[1] LEONARD W, ZHANG P Z, YING D Y, et al. Fermentation transforms the phenolic profiles and bioactivities of plant-based foods[J]. Biotechnology Advances, 2021, 49:107763.
[2] 朱政, 周常义, 曾磊, 等. 酵素产品的研究进展及问题探究[J]. 中国酿造, 2019, 38(3):10-13.
ZHU Z, ZHOU C Y, ZENG L, et al. Research progress and problems exploring of ferment products[J]. China Brewing, 2019, 38(3):10-13.
[3] 张红艳, 韩姗姗, 冉淦侨, 等. 食用酵素的营养功效及研究进展[J]. 食品与发酵科技, 2021, 57(1):107-110.
ZHANG H Y, HAN S S, RAN G Q, et al. Nutritional efficacy and research progress of edible enzymes[J]. Food and Fermentation Sciences & Technology, 2021, 57(1):107-110.
[4] 饶智, 陈彦坤, 刘斌, 等. “药食同源” 植物酵素研究进展[J]. 食品与发酵工业, 2020, 46(9):290-294.
RAO Z, CHEN Y K, LIU B, et al. Research progress on “herb-food homology” plant Jiaosu[J]. Food and Fermentation Industries, 2020, 46(9):290-294.
[5] 于晓艳, 任清, 卢舒娴, 等. 微生物酵素主要功效酶活力的测定[J]. 食品科技, 2008, 33(7):193-196.
YU X Y, REN Q, LU S X, et al. Mensuration of main efficacy enzyme activity in microbial ferment[J]. Food Science and Technology, 2008, 33(7):193-196.
[6] 杨跃飞. 一种含纳米超临界蜂胶美白淡斑精华素及其制备方法[J]. 中国蜂业, 2013, 64(21):47-48.
YANG Y F. Whitening and freckle-removing essence containing nano supercritical Propolis and preparation method thereof[J]. Apiculture of China, 2013, 64(21):47-48.
[7] 李玲, 过证核, 杨子婵, 等. 天然来源减肥用脂肪酶抑制剂的研究进展[J]. 现代化工, 2023, 43(2):51-55.
LI L, GUO Z H, YANG Z C, et al. Research progress on lipase inhibitors for weight loss from natural sources[J]. Modern Chemical Industry, 2023, 43(2):51-55.
[8] LIU Q Q, TIAN H X, KANG Y B, et al. Probiotics alleviate autoimmune hepatitis in mice through modulation of gut microbiota and intestinal permeability[J]. The Journal of Nutritional Biochemistry, 2021, 98:108863.
[9] GU Y X, LI X, CHEN H R, et al. Antidiabetic effects of multi-species probiotic and its fermented milk in mice via restoring gut microbiota and intestinal barrier[J]. Food Bioscience, 2022, 47:101619.
[10] 王珍珍, 沙如意, 蔡成岗, 等. 树莓酵素中耐高渗酵母菌的分离鉴定及生长特性研究[J]. 食品工业科技, 2017, 38(8):178-182; 188.
WANG Z Z, SHA R Y, CAI C G, et al. Screening, identification and properties of osmophilic yeast from raspberry Jiaosu during natural fermentation process[J]. Science and Technology of Food Industry, 2017, 38(8):178-182; 188.
[11] FANG S, JIN Z N, XU Y S, et al. Chinese bayberry Jiaosu fermentation-changes of mycobiota composition and antioxidant properties[J]. International Journal of Food Engineering, 2021, 17(6):455-463.
[12] JIANG J K, LI W X, YU S P. The effect of inoculation Leuconostoc mesenteroides and Lactiplantibacillus planetarium on the quality of Pleurotus eryngii Jiaosu[J]. LWT, 2022, 163:113445.
[13] SZUTOWSKA J, RYBICKA I, PAWLAK-LEMAŃSKA K, et al. Spontaneously fermented curly kale juice: Microbiological quality, nutritional composition, antioxidant, and antimicrobial properties[J]. Journal of Food Science, 2020, 85(4):1248-1255.
[14] PAREDES J L, ESCUDERO-GILETE M L, VICARIO I M. A new functional kefir fermented beverage obtained from fruit and vegetable juice: Development and characterization[J]. LWT, 2022, 154:112728.
