竹笋膳食纤维生物活性研究现状与展望

编号 lyqk011365

中文标题 竹笋膳食纤维生物活性研究现状与展望

作者 郭玉红  门德盈  赵一鹤 

作者单位 云南省林业和草原科学院 昆明 650201

期刊名称 世界竹藤通讯 

年份 2024 

卷号 22

期号 2

栏目名称 综合述评 

中文摘要 竹笋及其加工剩余物中含有丰富的膳食纤维，虽然其具有良好的食品开发价值，但利用率较低，资源浪费严重。竹笋膳食纤维在降糖、降脂和抗氧化等方面具有良好的生物活性，是功能食品的潜在原料。充分利用竹笋膳食纤维有利于提高竹笋附加值。文章梳理、总结了竹笋膳食纤维制备方法和生物活性等方面的研究成果，提出了今后的研究重点，旨在为深入研究竹笋膳食纤维制备技术、功能活性作用机制及其应用提供参考。

关键词 竹笋  膳食纤维  生物活性  制备技术  作用机制  高值化利用 

基金项目 云南省高新技术产业发展项目( 云高新产业发展 201706)；云南省吴良如专家工作站(202305AF150050)。

英文标题 Research on Biological Activity of Dietary Fiber from Bamboo Shoots: Current Status and Prospects

作者英文名 Guo Yuhong, Men Deying, Zhao Yihe

单位英文名 Yunnan Academy of Forestry and Grassland, Kunming 650201, China

英文摘要 Bamboo shoots and their processing residues are rich in dietary fibre. Although with good value for food development, the dietary fibre has a low utilization rate, resulting in a serious waste of resources. The dietary fibre in bamboo shoot has good biological activities in terms of hypoglycemia, hypolipidemia and antioxidant, which is a potential raw material for functional food. Making full use of the dietary fibre is conducive to increasing the added value of bamboo shoots. This paper reviews and summarizes the research findings on the preparation methods and biological activities of bamboo shoot's dietary fiber, and proposes the future focus on research, aiming to provide references for the in-depth research on the technology for bamboo shoot based dietary fiber preparation, the action mechanism of its functional activity and the application of the action mechanism.

英文关键词 bamboo shoot;dietary fibre;biological activity;preparation technology;mechanism of action;high value utilization

