JOURNAL OF LIGHT INDUSTRY

CN 41-1437/TS  ISSN 2096-1553

×
《轻工学报》严正声明

益生菌发酵果蔬汁研究进展

张丽华 查蒙蒙 李顺峰 李昌文 纵伟 赵光远

downloadPDF
张丽华, 查蒙蒙, 李顺峰, 等. 益生菌发酵果蔬汁研究进展[J]. 轻工学报, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
引用本文: 张丽华, 查蒙蒙, 李顺峰, 等. 益生菌发酵果蔬汁研究进展[J]. 轻工学报, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
shu
ZHANG Lihua, ZHA Mengmeng, LI Shunfeng, et al. Research progress on probiotic fermentation of fruit and vegetable juice[J]. Journal of Light Industry, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
Citation: ZHANG Lihua, ZHA Mengmeng, LI Shunfeng, et al. Research progress on probiotic fermentation of fruit and vegetable juice[J]. Journal of Light Industry, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
shu

益生菌发酵果蔬汁研究进展

  • 1. 郑州轻工业大学 食品与生物工程学院, 河南 郑州 450001;

  • 2. 食品生产与安全河南省协同创新中心, 河南 郑州 450001;

  • 3. 河南省冷链食品质量安全控制重点实验室, 河南 郑州 450001;

  • 4. 河南省农业科学院 农副产品加工研究中心, 河南 郑州 450002

    • 作者简介: 张丽华(1982-),女,河南省焦作市人,郑州轻工业大学副教授,博士,主要研究方向为果蔬保鲜与加工安全控制技术.;

  • 基金项目: 河南省产学研合作计划项目(182107000063);河南省科技攻关项目(202102110207)

  • 中图分类号: TS255.44

Research progress on probiotic fermentation of fruit and vegetable juice

  • 1. College of Food and Biological Engineering, Zhengzhou University of Light Industry, Zhengzhou 450001, China;

  • 2. Collaborative Innovative Center of Food Production and Safety, Zhengzhou 450001, China;

  • 3. He'nan Key Laboratory of Cold Chain Food Quality and Safety Control, Zhengzhou 450001, China;

  • 4. Research Center of Agro-product Processing Science and Technology, He'nan Academy of Agricultural Sciences, Zhengzhou 450002, China

  • Received Date: 2021-03-10

    CLC number: TS255.44

  • 摘要: 基于将益生菌发酵技术应用于果蔬汁深加工以丰富产品种类、提升风味特性和保健功能等研究结果,综述了益生菌发酵对果蔬汁理化性质的影响、发酵果蔬汁的益生菌活性保持技术和益生功能,指出:益生菌发酵既可改变果蔬汁的风味物质,影响其和感官品质,也可改变果蔬汁的有机酸、多酚类物质等化学成分;辅助益生元、微胶囊包埋、优化发酵条件等技术可以提高益生菌发酵果蔬汁中的活菌数;发酵果蔬汁具有改善胃肠道功能、抗氧化、抑菌、改善Ⅱ型糖尿病等益生功能.目前关于益生菌发酵果蔬汁的研究仍处于实验室研究阶段,尚不具备工业化生产条件.未来可就筛选适合不同果蔬种类的发酵菌株、提高发酵果蔬汁中益生菌在贮藏期的存活率及发酵果蔬汁与人体消化道健康和免疫调节关系的机制等进行深入研究,以进一步推进益生菌发酵果蔬汁的功能性开发及产业化生产.
    Abstract: In view of the research results of enriched product types and improved flavor characteristics and health care functions by applying probiotic fermentation technology in deep processing of fruit and vegetable juice, this paper summarized the influence of probiotic fermentation on physical and chemical properties of fruit and vegetable juice, the probiotic activity maintaining technology and probiotic function of fermented fruit and vegetable juice. It was pointed out that:probiotic fermentation could not only change the flavor and sensory quality of fruit and vegetable juice, but also changed the chemical components of organic acids and polyphenols in fruit and vegetable juice; the number of viable bacteria in probiotic fermented fruit and vegetable juice could be increased by adding auxiliary prebiotics, embedding microcapsules and optimizing fermentation conditions; fermented fruit and vegetable juice had probiotic functions such as raising gastrointestinal function, resisting oxidation, inhibiting bacteria and elevating type II diabetes. At present, the research on fermented fruit and vegetable juice was still in the laboratory research stage, and has not been put into the factory for mass production. In the future, in-depth research can be carried out on screening suitable fermentation strains, enhancing the survival rate of probiotics in fermented fruit and vegetable juice during storage, and studying the mechanism of the relationship between fermented fruit and vegetable juice and human digestive tract health and immune regulation, so as to further promote the functional researchdevelopment and industrial production of probiotic fermented fruit and vegetable juice.
    1. [1]

