海产品加工副产品中的生物活性物质

海产品加工副产品中含有丰富的蛋白质、氨基酸、维生素、矿物质、不饱和脂肪酸等营养成分,可制成各种天然的功能食品。本文介绍了这些活性物质及其潜在的功用。     

大豆副产物提取生物活性物质

大豆加工后的副产物．如豆粕、豆渣、黄浆水长期以来没有得到充分利用或仅仅作为饲料或酱油等低附加值品的原料。现研究发现．这次副产物中含有多种生物活性物质。本文将介绍从豆粕、豆渣、黄浆水中提取这些物质的现状。     

荞麦生物活性物质的研究进展

荞麦是一种古老的杂粮作物,在世界一些国家和高寒地区都有种植,在某些地区还是当地的主要粮食作物.由于它的化学和生物学成分独特,目前在食品和医药方面的应用前景十分广阔.本文对其生物活性物质,尤其蛋白酶抑制剂的理化性质及其功能等进行了综述.     

Bioactive Compounds of Colostrum and Its Application

Colostrum is the initial milk secreted by bovine during parturition and the first few days after birth. Colostrum is a gift of nature used to protect the newborn's immune system and provides passive immunity against pathogens. The presence of bioactive components such as insulin-like growth factor I and II (IGF-I and IGF-II), lactoferrin, lysozyme, lactoperoxidase, and immunoglobulin make the colostrum active against pathogens such as Escherichia coli, Salmonella typhimurium, Shigella dysenteria, Listeria monocytogens, Streptococcus mutans, Bacillus stearothermophilus, and Bacillus subtilis. It is also active against Herpes simple virus type-I (HSV-I), Human Immuno-deficiency virus-I (HIV-I), and human cytomegalovirus. Lysozyme is an antibacterial and lytic enzyme; whereas lactoperoxidase is a major antibacterial found in colostrum; it is toxic to gram-positive and gram-negative bacteria. Lactoperoxidase inactivates the polio virus, vaccinia, and human immunodeficiency virus type-I in-vitro. Immunoglobulins are considered an important bioactive component in colostrum, and it contains high levels of immunoglobulin G (Ig G). Immunosupplementation with bovine milk antibodies has been shown to provide local protection to the gastrointestinal tract against disease. The restricted technical and hygienic problems, along with the unstable physio-chemical nature of colostrum, has resulted in minimal utilization of colostrum on Industrial scale.     

Bioactive Compounds of Colostrum and Its Application

Colostrum is the initial milk secreted by bovine during parturition and the first few days after birth. Colostrum is a gift of nature used to protect the newborn’s immune system and provides passive immunity against pathogens. The presence of bioactive components such as insulin-like growth factor I and II (IGF-I and IGF-II), lactoferrin, lysozyme, lactoperoxidase, and immunoglobulin make the colostrum active against pathogens such as Escherichia coli, Salmonella typhimurium, Shigella dysenteria, Listeria monocytogens, Streptococcus mutans, Bacillus stearothermophilus, and Bacillus subtilis. It is also active against Herpes simple virus type-I (HSV-I), Human Immuno-deficiency virus-I (HIV-I), and human cytomegalovirus. Lysozyme is an antibacterial and lytic enzyme; whereas lactoperoxidase is a major antibacterial found in colostrum; it is toxic to gram-positive and gram-negative bacteria. Lactoperoxidase inactivates the polio virus, vaccinia, and human immunodeficiency virus type-I in-vitro. Immunoglobulins are considered an important bioactive component in colostrum, and it contains high levels of immunoglobulin G (Ig G). Immunosupplementation with bovine milk antibodies has been shown to provide local protection to the gastrointestinal tract against disease. The restricted technical and hygienic problems, along with the unstable physio-chemical nature of colostrum, has resulted in minimal utilization of colostrum on Industrial scale.     

