[1] 赵延福, 张慧, 李慧, 等.天然类胡萝卜素功能性产品的开发和应用[J].中国食品添加剂, 2017(8):154-159.
ZHAO Y F, ZHANG H, LI H, et al.Development and application of natural carotenoids functional products[J].China Food Additives, 2017(8):154-159.
[2] SÁNCHEZ C, BARANDA A B, MARAÑÓN D I M.The effect of high pressure and high temperature processing on carotenoids and chlorophylls content in some vegetables[J].Food Chemistry, 2014, 163:37-45.
[3] 范晓岚, 杨军, 糜漫天, 等.β-胡萝卜素的抗氧化作用与疾病预防[J].中国公共卫生, 2003, 19(4):479-480.
FAN X L, YANG J, MI M T, et al.The antioxidative effect of β-carotene and disease prevention[J].Chinese Journal of Public Health, 2003, 19(4):479-480.
[4] HEINRICH U, NEUKAM K, TRONNIER H, et al.Long-term ingestion of high flavanol cocoa provides photoprotection against uv-induced erythema and improves skin condition in women[J].The Journal of Nutrition, 2006, 136(6):1 565-1 569.
[5] WEI Y, SUN C X, DAI L, et al.Structure, physicochemical stability and in vitro, simulated gastrointestinal digestion properties of β-carotene loaded zein-propylene glycol alginate composite nanoparticles fabricated by emulsification-evaporation method[J].Food Hydrocolloids, 2018, 81:149-158.
[6] 顾学裘, 张永恒, 吴玉波, 等.β-胡萝卜素具有防癌功效的机制[J].哈尔滨医科大学学报, 1996, 30(4):403-404.
GU X Q, ZHANG Y H, WU Y B, et al.β-carotene has anti-cancer effect mechanism[J].Journal of Harbin Medical University, 1996, 30(4):403-404.
[7] HU X M, WHITE K M, JACOBSEN N E, et al.Inhibition of growth and cholesterol synthesis in breast cancer cells by oxidation products of β-carotene[J].The Journal of Nutritional Biochemistry, 1998, 9(10):567-574.
[8] 卢建军. β-胡萝卜素在动物繁殖机能上的作用[J].中国饲料, 1999(3):19.
LU J J.The function of β-carotene in animal reproduction[J].China Feed, 1999(3):19.
[9] 冯俊, 邓斐月, 余燕玲, 等.微囊化β-胡萝卜素对妊娠母猪繁殖、免疫和抗氧化功能的影响[J].浙江大学学报(农业与生命科学版), 2009, 35(6):665-669.
FENG J, DENG F Y, YU Y L, et al.Effects of β-carotene microcapsules on reproducibility, immunity and antioxidant capability in late-pregnancy sows[J].Journal of Zhejiang University (Agriculture and Life Sciences), 2009, 35(6):665-669.
[10] HASKELL M J.The challenge to reach nutritional adequacy for vitamin A:β-Carotene bioavailability and conversion:Evidence in humans[J].American Journal of Clinical Nutrition, 2012, 96(5):1 193S-1 203S.
[11] O′SULLIVAN L, GALVIN K, AISLING A S, et al.Effects of cooking on the profile and micellarization of 9-cis-, 13-cis- and all-trans-β-carotene in green vegetables[J].Food Research International, 2010, 43(4):1 130-1 135.
[12] PARKER R S.Absorption, metabolism, and transport of carotenoids[J].The FASEB Journal, 1996, 10(5):542-551.
[13] GARRETT D A, FAILLA M L, SARAMA R J.Development of an in vitro digestion method to assess carotenoid bioavailability from meals[J].Journal of Agricultural and Food Chemistry, 1999, 47(10):4 301-4 309.
[14] 薛露, 彭珍, 关倩倩, 等.β-胡萝卜素包埋产品的制备与性能分析[J].饮料工业, 2020, 23(2):26-31.
XUE L, PENG Z, GUAN Q Q, et al.Preparation and characterization analysis of β-carotene-embedded products[J].Beverage Industry, 2020, 23(2):26-31.
[15] PANJA S, KHATUA D K, HALDER M.Effect of casein on pure lecithin liposome:Mixed biomacromolecular system for providing superior stabilization to hydrophobic molecules[J].Colloids and Surfaces B:Biointerfaces, 2019, 180:298-305.
[16] MORAES M, CARVALHO J M P, SILVA C R, et al.Liposomes encapsulating beta-carotene produced by the proliposomes method:Characterisation and shelf life of powders and phospholipid vesicles[J].International Journal of Food Science & Technology, 2013, 48(2):274-282.