      ROBERTS D,REYES V,BONILLA F,et al.Viability of Lactobacillus plantarum NCIMB 8826 in fermented apple juice under simulated gastric and intestinal conditions[J].LWT-Food Science and Technology, 2018, 97:144.

    2. [2]

      DOS SANTOS FILHO A L,FREITAS H V,RODRIGUES S,et al.Production and stability of probiotic cocoa juice with sucralose as sugar substitute during refrigerated storage[J].LWT-Food Science and Technology, 2019, 99:371.

    3. [3]

      田怀香,徐晓琳,于海燕,等.高活性益生菌酵素粉的制备及工艺优化[J].农业工程学报,2019,35(11):330.

    4. [4]

      DE GODOY ALVES FILHO E,RODRIGUES T H S,FERNANDES F A N,et al.Chemometric evaluation of the volatile profile of probiotic melon and probiotic cashew juice[J].Food Research International, 2017, 99:461.

    5. [5]

      KAPRASOB R, KERDCHOECHUEN O, LAOHAKUNJIT N, et al. Fermentation-based biotransformation of bioactive phenolics and volatile compounds from cashew apple juice by select lactic acid bacteria[J].Process Biochemistry, 2017,59:141.

    6. [6]

      DI CAGNO R,FILANNINO P,GOBBETTI M. Lactic acid fermentation drives the optimal volatile flavor-aroma profile of pomegranate juice[J].International Journal of Food Microbiology,2017,248:56.

    7. [7]

      SMID E J, KLEEREBEZEM M. Production of aroma compounds in lactic fermentations[J]. Annual Review of Food Science and Technology, 2014, 5(1):313.

    8. [8]

      许刚,丁浩宸,张燕平,等.南极磷虾头胸部和腹部挥发性风味成分对比[J].食品科学,2014,35(22):146149.

    9. [9]

      DI CAGNO R,SURICO R F,PARADISO A,et al.Effect of autochthonous lactic acid bacteria starters on health-promoting and sensory properties of tomato juices[J].International Journal of Food Microbiology,2009,128(3):473.

    10. [10]

      GAO H,WEN J J,HU J L,et al.Momordica charantia juice with Lactobacillus plantarum fermentation:chemical composition,antioxidant properties and aroma profile[J].Food Bioscience,2019, 29:62.

    11. [11]

      DE OLIVEIRA S D,ARAÚJO C M,DA SILVA CAMPELO BORGES G,et al.Improvement in physico-chemical characteristics,bioactive compounds and antioxidant activity of acerola (Malpighia emarginata D.C.) and guava (Psidium guajava L.) fruit by-products fermented with potentially probiotic lactobacilli[J].LWT-Food Science and Technology,2020,134:110200.

    12. [12]

      BELAL J M, SHOBIRIN M H A, HANA K, et al. Metabolomic changes and biological activities during the lacto-fermentation of jackfruit juice using Lactobacillus casei ATCC334[J]. LWT-Food Science and Technology,2021,141:110940.

    13. [13]

      DE GODOY ALVES FILHO E, RODRIGUES T H S, FERNANDES F A N, et al.Chemometric evaluation of the volatile profile of probiotic melon and probiotic cashew juice[J].Food Research International,2017, 99:461.