起始页码 84

截止页码 90

作者简介 郭玉红(1970-)，女，教授级高级工程师，从事竹资源高效利用研究。E-mail:441943339@qq.com。

通讯作者介绍 赵一鹤(1970-)，男，研究员，博士生导师，从事竹资源高效利用研究。E-mail:903796259@qq.com。

E-mail 903796259@qq.com

DOI 10.12168/sjzttx.2024.03.06.001

参考文献 [1] GILL S K, ROSSI M, BAJKA B, et al. Dietary fibre in gastrointestinal health and disease[J]. Nature Reviews Gastroenterology&Hepatology, 2021, 18(2):101-116.
[2] WILLIAMS A B, MIKKELSEN D, FLANAGAN M B, et al. Dietary fibre:moving beyond thesoluble/insolubleclassification for monogastric nutrition, with an emphasis on humans and pigs[J]. Journal of Animal Science and Biotechnology, 2019, 10(1):1-12.
[3] LILY S, ALI I H, AFAF K, et al. Soluble and insoluble dietary fibre in date fruit varieties:an evaluation of methods and their implications for human health[J]. Foods, 2023, 12(6):1231-1231.
[4] MUDGIL D, BARAK S. Composition, properties and health benefits of indigestible carbohydrate polymers as dietary fiber:a review[J]. International Journal of Biological Macromolecules, 2013, 61:1-6. DOI:10.1016/j.ijbiomac.2013.06.044.
[5] EMÍLIA H, IZABELA B, JANA Š. Dietary fibre as prebiotics in nutrition[J]. Central European Journal of Public Health, 2019, 27(3):251-255.
[6] CRONIN P, JOYCE S A, O'TOOLE P W, et al. Dietary fibre modulates the gut microbiota[J]. Nutrients, 2021, 13(5):1655-1655.
[7] MCKEOWN N M, FAHEY G C, SLAVIN J, et al. Fibre intake for optimal health:how can healthcare professionals support people to reach dietary recommendations?[J]. BMJ, 2022, 378(8346):e054370-e054370. DOI:10.1136/bmj-2020-054370.
[8] STEPHEN P B, KATHERINE F, STEVE G, et al. A stealth health approach to dietary fibre[J]. Nature Food, 2022, 4(1):5-6.
[9] MILANI G, CURCI F, CAVALLUZZI M M, et al. Optimization of microwave-assisted extraction of antioxidants from bamboo shoots of Phyllostachys pubescens[J]. Molecules, 2020, 25(1):215. DOI:10.3390/molecules25010215.
[10] 张杰,郭仁聪,吴良如,等.竹笋膳食纤维应用研究进展[J/OL].食品与发酵工业,[2024-01-04]. DOI:10.13995/j.cnki.11-1802/ts.037869.
[11] LI X, FU B, GUO J, et al. Bamboo shoot fiber improves insulin sensitivity in high-fat diet-fed mice[J]. Journal of Functional Foods, 2018, 49:510-517.
[12] CHONGTHAM N, BISHT S M, PREMLATA T, et al. Quality improvement of bamboo shoots by removal of antinutrients using different processing techniques:a review[J]. Journal of Food Science and Technology, 2021, 59(1):1-11.
[13] NIRMALA C, BISHT S M, BAJWA K H, et al. Bamboo:a rich source of natural antioxidants and its applications in the food and pharmaceutical industry[J]. Trends in Food Science Technology, 2018, 77:91-99.
[14] 胥晶,张涛,江波.国内外膳食纤维的研究进展[J].食品工业科技, 2009, 30(6):360-362, 367.
[15] 杨统帅,黄继红,张文占,等.麦麸膳食纤维的制备及应用现状:在蒸煮面制品中的研究进展[J].粮食加工, 2021, 46(1):15-21.
[16] ZHANG W M, ZENG G L, PAN Y G, et al. Properties of soluble dietary fiber-polysaccharide from papaya peel obtained through alkaline or ultrasound-assisted alkaline extraction[J]. Carbohydrate Polymers, 2017, 172:102-112.
[17] LIU M C, LIU X Z, LUO J Y, et al. Effect of digestion on bound phenolic content, antioxidant activity and hypoglycemic ability of insoluble dietary fibre from four Triticeae crops[J]. Journal of food biochemistry, 2021, 45:e13746. DOI:10.1111/jfbc.13746.
[18] 曹树稳,黄绍华.几种膳食纤维的制备工艺研究[J].食品科学, 1997, 18(6):41-45.
[19] KUMAR D, MURTHY S G. Development and validation of a stochastic molecular model of cellulose hydrolysis by action of multiple cellulase enzymes[J]. Bioresources and Bioprocessing, 2017, 4(1):1-17.