[17] TAN C, XUE J, ABBAS S, et al.Liposome as a delivery system for carotenoids:Comparative antioxidant activity of carotenoids as measured by ferric reducing antioxidant power, DPPH assay and lipid peroxidation[J].Journal of Agricultural and Food Chemistry, 2014, 62(28):6 726-6 735.
[18] TONIAZZO T, BERBEL I F, CHO S, et al.β-carotene-loaded liposome dispersions stabilized with xanthan and guar gums:Physico-chemical stability and feasibility of application in yogurt[J].LWT - Food Science and Technology, 2014, 59(2):1 265-1 273.
[19] 郑景霞. β-胡萝卜素-薏苡仁油复合脂质体的制备及功能特性研究[D].南昌:南昌大学, 2018.
ZHENG J X.Preparation and functional properties of β-carotene-coix seed oil composite liposomes[D].Nanchang:Nanchang University, 2018.
[20] 杨佳, 王宇, 张君慧.类胡萝卜素乳液及其应用研究进展[J].农产品加工, 2017(20):75-77;82.
YANG J, WANG Y, ZHANG J H.Research progress in production and application of carotenoids emulsion[J].Farm Products Processing, 2017(20):75-77;82.
[21] FU D W, DENG S M, MCCLEMENTS D J, et al.Encapsulation of β-carotene in wheat gluten nanoparticle-xanthan gum-stabilized pickering emulsions:Enhancement of carotenoid stability and bioaccessibility[J].Food Hydrocolloids, 2019, 89:80-89.
[22] ZHONG L, MA N, WU Y L, et al.Gastrointestinal fate and antioxidation of β-carotene emulsion prepared by oat protein isolate-Pleurotus ostreatus β-glucan conjugate[J].Carbohydrate Polymers, 2019, 221:10-20.
[23] GASA-FALCON A, ACEVEDO-FANI A, OMS-OLIU G, et al.Development, physical stability and bioaccessibility of β-carotene-enriched tertiary emulsions[J/OL].Journal of Functional Foods, 2020, 64.https://doi.org/10.1016/j.jff.2019.103615.
[24] HAN J R, ZHANG Z P, SHANG W H, et al.Modulation of physicochemical stability and bioaccessibility of β-carotene using alginate beads and emulsion stabilized by scallop (Patinopecten yessoensis) gonad protein isolates[J/OL].Food Research International, 2020, 129.https://doi.org/10.1016/j.foodres.2019.108875.
[25] MAO L K, MIAO S.Structuring food emulsions to improve nutrient delivery during digestion[J].Food Engineering Reviews, 2015, 7(4):439-451.
[26] 周怡平. β-环糊精包埋β-胡萝卜素的研究[D].大连:大连理工大学, 2005.
ZHOU Y P.Study on the inclusion compound of β-carotene with β-cyclodextrin[D].Dalian: Dalian University of Technology, 2005.
[27] 简云飞, 张海容.β-胡萝卜素与β-环糊精包合物的制备与表征[J].化学研究与应用, 2017, 29(8):1 183-1 187.
JIAN Y F, ZHANG H R.Preparation and characterization of β-carotene and β-cyclodextrin inclusion complex[J].Chemical Research and Application, 2017, 29(8):1 183-1 187.
[28] ARIKAN Ş, RODWAY R G.Effect of cyclodextrin-encapsulated β-carotene on progesterone production by bovine luteal cells[J].Animal Reproduction Science, 2000, 64(3):149-160.
[29] 周叶红, 马学文, 梁文婷, 等.β-环糊精及衍生物与β-胡萝卜素包合物性质[J].应用化学, 2016, 33(7):827-833.
ZHOU Y H, MA X W, LIANG W T, et al.Preparation and physicochemical properties of the inclusion complexes of β-carotene with β-cyclodextrin and its derivatives[J].Chinese Journal of Applied Chemistry, 2016, 33(7):827-833.
[30] NIU H, CHEN W J, CHEN W X, et al.Preparation and characterization of a modified-β-cyclodextrin/β-carotene inclusion complex and its application in pickering emulsions[J].Journal of Agricultural and Food Chemistry, 2019, 67(46):12 875-12 884.
[31] 王晓平, 廖工铁, 侯世祥.β-环糊精衍生物研究进展[J].华西药学杂志,1992, 7(2):100-103.
WANG X P, LIAO G T, HOU S X.Research progress on the β-cyclodextrin derivatives[J].West China Journecl of Pharmaceutical Sciences, 1992, 7(2):100-103.
