotoxin risk., (Copyright © 2012 John Wiley & Sons, Ltd.)

Published

2012

43. Determination of HT-2 and T-2 toxins in oats and wheat by ultra-performance liquid chromatography with photodiode array detection.

Author

Pascale M, Panzarini G, and Visconti A

Subjects

Anthracenes, Chromatography, Affinity, Chromatography, High Pressure Liquid, Food Contamination analysis, Limit of Detection, Signal-To-Noise Ratio, Spectrometry, Fluorescence, Avena chemistry, T-2 Toxin analogs & derivatives, T-2 Toxin analysis, Triticum chemistry

Abstract

European intake estimates indicate that the presence of HT-2 and T-2 toxins in cereals, mainly in oats, can be of concern for human health. Therefore, the development of sensitive, rapid and reliable methods for determining these mycotoxins in cereals, in particular oats, has high priority. A rapid ultra-performance liquid chromatographic (UPLC) method has been developed for the simultaneous determination of HT-2 and T-2 toxins in oats and wheat at μg kg(-1) level. Ground samples were extracted with methanol/water (90:10, v/v) and the diluted extracts were cleaned up through immunoaffinity columns. HT-2 and T-2 toxins were separated and quantified by UPLC with photodiode array (PDA) detector (λ=202 nm) in less than 5 min. Mean recoveries from blank oats samples spiked with HT-2 and T-2 toxins at levels of 50-1000 μg kg(-1) ranged from 87 to 96%, with relative standard deviations (RSDs) lower than 7%; mean recoveries from wheat spiked with HT-2 and T-2 toxins at levels of 25-100 μg kg(-1) ranged from 91 to 103%, with RSDs lower than 5%. The limit of detection of the method was 8 μg kg(-1) for both toxins (signal-to-noise ratio 3:1). The method was successfully applied to the analysis of HT-2 and T-2 toxins in naturally contaminated oats and wheat samples. A good correlation was found by comparative analysis of naturally contaminated samples of oats (r=0.9985) and wheat (r=0.9058) using the proposed method or a reliable HPLC method with fluorescence detection after pre-column derivatization with 1-anthroylnitrile., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

44. Shifts in comparative advantages for maize, oat and wheat cropping under climate change in Europe.

Author

Elsgaard L, Børgesen CD, Olesen JE, Siebert S, Ewert F, Peltonen-Sainio P, Rötter RP, and Skjelvåg AO

Subjects

Agriculture trends, Animals, Avena chemistry, Avena economics, Avena microbiology, Crops, Agricultural chemistry, Crops, Agricultural economics, Crops, Agricultural microbiology, Europe, Forecasting methods, Fungi growth & development, Fungi metabolism, Humans, Models, Biological, Models, Economic, Mycotoxins analysis, Mycotoxins biosynthesis, Soil Pollutants adverse effects, Soil Pollutants analysis, Spatio-Temporal Analysis, Triticum chemistry, Triticum economics, Triticum microbiology, Uncertainty, Weather, Zea mays chemistry, Zea mays economics, Zea mays microbiology, Agriculture economics, Avena growth & development, Climate Change economics, Crops, Agricultural growth & development, Food Safety, Triticum growth & development, Zea mays growth & development

Abstract

Climate change is anticipated to affect European agriculture, including the risk of emerging or re-emerging feed and food hazards. Indirectly, climate change may influence such hazards (e.g. the occurrence of mycotoxins) due to geographic shifts in the distribution of major cereal cropping systems and the consequences this may have for crop rotations. This paper analyses the impact of climate on cropping shares of maize, oat and wheat on a 50-km square grid across Europe (45-65°N) and provides model-based estimates of the changes in cropping shares in response to changes in temperature and precipitation as projected for the time period around 2040 by two regional climate models (RCM) with a moderate and a strong climate change signal, respectively. The projected cropping shares are based on the output from the two RCMs and on algorithms derived for the relation between meteorological data and observed cropping shares of maize, oat and wheat. The observed cropping shares show a south-to-north gradient, where maize had its maximum at 45-55°N, oat had its maximum at 55-65°N, and wheat was more evenly distributed along the latitudes in Europe. Under the projected climate changes, there was a general increase in maize cropping shares, whereas for oat no areas showed distinct increases. For wheat, the projected changes indicated a tendency towards higher cropping shares in the northern parts and lower cropping shares in the southern parts of the study area. The present modelling approach represents a simplification of factors determining the distribution of cereal crops, and also some uncertainties in the data basis were apparent. A promising way of future model improvement could be through a systematic analysis and inclusion of other variables, such as key soil properties and socio-economic conditions, influencing the comparative advantages of specific crops.

