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Chemical characterization and biological evaluation of phytochemicals released in grain digesta

谷物消化物中释放的植物化学物质的化学表征和生物学评价

基本信息

批准号：
RGPIN-2016-05894
负责人：
Beta, Trust
金额：
$ 2.55万
依托单位：
University of Manitoba
依托单位国家：
加拿大
项目类别：
Discovery Grants Program - Individual
财政年份：
2020
资助国家：
加拿大
起止时间：
2020-01-01 至 2021-12-31
项目状态：
已结题

来源：
https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=710052
关键词：
Chemical characterization biological evaluation phytochemicals

项目摘要

Grains comprise the major staple foods consumed worldwide. Of importance to human health is the fact that they serve as vital sources of micronutrients and (non-nutrient) phytochemicals. The latter including phenolic compounds and carotenoids are in coexistence with micronutrients and dietary fibre constituents of the grain. Understanding the composition and distribution of antioxidant and anti-inflammatory phytochemical components in different grain tissues including the aleurone is critically important in the selection of whole grains and grain fractions for use in the diet and as ingredients in food product development. The eventual transformation from raw, whole grains to processed food products disrupts the kernel structure with concomitant physical and chemical changes in the phytochemical molecules. The novelty of the proposed research lies in the documentation of the physicochemical changes that micronutrients and phytochemicals (MAPs) undergo and the extent to which the resultant molecular structures are responsible for the health benefits attributed to the consumption of whole grain food products and their derivatives. The novelty of the scientific approach is threefold and derives from: 1) identification of new compounds from whole grain and grain products with enhanced antioxidant and anti-inflammatory effects; 2) documentation of bioaccessibility and apparent bioavailability of MAPs from whole grain and grain products; and 3) new scientific knowledge on structure and function of grain phytochemicals towards oxidative stress and inflammation using cell culture and simulated digestion models will be discovered. The significance of this research relates to a longstanding need to understand the precise roles of phytochemicals in whole grain and grain products, particularly those originating from staple grain crops, for future applications as functional food ingredients. Grain MAPs with antioxidant and anti-inflammatory effects can be altered through fractionation and processing techniques for enhanced levels and good stability of the phytochemical molecules in the final product. By contributing to our understanding of the fundamental biochemistry of grain phytochemicals, and their mechanisms of antioxidant and anti-inflammatory action, this research will provide fundamental knowledge to combat metabolic disorders. The research will also lead to more value-added production by and growth of the food industry in Canada through enhancement of antioxidant and ant-inflammatory phytochemicals in processed grain products. The research will contribute to training of highly qualified personnel (HQP) in the area of food science and nutrition. HQP will gain knowledge in the general analytical chemistry of foods, identification of molecular structures using advanced instrumentation and biological assays using cell culture and simulated digestion models.

谷物是全世界消费的主要主食。对人类健康至关重要的是，它们是微量营养素和（非营养素）植物化学物质的重要来源。后者包括酚类化合物和类胡萝卜素，与谷物的微量营养素和膳食纤维成分共存。了解抗氧化剂和抗炎植物化学成分在不同谷物组织（包括糊粉）中的组成和分布，对于选择全谷物和谷物部分用于饮食和作为食品开发中的成分至关重要。从生的全谷物到加工食品的最终转化破坏了籽粒结构，伴随着植物化学分子的物理和化学变化。拟议研究的新奇在于微量营养素和植物化学物质（MAP）经历的物理化学变化的记录，以及由此产生的分子结构对全谷物食品及其衍生物的消费所带来的健康益处的程度。科学方法的新奇有三个方面：1）从全谷物和谷物产品中鉴定出具有增强的抗氧化和抗炎作用的新化合物; 2）记录全谷物和谷物产品中MAP的生物可及性和表观生物利用度;和3）利用细胞培养和模拟技术，对谷物植物化学物质对氧化应激和炎症的结构和功能有了新的科学认识。消化模型将被发现。这项研究的意义涉及到长期需要了解植物化学物质在全谷物和谷物产品中的确切作用，特别是那些来自主粮作物的植物化学物质，以便将来作为功能性食品成分应用。具有抗氧化和抗炎作用的谷物MAP可以通过分级和加工技术改变，以提高最终产品中植物化学分子的水平和良好的稳定性。通过促进我们对谷物植物化学物质的基本生物化学及其抗氧化和抗炎作用机制的理解，这项研究将为对抗代谢紊乱提供基础知识。该研究还将通过提高加工谷物产品中的抗氧化剂和抗炎植物化学物质，促进加拿大食品工业的增值生产和增长。这项研究将有助于培养食品科学和营养领域的高素质人才。HQP将获得食品的一般分析化学，使用先进仪器和生物测定使用细胞培养和模拟消化模型的分子结构鉴定的知识。