YIN Lebin , LIAO Cong , LIU Dan , YANG Ailian , LIU Yali , HE Ping , LI Lele . Research progress of self-assembly delivery system of mineral ion chelating peptide[J]. Food and Fermentation Industries, 2021 , 47(5) : 296 -302 . DOI: 10.13995/j.cnki.11-1802/ts.025268

[1] TOMADON B, CAPELLO C, VALENCIAB G A, et al.Self-assembled proteins for food applications:a review[J].Trends in Food ence & Technology, 2020, 101(7):1-16.
[2] 汪少芸. 功能肽的加工技术和活性评价[M].北京:科学出版社, 2019.
WANG S.Y.Processing technology and activity evaluation of functional peptides[M].Beijing:Science press, 2019.
[3] SUN N, WU H, DU M, et al.Food protein-derived calcium chelating peptides:a review[J].Trends in Food Science & Technology, 2016, 58:140-148.
[4] ERDEM T, FERAT A, NURDAN Y A, et al.Vitamin and mineral deficiency in children newly diagnosed with celiac disease[J].Turkish Journal of Medical Sciences, 2015, 45:833-836.
[5] YAO X L, YAO X X, XU K, et al.Iron encapsulated microstructured gel beads using an emulsification-gelation technique for an alginate-caseinate matrix[J].Food & Function, 2020, 11(5):3 811-3 822.
[6] UDECHUKWU M C, COLLINS S A, UDENIGWE C C.Prospects of enhancing dietary zinc bioavailability with food-derived zinc-chelating peptides[J].Food & Function, 2016, 7(10):4 137-4 144.
[7] 张勇胜, 李仁兰, 刘妍, 等.硒对人体健康作用的研究进展[J].内科, 2018, 13(4):89-91.
ZHANG Y S, LI R L, LIU Y.Research progress on effects of selenium on human health[J].Internal Medicine of China, 2018, 13(4):89-91.
[8] ZHU B, HE H, GUO D, et al.Two novel calcium delivery systems fabricated by casein phosphopeptides and chitosan oligosaccharides:preparation, characterization, and bioactive studies[J].Food Hydrocolloids.2019, 102:105 567.
[9] BOYLE A, RABE M, CRONE N, et al.Selective coordination of three transition metal ions within a coiled-coil peptide scaffold[J].Chemical Science, 2019, 6:6-11.
[10] CANABADY-ROCHELLE L L S, SELMECZI K, COLLIN S, et al.SPR screening of metal chelating peptides in a hydrolysate for their antioxidant properties[J].Food Chemistry, 2018, 239(1):478-485.
[11] BRONNER F, PANSU D.Nutrition aspects of calcium absorption[J].Journal of Nutrition, 1999, 129:9-12.
[12] CAI X, LIN J, WANG S.Novel peptide with specific calcium-binding capacity from Schizochytrium sp.protein hydrolysates and calcium bioavailability in Caco-2 cells[J].Marine Drugs, 2018, 239(1):478-485.
[13] 菅景颖, 张志胜.胶原多肽螯合钙壮骨作用研究[J].河北农业大学学报, 2010, 33(5):94-97.
JIAN J Y, ZHANG Z S.Effect of collagen polypeptide calcium on the promotion of bone's growing[J].Journal of Hebei Agricultural University, 2010, 33(5):94-97.
[14] 罗永康. 生物活性肽功能与制备[M].北京:中国轻工业出版社出版社, 2019.
LUO Y K.Bioactive peptides function and preparation[M].Beijing:China Light Industry Press, 2019.
[15] 汪婧瑜, 张业辉, 张友胜, 等.不同结构的乌鳢螯合肽对抗氧化活性的影响[J].中国食品学报, 2019, 19(10):93-99.
WANG J Y, ZHANG Y H, ZHANG Y S, et al.The effect of different structure of chelated peptides of Channa argus on antioxidant activity[J].Journal of Chinese Institute of Food Science and Technology, 2019, 19(10):93-99.
[16] YE Q, WU X, ZHANG X, et al.Organic selenium derived from chelation of soybean peptide-selenium and its functional properties in vitro and in vivo[J].Food & Function, 2019, 10:4 761-4 770.
[17] 肖玉娟, 傅奇, 何少贵, 等.蓝圆鲹多肽亚铁螯合物制备及其抗氧化性[J].食品工业, 2020, 41(2):126-129.
XIAO Y J, FU Q, HE S G, et al.The preparation and antioxidant activity of iron chelating peptides from decaperus maruadsi[J].The Food Industry, 2020, 41(2):126-129.
[18] 覃宇. 鱼鳞多肽亚铁螯合物的氨基酸测定及体外抗氧化活性分析[J].武汉职业技术学院学报, 2019, 3:112-115.
QIN Y.Determination of amino acids and analysis of antioxidant activity in vitro[J].Journal of Wuhan Polytechnic, 2019, 3:112-115.