    14. [14]

      XU X X,DAI M,LAO F,et al.Effect of glucoraphanin from broccoli seeds on lipid levels and gut microbiota in high-fat diet-fed mice[J]. Journal of Functional Foods,2020,68:103858.

    15. [15]

      赵大洲.运用紫外分光光度法测定枣肉、枣核的铁元素含量[J].轻工学报,2019,34(6):9.

    16. [16]

      KAPRASOB R,KERDCHOECHUEN O, LAOHAKUNJIT N, et al. Fermentation-based biotransformation of bioactive phenolics and volatile compounds from cashew apple juice by select lactic acid bacteria[J].Process Biochemistry,2017,59:141.

    17. [17]

      DI CAGNO R,FILANNINO P,CAVOSKI I,et al.Bioprocessing technology to exploit organic palm date (Phoenix dactylifera L.cultivar Siwi) fruit as a functional dietary supplement[J].Journal of Functional Foods,2017,31:9.

    18. [18]

      ZHANG Y, LIU W P, WEI Z H, et al. Enhancement of functional characteristics of blueberry juice fermented by Lactobacillus plantarum[J].LWT-Food Science and Technology, 2021,139:110590.

    19. [19]

      SANG S K, PARK K J, AN H J, et al. Phytochemical, antioxidant, and antibacterial activities of fermented Citrus unshiu byproduct[J]. Food Science & Biotechnology,2017,26(2):461.

    20. [20]

      TÜRKYILMAZ M, TAǦI Ş, DERELI U, et al. Effects of various pressing programs and yields on the antioxidant activity, antimicrobial activity, phenolic content and colour of pomegranate juices[J]. Food Chemistry,2013,138(2/3):1810.

    21. [21]

      CHEN W X,ZHU J Z,NIU H,et al.Composition and characteristics of yam juice fermented by Lactobacillus plantarum and Streptococcus thermophilus[J]. International Journal of Food Engineering, 2018, 14:11.

    22. [22]

      LIU Y X,CHENG H,LIU H Y,et al.Fermentation by multiple bacterial strains improves the production of bioactive compounds and antioxidant activity of goji juice[J].Molecules, 2019, 24(19):3519.

    23. [23]

      LIAO X Y,GUO L Q,YE Z W, et al.Use of autochthonous lactic acid bacteria starters to ferment mango juice for promoting its probiotic roles.[J].Preparative Biochemistry & Biotech-nology, 2016, 46(4):399.

    24. [24]

      WU C Y,LI T L,QI J,et al.Effects of lactic acid fermentation-based biotransformation on phenolic profiles, antioxidant capacity and flavor volatiles of apple juice[J]. LWT-Food Science and Technology,2020,122:109064.

    25. [25]

      PIMENTEL T C,MADRONA G S,GARCIA S,et al.Probiotic viability, physicochemical characteristics and acceptability during refrigerated storage of clarified apple juice supplemented with Lactobacillus paracasei ssp. Paraca-sei and oligofructose in different package type[J]. LWT-Food Science and Technology,2015,63(1):415.

    26. [26]

      陈树俊,罗佳.开菲尔发酵复合果蔬固体饮品的制备及体外功能研究[J].食品与机械,2020,36(4):196.

    27. [27]

      陈亚楠,汪云阳,王德行,等.植物乳杆菌发酵陈皮柑饮料的工艺优化与分析[J].饮料工业,2019, 22(5):28.

    28. [28]

      COOK M T,TZORTZIS G,CHARALAMPOPOULOS D,et al.Microencapsulation of probiotics for gastrointestinal delivery[J].Journal of Controlled Release,2012,162(1):56.

    29. [29]

      TANZINA H,AVIK K,KHAN R A,et al.Encapsulation of probiotic bacteria in biopolymeric system[J].Critical Reviews in Food Science and Nutrition, 2013, 53(9):909.

    30. [30]

      杨畅, 冯志宽, 李洪亮, 等.益生菌微胶囊包埋方式的研究进展[J].农产品加工,2020(5):82.

