传统大豆发酵食品中大豆低聚糖的生理功能研究

大豆低聚糖是大豆中可溶性碳水化合物的总称,在大豆和传统大豆发酵食品中含量丰富。近年研究发现大豆低聚糖在改善肠胃道功能、抗肿瘤、调节血脂等方面具有着重要的生理活性,因此引起了国内外研究人员的广泛关注。大豆低聚糖的研究,不仅能为功能性大豆制品的开发提供理论基础,也能为人们合理的膳食提供参考。本文综述了近年来国内外对大豆低聚糖生理保健机能的研究进展。     

大豆异黄酮浸种对盐胁迫大豆幼苗的生理效应

大豆异黄酮( Soybean isoflavones)是在大豆生长过程中形成并在成熟种子和叶片中积累较多的一类具有生物活性的次生代谢物,通常可作为人们日常生活中的一类营养保健品.研究了外源大豆苷或染料木苷溶液(0.01 mg/L)浸种处理对盐胁迫栽培大豆(N23674品种)和滩涂野大豆(BB52种群)及其经逐代耐盐性筛选的杂交后代(4076株系,F5)幼苗叶片伤害率、光合作用、Na+含量和Na+/K+值、活性氧清除酶活性及内源大豆异黄酮含量等生理指标的影响.结果表明:盐胁迫下,两种外源大豆异黄酮浸种处理均可显著抑制叶片相对电解质渗透率和硫代巴比妥酸反应物(TBARS)含量的上升及净光合速率(Pn)的下降,降低Na+含量和Na+/K+值,增强超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性,提高内源大豆异黄酮含量,从而表现对盐害的缓解效应,其中对耐盐性较弱的栽培大豆N23674品种效应更明显.这为大豆异黄酮在大豆耐盐育种、化学调控和盐碱地种植利用等提供了理论依据.     

大豆异黄酮抗辐射损伤的作用

大豆异黄酮是大豆中的一类多酚化合物。近年来一些体外细胞培养及动物实验表明,大豆异黄酮通过抗氧化、抑制细胞凋亡、调节细胞基因表达等作用机制,对辐射损伤有一定的防护作用。     

大豆异黄酮微生物转化研究进展

大豆异黄酮是大豆在其生长过程中形成的一类次生代谢产物,具有抗氧化、抗癌、减少骨质流失、降低心脑血管发病率等多种生理功能。目前已知,被摄人机体的大豆异黄酮将被肠道微生物菌群转化为具有更高、更广生物学活性的不同产物。因此,大豆异黄酮对人体的有益调节作用强弱并不简单取决于摄人机体的净含量的多少,更在于被摄人机体的大豆异黄酮将如何被肠道菌群转化。本文从大豆异黄酮的组成与功能、大豆异黄酮体内吸收、代谢及微生物转化、转化产物的活性以及高效合成等方面进行了系统综述,对大豆异黄酮微生物生物转化研究现状和存在问题进行分析总结,并对今后发展趋势进行展望,旨在推动高活性大豆异黄酮微生物转化产物的研究与开发。     

大豆黄酮抗氧化及抗癌作用

大豆黄酮是异黄酮类化合物中最重要的生理活性物质。近年来发现它在促进生理机能、提高机体免疫力、抗氧化、抗癌方面的特殊功能使其成为研究热点。本文主要综述了大豆异黄酮的理化特性以及在抗氧化、抗癌等功能特性方面的最新研究进展,并根据当前研究现状对其应用前景和价值进行了展望。     

大豆异黄酮抗肿瘤效应研究进展(综述)

大豆异黄酮是大豆生长过程中形成的一类次生代谢产物,对人体具有多种生理功能。研究表明,大豆异黄酮具有抗肿瘤、预防肿瘤作用,是一种很有潜力的癌症化学预防剂,能显著降低多种恶性肿瘤的发病率。现将近几年大豆异黄酮抗肿瘤效应及其机制的研究进展综述如下,以期为大豆异黄酮的深入研究及开发利用提供参考。     

大豆异黄酮的分离与纯化

天然大豆异黄酮作为健康食品在防治骨质疏松和癌症方面具有一定功效。由于化合物结构相似,异黄酮甙元特别是高纯度黄豆黄素（glycitein）的获得有一定难度,文献报道大多是通过盐酸水解异黄酮甙的方法获得,而这种方法对环境污染和工厂生产设备腐蚀较大。本文报道了用醇溶剂进行固相提取以及硅胶柱色谱方对含有三种大豆异黄酮甙元的混合物产品进行分离。通过低成本和无环境污染的固相提取方法得到纯度为97％的黄豆黄素和纯度超过95％的大豆黄素（daidzein）;95％纯度的另一种大豆甙元金雀异黄素（genistein）则通过硅胶柱色谱分离得到。应用硅胶柱色谱,一次性分离了一种含有两个异黄酮甙：大豆甙（daidzin）和黄豆甙（glycitin）的产品。     