Published

2012

45. Residues of pirimiphos-methyl in cereals and processed fractions following post harvest spray application.

Author

Lucini L and Molinari GP

Subjects

Food Handling methods, Tandem Mass Spectrometry, Avena chemistry, Food Contamination analysis, Organothiophosphorus Compounds analysis, Pesticide Residues analysis, Triticum chemistry

Abstract

The aim of this work was to comparatively assess the persistence of pirimiphos methyl residues in cereals and in their milling fractions after spray application in post harvest. An analytical method, based on a slightly modified QuEChERS extraction followed by liquid chromatography tandem mass spectrometry (LC-MS/MS) determination was validated: mean recovery was in the range 73% to 92% depending on the spiking level, and precision as RSD ranged from 11% to 16%. The analysis of treated samples revealed that pirimiphos-methyl residues were highly persistent and that no differences could be observed between wheat, durum wheat and oat. As far as the impact of the milling process on residues is concerned, pirimiphos methyl contamination was significantly reduced during both cleaning and processing, and most of the contamination was related to outer kernel fractions.

Published

2011

46. Characterization of variation in the lignan content and composition of winter rye, spring wheat, and spring oat.

Author

Smeds AI, Jauhiainen L, Tuomola E, and Peltonen-Sainio P

Subjects

Avena genetics, Environment, Genotype, Secale genetics, Seeds anatomy & histology, Seeds chemistry, Triticum genetics, Avena chemistry, Lignans analysis, Seasons, Secale chemistry, Triticum chemistry

Abstract

To characterize the range of variation in lignan content and composition caused by genotype and environment, seven dietary lignans, i.e., 7-hydroxymatairesinol, secoisolariciresinol, matairesinol, lariciresinol, pinoresinol, medioresinol, and syringaresinol, were analyzed by high-performance liquid chromatography-tandem mass spectrometry in whole-grain extracts of cereal samples collected at eight locations in Finland. In all, 28 winter rye, 73 spring wheat, and 55 spring oat samples were analyzed, representing 6, 9, and 5 cultivars, respectively. The total lignan content showed huge variations within the same cereal species: the range was 2500-6700 microg/100 g in the rye samples, 340-2270 microg/100 g in the wheat samples, and 820-2550 microg/100 g in the oat samples. The variations seemed to depend largely upon genetic differences. In rye, also environmental conditions affected the lignan content through grain size; smaller grains had significantly lower total lignan, syringaresinol, and lariciresinol content than larger grains. This study shows that varying cereal lignan concentrations reported in different studies may be, besides differences in analytical methods, largely dependent upon natural variations.

Published

2009

47. The extraction of gold nanoparticles from oat and wheat biomasses using sodium citrate and cetyltrimethylammonium bromide, studied by x-ray absorption spectroscopy, high-resolution transmission electron microscopy, and UV-visible spectroscopy.

Author

Armendariz V, Parsons JG, Lopez ML, Peralta-Videa JR, Jose-Yacaman M, and Gardea-Torresdey JL

Subjects

Cetrimonium, Crystallization methods, Macromolecular Substances chemistry, Materials Testing, Microscopy, Electron, Transmission, Molecular Conformation, Nanostructures ultrastructure, Nanotechnology methods, Particle Size, Sodium Citrate, Solid Phase Extraction methods, Spectrometry, X-Ray Emission, Spectrophotometry, Ultraviolet, Surface Properties, Avena chemistry, Cetrimonium Compounds chemistry, Citrates chemistry, Gold isolation & purification, Nanostructures chemistry, Plant Extracts isolation & purification, Triticum chemistry

Abstract

Gold (Au) nanoparticles can be produced through the interaction of Au(III) ions with oat and wheat biomasses. This paper describes a procedure to recover gold nanoparticles from oat and wheat biomasses using cetyltrimethylammonium bromide or sodium citrate. Extracts were analyzed using UV-visible spectroscopy, high-resolution transmission electron microscopy (HRTEM), and x-ray absorption spectroscopy. The HRTEM data demonstrated that smaller nanoparticles are extracted first, followed by larger nanoparticles. In the fourth extraction, coating of chelating agents is visible on the extracted nanoparticles.