[15] ZHANG C, CHEN X A, GUO X X, et al. A novel strategy for improving the antioxidant, iridoid, and flavor properties of Noni (Morinda citrifolia L.) fruit juice by lactic acid bacteria fermentation[J]. LWT, 2023, 184:115075.
[16] WANG Y Q, FAN L J, HUANG J T, et al. Evaluation of chemical composition, antioxidant activity, and gut microbiota associated with pumpkin juice fermented by Rhodobacter sphaeroides[J]. Food Chemistry, 2023, 401:134122.
[17] LI B, LI H K, SONG B G, et al. Protective effects of fermented blueberry juice with probiotics on alcohol-induced stomach mucosa injury in rats[J]. Food Bioscience, 2023, 55:102974.
[18] FEI Z Q, XIE D C, WANG M, et al. Enhanced biotransformation of bioactive components and volatile compounds of bamboo (Phyllostachys glauca McClure) leaf juice fermented by probiotic Streptococcus thermophiles[J]. LWT, 2023, 173:114363.
[19] MUYANJA C M B K, NARVHUS J A, LANGSRUD T. Organic acids and volatile organic compounds produced during traditional and starter culture fermentation ofBushera, a Ugandan fermented cereal beverage[J]. Food Biotechnology, 2012, 26(1):1-28.
[20] YANG Z J, ZHU X L, WEN A Y, et al. Development of probiotics beverage using cereal enzymatic hydrolysate fermented with Limosilactobacillus reuteri[J]. Food Science & Nutrition, 2022, 10(9):3143-3153.
[21] LI S J, TAO Y, LI D D, et al. Fermentation of blueberry juices using autochthonous lactic acid bacteria isolated from fruit environment: Fermentation characteristics and evolution of phenolic profiles[J]. Chemosphere, 2021, 276:130090.
[22] SURAIYA S, LEE J M, CHO H J, et al. Monascus spp. fermented brown seaweeds extracts enhance bio-functional activities[J]. Food Bioscience, 2018, 21:90-99.
[23] LIU B, YUAN D X, LI Q Y, et al. Changes in organic acids, phenolic compounds, and antioxidant activities of lemon juice fermented by Issatchenkia terricola[J]. Molecules, 2021, 26(21):6712.
[24] ISAS A S, MARIOTTI CELIS M S, PÉREZ CORREA J R, et al. Functional fermented cherimoya (Annona cherimola Mill.) juice using autochthonous lactic acid bacteria[J]. Food Research International, 2020, 138:109729.
[25] XU H Y, FENG L X, DENG Y, et al. Change of phytochemicals and bioactive substances in Lactobacillus fermented Citrus juice during the fermentation process[J]. Lwt, 2023, 180:114715.
[26] XIE H, GAO P Y, LU Z M, et al. Changes in physicochemical characteristics and metabolites in the fermentation of goji juice by Lactiplantibacillus plantarum[J]. Food Bioscience, 2023, 54:102881.
[27] JI G Y, LIU G P, LI B, et al. Influence on the aroma substances and functional ingredients of apple juice by lactic acid bacteria fermentation[J]. Food Bioscience, 2023, 51:102337.
[28] LI T L, JIANG T, LIU N, et al. Biotransformation of phenolic profiles and improvement of antioxidant capacities in jujube juice by select lactic acid bacteria[J]. Food Chemistry, 2021, 339:127859.
[29] ZOHRE D E, ERTEN H. The influence of Kloeckera apiculata and Candida pulcherrima yeasts on wine fermentation[J]. Process Biochemistry, 2002, 38(3):319-324.
[30] AL DACCACHE M, KOUBAA M, MAROUN R G, et al. Impact of the physicochemical composition and microbial diversity in apple juice fermentation process: A review[J]. Molecules, 2020, 25(16):3698.
[31] YUASA M, SHIMADA A, MATSUZAKI A, et al. Chemical composition and sensory properties of fermented Citrus juice using probiotic lactic acid bacteria[J]. Food Bioscience, 2021, 39:100810.
[32] MARNPAE M, CHUSAK C, BALMORI V, et al. Probiotic Gac fruit beverage fermented with Lactobacillus paracasei: Physiochemical properties, phytochemicals, antioxidant activities, functional properties, and volatile flavor compounds[J]. LWT, 2022, 169:113986.