大豆异黄酮抗辐射损伤的作用

大豆异黄酮是大豆中的一类多酚化合物。近年来一些体外细胞培养及动物实验表明,大豆异黄酮通过抗氧化、抑制细胞凋亡、调节细胞基因表达等作用机制,对辐射损伤有一定的防护作用。     

大豆异黄酮的微生物转化

大豆异黄酮是近年来发现的具有多种生物学活性的大豆营养成分。综述了微生物对大豆异黄酮的转化过程,对大豆异黄酮的生物利用和营养成分的影响,指出在富含大豆异黄酮类制品生产过程中合理利用微生物活动的重要意义和可能途径。     

大豆异黄酮神经保护作用研究进展

对大豆异黄酮神经保护作用的研究进展进行综述,旨在为大豆异黄酮功能食品开发以及其他食品功能组分的神经保护作用研究提供科学依据。     

传统大豆发酵食品在心脑血管疾病防治上的研究现状

人类生活水平的提高以及生活压力的增加,使心脑血管疾病的发生频率显著增加,并日趋成为威胁人类健康的重要原因。传统大豆发酵食品中的各种生理活性物质通过降血压和调节体内脂质、糖类代谢等多种作用来有效地防治心脑血管疾病;与传统药物相比,有效果显著与无毒副作用等优点,因此传统大豆发酵食品有广阔的发展应用前景。     

Metabolism of the soy isoflavones daidzein and genistein by fungi used in the preparation of various fermented soybean foods

The ability of fungi used in the preparation of fermented soybean foods to metabolize the soy isoflavones daidzein and genistein was investigated. A total of 21 fungal strains from dou-chi, miso, sake, soy sauce, and sufu were screened. The genera of the tested fungi included Actinomucor, Aspergillus, Candida, Debaryomyces, Monascus, Mucor, Rhizopus, Saccharomyces, and Zygosaccharomyces. The results were that all tested Aspergillus strains from these soybean foods, including five A. oryzae strains, one A. sojae strain, and one A. tamarii strain, metabolized both daidzein and genistein. In contrast, no other tested fungi from the fermented soybean foods metabolized either daidzein or genistein. The metabolites of daidzein and genistein by Aspergillus strains were identified as 8-hydroxydaidzein and 8-hydroxygenistein, respectively, based on their mass, (1)H-, and (13)C-NMR spectra.     

Soyfoods and soybean products: from traditional use to modern applications

Soybean products (soyfoods), reported as potential functional foods, are implicated in several health-enhancing properties, such as easing the symptoms of postmenopausal women, reducing the risk of osteoporosis, preventing cardiovascular disease, and antimutagenic effects. Isoflavone, for example, is one of the most important compounds abundantly found in soybean, mainly accounting for the health-enhancing properties as mentioned earlier. However, most biological activities of isoflavones are mainly attributed to their aglycone forms. It has also been demonstrated that isoflavone aglycones are absorbed faster and in greater amount than their glycosides in human intestines. Fortunately, deglycosylation of isoflavones can be achieved during fermentation process by several strains such as lactic acid bacteria, basidiomycetes, filamentous fungus, and Bacillus subtilis with their β-glucosidase activity. This article presents an overview of soybean's chemistry, application, state-of-the-art advances in soybean fermentation processing and products as well as their applications in food and pharmaceutical industries. Different compounds, such as isoflavone, dietary fibers, and proteins which exhibit significant bioactivities, are summarized. The roles of different microorganisms in bioconversion and enhancement of bioactivities of fermented soybean are also discussed.     