Published

2009

48. CoulArray electrochemical evaluation of tocopherol and tocotrienol isomers in barley, oat and spelt grains.

Author

Colombo ML, Marangon K, and Bugatti C

Subjects

Avena chemistry, Electrochemical Techniques instrumentation, Hordeum chemistry, Tocopherols chemistry, Tocotrienols chemistry, Triticum chemistry

Abstract

Hexane extracts obtained from Hordeum vulgare L. (barley), Avena sativa L. (oat), Triticum spelta Schrank and Triticum dicoccum Schrank ex Schübler (spelt or emmer) whole grains, were examined for their tocochromanol (tocopherol and tocotrienol) content. The analyses were carried out on fatty extracts by means of HPLC coupled with a coulometric array electrochemical detector (ECD). Due to the specific high selectivity of the detector, the sample can be directly injected without any preliminary treatment (e.g., saponification). Eight tocochromanol isomers have been detected in barley grains. Different barley cultivars examined showed a tocochromanol content ranging from 1620 to 1852 ng/g caryopses. Oat grains contained ca. 45 ng/g caryopses and Triticum species ca.1070 ng/g caryopses. The results are considered in view of a potential use of vitamin E derivatives as human health enhancer and as sources of antioxidants for food lipid preservation.

Published

2009

49. Effects of laccase and xylanase on the chemical and rheological properties of oat and wheat doughs.

Author

Flander L, Rouau X, Morel MH, Autio K, Seppänen-Laakso T, Kruus K, and Buchert J

Subjects

Chemical Fractionation, Flour analysis, Polysaccharides analysis, Polysaccharides metabolism, Rheology, Xylans analysis, Xylans metabolism, beta-Glucans analysis, Avena chemistry, Bread analysis, Endo-1,4-beta Xylanases metabolism, Laccase metabolism, Triticum chemistry

Abstract

The effects of Trametes hirsuta laccase and Pentopan Mono BG xylanase and their combination on oat, wheat, and mixed oat-wheat doughs and the corresponding breads were investigated. Laccase treatment decreased the content of water-extractable arabinoxylan (WEAX) in oat dough due to oxidative cross-linking of feruloylated arabinoxylans. Laccase treatment also increased the proportion of water-soluble polysaccharides (WSNSP) apparently due to the beta-glucanase side activity present in the laccase preparation. As a result of the laccase treatment, the firmness of fresh oat bread was increased. Xylanase treatment doubled the content of WEAX in oat dough and slightly increased the amount of WSNSP. Increased stiffness of the dough and firmness of the fresh bread were detected, probably because of the increased WEAX content, which decreased the amount of water available for beta-glucan. The combination of laccase and xylanase produced slight hydrolysis of beta-glucan by the beta-glucanase side activity of laccase and enhanced the availability of AX for xylanase with concomitant reduction of the amount and molar mass of WSNSP. Subsequently, the volume of oat bread was increased. Laccase treatment tightened wheat dough, probably due to cross-linking of WEAX to higher molecular weight. In oat-wheat dough, laccase slightly increased the proportion of WSNSP between medium to low molecular weight and increased the specific volume of the bread. Xylanase increased the contents of WEAX and WSNSP between medium to low molecular weight in oat-wheat dough, which increased the softness of the dough, as well as the specific volume and softness of the bread. The results thus indicate that a combination of laccase and xylanase was beneficial for the textures of both oat and oat-wheat breads.

Published

2008

50. Development of qualitative and semiquantitative immunoassay-based rapid strip tests for the detection of T-2 toxin in wheat and oat.

Author

Molinelli A, Grossalber K, Führer M, Baumgartner S, Sulyok M, and Krska R

Subjects

Drug Stability, Reproducibility of Results, Avena chemistry, Food Contamination analysis, Immunoassay methods, Reagent Strips, T-2 Toxin analysis, Triticum chemistry

Abstract

Novel qualitative as well as semiquantitative rapid strip tests for screening of T-2 mycotoxin in agricultural commodities were developed. Colloidal gold particles were coated with monoclonal anti-T-2 antibodies and used as detector reagent, indicating the strip test results by formation of up to two colored lines in a competitive assay format. The test line comprises a protein conjugate of the T-2 mycotoxin and the control line an antispecies-specific antibody to confirm the correct test development. To perform the test, 5 g of sample was extracted in a ratio of 1:5 with methanol/water (70:30) by shaking for 3 min and the extract directly used without further cleanup steps. The T-2 toxin lateral flow device (LFD) presented has a cutoff level around 100 microg/kg for naturally contaminated wheat and oat. The semiquantitative test may be used in the lower micrograms per kilogram range and allows for rapid semiquantitative photometric classification of the level of sample contamination. For both tests, results were obtained within 4 min. The developed LFDs therefore allow for the first time fast and on-site screening for the determination of T-2 toxin in cereals.

Published

2008