盛政 , 杜文凯 , 王崇崇 , 张博安 , 张海华 , 杜琪珍 . 茶多酚对茶食品中还原糖检测方法的影响[J]. 茶叶科学, 2023 , 43(4) : 567 -575 . DOI: 10.13305/j.cnki.jts.2023.04.011

[1] Zhang Z Y, Liu C W, Fang W W, et al.Research progress on the lipid-lowering and weight loss effects of tea and the mechanism of its functional components[J]. The Journal of Nutritional Biochemistry, 2023, 112: 109210. doi: 10.1016/j.jnutbio.2022.109210.
[2] Jalaludin I, Kim J.Comparison of ultraviolet and refractive index detections in the HPLC analysis of sugars[J]. Food Chemistry, 2021, 365: 130514. doi: 10.1016/j.foodchem.2021.130514.
[3] Fang J, Sureda A, Silva A S, et al.Trends of tea in cardiovascular health and disease: a critical review[J]. Trends in Food Science & Technology, 2019, 88: 385-396. doi: 10.1016/j.tifs.2019.04.001.
[4] Yang C S, Wang H, Sheridan Z P.Studies on prevention of obesity, metabolic syndrome, diabetes, cardiovascular diseases and cancer by tea[J]. Journal of Food and Drug Analysis, 2018, 26(1): 1-13.
[5] 张士康. 茶面制品的产业前景[J]. 茶博览, 2018(2): 76-77.
Zhang S K.The industrial prospects of tea noodle products[J]. Tea Times, 2018(2): 76-77
[6] Lai W F, Baig M, Wong W T, et al.Epigallocatechin-3-gallate in functional food development: from concept to reality[J]. Trends in Food Science & Technology, 2020, 102: 271-279. doi: 10.1016/j.tifs.2020.04.001.
[7] Salelign K, Duraisamy R.Sugar and ethanol production potential of sweet potato (Ipomoea batatas) as an alternative energy feedstock: processing and physicochemical characterizations[J]. Heliyon, 2021, 7(11): e08402. doi: 10.1016/j.heliyon.2021.e08402.
[8] 张雅琦, 阮长青, 张东杰, 等. 抗性淀粉的分析方法研究进展[J]. 中国粮油学报, 2023, 38(3): 188-195.
Zhang Y Q, Ruan C Q, Zhang D J, et al.Research progress on analysis methods of resistant starch[J]. Journal of the Chinese Cereals and Oils Association, 2023, 38(3): 188-195.
[9] 曾文治, 雷郑延, 周欢, 等. 基于α-淀粉酶活性抑制率的茉莉花茶拼配研究[J]. 食品工业, 2019, 40(1): 163-168.
Zeng W Z, Lei Z Y, Zhou H, et al.Study on optimization of jasmine tea blending process for inhibiting α-amylase activity[J]. The Food Industry, 2019, 40(1): 163-168.
[10] 杨眷俪, 许雪蓉, 张振军, 等. 文冠果芽茶与叶茶主要营养功能成分分析及抗氧化活性评价[J]. 食品工业科技, 2022, 43(15): 366-373.
Yang J L, Xu X R, Zhang Z J, et al.Main nutritional and functional ingredients and antioxidant evaluation of Xanthoceras sorbifolia bunge bud tea and leaf tea[J]. Science and Technology of Food Industry, 2022, 43(15): 366-373.
[11] Zhu S, Liu B, Wang F, et al.Characterization and in vitro digestion properties of cassava starch and epigallocatechin-3-gallate (EGCG) blend[J]. LWT, 2021, 137: 110398. doi: 10.1016/j.lwt.2020.110398.
[12] 魏香玉, 于鲲, 吴迪, 等. 绿茶粉对高粱挂面品质及消化特性的影响[J]. 食品与发酵工业, 2022: 1-9[2023-03-02]. doi: 10.13995/j.cnki.11-1802/ts.032210.