[20] RAHUL R, ROHIT R, BHATT S B, et al. Technological road map of cellulase:a comprehensive outlook to structural, computational, and industrial applications[J]. Biochemical Engineering Journal, 2023, 198. DOI:10.1016/j.bej.2023.109020.
[21] GU M, FANG H, GAO Y, et al. Characterization of enzymatic modified soluble dietary fiber from tomato peels with high release of lycopene[J]. Food Hydrocolloids, 2020, 99:105321-105321.
[22] SUN C C, WU X F, CHEN X J, et al. Production and characterization of okara dietary fiber produced by fermentation with Monascus anka[J]. Food Chemistry, 2020, 316:126243. DOI:10.1016/j.foodchem.2020.126243.
[23] 许锡凯,辛嘉英,任佳欣,等.水溶性膳食纤维的提取方法及其在食品中的应用[J].食品研究与开发, 2021, 42(4):203-208.
[24] TANG C D, WU L R, ZHANG F S, et al. Comparison of different extraction methods on the physicochemical, structural properties, and in vitro hypoglycemic activity of bamboo shoot dietary fibers[J]. Food Chemistry, 2022, 386:132642-132642.
[25] DONG Y F, LI Q, GUO Y H, et al. Comparison of physicochemical and in vitro hypoglycemic activity of bamboo shoot dietary fibers from different regions of Yunnan[J]. Frontiers in Nutrition, 2022, 9:1102671. DOI:10.3389/fnut.2022.1102671.
[26] 邓斌,祖林鹏,杨成,等.竹笋壳不溶性膳食纤维制备工艺优化及功能性质研究[J].中国食品添加剂, 2022, 33(8):18-27.
[27] LUO X L, WANG Q, ZHENG B D, et al. Hydration properties and binding capacities of dietary fibers from bamboo shoot shell and its hypolipidemic effects in mice[J]. Food and Chemical Toxicology, 2017, 109:1003-1009.
[28] 张万佳,王素雅,兰蔓.毛竹笋粉及其膳食纤维的功能性质比较[J].粮食科技与经济, 2023, 48(4):109-114.
[29] 万仁口,贺杨正,李功景,等.酶解制备竹笋可溶性膳食纤维及其抗氧化活性研究[J].中国食品学报, 2021, 21(3):153-160.
[30] 吴丽萍,孙虹,朱婷婷,等.发酵毛竹笋制备水溶性膳食纤维工艺优化及功能特性研究[J].中国调味品, 2021, 46(12):42-48.
[31] 李璐,徐灵芝,黄亮,等.发酵法制备雷竹笋膳食纤维的工艺研究[J].中国酿造, 2016, 35(4):176-180.
[32] 徐灵芝,黄亮,王平,等.绿色木霉发酵制备雷竹笋渣膳食纤维的工艺研究[J].中国酿造, 2014, 33(9):58-62.
[33] 李秀芬,赵冰,赵一鹤,等.不同处理对版纳甜龙竹竹笋膳食纤维结构与功能特性的影响[J].竹子学报, 2021, 40(4):61-68.
[34] 苏玉,李璐,黄亮,等.超微化雷竹笋膳食纤维对高脂血症小鼠的影响[J].食品科学, 2019, 40(15):203-210.
[35] DONG Y F, LI Q, ZHAO Y H, et al. Effects of ultrasonic assisted high-temperature cooking method on the physicochemical structure characteristics and in vitro antioxidant capacities of dietary fiber from Dendrocalamus brandisii Munro shoots[J]. Ultrasonics Sonochemistry, 2023, 97:106462-106462.
[36] 王娜,柯轶,魏瑜.超微粉碎-纤维素酶法改性竹笋膳食纤维的工艺评价[J].福建农业科技, 2021, 52(5):6-10.
[37] ALAN P, OFELIA R, PATRICIA T, et al. Cereal bran and wholegrain as a source of dietary fibre:technological and health aspects[J]. International Journal of Food Sciences and Nutrition, 2012, 63(7):882-892.
[38] SATYA S, SINGHAL P, BAL M L, et al. Bamboo shoot:a potential source of food security[J]. Mediterranean Journal of Nutrition and Metabolism, 2012, 5(1):1-10.
[39] KENDALL W C, ESFAHANI A, JENKINS J D. The link between dietary fibre and human health[J]. Food Hydrocolloids, 2009, 24(1):42-48.
[40] HEATON K W. Food fibre as an obstacle to energy intake[J]. Lancet, 1973, 2:1418-1421.
[41] ZHOU X L, MA L J, DONG L, et al. Bamboo shoot dietary fiber alleviates gut microbiota dysbiosis and modulates liver fatty acid metabolism in mice with high-fat diet-induced obesity[J]. Frontiers in Nutrition, 2023, 10:1161698. DOI:10.3389/fnut.2023.1161698.
[42] LI Q, FANG X J, CHEN H J, et al. Retarding effect of dietary fibers from bamboo shoot (Phyllostachys edulis) in hyperlipidemic rats induced by a high-fat diet[J]. Food Function, 2021, 12:4696-4706.