[19] 林栋, 孙倩, 马立志, 等.核桃多肽-硒螯合物制备工艺优化及其抗氧化活性研究[J].食品科技, 2019, 44(11):302-307.
LIN D, SUN Q, MA L Z, et al.Optimized preparation and antioxidant activity of selenium-chelating polypeptides from walnut protein hydrolysate[J].Food Science and Technology, 2019, 44(11):302-307.
[20] 刘安军, 王秀丽, 陈影, 等.胶原蛋白多肽-铬(Ⅲ)螯合物对四氧嘧啶致小鼠肝脏损伤的保护作用[J].营养学报, 2006, 28(6):487-489.
LIU A J, WANG X L, CHEN Y, et al.The protective effects of collegen peptide-chromium (Ⅲ) complex on alloxan-induced hepatic injury in mice[J].Acta Nutrimenta Sinica, 2006, 28(6):487-489.
[21] 姜良萍, 李博, 罗永康, 等.鲢鱼源多肽锌螯合物对冷藏草鱼的保鲜作用[J].食品科技, 2013, 38(12):144-149.
JIANG L P, LI B, LUO Y K, et al.Effect of complexes of Zn²⁺and peptides from silver carp (Hypophthalmichthys molitrix) proteins on the preservation of grass carp during cold storage[J].Food Science and Technology, 2013, 38(12):144-149.
[22] CIAN R E, GARZON A G, ANCONA D B, et al.Chelating properties of peptides from red seaweed pyropia columbina and its effect on iron bio-accessibility[J].Plant Foods for Human Nutrition, 2016, 71(1):96-101.
[23] SUPATCHA K, CHOCKCHAI T, REED R L, et al.Isolation and identification of tyrosinase inhibitory and copper-chelating peptides from hydrolyzed rice bran-derived albumin[J].Journal of Agricultural & Food Chemistry, 2018, 66(31):8 346-8 354.
[24] 杨玉蓉, 李安平, 钟政昌, 等.桃仁多肽螯合亚铁的抑菌活性及结构表征[J].食品科学, 2019, 40(5):57-62.
YANG Y R, LI A P, ZHONG Z C, et al.Antibacterial activity and structural characterization of peach kernel peptide-ferrous chelate[J].Food Science, 2019, 40(5):57-62.
[25] 蒲传奋, 唐文婷.玉米醇溶蛋白肽钙螯合物的制备及其抑菌性能研究[J].食品科技, 2015, 40(12):246-250.
PU C F, TANG W T.Preparation and antibacterial properties of zein peptide-calcium chelate[J].Food Science and Technology, 2015, 40(12):246-250.
[26] KESSLER E, ISRAEL M, LANDSHMAN N, et al.In vitro inhibition of Pseudomonas aeruginosa elastase by metal-chelating peptide derivatives[J].Infection & Immunity, 1982, 38(2):716-723.
[27] PAULE S G, NIKOLOVSKI B, LUDEMAN J, et al.Ability of GHTD-amide and analogs to enhance insulin activity through zinc chelation and dispersal of insulin oligomers[J].Peptides, 2009, 30(6):1 088-1 097.
[28] 王秀丽, 刘安军, 李琨, 等.胶原蛋白多肽-铬(Ⅲ)螯合物的降血糖机理探讨[J].食品研究与开发, 2006, 5:125-126.
WANG X L, LIU A J, LI K, et al.Study on the hypoglycemic effects of collagen peptide-chromium(Ⅲ) complex[J].Food Research and Development, 2006, 5:125-126.
[29] 王卫国, 张天勇.纳米级小肽螯合铜对小白鼠铜排泄和免疫指标的影响[J].饲料工业, 2011, 32(7):11-15.
WANG W G, ZHANG T Y.Effect of nano copper-small peptide chelate on excretion of copper and immune indexes of mice[J].Feed Industry, 2011, 32(7):11-15.
[30] 李雪芬, 杜斌, 丁轲, 等.金属螯合肽分离纯化及其抗氧化活性的研究进展[J].中国食物与营养, 2016, 22(3):35-39.
LI X F, DU B, DING K, et al.Research progress of separation and purification of metal chelating peptides and antioxidant activity[J].Food and Nutrition in China, 2016, 22(3):35-39.
[31] 刘丽莉. 牛骨降解菌的筛选及其发酵制备胶原多肽螯合钙的研究[D].武汉:华中农业大学, 2010.
LIU L L.Rearch on screening the bovine bone-degraded bacteria and preparation of collagen-derived polypeptides chelated calcium by fermentation[D].Wuhan:Huazhong Agricultural University, 2010.
[32] WANG X, GAO A, CHEN Y, et al.Preparation of cucumber seed peptide-calcium chelate by liquid state fermentation and its characterization[J].Food Chemistry, 2017, 229(15):487-494.