Wei X Y, Yu K, Wu D, et al. Effect of green tea powder on the quality and digestibility of sorghum noodles [J]. Food and Fermentation Industries [J]. Food and Fermentation Industries, 2022: 1-9[2023-03-02]. doi: 10.13995/j.cnki.11-1802/ts.032210.
[13] Xu S Y, Kan J, Hu Z, et al.Quantification of neoagaro-oligosaccharide production through enzymatic hydrolysis and its anti-oxidant activities[J]. Molecules, 2018, 23(6): 1354. doi: 10.3390/molecules23061354
[14] Kraithong S, Teerapattarakan N, Balasubramanian B, et al.Bioactive compounds in tea: effect of imbalanced intake on digestive enzymes activity, cytochrome inhibition and drug interaction[J]. South African Journal of Botany, 2022, 150: 58-68.
[15] Cianciosi D, Forbes-Hernández T Y, Regolo L, et al. The reciprocal interaction between polyphenols and other dietary compounds: impact on bioavailability, antioxidant capacity and other physico-chemical and nutritional parameters[J]. Food Chemistry, 2022, 375: 131904. doi: 10.1016/j.sajb.2022.07.003.
[16] 郭有辉, 周娟, 胡露, 等. DNS光度法测定风味鱿鱼中淀粉、还原糖和蔗糖的含量[J]. 理化检验(化学分册), 2019, 55(4): 463-466.
Guo Y H, Zhou J, Hu L, et al.Determination of starch, reduceing sugar and sucrose in flavored squid by DNS photometric method[J]. Physical Testing and Chemical Analysis (Part B: Chemical Analysis), 2019, 55(4): 463-466.
[17] Jackson P.High-resolution polyacrylamide gel electrophoresis of fluorophore-labeled reducing saccharides[J]. Methods in Enzymology, 1994, 230: 250-265. doi: 10.1016/0076-6879(94)30017-8.
[18] Platzer M, Kiese S, Tybussek T, et al.Radical scavenging mechanisms of phenolic compounds: a quantitative structure-property relationship (QSPR) study[J]. Frontiers in Nutrition, 2022, 9: 882458. doi: 10.3389/fnut.2022.882458.
[19] Olszowy M.What is responsible for antioxidant properties of polyphenolic compounds from plants?[J]. Plant Physiology and Biochemistry, 2019, 144: 135-143.
[20] Lim J, Zhang X W, Ferruzzi M G, et al.Starch digested product analysis by HPAEC reveals structural specificity of flavonoids in the inhibition of mammalian α-amylase and α-glucosidases[J]. Food Chemistry, 2019, 288: 413-421.
[21] Yang B, Chen F, Hua Y L, et al.Prooxidant activities of quercetin, p-courmaric acid and their derivatives analysed by quantitative structure-activity relationship[J]. Food Chemistry, 2012, 131(2): 508-512.
[22] 李兵, 肖香兰, 杨永红, 等. 国内外淀粉含量的检测标准现状及检测方法研究进展[J]. 食品安全质量检测学报, 2021, 12(9): 3830-3839.
Li B, Xiao X L, Yang Y H, et al.Current situation of standard methods and research progress of starch content determination at China and abroad[J]. Journal of Food Safety & Quality, 2021, 12(9): 3830-3839.
[23] Tama A, Bartosz G, Sadowska-Bartosz I.Is hydrogen peroxide generated in wine?[J]. Food Bioscience, 2022, 45: 101487. doi: 10.1016/j.fbio.2021.101487.
[24] Khan M R, Volpe S, Salucci E, et al.Active caseinate/guar gum films incorporated with gallic acid: physicochemical properties and release kinetics[J]. Journal of Food Engineering, 2022, 335: 111190. doi: 10.1016/j.jfoodeng.2022.111190.
[25] O’Shea M G, Samuel M S, Konik C M, et al. Fluorophore-assisted carbohydrate electrophoresis (FACE) of oligosaccharides: efficiency of labelling and high-resolution separation[J]. Carbohydrate Research, 1998, 307(1): 1-12.