Shang Lin, Jane W Agger, Casper Wilkens, Anne S Meyer
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引用次数: 20
Abstract
Cereal brans and grain endosperm cell walls are key dietary sources of different types of arabinoxylan. Arabinoxylan is the main group of hemicellulosic polysaccharides that are present in the cell walls of monocot grass crops and hence in cereal grains. The arabinoxylan polysaccharides consist of a backbone of β-(1→4)-linked xylopyranosyl residues, which carry arabinofuranosyl moieties, hence the term arabinoxylan. Moreover, the xylopyranosyl residues can be acetylated or substituted by 4-O-methyl-d-glucuronic acid. The arabinofuranosyls may be esterified with a feruloyl group. Feruloylated arabinoxylo-oligosaccharides exert beneficial bioactivities via prebiotic, immunomodulatory, and/or antioxidant effects. New knowledge on microbial enzymes that catalyze specific structural modifications of arabinoxylans can help us understand how these complex fibers are converted in the gut and provide a foundation for the production of feruloylated arabinoxylo-oligosaccharides from brans or other cereal grain processing sidestreams as functional food ingredients. There is a gap between the structural knowledge, bioactivity data, and enzymology insight. Our goal with this review is to present an overview of the structures and bioactivities of feruloylated arabinoxylo-oligosaccharides and review the enzyme reactions that catalyze specific changes in differentially substituted arabinoxylans.
谷类麸皮和谷物胚乳细胞壁是不同类型阿拉伯木聚糖的主要膳食来源。阿拉伯木聚糖是主要的半纤维素多糖群,存在于单叶草作物的细胞壁中,因此也存在于谷物中。阿拉伯木聚糖多糖由β-(1→4)-连接的木吡喃基残基骨架组成,这些残基携带阿拉伯木酰脲基部分,因此被称为阿拉伯木聚糖。此外,木吡喃酰基残基可以被乙酰化或被4- o -甲基-d-葡萄糖醛酸取代。阿拉伯糖脲基可与阿魏酰基酯化。阿魏酸化阿拉伯糖寡糖通过益生元、免疫调节和/或抗氧化作用发挥有益的生物活性。关于催化阿拉伯糖木聚糖特定结构修饰的微生物酶的新知识可以帮助我们了解这些复杂纤维如何在肠道中转化,并为从麸皮或其他谷物加工侧流中生产阿魏酸化阿拉伯糖木寡糖作为功能性食品成分提供基础。结构知识、生物活性数据和酶学洞察力之间存在差距。本文综述了阿魏酸化阿拉伯糖低聚糖的结构和生物活性,并对催化差异取代阿拉伯糖聚糖特异性变化的酶反应进行了综述。
期刊介绍:
Since 2010, the Annual Review of Food Science and Technology has been a key source for current developments in the multidisciplinary field. The covered topics span food microbiology, food-borne pathogens, and fermentation; food engineering, chemistry, biochemistry, rheology, and sensory properties; novel ingredients and nutrigenomics; emerging technologies in food processing and preservation; and applications of biotechnology and nanomaterials in food systems.