发芽糙米处理方式及开发应用研究进展

doi:10.3969/j.issn.1006-8082.2025.02.005

摘要/Abstract

摘要：

发芽糙米作为一种新兴的健康食品原料，凭借其丰富的营养价值和多样的活性成分，正受到越来越多消费者的青睐，并在多个领域如食品加工、医疗保健和日化行业中广泛使用。随着技术的发展和公众健康意识的增强，发芽糙米的应用前景愈发广阔。本文综合探讨了不同处理方式对发芽糙米营养成分、品质特性及生理活性的影响，并系统回顾了发芽糙米在食品等领域的开发应用情况，以期为发芽糙米产业的持续发展提供参考。

关键词: 水稻, 发芽糙米, 处理方式, 营养成分, 药理活性, 开发应用

Abstract:

Germinated brown rice, as an emerging raw material for healthy foods, is increasingly favored by consumers due to its rich nutrition and various active components. It is widely used in many fields such as food processing, healthcare, and daily chemical industries. With the development of technology and the increasing of public demand for health, the application prospects of germinated brown rice are becoming broader. This article reviewed the effects of different processing methods on the nutritional components, quality, and physiological activity of germinated brown rice, as well as the exploitation applications of germinated brown rice in food and other fields, in order to provide a reference for the further development of the germinated brown rice industry.

Key words: rice, germinated brown rice, processing method, nutritional component, physical activity, exploitation application

中图分类号:

S511.099

汪洪涛. 发芽糙米处理方式及开发应用研究进展[J]. 中国稻米, 2025, 31(2): 29-34.

WANG Hongtao. Research Progress on Processing Methods and Exploitation Applications of Germinated Brown Rice[J]. China Rice, 2025, 31(2): 29-34.

