第 9 期                  何振东，等: CaCl 2 调节银杏果分离蛋白/果胶复合凝胶质构特性                               ·2041·


                 for Human Nutrition, 2021, 76(3): 281-291.        ginkgo seed protein-pectin composite gel[J]. Food Hydrocolloids,
            [5]   ZOU M M, CAO J R, ZHANG W, et al. Improvement of quality of   2021, 118: 106781.
                 Ginkgo biloba seeds powder by solid-state fermentation with Eurotium   [24]  ZHANG W W, LIU C Q, ZHAO J, et al. Modification of structure
                 cristatum for  developing  high-value ginkgo seeds  products[J].   and functionalities of ginkgo seed proteins by pH-shifting
                 Journal of Bioresources and Bioproducts, 2022, 7(2): 135-144.   treatment[J]. Food Chemistry, 2021, 358: 129862.
            [6]   WANG Y, GUO C H, CHEN X J,  et al. Carbon peak and carbon   [25]  MA  T Y (马天怡), GUO F X (郭凤仙), HE Z D (何振东),  et al.
                 neutrality in China: Goals, implementation  path and  prospects[J].   L-Arginine/L-lysine ameliorating the emulsifying  properties of soy
                 China Geology, 2021, 4(4): 720-746.               protein isolate[J]. Fine Chemicals (精细化工), 2022, 39(1): 150-157,
            [7]   NICOLAI T, CHASSENIEUX C.  Heat-induced gelation of plant   163.
                 globulins[J]. Current Opinion in Food Science, 2019, 27: 18-22.   [26]  WANG  Y S, ZHAO J, ZHANG W W,  et al. Modification of
            [8]   TOTOSAUS A, MONTEJANO J G, SALAZAR J A, et al. A review   heat-induced whey protein  gels  by  basic amino acids[J]. Food
                 of  physical and chemical protein-gel induction[J]. International   Hydrocolloids, 2020, 100: 105397.
                 Journal of Food Science & Technology, 2002, 37(6): 589-601.   [27]  WANG Y S, ZHAO J, LIU C Q, et al. Influence of γ-aminobutyric
            [9]   NASRABADI M  N, DOOST  A S,  MEZZENGA R.  Modification   acid on gelling properties of heat-induced whey protein gels[J]. Food
                 approaches of plant-based proteins to improve their techno-functionality   Hydrocolloids, 2019, 94: 287-293.
                 and use in food products[J]. Food Hydrocolloids, 2021, 118: 106789.   [28]  GORNALL A G, BARDAWILL C J, DAVID M M. Determination of
            [10]  GROSSMANN L,  WEISS J. Alternative protein sources as   serum proteins  by  means of the biuret reaction[J]. Journal of
                 technofunctional food ingredients[J]. Annual Review of Food   Biological Chemistry, 1949, 177(2): 751-766.
                 Science and Technology, 2021, 12(1): 93-117.   [29]  LAEMMLI U K. Cleavage of structural proteins during the assembly
            [11]  SCHMITT C, SILVA J V C, AMAGLIANI L, et al. Heat-induced and   of the head of bacteriophage T4[J]. Nature, 1970, 227(5259):
                 acid-induced gelation of dairy/plant protein dispersions and   680-685.
                 emulsions[J]. Current Opinion in Food Science, 2019, 27: 43-48.   [30]  ZHANG  X, ZHANG S, ZHONG M,  et al. Soy and whey protein
            [12]  MA T T, XIONG Y L, JIANG J. Calcium-aided fabrication of pea   isolate mixture/calcium chloride thermally induced emulsion  gels:
                 protein hydrogels with filler emulsion particles coated by pH 12-shifting   Rheological properties and digestive characteristics[J]. Food
                 and ultrasound treated protein[J]. Food Hydrocolloids, 2022, 125:   Chemistry, 2022, 380: 132212.
                 107396.                                       [31]  HEBISHY E, JOUBRAN Y, MURPHY E,  et al. Influence of
            [13]  YANG Z, DE CAMPO L, GILBERT E P, et al. Effect of NaCl and   calcium-binding salts on heat stability and fouling of whey protein
                 CaCl 2 concentration on the rheological and structural characteristics   isolate dispersions[J]. International Dairy Journal, 2019, 91: 71-81.
                 of thermally-induced quinoa protein  gels[J]. Food Hydrocolloids,   [32]  ZHONG M M, XIE F Y, ZHANG S, et al. Preparation and digestive
                 2022, 124: 107350.                                characteristics of a novel soybean lipophilic protein-hydroxypropyl
            [14]  GULDIKEN B, STOBBS J, NICKERSON M. Heat induced gelation   methylcellulose-calcium  chloride thermosensitive emulsion gel[J].
                 of pulse protein networks[J]. Food Chemistry, 2021, 350: 129158.   Food Hydrocolloids, 2020, 106: 105891.