[33] CUI P, LIN S, JIN Z, et al.In vitro digestion profile and calcium absorption studies of a sea cucumber ovum derived heptapeptide-calcium complex[J].Food & Function, 2018, 9:4 582-4 592.
[34] ZHAO L, HUANG S, CAI X, et al.A specific peptide with calcium chelating capacity isolated from whey protein hydrolysate[J].Journal of Functional Foods, 2014, 10:46-53.
[35] SUN N, JIN Z, LI D, et al.An exploration of the calcium-binding mode of egg white peptide, Asp-His-Thr-Lys-Glu, and in vitro calcium absorption studies of peptide-calcium complex[J].Journal of Agricultural & Food Chemistry, 2017, 65:9 782-9 789.
[36] CHEN D, LIU Z, HUANG W, et al.Purification and characterisation of a zinc-binding peptide from oyster protein hydrolysate[J].Journal of Functional Foods, 2013, 5(2):689-697.
[37] WANG C, WANG C, LI B, et al.Zn(Ⅱ) chelating with peptides found in sesame protein hydrolysates:Identification of the binding sites of complexes[J].Food Chemistry, 2014, 165(15):594-602.
[38] ZHU K X, WANG X P, GUO X N.Isolation and characterization of zinc-chelating peptides from wheat germ protein hydrolysates[J].Journal of Functional Foods, 2015, 12:23-32.
[39] XIE N, HUANG J, LI B, et al.Affinity purification and characterisation of zinc chelating peptides from rapeseed protein hydrolysates:possible contribution of characteristic amino acid residues[J].Food Chemistry, 2015, 173(15):210-217.
[40] WU W, LI B, HOU H, et al.Identification of iron-chelating peptides from pacific cod skin gelatin and the possible binding mode[J].Journal of Functional Foods, 2017, 35:418-427.
[41] RAFAEL B, SERGE C, JUILLERAT M A, et al.Tryptic phosphopeptides from whole casein.II.physicochemical properties related to the solubilization of calcium[J].Journal of Dairy Research, 1989, 56:335-341
[42] JIANG B, MINE Y.Phosphopeptides derived from hen egg yolk phosvitin:effect of molecular size on the calcium-binding properties[J].Bioscience Biotechnology & Biochemistry, 2001, 65(5):1 187-1 190.
[43] 黄海. 鲤鱼卵钙离子结合活性肽的制备及钙结合机制的研究[D].青岛:中国海洋大学, 2014.
HUANG H.Study on the preparation of peptide withcalcium-binding activity from carp egg and its mechanism of binding calcium[D].Qingdao:Ocean Unversity of China, 2014.
[44] SATO R, NOGUCHI T, NAITO H.The necessity for the phosphate portion of casein molecules to enhance ca absorption from the small intestine[J].Journal of the Agricultural Chemical Society of Japan, 1983, 47(10):2 415-2 417.
[45] BAO X L, LV Y, YANG B C, et al.A study of the soluble complexes formed during calcium binding by soybean protein hydrolysates[J].Journal of Food Science, 2008, 73(3):117-121.
[46] LIU F R, WANG L, WANG R, et al.Calcium-binding capacity of wheat germ protein hydrolysate and characterization of peptide-calcium complex[J].Journal of Agricultural & Food Chemistry, 2013, 61(31):7 537-7 544.
[47] WANG M, ZHOU P, WANG J, et al.Left or right:How does amino acid chirality affect the handedness of nanostructures self-assembled from short amphiphilic peptides?[J].Journal of the American Chemical Society, 2017, 139(11):4 185-4 194.
[48] SUTTON B R, DAVLETOV B A, BERGHUIS A M, et al.Structure of the first C₂ domain of synaptotagmin I:A novel Ca²⁺/phospholipid-binding fold[J].Cell, 1995, 80(6):929-938.
[49] HUGHES D W, DEBER C M.Conformations of cyclic peptide/calcium complexes in solution[J].Biopolymers, 1982, 21(1):169-179.
[50] LIU H, YING L, XU J T, et al.Soybean peptide aggregates improved calcium binding capacity[J].Lwt Food Science & Technology, 2016, 67(4):174-180.
[51] 夏伟荣, 李莹, 柴智, 等.铁蛋白-海藻酸钠纳米包埋ACE抑制肽[J].食品科学, 2020, 41(8):77-82.
XIA W R, LI Y, CHAI Z, et al.Encapsulation of ACE inhibitory peptide with ferritin-sodium alginate nanoparticles[J].Food Science, 2020, 41(8):77-82.
[52] YE M, ZHANG C, ZHU L, et al.Yak (Bos grunniens) bones collagen-derived peptides stimulate osteoblastic proliferation and differentiation via the activation of Wnt/β-catenin signaling pathway[J].Journal of the Science of Food and Agriculture, 2020, 100(6):2 600-2 609.