[43] ZHENG Y J, WANG X Y, TIAN H L, et al. Effect of four modification methods on adsorption capacities and in vitro hypoglycemic properties of millet bran dietary fibre[J]. Food Research International, 2021, 147:110565. DOI:10.1016/j.foodres.2021.110565.
[44] AKHLAGHI M. The role of dietary fibers in regulating appetite, an overview of mechanisms and weight consequences[J]. Critical Reviews in Food Science and Nutrition, 2022, 1-12. DOI:10.1080/10408398.2022.2130160.
[45] GRUNDY M M, EDWARDS C H, MACKIE A R, et al. Re-evaluation of the mechanisms of dietary fibre and implications for macronutrient bioaccessibility, digestion and postprandial metabolism[J]. British Journal of Nutrition, 2016, 116(5):816-833.
[46] WEITKUNAT K, STUHLMANN C, POSTEL A, et al. Short-chain fatty acids and inulin, but not guar gum, prevent diet-induced obesity and insulin resistance through differential mechanisms in mice[J]. Scientific Reports, 2017, 7:6109. DOI:10.1038/s41598-017-06447-x.
[47] NYOMAN D I W, KETUT I M, GDE S, et al. Diabetes and fatty liver:involvement of incretin and its benefit for fatty liver management[J]. World Journal of Diabetes, 2023, 14(5):549-559.
[48] ZHENG Y F, WANG Q, HUANG J Q, et al. Hypoglycemic effect of dietary fibers from bamboo shoot shell:an in vitro and in vivo study[J]. Food and Chemical Toxicology, 2019, 127:120-126.
[49] HUA M, FAN M L, LI Z M, et al. Ginseng soluble dietary fiber can regulate the intestinal flora structure, promote colon health, affect appetite and glucolipid metabolism in rats[J]. Journal of Functional Foods, 2021, 83:104534. DOI:10.1016/j.jff.2021.104534.
[50] CANFORA E E, MEEX R C R, VENEMA K, et al. Gut microbial metabolites in obesity, NAFLD and T2DM[J]. Nature Reviews Endocrinology, 2019, 15(5):261-273.
[51] WU W J, LI Q, CHEN H J, et al. In vitro fermentation characteristics of the dietary fiber in bamboo (Phyllostachys edulis) shoots and its regulatory effects on the intestinal microbiota and metabolites[J]. Food Chemistry, 2022, 404(Pt B):134707-134707.
[52] LI Q, WU W J, FANG X J, et al. Structural characterization of a polysaccharide from bamboo (Phyllostachys edulis) shoot and its prevention effect on colitis mouse[J]. Food Chemistry, 2022, 387:132807. DOI:10.1016/j.foodchem.2022.132807.
[53] WU W J, HU J, GAO H Y, et al. The potential cholesterol-lowering and prebiotic effects of bamboo shoot dietary fibers and their structural characteristics[J]. Food Chemistry, 2020, 332:127372. DOI:10.1016/j.foodchem.2020.127372.
[54] DAS K A, NANDA K P, MADANE P, et al. A comprehensive review on antioxidant dietary fibre enriched meat-based functional foods[J]. Trends in Food Science Technology, 2020, 99(5):323-336.
[55] GONG W, XIANG Z, YE F, et al. Composition and structure of an antioxidant acetic acid lignin isolated from shoot shell of bamboo (Dendrocalamus latiforus)[J]. Industrial Crops and Products, 2016, 91:340-349. DOI:10.1016/j.indcrop.2016.07.023.
[56] CHOUDHURY D, SAHU J K, SHARMA G D. Value addition to bamboo shoots:a review[J]. Journal of Food Science and Technology, 2012, 49(4):407-414.
[57] 赵双丽,肖乃勇,刘兴丽,等.竹笋膳食纤维对反复冻融面团加工特性和水分分布的影响[J].轻工学报, 2019, 34(5):20-26.
[58] 宋玉,母应春,苏伟,等.竹笋膳食纤维、脂肪和淀粉对中式香肠品质的影响[J].肉类研究, 2017, 31(11):38-44.
[59] 陈秉彦,郭晓菲,林晓姿,等.纳微化笋膳食纤维改善酸奶货架期乳清析出的作用[J/OL].食品科学:1-13.[2024-01-18]. http://kns.cnki.net/kcms/detail/11.2206.TS.20231225.1031.002.html.
[60] ANUSRITI B, KUMAR S M, TALAMBEDU U, et al. Bamboo shoots as a nutritive boon for northeast India:an overview[J]. 3 Biotech, 2017, 7(3):169. DOI:10.1007/s13205-017-0796-4.

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