[32] 肖晨晨, 高洁, 李红艳, 等.微胶囊技术的研究进展[J].科学技术创新, 2019(29):36-37.
XIAO C C, GAO J, LI H Y, et al.Research progress on the microcapsulary[J].Science and Technology Innovation, 2019(29):36-37.
[33] JAIN A, THAKUR D, GHOSHAL G, et al.Microencapsulation by complex coacervation using whey protein isolates and gum Acacia:an approach to preserve the functionality and controlled release of β-carotene[J].Food and Bioprocess Technology, 2015, 8(8):1 635-1 644.
[34] 孙瑞瑞. 紫苏β-胡萝卜素的超临界CO2萃取及其微胶囊产品的研究[D].哈尔滨: 东北农业大学, 2017.
SUN R R.Research on extraction of Perilla frutescens β-carotene by supercritical CO2 and its microencapsulation[D].Harbin: Northeast Agricultural University, 2017.
[35] 白丽娜, 李桐, 王春燕, 等.以MRPs为壁材的β-胡萝卜素微胶囊化及其产品特性[J].中国食品学报, 2018, 18(2):93-101.
BAI L N, LI T, WANG C Y, et al.The Microencapsulation of β-carotene as wall material of mrps and the characteristic of the products[J].Journal of Chinese Institute of Food Science and Technology, 2018, 18(2):93-101.
[36] JIANG Z M, BAI L N, YANG N, et al.Stability of β-carotene microcapsules with Maillard reaction products derived from whey protein isolate and galactose as coating materials[J].Journal of Zhejiang University-SCIENCE B, 2017, 18(10):867-877.
[37] THAKUR D, JAIN A, GHOSHAL G, et al.Microencapsulation of β-carotene based on casein/guar gum blend using zeta potential-yield stress phenomenon:An approach to enhance photo-stability and retention of functionality[J].AAPS PharmSciTech, 2017, 18(5):1 447-1 459.
[38] 郭童林, 王翠, 沈丽霞.固体脂质纳米粒的研究进展[J].神经药理学报, 2017, 7(6):15-21.
GUO T L, WANG C, SHEN L X.Research progress of solid lipid nanoparticles[J].Acta Neuropharmacologica, 2017, 7(6):15-21.
[39] 梁静茹, 权维燕, 李思东, 等.纳米药物载体在医药领域应用的研究进展[J].山东化工, 2019, 48(19):78-81.
LIANG J R, QUAN W Y, LI S D, et al.Research progress of nano-drug carriers in medicine[J].Shandong Chemical Industry, 2019, 48(19):78-81.
[40] MEHRAD B, RAVANFAR R, LICKER J, et al.Enhancing the physicochemical stability of β-carotene solid lipid nanoparticle (SLNP) using whey protein isolate[J].Food Research International, 2018, 105:962-969.
[41] JAIN A, SHARMA G, THAKUR K, et al.Beta-carotene-encapsulated solid lipid nanoparticles (BC-SLNs) as promising vehicle for cancer:An investigative assessment[J].AAPS PharmSciTech, 2019, 20(3):1-7.
[42] OLIVEIRA D R B, FURTADO G D F, CUNHA R L.Solid lipid nanoparticles stabilized by sodium caseinate and lactoferrin[J].Food Hydrocolloids, 2019, 90:321-329.
[43] ABREU-MARTINS H H D, ARTIGA-ARTIGAS M, PICCOLI R H, et al.The lipid type affects the in vitro digestibility and β-carotene bioaccessibility of liquid or solid lipid nanoparticles[J].Food Chemistry, 2020, 311:1-10.
[44] ISHIMOTO K, MIKI S, OHNO A, et al.β-Carotene solid dispersion prepared by hot-melt technology improves its solubility in water[J].Journal of Food Science and Technology, 2019, 56(7):3 540-3 546.
[45] CUI M N, MAO L K, LU Y, et al.Effect of monoglyceride content on the solubility and chemical stability of β-carotene in organogels[J].LWT, 2019, 106:83-91.
[46] BOCKUVIENE A, SEREIKAITE J.Preparation and characterisation of novel water-soluble β-carotene-chitooligosaccharides complexes[J/OL].Carbohydrate Polymers, 2019, 225.https://doi.org/10.1016/j.carbpol.2019.115226.
[47] HEJRI A, KHOSRAVI A, GHARANJIG K, et al.Optimisation of the formulation of β-carotene loaded nanostructured lipid carriers prepared by solvent diffusion method[J].Food Chemistry, 2013, 141(1):117-123.