    31. [31]

      赵德胜.不同壁材对益生菌微胶囊性能的影响[J].中国乳品工业, 2017, 45(2):29.

    32. [32]

      崔树茂,徐长悦,毛丙永,等.植物乳杆菌发酵苹果汁及菌体活性保持[J].食品与发酵工业,2019,45(12):120.

    33. [33]

      侯银臣,吕行,黄继红,等.发酵条件对桑葚酵素抗氧化能力的影响[J].河南农业大学学报,2019,53(2):251.

    34. [34]

      王惠.乳酸菌发酵树莓汁工艺及其抗氧化、抗肿瘤活性研究[D].石家庄:河北科技大学, 2020.

    35. [35]

      仵白敏.复合益生菌发酵葡萄汁工艺优化与营养特性研究[D].北京:中国农业科学院, 2020.

    36. [36]

      丁楠,何美珊,戈子龙,等.果蔬发酵制品的功效及应用研究进展[J].食品工业科技, 2019, 40(7):332.

    37. [37]

      朱艳,尹曼,魏颖.果蔬发酵汁对肠道益生菌及大肠杆菌黏附能力的影响[J].食品科技, 2019, 44(11):9.

    38. [38]

      SINGH N,GURAV A,SIVAPRAKASAM S,et al.Activation of Gpr109a,receptor for niacin and the commensal metabolite butyrate,suppresses colonic inflammation and carcinogenesis[J].Immunity,2014,40(1):128.

    39. [39]

      MOHANTY D, PANDA S, KUMAR S, et al. In vitro evaluation of adherence and anti-infective property of probiotic Lactobacillus plantarum DM 69 against Salmonella enterica[J].Microbial Pathogenesis,2019,126:212.

    40. [40]

      MULLER M,CANFORA E E,BLAAK E E. Gastrointestinal transit time,glucose homeostasis and metabolic health:modulation by dietary fibers[J].Nutrients, 2018,10(3):275.

    41. [41]

      王轶帆,邓媛元,张雁,等.龙眼多糖与燕麦多糖的结构特征及其益生活性比较[J].中国食品学报,2020, 20(12):62.

    42. [42]

      GHOLAMI M,GHASEMI-NIRI S F,MAQBOOL F,et al.Experimental and pathalogical study of Pistacia atlantica,butyrate,Lactobacillus casei and their combination on rat ulcerative colitis model[J].Pathology Research and Practice, 2016, 212(6):500.

    43. [43]

      CHAIKHAM P, APICHARTSRANGKOON A, JIRARATTNARANGSRI W, et al. Influence of encapsulated probiotics combined with pressurized longan juice on colon microflora and their metabolic activities on the exposure to simulated dynamic gastrointestinal tract[J].Food Research International, 2012, 49(1):133.

    44. [44]

      BEHBAHANI A B,NOSHAD M,FALAH F. Inhibition of Escherichia coli adhesion to human intestinal Caco-2 cells by probiotic candidate Lactobacillus plantarum strain L15[J].Microbial Pathogenesis, 2019, 136:103677.

    45. [45]

      SHENDEROV B A.Probiotic(symbiotic) bacterial languages[J].Anaerobe,2011,17(6):490.

    46. [46]

      MOHANTY D, PANDA S, KUMAR S, et al. In vitro evaluation of adherence and anti-infective property of probiotic Lactobacillus plantarum DM 69 against Salmonella enterica[J].Microbial Pathogenesis, 2019,126:212.

    47. [47]

      TORRES C A,ROMERO L A, DIAZ R I. Quality and sensory attributes of apple and quince leathers made without preservatives and with enhanced antioxidant activity[J].LWT-Food Science and Technology,2015,62(2):996.

    1. [1]

      张丽华陈云莉石勇李顺峰查蒙蒙李昌文纵伟王小媛 . 植物乳杆菌发酵对红枣汁挥发性香气成分的影响. 轻工学报, 2024, 0(0): -.

