Your search keyword '"Nutrient bioavailability"' showing total 8 results

1. Improvement of nutrient bioavailability in millets: Emphasis on the application of enzymes

Author

Anand Babu Perumal, Shan Ahamed Tharifkhan, Jeyan A. Moses, Arunkumar Elumalai, and C. Anandharamakrishnan

Subjects

Hot Temperature, Food Handling, medicine.medical_treatment, Biological Availability, Biology, Nutrient, medicine, Animals, Humans, Food science, Millets, Nutrient bioavailability, chemistry.chemical_classification, Nutrition and Dietetics, Protease, Adverse conditions, food and beverages, Enzymes, Bioavailability, Enzyme, chemistry, Seeds, Biocatalysis, Dietary fiber, Essential nutrient, Agronomy and Crop Science, Food Science, Biotechnology

Abstract

Millets are a traditional staple food of the dryland regions of the world and are rich in essential nutrients like protein, fatty acids, minerals, vitamins, and dietary fiber. Also, millets commonly synthesize a range of secondary metabolites to protect themselves against adverse conditions. These factors are collectively termed anti-nutritional factors and the existence of these factors in millets might reduce the accessibility of the nutrients in humans. Some of these factors include protease inhibitors, tannins, non-starch polysaccharides-glucans, phytates, and oxalates each of which might directly or indirectly affect the digestibility of nutrients. Methods like soaking, germination, autoclaving, debranning, and the addition of exogenous enzymes have been used to reduce the anti-nutritional factors and elevate the bioavailability of the nutrients. This review summarizes various methods that have been used to improve nutrient bioavailability, specifically emphasizing the use of enzymes to improve nutrient bioavailability from millets. © 2021 Society of Chemical Industry.

Published

2021

2. Is sugar extracted from plants less healthy than sugar consumed within plant tissues? The sugar anomaly

Author

Richard F. Tester and Xin Qi

Subjects

0303 health sciences, Nutrition and Dietetics, Plant Extracts, 030309 nutrition & dietetics, Context (language use), Nutrients, 04 agricultural and veterinary sciences, Sugar consumption, Plants, Sweetness, Biology, 040401 food science, Plant tissue, 03 medical and health sciences, Ingredient, 0404 agricultural biotechnology, Nutrient, Humans, Food science, Sugars, Sugar, Agronomy and Crop Science, Nutrient bioavailability, Food Science, Biotechnology

Abstract

There are dilemmas in the minds of consumers with respect to sugar consumption - they would like to consume sugars for sweetness, but in a healthy (and perhaps guilt free!) way. In a sense, consumers believe that if sugar does not appear as an ingredient on the product label, but is intrinsic in the food (and will appear as a nutrient), it is 'good'. As an ingredient, however, it is viewed as a 'bad chemical' associated with tooth decay and obesity. The reality is that unless processing induced modifications have occurred, the sugar molecule within a plant tissue is the same molecule structure as present in purified sugar. The same calorific value. However, there is an argument that humans eat too refined food and that if sugars were eaten in their natural context (e.g. within a fruit), their presence and concentration would be in harmony (where different nutrients complement and balance the sugar concentration) with the human body. This reflects the process of eating, satiety, presence of other nutrients (including water) and the associated impact of the indigestible components of plant foods on the transit/nutrient bioavailability control and thus benefits through the gut. The authors explore these issues in this article and seek to provide a scientific basis to different sides of the argument - sugar is good or bad depending on how (in which format and how much/how concentrated) it is consumed. More importantly perhaps, how should sugar consumption - an important nutrient - be managed to optimize the benefits but reduce the disadvantages? © 2020 Society of Chemical Industry.

Published

2020

3. Impact of biochar and compost amendment on soil quality, growth and yield of a replanted apple orchard in a 4-year field study

Author

Mohamad Pauzi Zakaria, Mujtaba Baqar, Kamalodin Maddah, Rudolf Kiefer, Akram Fatemi, Gang Li, Gan Zhang, and Mahdi Safaei Khorram

Subjects

Soil health, Nutrition and Dietetics, Compost, fungi, Amendment, food and beverages, 04 agricultural and veterinary sciences, 010501 environmental sciences, engineering.material, complex mixtures, 01 natural sciences, Bulk density, Soil quality, Agronomy, Biochar, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Environmental science, Orchard, Agronomy and Crop Science, Nutrient bioavailability, 0105 earth and related environmental sciences, Food Science, Biotechnology

Abstract

Numerous studies have addressed the positive effects of organic amendments on soil and plant productivity under short-term field studies. However, to date, few studies have been conducted on the effects of organic amendment on the orchards where high nutrient bioavailability is required. This study deals with the effects of biochar and compost on soil quality, growth and yield of a replanted apple orchard in the northeast of Iran.; Results: Biochar+compost application resulted in 37% and 300% higher soil total organic carbon and available phosphorus content, respectively, during the first 3 years of experimentation compared to control. Similarly, trunk diameter and shoot number of apple trees increased 23-26% by the end of the first year. Nevertheless, there were no significant changes in fruitfulness, fruit weight or starch pattern index as productivity indices.; Conclusion: Biochar and compost were beneficial in improving soil quality, mainly by increasing soil nutrient content and decreasing soil bulk density, and in increasing plant growth at early growth stages of apple orchards. However, they failed to enhance overall yield and fruit quality, most likely due to their limited ability to suppress apple replant disease. © 2018 Society of Chemical Industry.; © 2018 Society of Chemical Industry.