[33] SEVINDIK O, GUCLU G, AGIRMAN B, et al. Impacts of selected lactic acid bacteria strains on the aroma and bioactive compositions of fermented gilaburu (Viburnum opulus) juices[J]. Food Chemistry, 2022, 378:132079.
[34] MARTYSIAK-UROWSKA D, WENTA W. A comparison of ABTS and DPPH methods for assessing the total antioxidant capacity of human milk[J]. Acta Scientiarum Polonorum. Technologia Alimentaria, 2012, 11(1):83-89.
[35] SONG Y R, SHIN N S, BAIK S H. Physicochemical and functional characteristics of a novel fermented pepper (Capsiccum annuum L.) leaves-based beverage using lactic acid bacteria[J]. Food Science and Biotechnology, 2014, 23(1):187-194.
[36] KIM H R, JEONG D H, KIM S, et al. Fermentation of blackberry with L. plantarum JBMI F5 enhance the protection effect on UVB-mediated photoaging in human foreskin fibroblast and hairless mice through regulation of MAPK/NF-κB signaling[J]. Nutrients, 2019, 11(10):2429.
[37] BHATTI M S, ASIRI Y I, UDDIN J, et al. Repurposing of pharmaceutical drugs by high-throughput approach for antihypertensive activity as inhibitors of angiotensin-converting enzyme (ACE) using HPLC-ESI-MS/MS method[J]. Arabian Journal of Chemistry, 2021, 14(8):103279.
[38] KUWAKI S, NAKAJIMA N, TANAKA H, et al. Plant-based paste fermented by lactic acid bacteria and yeast: Functional analysis and possibility of application to functional foods[J]. Biochemistry Insights, 2012, 5:21-29.
[39] MOTTA M, GIUGNO I, BOSCO S, et al. Serum lipoprotein(a) changes in acute myocardial infarction[J]. Panminerva Medica, 2001, 43(2):77-80.
[40] CHIU H F, CHEN Y J, LU Y Y, et al. Regulatory efficacy of fermented plant extract on the intestinal microflora and lipid profile in mildly hypercholesterolemic individuals[J]. Journal of Food and Drug Analysis, 2017, 25(4):819-827.
[41] HU R K, ZENG F, WU L X, et al. Fermented carrot juice attenuates type 2 diabetes by mediating gut microbiota in rats[J]. Food & Function, 2019, 10(5):2935-2946.
[42] KLEWICKA E, ZDUŃCZYK Z, JUŚKIEWICZ J, et al. Effects of lactofermented beetroot juice alone or with N-nitroso-N-methylurea on selected metabolic parameters, composition of the microbiota adhering to the gut epithelium and antioxidant status of rats[J]. Nutrients, 2015, 7(7):5905-5915.
[43] KANTACHOTE D, CHARERNJIR W, UMSAKUL K. Antibacterial activities of fermented plant beverages collected in southern Thailand[J]. Journal of Biological Sciences, 2008, 8(8):1280-1288.
[44] HASHEMI S M B, MOUSAVI KHANEGHAH A, BARBA F J, et al. Fermented sweet lemon juice (Citrus limetta) using Lactobacillus plantarum LS5: Chemical composition, antioxidant and antibacterial activities[J]. Journal of Functional Foods, 2017, 38:409-414.
[45] VUONG T, MALLET J F, OUZOUNOVA M, et al. Role of a polyphenol-enriched preparation on chemoprevention of mammary carcinoma through cancer stem cells and inflammatory pathways modulation[J]. Journal of Translational Medicine, 2016, 14:13.
[46] LIN H V, FRASSETTO A, KOWALIK E J Jr, et al. Butyrate and propionate protect against diet-induced obesity and regulate gut hormones via free fatty acid receptor 3-independent mechanisms[J]. PLoS One, 2012, 7(4): e35240.
[47] BOBY N, ABBAS M A, LEE E B, et al. Microbiota modulation and anti-obesity effects of fermented Pyrus ussuriensis Maxim extract against high-fat diet-induced obesity in rats[J]. Biomedicine & Pharmacotherapy, 2022, 154:113629.
[48] FU K L, GAO X, HUA P Y, et al. Anti-obesity effect of Angelica keiskei Jiaosu prepared by yeast fermentation on high-fat diet-fed mice[J]. Frontiers in Nutrition, 2023, 9:1079784.