            [15]  ISHWARYA S P, SANDYHYA R, NISHA P. Advances and prospects   [33]  ZHAO H B,  CHEN J, HEMAR Y,  et al. Improvement of the
                 in the food applications of pectin hydrogels[J]. Critical Reviews in   rheological and textural properties of calcium sulfate-induced soy protein
                 Food Science and Nutrition, 2022, 62(16): 4393-4417.   isolate gels by the incorporation of different polysaccharides[J]. Food
            [16]  ZHANG B, HU B, NAKAUMA M,  et al. Modulation of   Chemistry, 2020, 310: 125983.
                 calcium-induced gelation of pectin by oligoguluronate as compared   [34]  BEAULIEU M, TURGEON S L, DOUBLIER J L. Rheology, texture
                 to alginate[J]. Food Research International, 2019, 116: 232-240.   and microstructure of whey proteins/low methoxyl pectins mixed
            [17]  WANG H, FEI S Y, WANG Y F,  et al. Comparative study on the   gels with added  calcium[J]. International Dairy Journal, 2001,
                 self-assembly of pectin and alginate molecules regulated by calcium   11(11/12): 961-967.
                 ions investigated  by atomic force  microscopy[J]. Carbohydrate   [35]  ZHANG J H, JIANG L, YANG J, et al. Effect of calcium chloride on
                 Polymers, 2020, 231: 115673.                      heat-nduced Mesona chinensis polysaccharide-whey protein isolation
            [18]  WAN L, YANG Z X, CAI R, et al. Calcium-induced-gel properties   gels: Gel properties and interactions[J]. LWT-Food Science  and
                 for low methoxyl pectin in the presence of different sugar   Technology, 2022, 155: 112907.
                 alcohols[J]. Food Hydrocolloids, 2021, 112: 106252.   [36]  WANG Y S (王耀松), ZHANG W W (张唯唯), MA T Y (马天怡), et al.
            [19]  LIANG W L,  LIAO J S, QI J R, et al. Physicochemical   Functional properties of  basic amino acids modified whey protein-
                 characteristics and functional properties of high methoxyl pectin with   based gels[J]. Fine Chemicals (精细化工), 2020, 37(9): 1883-1889.
                 different  degree of esterification[J].  Food Chemistry, 2022, 375:   [37]  KUMAR L, BRENNAN M, BRENNAN C, et al. Thermal, pasting
                 131806.                                           and structural studies of oat starch-caseinate interactions[J]. Food
            [20]  DUAN H Y, WANG X Y, AZARAKHSH N, et al. Optimization of   Chemistry, 2022, 373(Part B): 131433.
                 calcium pectinate  gel production from high methoxyl pectin[J].   [38]  XIE J H, YANG F, SHI H M, et al. Protein FTIR amide bands are
                 Journal of the Science of Food and Agriculture, 2022, 102(2):   beneficial to bacterial typing[J]. International Journal of Biological
                 757-763.                                          Macromolecules, 2022, 207: 358-364.
            [21]  AMARAL S  D C, ROUX D C  D,  CATON F,  et al. Rheological   [39]  WANG Q, CAO J,  YU H,  et al. The effects of EGCG on the
                 behavior of pectin  gels obtained from Araçá (Psidium cattleianum   mechanical, bioactivities, cross-linking and release properties of
                 Sabine) fruits:  Influence of DM,  pectin and calcium concentrations[J].   gelatin film[J]. Food Chemistry, 2019, 271: 204-210.
                 Polymers, 2022, 14(16): 3285.                 [40]  PENG Y, KYRIAKOPOULOU K, KEPPLER J K,  et al. Effect  of
            [22]  WANG Y R,  YANG Q,  LI-SHA  Y J,  et al. Structural, gelation   calcium enrichment on the composition, conformation, and functional
                 properties and microstructure of rice glutelin/sugar  beet pectin   properties of soy protein[J]. Food Hydrocolloids, 2022, 123: 107191.
                 composite gels: Effects of ionic strengths[J]. Food Chemistry, 2021,   [41]  TARAPATA J, SMOCZYŃSKI M, MACIEJCZYK M, et al. Effect
                 346: 128956.                                      of calcium  chloride addition on properties of acid-rennet gels[J].
            [23]  HE Z D, LIU C Q, ZHAO J, et al. Physicochemical properties of a   International Dairy Journal, 2020, 106: 104707.