图/表 2

参考文献 55

[1]	张园园, 李世充, 任俏菁, 等. 发芽糙米的制备及发芽前后营养成分变化分析[J]. 粮食与油脂, 2020, 33(7):37-40.
[2]	JABEEN R, HUSSAIN S Z, JAN N, et al. Comparative study of brown rice and germinated brown rice for nutritional composition, in vitro starch digestibility, bioactive compounds, antioxidant activity and microstructural properties[J]. Cereal Chemistry, 2022, 100(2): 434-444.
[3]	UKPONG E S, ONYEKA E U, OLADEJI B S. Bioactive compounds, nutrients and pasting properties of parboiled milled rice, brown rice and germinated brown rice of selected cultivars and the effects of germination durations[J]. Food Chemistry Advances, 2023, 2(2): 234-239.
[4]	WANG H J, CHANG L, LIN Y S. Changes in functionality of germinated and non-germinated brown rice fermented by Bacillus natto[J]. Foods, 2021, 10(11): 2 779.
[5]	ZHANG Q, LIU N, WANG S S, et al. Effects of cyclic cellulase conditioning and germination treatment on the γ -aminobutyric acid content and the cooking and taste qualities of germinated brown rice[J]. Food Chemistry, 2019, 289: 232-239.
[6]	范媛媛, 丁俊胄, 熊善柏, 等. 复合菌种发酵法提高发芽糙米中γ-氨基丁酸[J]. 中国粮油学报, 2019, 34(3):1-6.
[7]	CHEN J B, WANG X, LIU R H, et al. Effect of ultrasound-assisted enzyme pretreatment on γ-aminobutyric acid content, eating quality and starch properties of germinated brown rice[J]. Journal of Cereal Science, 2024, 117: 103 904.
[8]	LUO X Y, TAO Y, HAN Y B, et al. Effect of static magnetic field treatment on gamma-aminobutyric acid content and sensory characteristics of germinated brown rice cake[J]. Food Chemistry, 2022, 404: 134 709.
[9]	何林阳, 杨杨, 陈凤莲, 等. 响应面法优化发芽糙米生物活性物质提取工艺[J]. 食品安全质量检测学报, 2022, 13(1):199-207.
[10]	曹银平. 非浸泡法发芽条件对发芽糙米中γ-氨基丁酸含量的影响规律研究[J]. 粮食加工, 2022, 47(1):48-50.
[11]	REN C Y, LU S W, GUAN L J, et al. The metabolomics variations among rice, brown rice, wet germinated brown rice, and processed wet germinated brown rice[J]. Journal of Integrative Agriculture, 2022, 21(9): 2 767-2 776.
[12]	CHATCHAVANTHATRI N, JUNYUSEN T, ARJHARN W, et al. Effects of parboiling and infrared radiation drying on the quality of germinated brown rice[J]. Journal of Food Processing and Preservation, 2021, 45(11): 15 892.
[13]	朱创, 杨丽, 肖登荣, 等. 超声波辅助处理对发芽糙米营养及食用品质的影响[J]. 食品工业科技, 2021, 42(24):48-54.
[14]	MUNARKO H, SITANGGANG A B, KUSNANDAR F, et al. Effect of different soaking and germination methods on bioactive compounds of germinated brown rice[J]. International Journal of Food Science & Technology, 2021, 56(9): 4 540-4 548.
[15]	SHEN L Y, GAO M, ZHU Y, et al. Microwave drying of germinated brown rice: Correlation of drying characteristics with the final quality[J]. Innovative Food Science & Emerging Technologies, 2021, 70: 102 673.
[16]	SITTIDET Y, SUGUNYA M, DHEERAWAN B, et al. Cold plasma treatment to improve germination and enhance the bioactive phytochemical content of germinated brown rice[J]. Food Chemistry, 2019, 289: 328-339.
[17]	AISYAH S, NURJANAH A, MUNAWSROH H S H, et al. Effect of UV C irradiation on secondary metabolites profile and antioxidant activity of germinated brown rice[J]. Journal of Physics: Conference Series, 2019, 1280(2): 22 011.
[18]	韩璐, 张冶, 杨立娜, 等. 焙烤处理对发芽糙米生理活性物质及抗氧化活性的影响[J]. 食品工业科技, 2019, 40(7):64-69.
[19]	ZHU C, YANG L, NIE P Z, et al. Effects of hydrogen‐rich water on the nutritional properties, volatile profile and texture of germinated brown rice[J]. International Journal of Food Science & Technology, 2022, 57(12): 7 666-7 680.
[20]	温翠娟, 周敏, 张露丹, 等. 高γ-氨基丁酸发芽糙米的循环加湿生产工艺研究[J]. 食品研究与开发, 2022, 43(9):132-137.
[21]	HA N C, THAO D L P, NGOC N T L. Ergothioneine extract from Aspergillus oryza prevents lipid oxidation and increases bioactive compounds during the processing of germinated brown rice[J]. Journal of Food Processing and Preservation, 2021, 46(1): 116.
[22]	TYAGI A, CHEN X Q, SHABBIR U, et al. Effect of slightly acidic electrolyzed water on amino acid and phenolic profiling of germinated brown rice sprouts and their antioxidant potential[J]. LWT-Food Science and Technology, 2022, 157: 113-119.
[23]	CHOE H, SUNG J, LEE J, et al. Effects of calcium chloride treatment on bioactive compound accumulation and antioxidant capacity in germinated brown rice[J]. Journal of Cereal Science, 2021, 101: 103 294.
[24]	刘晓飞, 郑志辉, 宋洁, 等. 膨化对发芽糙米抗氧化性的影响研究[J]. 哈尔滨商业大学学报(自然科学版), 2019, 35(5):581-584.
[25]	刘晓飞, 侯艳, 马京求, 等. 发芽糙米糖蛋白结构表征及抗氧化性能分析[J]. 中国食品学报, 2021, 21(7):328-337.