Published

2018

4. An integrated look at the effect of structure on nutrient bioavailability in plant foods

Author

Nicoletta Pellegrini and Edoardo Capuano

Subjects

0303 health sciences, Nutrition and Dietetics, 030309 nutrition & dietetics, Chemistry, digestive, oral, and skin physiology, 04 agricultural and veterinary sciences, Plant foods, 040401 food science, Nutrition science, Bioavailability, 03 medical and health sciences, 0404 agricultural biotechnology, Nutrient, Cell wall integrity, Food science, Digestion, Food structure, Agronomy and Crop Science, Nutrient bioavailability, Food Science, Biotechnology

Abstract

The true bioavailability of a nutrient being intrinsically coupled to the specific food matrix in which it occurs remains poorly considered in nutrition science. During digestion, the food matrix and, in particular, the structure of food modulate the extent and kinetics to which nutrients and bioactive compounds make themselves available for absorption. In this perspective, we describe an integrated look at the effect of structure on nutrient bioavailability in plant foods. Based on this integrated look, cell wall integrity and the particle size of the plant material during its transit in the small intestine determine the bioavailability of plant nutrients; in turn, cell wall integrity and particle size are determined by the level of oral processing and, accordingly, what subsequently escapes digestion in the upper intestine and is utilized by colon microbiota. Ultimately, the effect on nutrient digestion is linked to food structure through each step of digestion. A consideration of the structure rather than just the composition of foods opens up possibilities for the design of healthier foods. © 2018 Society of Chemical Industry.

Published

2018

5. Determination of <scp>d</scp> ‐ myo ‐inositol phosphates in ‘activated’ raw almonds using anion‐exchange chromatography coupled with tandem mass spectrometry

Author

Alyson E. Mitchell and Lianna Y Lee

Subjects

Tris, Food Handling, Inositol Phosphates, chemistry.chemical_element, Zinc, Tandem mass spectrometry, 01 natural sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Tandem Mass Spectrometry, Nuts, Inositol, Anion Exchange Resins, Nutrient bioavailability, Plant Proteins, 6-Phytase, Phytic acid, Nutrition and Dietetics, Chromatography, Ion exchange, 010401 analytical chemistry, food and beverages, 04 agricultural and veterinary sciences, Chromatography, Ion Exchange, Prunus dulcis, 040401 food science, 0104 chemical sciences, chemistry, Phytase, Agronomy and Crop Science, Food Science, Biotechnology

Abstract

Author(s): Lee, Lianna Y; Mitchell, Alyson E | Abstract: BACKGROUND:Activated almonds are raw almonds that have been soaked in water for 12-24 h at room temperature, sometimes followed by a 24 h drying period at low temperature (50 ± 5 °C). This treatment is thought to enhance the nutrient bioavailability of almonds by degrading nutrient inhibitors, such as phytic acid or d-myo-inositol hexaphosphate (InsP6 ), through the release of phytase or passive diffusion of InsP6 into the soaking water. Over a wide pH range, InsP6 is a negatively charged compound that limits the absorption of essential nutrients by forming insoluble complexes with minerals such as iron and zinc. It is hypothesized that hydrating the seed during soaking triggers InsP6 degradation into lower myo-inositol phosphates with less binding capacity. RESULTS:Anion-exchange chromatography coupled with tandem mass spectrometry was used to quantify myo-inositol mono-, di-, tris-, tetra-, penta-, and hexaphosphates (InsP1-6 ) in raw pasteurized activated almonds. At least 24 h of soaking at ambient temperature was required to reduce InsP6 content from 14.71 to 14.01 µmol g-1 . CONCLUSIONS:The reduction in InsP6 is statistically significant (P l 0.05) after 24 h of activation, but only represents a 4.75% decrease from the unsoaked almonds. © 2018 Society of Chemical Industry.

Published

2018

6. Extraction methods and food uses of a natural red colorant from dye sorghum

Author

Anita R. Linnemann, Heidy M.W. den Besten, Ap Polycarpe Kayodé, and Folachodé U. G. Akogou

Subjects

0106 biological sciences, Apigeninidin, 01 natural sciences, chemistry.chemical_compound, Ingredient, 0404 agricultural biotechnology, 010608 biotechnology, Food science, Nutrient bioavailability, Nutrition and Dietetics, biology, business.industry, Extraction (chemistry), food and beverages, 04 agricultural and veterinary sciences, Sorghum, biology.organism_classification, 040401 food science, chemistry, Agronomy, Anthocyanin, Food processing, Composition (visual arts), business, Agronomy and Crop Science, Food Science, Biotechnology