[49] 帕成周, 邬善敏. 肝功能评价指标的临床应用进展[J]. 疑难病杂志, 2020, 19(6):640-643.
PA C Z, WU S M. Progress in clinical application of liver function evaluation indexes[J]. Chinese Journal of Difficult and Complicated Cases, 2020, 19(6):640-643.
[50] IGAMI K, SHIMOJO Y, ITO H, et al. Hepatoprotective effect of fermented ginseng and its major constituent compound K in a rat model of paracetamol (acetaminophen)-induced liver injury[J]. Journal of Pharmacy and Pharmacology, 2015, 67(4):565-572.
[51] ZHOU Y L, TAN F, LI C, et al. White peony (fermented Camellia sinensis) polyphenols help prevent alcoholic liver injury via antioxidation[J]. Antioxidants, 2019, 8(11):524.
[52] S VALLABHA V, INDIRA T N, JYOTHI LAKSHMI A, et al. Enzymatic process of rice bran: A stabilized functional food with nutraceuticals and nutrients[J]. Journal of Food Science and Technology, 2015, 52(12):8252-8259.
[53] 陆雨, 江石平, 孙冬雪, 等. 诺丽酵素化学成分及其抗肿瘤活性研究[J]. 中国药学杂志, 2018, 53(18):1552-1556.
LU Y, JIANG S P, SUN D X, et al. Chemical constituents from noni enzyme and their antitumor activities[J]. Chinese Pharmaceutical Journal, 2018, 53(18):1552-1556.
[54] BYUN J I, SHIN Y Y, CHUNG S E, et al. Safety and efficacy of gamma-aminobutyric acid from fermented rice germ in patients with insomnia symptoms: A randomized, double-blind trial[J]. Journal of Clinical Neurology, 2018, 14(3):291-295.
[55] 何曼, 李松, 仇雨, 等. 家庭自制酵素中的微生物污染检测[J]. 食品安全导刊, 2021(26):108-110.
HE M, LI S, QIU Y, et al. Detection of microbial contamination in home-made enzymes[J]. China Food Safety Magazine, 2021(26):108-110.
[56] MA D, HE Q W, DING J, et al. Bacterial microbiota composition of fermented fruit and vegetable juices (jiaosu) analyzed by single-molecule, real-time (SMRT) sequencing[J]. CyTA-Journal of Food, 2018, 16(1):950-956.
[57] HAN Y Y, DU J H. Relationship of the methanol production, pectin and pectinase activity during apple wine fermentation and aging[J]. Food Research International, 2022, 159:111645.
[58] MOZHAEV V V, HEREMANS K, FRANK J, et al. Exploiting the effects of high hydrostatic pressure in biotechnological applications[J]. Trends in Biotechnology, 1994, 12(12):493-501.
[59] WANG W J, CHEN W J, ZOU M M, et al. Applications of power ultrasound in oriented modification and degradation of pectin: A review[J]. Journal of Food Engineering, 2018, 234:98-107.
[60] DALA-PAULA B M, CUSTÓDIO F B, GLORIA M B. Health concerns associated with biogenic amines in food and interaction with amine oxidase drugs[J]. Current Opinion in Food Science, 2023, 54:101090.
[61] CHEN Y Q, WU C L, XU W Y, et al. Evaluation of degradation capability of nitrite and biogenic amines of lactic acid bacteria isolated from pickles and potential in sausage fermentation[J]. Journal of Food Processing and Preservation, 2022, 46(1): e16141.
[62] LEE J S, JIN Y H, PAWLUK A M, et al. Reduction in biogenic amine content in Baechu (napa cabbage) kimchi by biogenic amine-degrading lactic acid bacteria[J]. Microorganisms, 2021, 9(12):2570.
[63] ATALLAH A A, EL-DEEB A M, MOHAMED E N. Shelf-life of Domiati cheese under modified atmosphere packaging[J]. Journal of Dairy Science, 2021, 104(8):8568-8581.
[64] RABIE M A, SILIHA H, EL-SAIDY S, et al. Effects of γ-irradiation upon biogenic amine formation in Egyptian ripened sausages during storage[J]. Innovative Food Science & Emerging Technologies, 2010, 11(4):661-665.