Dietary Bioactive Compounds and Their Health Implications

There is strong scientific evidence suggesting that regular consumption of fruits and vegetables is negatively associated with risk of developing chronic diseases. The 2010 Dietary Guidelines for Americans recommend at least 9 servings of fruits and vegetables a day based on a 2000 kcal diet. However, the average person in the United States consumes 3.6 servings of fruits and vegetables per day. In order to achieve the goal of at least 9 servings, we should continue educating Americans about the health benefits of fruits and vegetables and recommend consumers to eat a wide variety of fruits and vegetables. The key is to increase the amount up to 9 to 13 servings of fruits and vegetables a day in all forms. Fresh, cooked, and processed fruits and vegetables including frozen and canned, 100% fruit juices, 100% vegetable juices, and dried fruits are all considered as servings of fruits and vegetables. A wide variety of fruits and vegetables provide a range of nutrients and different bioactive compounds including phytochemicals (phenolics, flavonoids, and carotenoids), vitamins (vitamin C, folate, and provitamin A), minerals (potassium, calcium, and magnesium), and fibers. More and more evidence suggests that the health benefits of fruits and vegetables are attributed to the additive and synergistic interactions of the phytochemicals present in whole foods by targeting multiple signal transduction pathways. Therefore, consumers should obtain nutrients and bioactive compounds from a wide variety of whole foods for optimal nutrition and health well‐being, not from expensive dietary supplements.     

Bioactive Compounds and Antioxidant Activity of Tomato Cultivars

The bioactive compounds of 16 tomato cultivars, grown in the same field for 2 years (2003 and 2004) were investigated. Lycopene (5.7–26.3 mg kg^?1) was the predominant carotenoid, while β-carotene (2.1–11.2 mg kg^?1) and a small amount of lutein (0.02–0.49 mg kg^?1) were found in all tomato cultivars. Kagome 77, the richest source of total carotenoids and L-ascorbic acid, also showed the highest antioxidant activity. β-Carotene and lutein contents of tomatoes differed between 2 years statistically. Antioxidant activities of tomatoes were found between 48 and 118 μmol TEAC 100 g^?1. A significant correlation was only observed between L-ascorbic acid (2.2–13.8 mg 100 g^?1) and antioxidant activity using TEAC assay.     

Bioactive Compounds and Antioxidant Activity of Bunchosia glandulifera

Bunchosia glandulifera is a red-colored fruit and a source of bioactive compounds with antioxidant potential. The fruit was collected in the city of Santo Antonio Patrulha-Brazil, and the pulp contained phenolic compounds, anthocyanins, flavonoids, lycopene, β-carotene, vitamin C, and caffeine. Rutin, vitexin, and quercitrin were the phenolic compounds identified in the pulp. The concentrations of lycopene (16.39 mg/100 g fruit) and β-carotene (8.10 mg/100 g fruit) provided the fruit’s distinct color. The fruit pulp was rich in caffeine (206.35 mg/100 g) and showed antioxidant activity as determined by Ferric Reducing Antioxidant Power, 2,2′-Azinobis-(3-Ethylbenzothiazoline-6-Sulfonic acid, and 2,2 Difenil-1-Picrilhidrazil. The high antioxidant activity was due to its high levels of bioactive compounds.     

Sonication Effect on Bioactive Compounds of Cashew Apple Bagasse

This study describes some effects of high-power ultrasound on cashew apple bagasse. The main objective was to develop an optimized process for sonication of cashew apple bagasse, evaluating the effect of ultrasound on antioxidant compounds. To define the best conditions for sonication, a 2³ factorial central composite design was used changing the independent variables: bagasse/water ratio, ultrasonic power intensity (W/cm²), and processing time (min). Antioxidant compounds such as vitamin C, β-carotene, and total phenolic compounds were determined. The total antioxidant capacity (ABTS(2,2 AZINO BIS (3-ethylbenzo thiazoline 6 sulfonic acid) diammoninum salt and DPPH (2,2-Diphenyl-1-picryl-hidrazil)) was also evaluated. A thermal treatment was carried at the highest temperature reached after sonication (51 °C) to evaluate the heat effect due to a temperature increase during processing. Sonication changed the bagasse aspect from a fibrous residue to a pleasant yellow puree. The maximal concentration of vitamin C, phenolics, and β-carotene was obtained when the processing conditions were as follows: bagasse/water ratio of 1:4 (w/w), ultrasound power intensity of 226 W/cm², and 6 min of processing. The high total phenolic content (2186 mg of gallic acid/100 g DW), vitamin C (148 mg/100 g DW), and β-carotene (12 mg/100 g) obtained proved the sonication efficiency. The antioxidant activity determined by the DPPH and ABTS assays confirmed the suitability of ultrasound for the preparation of antioxidant-rich cashew apple bagasse puree.     