食用真菌发酵豆浆过程中对豆浆中几种生物活性物质的影响

本实验以灵芝、金耳以及冬虫夏草作为发酵菌种,选用豆浆为基本原料配制培养基,在发酵过程中定时取样并测定其中几种生物活性物质的含量,分析各生物活性物质在发酵过程中的变化。研究结果表明,三种食用真菌发酵豆浆的发酵液中总游离型大豆异黄酮含量在发酵过程中均缓慢上升并分别在发酵72 h、24 h和36 h达到最高,与发酵初期相比分别增加了31.81μg/m L、19.05μg/m L和15.71μg/m L;三种食用真菌发酵液中蛋白质含量随着发酵时间的推移而降低的同时氨基酸含量均有增加,且发酵液中的肽主要是分子量范围在300 Da~1 500 Da之间的具有较高生物活性的小分子肽,发酵液中的必需氨基酸含量以及占总氨基酸含量的比值均有增加。本实验探究了食用真菌发酵豆浆过程中生物活性物质的变化,为日后的富集游离型大豆异黄酮、多肽以及氨基酸等生物活性物质实验提供依据,并为工业化生产提供实践基础。     

DPPH radical-scavenging compounds from dou-chi, a soybean fermented food

Dou-chi, a traditional soybean food fermented with Aspergillus sp., is usually used as a seasoning in Chinese food, and has also been used as a folk medicine in China and Taiwan. As 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical-scavengers, four phenol compounds, one isoflavanone, eight isoflavones and one 4-pyrone have been isolated from dou-chi. Among these fourteen compounds, 3'-hydroxydaidzein, dihydrodaidzein and a 4-pyrone compound have not yet been isolated from soybean miso. The structure of the novel 4-pyrone compound, 3-((E)-2-carboxyethenyl)-5-(4-hydroxyphenyl)-4-pyrone-2-carboxylic acid was elucidated by using the same compound as that obtained from the biotransformation of daidzein. 3'-Hydroxydaidzein showed as high DPPH radical-scavenging activity as that of alpha-tocopherol, and 6-hydroxydaidzein had mushroom tyrosinase inhibitory activity with an IC(50) value of 10 muM. The order of estrogenic activity is as follows: genistein > daidzein > 3'-hydroxydaidzein > 8-hydroxygenistein, using a green fluorescent protein expression system. Furthermore, the contents of isoflavones in the fermentation process of dou-chi were measured.     

Isolation and characterization of biogenic amine-producing bacteria in fermented soybean pastes

Biogenic amines (BAs) are produced primarily by microorganisms found in fermented foods and are often implicated in food poisoning. BA-producing bacteria found in fermented soybean pastes were isolated and characterized using a decarboxylating medium and multiplex PCR analysis. Two BA-producing bacteria were isolated from traditional soybean pastes: one was a histamine-producing Clostridium strain, and the other was a tyramine-producing Pseudomonas strain. The Clostridium strain was determined to be a potent histamine producer among the cultures tested. Synthesis of tyramine by Pseudomonas sp. T1 was observed for the first time in this study.     

中国传统发酵食品微生物组研究进展

传统发酵食品风味独特、营养丰富,多采用自然接种方式进行生产,部分类型的生产技艺已具有数千年的历史。近年来应用新技术手段对传统发酵食品发酵过程进行的研究表明,传统发酵食品微生物组具有丰富的科学内涵和重要的应用价值。本文就我国传统发酵食品微生物组的基本特征、研究进展和发展方向进行了简要的评述。     

Production of yogurt with enhanced levels of gamma-aminobutyric acid and valuable nutrients using lactic acid bacteria and germinated soybean extract

Yogurt with high levels of gamma-aminobutyric acid (GABA), free amino acids and isoflavones was developed using lactic acid bacteria (LAB) and germinated soybean extract. Fermented soya milk (GABA soya yogurt) produced with starter and substrate had the GABA concentration of 424.67 microg/gDW, whereas fermented milk produced by a conventional method had GABA less than 1.5 microg/gDW. The GABA soya yogurt also contained significantly high levels of free amino acids and isoflavones compared with other conventional yogurts. The results suggested that the Lactobacillus brevis OPY-1 and germinated soybean possessed a prospect to be applied in dairy and other health products with high nutritive values and functional properties.     

高效液相色谱法测定大豆乳清提取物中大豆异黄酮的含量

建立了大豆乳清提取物中大豆异黄酮含量的高效液相色谱测定方法。采用Nova-Pak C₁₈（3.9×150 mm,4 μm）色谱柱;以甲醇：0.4%磷酸=30：70（v/v）为流动相分析染料木苷和黄豆苷;流速为0.7 mL·min^-1;柱温为30℃;检测波长为260 nm。试验结果表明,大豆乳清提取物中的大豆异黄酮含量为72.5%,其组成以染料木苷和黄豆苷为主,二者比例接近1∶1,苷元型大豆异黄酮未检出。染料木苷和黄豆苷的平均回收率分别为98.1%和98.4%,相对标准偏差（RSD）分别为0.7%（n=5）和0.8%(n=5)。该方法快速、准确、重复性好。