    2. [2]

      宋丽丽苏飘章钰璟魏涛 . 产香酵母的分离、鉴定及其在低次烟叶发酵中的应用. 轻工学报, 2025, 40(4): 77-85. doi: 10.12187/2025.04.009

    3. [3]

      杨靖刘广昊王琼波韩丽王清福赵志伟李蕾王秋领 . 微生物发酵开发杏果渣香料的研究. 轻工学报, 2024, 0(0): -.

    4. [4]

      苏盼盼乔靖玥张宇申慧珊张艳艳刘兴丽张华王宏伟 . 面团发酵中淀粉水合能力变化对馒头品质的影响. 轻工学报, 2025, 40(4): 60-68. doi: 10.12187/2025.04.007

    5. [5]

      刘洪剑周乐群李贵忠彭漫江王雪锋张光海李枝桦刘涛 . 不同等级发酵后云南茄芯烟叶代谢组差异分析. 轻工学报, 2025, 40(4): 86-95. doi: 10.12187/2025.04.010

    6. [6]

      张丽华刘世豪石勇李顺峰方萱钰陈云莉纵伟 . 超声波诱导植物乳杆菌对发酵红枣汁品质的影响. 轻工学报, 2025, 0(0): -.

    7. [7]

      苏赞曹源孙建生胡志忠邹克兴刘鸿龙章德许春平 . 菌酶协同发酵前后低次烟叶香气差异性分析. 轻工学报, 2025, 0(0): -.

    8. [8]

      张丽华刘世豪石勇李顺峰方萱钰陈云莉纵伟 . 超声波诱导植物乳杆菌对发酵红枣汁品质的影响. 轻工学报, 2025, 40(5): 1-10. doi: 10.12187/2025.05.001

    9. [9]

      王祯许怡娟刘晨宋凯魏进彬臧志鹏胡威毛多斌 . 基于宏基因组学技术的发酵陕西烟叶混合菌开发. 轻工学报, 2025, 40(6): 87-97. doi: 10.12187/2025.06.009

    10. [10]

      苏赞曹源孙建生胡志忠邹克兴刘鸿龙章德许春平 . 菌酶协同发酵前后低次烟叶香气差异性分析. 轻工学报, 2025, 40(6): 77-86. doi: 10.12187/2025.06.008

    11. [11]

      赵巧玥李欣燕王刘胜刘伟马戎冯文宁李媛媛赵铭钦 . 柠檬罗勒产香细菌发酵条件优化及卷烟加香应用. 轻工学报, 2026, 41(1): 111-126. doi: 10.12187/2026.01.011

    12. [12]

      胡仙妹于美逍杨雪鹏张展尹献忠 . 木醋杆菌和酿酒酵母混菌发酵对烟用细菌纤维素品质的影响. 轻工学报, 2024, 39(6): 84-92. doi: 10.12187/2024.06.010

    13. [13]

      王玉荣王鑫圣群航张海波侯强川郭壮 . 不同发酵温度对鲊广椒滋味品质及微生物群落的影响. 轻工学报, 2026, 41(1): 16-25. doi: 10.12187/2026.01.002

    14. [14]

      韩丽董滋强王丽娇李文钦王晨辉肖成志毛多斌 . 普通烟草NtASAT2的结构预测、克隆表达及功能验证. 轻工学报, 2025, 40(4): 69-76. doi: 10.12187/2025.04.008

    15. [15]

      车静李昕昕李赞韩磊雷珊珊江军刚张一帆王磊 . 基于TEMPO氧化纤维的功能性滤棒制备及其应用研究. 轻工学报, 2025, 40(5): 118-126. doi: 10.12187/2025.05.014

    16. [16]

      金宝丹王家城杜静雨邓伟玲古家宇王保贵贾宇升 . 食品工业生产废弃物协同低有机质剩余污泥共发酵产酸性能研究. 轻工学报, 2025, 40(4): 115-126. doi: 10.12187/2025.04.013

    17. [17]

      郑艺宋芳张一帆云哲苏裕家申秀清 . 基于常规理化分析和电子传感技术的低度海红果酒发酵过程中品质动态变化研究. 轻工学报, 2025, 0(0): -.