Isolation and Analysis of Bioactive Compounds in Capsicum Peppers

An overview of the state of the art in the extraction, isolation, and analytical determination of bioactive compounds in peppers of the genus Capsicum is presented. The review is structured by classes of phytochemicals. Both major and minor constituents of peppers are considered. Modern trends in analytical chemistry of nutrients in regard to pepper analysis with particular focus on chromatographic and related methods are discussed. Attention was paid to controversial questions of pepper analysis, including but not limited to problems of sample degradation and the completeness of extraction of target analytes. The rationale for choosing an optimal strategy of analysis is given.     

柑橘活性成分检测技术研究进展

柑橘中富含类黄酮、类柠檬苦素、类胡萝卜素、酚酸等多种生理活性成分,在功能食品和药品开发方面具有广阔的应用前景。文中综述了近年来柑橘中主要活性成分的分离及检测技术进展,着重介绍了高效液相色谱在柑橘活性成分检测中的应用。     

果品生物活性物质纳米粒研究现状

果品富含各种营养与活性成分,对人体健康具有重要作用。但天然的活性物质存在水溶性差、易降解、不稳定、人体吸收和生物利用度低等一系列问题,纳米技术能有效克服这些缺陷。本文全面分析了果品生物活性物质纳米粒的研究现状,系统介绍了有关物质纳米粒的制备原理、技术和方法,总结了纳米粒活性物质的生物学功能及其在食品、医药保健和日化产品等领域的应用情况,指出了存在的问题并提出了未来研究方向,以期为高效利用果品生物活性物质提供新信息。     

藤茶活性成分的同步提取分离研究

以水为提取荆,同步提取藤茶中的二氢杨梅素、杨梅素和藤茶多糖.提取的最佳工艺参数为:提取温度95 ℃,提取时间120 min,料液比1∶25 (g/mL),原料粒度80目.粗提物经丙酮回流提取、浓缩、加水沉淀后得到晶体,晶体经重结晶4次后得到二氢杨梅素产品,其纯度可达91.3％,得率为4.2％;取丙酮提取后的不溶性残渣经...     

茶树花活性成分的分析与鉴定

茶树花是茶叶生长过程中的废弃物,很少加以利用。为了分析和鉴定出茶树花有效成分,便于其开发利用,选取了5个地方的茶树花品种,对其进行成分分析。采用分光光度法测定多酚、总糖和多糖的含量。用酒石酸亚铁比色法进行测定多酚,用苯酚-硫酸法测定茶树花总糖和多糖。茶树花多糖用岛津GC-14B型气相色谱仪分析其组成,茶树花多酚用美国Thermo公司SpectraSystem型高效液相色谱仪分析其组成。对鲜茶树花不同部位主要化学成分进行了比较。实验表明:①茶树花中含多酚6.35%～8.19%,茶树花多酚由表没食子儿茶素(EGC)、表没食子儿茶素没食子酸酯(EGCG)、表儿茶素(EC)、没食子儿茶素没食子酸酯(GCG)、表儿茶素没食子酸酯(ECG)儿茶素类化合物组成。②茶树花总糖含量为20.97%～33.60%,多糖含量为1.04%～1.84%。茶树花多糖单体有葡萄糖、阿拉伯糖、半乳糖、半乳糖醛酸、甘露糖、木糖、岩藻糖、鼠李糖等。③花蕊所含的活性成分稍高于花瓣。分析结果表明茶树花含多酚和多糖,并可以开发利用作为营养保健品。     