Abstract

Background: The interest in stable natural colorants for food applications continues to grow. A red pigment extracted from the leaf sheaths of a sorghum variety (Sorghum bicolor) with a high content of apigeninidin is widely used as a biocolorant in processed foods in West Africa. This study compared the colour and anthocyanin composition from traditional extraction methods to determine options for improvement and use of the red biocolorant from dye sorghum in the food sector.; Results: Sorghum biocolorant was commonly applied in fermented and heated foods. Traditional extraction methods predominantly differed in two aspects, namely the use of an alkaline rock salt (locally known as kanwu) and the temperature of the extraction water. Cool extraction using the alkaline ingredient was more efficient than hot alkaline and hot aqueous extractions in extracting anthocyanins. The apigeninidin content was three times higher in the cool and hot alkaline extracts than in the aqueous extract.; Conclusion: Cool and hot alkaline extractions at pH 8-9 were the most efficient methods for extracting apigeninidin from dye sorghum leaf sheaths. Broader use of the sorghum biocolorant in foods requires further research on its effects on nutrient bioavailability and antioxidant activity. © 2017 Society of Chemical Industry.; © 2017 Society of Chemical Industry.

Published

2017

7. A review of chemical composition and nutritional value of wild-growing and cultivated mushrooms

Author

Pavel Kalač

Subjects

chemistry.chemical_classification, Mushroom, Nutrition and Dietetics, Provitamin, Linoleic acid, Polysaccharide, chemistry.chemical_compound, Oleic acid, chemistry, Dry matter, Food science, Agronomy and Crop Science, Chemical composition, Nutrient bioavailability, Food Science, Biotechnology

Abstract

Fruit bodies of about 200 mushroom species are consumed throughout the world, preferably as a delicacy. Knowledge of their chemical composition, nutritional value and health-promoting effects has expanded dynamically during the last few years. Dry matter (DM) is low: commonly about 100 g kg⁻¹ . The usual contents of protein, lipids and ash are 200-250, 20-30 and 80-120 g kg⁻¹ DM, respectively. Various carbohydrates form the remaining DM. Nevertheless, great variations occur both among and within species. Energy is low, usually 350-400 kcal kg⁻¹ of fresh fruit bodies. The nutritional contribution of mushroom protein derived from earlier data seems to be overestimated. Fat content is low with markedly prevailing in linoleic acid and oleic acid, while the proportion of n-3 fatty acids is nutritionally marginal. The main carbohydrates are chitin, glycogen, trehalose and mannitol. Information on fibre content and composition is limited. Health-promoting β-glucans are an auspicious group of polysaccharides. High potassium content is characteristic of mushrooms. Several species can accumulate very high levels of both detrimental trace elements, particularly cadmium and mercury, and radiocaesium isotopes if growing on heavily polluted substrates. Mushrooms seem to be a considerable source of ergosterol, provitamin D₂, and phenolids with antioxidative properties. Hundreds of flavour constituents have been identified, particularly with eight-carbon aliphatic chains. Data on changes of mushroom components under various preservation conditions and culinary treatments have been fragmentary. Even more limited is knowledge of nutrient bioavailability.

Published

2012

8. Comparison of different phosphorus-fertiliser matrices to induce the recovery of phosphorus-deficient maize plants

Author

José María García-Mina, Angel M. Zamarreño, Javier Erro, and Jean-Claude Yvin

Subjects

Rhizosphere, Nutrition and Dietetics, Phosphorus, fungi, food and beverages, chemistry.chemical_element, Phosphate, chemistry.chemical_compound, Nutrient, Agronomy, chemistry, Shoot, Monopotassium phosphate, Agronomy and Crop Science, Plant nutrition, Nutrient bioavailability, Food Science, Biotechnology

Abstract

BACKGROUND: Previous studies have demonstrated the capacity of a new type of mineral fertiliser, known as rhizosphere-controlled fertiliser (RCF), to supply adequate nutrition to plants while minimising nutrient losses. This fertiliser family is based on the presence a phosphoric matrix composed of metal–humic–phosphates, soluble not in water but in the rhizospheric acids released by plant roots as an expression of nutritional needs, principally citric acid. The aim of this study is to investigate the capacity of the RCF matrix and other phosphorus-containing products to induce the recovery of phosphorus-deficient maize plants. RESULTS: The results showed that RCF-based P fertilisers were able to facilitate plant recovery, measured by the dry root and shoot weights, to the same extent as a water-soluble P fertiliser (monopotassium phosphate). This fact was well correlated to both the variation pattern of citric and trans-aconitic acids in the shoot and roots during the treatment, and P shoot and root contents. Likewise the analysis of the variation of P concentration in the nutrient solution during the treatment indicates that plant recovery is associated with the capacity of the plant to mobilise P from the different fertiliser matrices studied. CONCLUSION: These results confirm the findings obtained in previous in vitro studies and indicate the suitability of RCF strategy for the preparation of mineral fertilisers with a nutrient release pattern more sensitive to plant nutritional needs. Copyright © 2009 Society of Chemical Industry

Published

2009