[26]	LIU K L, NING M R. Antioxidant activity stability and digestibility of protein from Se-enriched germinated brown rice[J]. LWT-Food Science and Technology, 2021, 142: 111 032.
[27]	刘晓飞, 宋洁, 王薇, 等. 发芽糙米植物甾醇的提取优化及抗氧化性研究[J]. 哈尔滨商业大学学报(自然科学版), 2019, 35(1):44-48+70.
[28]	LEE Y R, LEE S H, JANG G Y, et al. Antioxidative and antidiabetic effects of germinated rough rice extract in 3T3-L1 adipocytes and C57BLKS/J-db/db mice[J]. Food & Nutrition Research, 2019, 63(12): 3 603.
[29]	殷俊, 龚玲芬, 周伟杰, 等. 发芽糙米对社区2型糖尿病患者的营养干预效果[J]. 职业与健康, 2019, 35(22):3 085-3 087.
[30]	刘晓飞, 侯艳, 马京求, 等. 发芽糙米糖蛋白抗炎、降血糖性能分析[J]. 中国食品学报, 2021, 21(9):48-56.
[31]	刘晓飞, 马京求, 侯艳, 等. 发芽糙米多糖的结构解析及降糖活性分析[J]. 中国食品学报, 2021, 21(8):265-274.
[32]	BINH N D T, NGOC N T L, OLADAPO I J, et al. Cyclodextrin glycosyltransferase-treated germinated brown rice flour improves the cytotoxic capacity of HepG2 cell and has a positive effect on type-2 diabetic mice[J]. Journal of Food Biochemistry, 2020, 44(12): e13533.
[33]	REN C Y, ZHANG S, HONG B, et al. Germinated brown rice relieves hyperlipidemia by alleviating gut microbiota dysbiosis[J]. Journal of Integrative Agriculture, 2023, 22(3): 945-957.
[34]	张志宏, 孟庆虹, 高扬, 等. 熟化发芽糙米粉对高脂血症大鼠的作用研究[J]. 食品研究与开发, 2021, 42(5):46-51.
[35]	REN C Y, HONG B, ZHANG S, et al. Autoclaving-treated germinated brown rice relieves hyperlipidemia by modulating gut microbiota in humans[J]. Frontiers in Nutrition, 2024, 11: 1 403 200-14 03 207.
[36]	HANISAH A N, NORSHARINA I, UMAR MI, et al. Germinated brown rice extract reduces brain lipid peroxidation and Aβ levels via regulations of BACE1, RAGE, IDE and LRP1 expressions in high fat/cholesterol diet-fed rats[J]. Journal of Functional Foods, 2023, 105: 105 587.
[37]	ONNOM N, KHAENGAMKHAM K, KETTAWAN A, et al. Parboiled germinated brown rice improves cardiac structure and gene expression in hypertensive rats[J]. Foods, 2023, 12(1): 9.
[38]	SUTTHANUT K, TIPPAYAWAT P, SRIJAMPA S, et al. Prebiotic, antipathogenic bacteria and hypocholesterolemia properties of fermented rice bran extracts derived from black rice and germinated brown rice[J]. Foods, 2022, 11(22): 3 704.
[39]	LI S C, LIN H P, CHANG J S, et al. Lactobacillus acidophilus-fermented germinated brown rice suppresses preneoplastic lesions of the colon in rats[J]. Nutrients, 2019, 11(11): 2 718.
[40]	傅金凤, 黄美娜, 朱培渤, 等. 响应面法优化发芽糙米酒茶复合饮料制备工艺[J]. 食品工业科技, 2022, 43(15):193-201.
[41]	姜忠丽, 白琼, 庞文录. 发芽糙米软雪饼制备工艺优化及其品质分析[J]. 沈阳师范大学学报(自然科学版), 2021, 39(6):531-537.
[42]	李家莹, 杜昭换, 刘清玄, 等. 发芽糙米风味发酵乳的研制与品质分析[J]. 中国乳业, 2023(11):100-105.
[43]	CACERES J P, PENAS E, MARTíNEZ-VILLALUENGA C, et al. Development of a multifunctional yogurt-like product from germinated brown rice[J]. LWT-Food Science and Technology, 2019, 99: 306-312.
[44]	李学鹏, 步营, 栾宏伟, 等. 一种凝胶强度可调控的鱼糜凝胶制品的制备方法:CN202410140643.X[P]. 2024-04-02.
[45]	张娜, 马春敏, 杨杨, 等. 一种发芽糙米酸浆豆腐的制作方法:CN202311868649.0[P]. 2024-03-12.
[46]	. How to make germinated brown rice ice cream: KR2021015 9962[P]. 2023-05-26.
[47]	肖登程, 江安娜, 杜玮瑶, 等. 一种糙米酵素及其制备方法和应用:CN202310962744.0[P]. 2023-11-24.
[48]	ISMAILA SM, MAZNAH I, ROZI M, et al. Bone mass density estimation: Archimede’s principle versus automatic X-ray histogram and edge detection technique in ovariectomized rats treated with germinated brown rice bioactive[J]. Clinical Interventions in Aging, 2013, 8: 1 421-1 431.
[49]	蒋顺进, 方文棋, 黄炜乾, 等. 一种地顶孢霉培养物及其应用:CN201710854388.5[P]. 2020-10-13.
[50]	SAMUR T, JUREEPON R, SUTISA N. Recovery effect of pre-germinated brown rice on the changes of sperm quality, testicular structure and androgen receptor expression in a rat model of drug addiction[J]. International Journal of Medical Sciences, 2018, 15(9): 921-928.
[51]	PARK H, PARK J, LEE S, et al. Phellinus linteus grown on germinated brown rice increases cetuximab sensitivity of KRAS-mutated colon cancer[J]. International Journal of Molecular Sciences, 2017, 18(8): 1 746.
[52]	. Natural preservative composition comprising chamaecyparis’ obtusa extract grapefruit seed extract and germinated brown rice extract: KR20210012062[P]. 2024-01-29.
[53]	蔡云清, 蔡宝昌, 秦昆明, 等. 一种发芽糙米草本护肤品及其制备方法:CN201410009104.9[P]. 2024-06-21.
[54]	JARUPINTHUSOPHON S, PREECHATANINRAT P, ANURUKVORAKUN O. Development of liquid crystal cream containing germinated brown rice[J]. Applied Sciences, 2022, 12(21):11113.
[55]	吕庆茂. 一种唇蜜的制作方法:CN201810768692.2[P]. 2018-11-13.