溶剂法提取分蘖葱头有机硫化合物及其GC-MS分析

为研究有机溶剂对分蘖葱头中有机硫化合物提取及成分的影响,采用二氯甲烷、乙酸乙酯、正己烷3种溶剂提取分蘖葱头中有机硫化合物,并利用顶空固相微萃取和气相色谱-质谱联用技术对不同溶剂提取到有机硫化合物进行比较分析。结果表明:二氯甲烷提取分蘖葱头中有机硫化合物的最佳工艺条件为浸提时间4 h、料液比1∶4(g/m L)、搅拌速率250 r/min,在此条件下有机硫化合物得率为(0.413 3±0.007)%。乙酸乙酯、正己烷有机硫化合物得率分别为(0.273 3±0.011)%、(0.288 9±0.009)%。3种溶剂共提取分离出45种组分,均检测出9种有机硫化合物,其中相对含量较高的均为噻吩类和硫醚类。另外,以二氯甲烷为溶剂提取出独有的有机硫化合物12种;以乙酸乙酯为溶剂提取出独有的有机硫化合物3种;以正己烷为溶剂提取出独有的有机硫化合物8种。     

不同品种山楂活性成分及其抗氧化活性的研究

本文以产自山东地区的山里红和大金星这两个常见山楂品种作为研究对象,山楂冻干制成粉末后测定它们的总酚、总黄酮含量及抗氧化活性(DPPH、ORAC和PSC),并采用HPLC分析抗氧化活性成分的差异。结果显示不同品种山楂中的总酚和总黄酮含量各异,其中山里红果实的总酚(61.91 mg GA equiv./g DW)和总黄酮(55.96 mg catechin equiv./g DW)含量均显著高于大金星。山楂果实提取物均有较好的抗氧化活性,其中山里红品种表现出更好的抗氧化活性,其ORAC及PSC值分别是大金星的1.54和2倍。山楂果实提取液经HPLC法分析,鉴定出7种多酚类化学成分,最主要的酚类化合物为原花青素B2以及表儿茶素,且山里红果实多酚类化合物的含量显著高于大金星。综合比较发现山楂中的活性成分含量及种类各异,且山里红的抗氧化活性较强,是天然抗氧化剂的潜在原料。     

干燥方法对番石榴活性物质含量及抗氧化能力的影响

为研究干燥方式、工艺参数对番石榴活性物质含量及抗氧化能力的影响,采用热风干燥、热风-红外联合干燥、真空干燥和真空冷冻干燥技术,比较其对番石榴总酚、黄酮、抗坏血酸含量、清除1,1-二苯基-2-三硝基苯肼（1,1-diphenyl-2-picrylhydrazyl,DPPH）自由基能力、清除2,2’-联氮-二（3-乙基苯并噻唑啉-6-磺酸）二铵盐（2,2’-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid)diammonium salt,ABTS）自由基能力和铁离子还原能力（ferric reducing antioxidant power,FRAP ）以及抑制亚油酸过氧化能力的影响。结果表明,与鲜果相比,干燥后番石榴总酚含量显著增加,黄酮和抗坏血酸含量显著降低（P＜0.05）,抗氧化能力显著降低。真空干燥和真空冷冻干燥得到的总酚、抗坏血酸含量较高,清除自由基及FRAP较高。热风干燥得到的番石榴干制品抑制亚油酸过氧化能力较高。随干燥温度升高,热风和热风-红外联合干燥后的黄酮保留量增加,抗坏血酸含量、清除自由基及FRAP降低。综合来看,真空冷冻干燥和中低温热风干燥（60 ℃和75 ℃）得到的番石榴干制品抗氧化能力较高。Spearman相关性分析表明,DPPH、ABTS、FRAP法测定的抗氧化能力及抗氧化效能综合指数分别与总酚含量的相关系数较高,且DPPH自由基清除能力、抗氧化效能综合指数与总酚含量呈显著正相关（P＜0.05）,说明多酚可能是番石榴干制品主要抗氧化物质。     

Slaughterhouse Blood: An Emerging Source of Bioactive Compounds

Slaughterhouse blood is an inevitable part of the meat production food chain and represents a rich source of protein. The physicochemical characteristics and utilization of animal blood in various food and industrial applications has been well explored. However, in recent years much attention has been paid to the generation of peptides with biological activities from food by‐products including blood. This review examines the angiotensin‐converting enzyme inhibitory, antioxidant, antimicrobial, and other bioactive peptides derived from various slaughterhouse animal blood sources. Furthermore, the effect of enzyme choice, degree of hydrolysis, and peptide sequence or size on the potency of these bioactivity is discussed.