    18. [18]

      郑艺宋芳张一帆云哲苏裕家申秀清 . 基于常规理化分析和电子传感技术的低度海红果酒发酵过程中品质动态变化研究. 轻工学报, 2025, 40(5): 20-28. doi: 10.12187/2025.05.003

    19. [19]

      张志平雷梦许博利芦昶彤赵嘉鸣张骁魏涛 . 霍氏肠杆菌YT-3发酵烟草浸提液香味成分及其转录水平分析. 轻工学报, 2025, 40(6): 67-76. doi: 10.12187/2025.06.007

    20. [20]

      车静李昕昕李赞韩磊雷珊珊江军刚张一帆王磊 . 基于TEMPO氧化纤维的功能性滤棒的制备及其应用研究. 轻工学报, 2025, 0(0): -.

  • 加载中
WeChat 点击查看大图
计量
  • PDF下载量:  119
  • 文章访问数:  14857
  • 引证文献数: 0
文章相关
  • 收稿日期:  2021-03-10
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索
张丽华, 查蒙蒙, 李顺峰, 等. 益生菌发酵果蔬汁研究进展[J]. 轻工学报, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
引用本文: 张丽华, 查蒙蒙, 李顺峰, 等. 益生菌发酵果蔬汁研究进展[J]. 轻工学报, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
shu
ZHANG Lihua, ZHA Mengmeng, LI Shunfeng, et al. Research progress on probiotic fermentation of fruit and vegetable juice[J]. Journal of Light Industry, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
Citation: ZHANG Lihua, ZHA Mengmeng, LI Shunfeng, et al. Research progress on probiotic fermentation of fruit and vegetable juice[J]. Journal of Light Industry, 2021, 36(4): 29-36. doi: 10.12187/2021.04.004
shu

益生菌发酵果蔬汁研究进展

    作者简介:张丽华(1982-),女,河南省焦作市人,郑州轻工业大学副教授,博士,主要研究方向为果蔬保鲜与加工安全控制技术.
  • 1. 郑州轻工业大学 食品与生物工程学院, 河南 郑州 450001;
  • 2. 食品生产与安全河南省协同创新中心, 河南 郑州 450001;
  • 3. 河南省冷链食品质量安全控制重点实验室, 河南 郑州 450001;
  • 4. 河南省农业科学院 农副产品加工研究中心, 河南 郑州 450002
  • 收稿日期: 2021-03-10
基金项目:  河南省产学研合作计划项目(182107000063);河南省科技攻关项目(202102110207)

摘要: 基于将益生菌发酵技术应用于果蔬汁深加工以丰富产品种类、提升风味特性和保健功能等研究结果,综述了益生菌发酵对果蔬汁理化性质的影响、发酵果蔬汁的益生菌活性保持技术和益生功能,指出:益生菌发酵既可改变果蔬汁的风味物质,影响其和感官品质,也可改变果蔬汁的有机酸、多酚类物质等化学成分;辅助益生元、微胶囊包埋、优化发酵条件等技术可以提高益生菌发酵果蔬汁中的活菌数;发酵果蔬汁具有改善胃肠道功能、抗氧化、抑菌、改善Ⅱ型糖尿病等益生功能.目前关于益生菌发酵果蔬汁的研究仍处于实验室研究阶段,尚不具备工业化生产条件.未来可就筛选适合不同果蔬种类的发酵菌株、提高发酵果蔬汁中益生菌在贮藏期的存活率及发酵果蔬汁与人体消化道健康和免疫调节关系的机制等进行深入研究,以进一步推进益生菌发酵果蔬汁的功能性开发及产业化生产.

English Abstract

参考文献 (47) 相关文章 (20)

目录

/

返回文章

网站版权 © 轻工学报编辑部

地址:河南省郑州市科学大道136号邮编:450001

本系统由北京仁和汇智信息技术有限公司开发 技术支持: info@rhhz.net