第 6 期                  唐裕芳，等:  酚酸结构对酚酸-g-聚甘露糖醛酸抗氧化性能的影响                                 ·1365·


            [2]   RAMOS P E, SILVA P, ALARIO M M,  et al. Effect of alginate   (Linn.f.) Royle and its activity[J]. Journal of Xiangtan  University
                 molecular weight and M/G ratio in beads properties foreseeing the   (Natural Science  Edition) (湘潭大学学报:  自然科学版), 2021,
                 protection of probiotics[J]. Food Hydrocolloids, 2018, 77: 8-16.   43(6): 24-35.
            [3]   AKIYAMA H,  ENDO T,  NAKAKITA R,  et al. Effect of   [18]  LI Y J (李一佳), WANG H D (王浩东), FAN G L (樊广龙), et al.
                 depolymerized alginates on the growth  of bifidobacteria[J].   Preparation and physicochemical properties of sodium alginate film
                 Bioscience, Biotechnology and Biochemistry, 1992, 56(2): 355-356.   modified by normal octylamine[J]. Packaging Engineering (包装工
            [4]   TOMODA Y, UMEMURA K, ADACHI T. Promotion of barley root   程), 2022, 43(11): 62-69.
                 elongation  under hypoxic conditions  by alginate lyase-lysate   [19]  TAN W Q,  ZHANG J J, MI  Y Q,  et al. Synthesis and
                 (A.L.L.)[J]. Bioscience, Biotechnology, and Biochemistry, 1994,   characterization of  α-lipoic acid grafted chitosan derivatives with
                 58(1): 202-203.                                   antioxidant activity[J]. Reactive and Functional Polymers, 2022, 172:
            [5]   LIU H, ZHANG Y H,  YIN H,  et al. Alginate oligosaccharides   105205-105214.
                 enhanced Triticum aestivum L. tolerance to drought stress[J]. Plant   [20]  OPANASOPIT P, TECHAARPORNKUL S, ROJANARATA T,
                 Physiology and Biochemistry, 2013, 62: 33-40.     et al. Nucleic acid delivery with chitosan hydroxybenzotriazole[J].
            [6]   LIU J, KENNEDY J F, ZHANG X F, et al. Preparation of alginate   Oligonucleotides, 2010, 20: 127-136.
                 oligosaccharide and its effects on decay  control and quality   [21]  FANGKANGWANWONG J, AKASHI M, KIDA T, et al. One-pot
                 maintenance of harvested kiwifruit[J]. Carbohydrate Polymers, 2020,   synthesis in aqueous system for water-soluble chitosan-graftpoly
                 242: 116462.                                      (ethylene glycol) methyl ether[J]. Biopolymers, 2006, 82: 580-586.
            [7]   FALKEBORG M, CHEONG L  Z, TAN C P,  et al. Alginate   [22]  LIU L X (刘丽香), LIANG X F (梁兴飞), SUN Y (孙怡),  et al.
                 oligosaccharides: Enzymatic preparation and antioxidant property   Determination of the total content  of polyphenols in kudincha by
                 evaluation[J]. Food Chemistry, 2014, 164: 185-194.   folin·ciocalteu colorimetry[J]. Journal of Tea Science (茶叶科学),
            [8]   YUE W,  ZHANG H H, YANG  Z  N,  et al. Preparation of low-   2019, 28(2): 101-106.
                 molecular-weight sodium alginate by ozonation[J]. Carbohydrate   [23]  LIU J, MENG C G, YAN Y, et al. Protocatechuic acid grafted onto
                 Polymers, 2021, 251: 117104-117109.               chitosan: Characterization and antioxidant activity[J]. International
            [9]   LIU J, MENG C G, LIU S, et al. Preparation and characterization of   Journal of Biological Macromolecules, 2016, 89: 518-526.
                 protocatechuic acid grafted chitosan films with antioxidant   [24]  WU C H, TIAN J H, LI S, et al. Structural properties of films and
                 activity[J]. Food Hydrocolloids, 2017, 63: 457-466.     rheology of film-forming solutionsof chitosan gallate  for  food
            [10]  HUANG Y G, WANG Z Q. Preparation of composite aerogels based   packaging[J]. Carbohydrate Polymers, 2016, 146: 10-19.
                                                   2+
                 on sodium alginate, and its application in removal of Pb  and Cu 2+   [25]  LIU C Y (刘翠云), GAO X P (高喜平), HUANG Y (黄宇), et al.
                 from water[J]. International Journal of Biological Macromolecules,   Preparation and  property of  nanocrystalline cellulose/modified
                 2018, 107: 741-747.                               alginate based biodegradable composite film[J].  New  Chemical
            [11]  WEN Q Y, HUANG J H, TANG H Y, et al. Fabricating network-link   Material (化工新型材料), 2015, 43(6): 80-82.
                 acetamiprid-loading micelles based  on  dopamine-functionalized   [26]  BEKIN S, SARMAD S, GÜRKAN K,  et al. Synthesis,
                 alginate and alkyl  polyglucoside to enhance folia deposition and   characterization and bending behavior of electroresponsive sodium
                 retention[J]. Journal of Agricultural and Food Chemistry, 2022,   alginate/poly (acrylic acid) interpenetrating network films under an
                 70(12): 3596-3607.                                electric field stimulus[J]. Sensors and Actuators B: Chemical, 2014,
            [12]  WANG H X (王浩贤). Purification and activity of polymannouronic   202: 878-892.
                 acid and polyguluronic acid[D]. Qingdao: Ocean University of China   [27]  BAI R, YONG H, ZHANG X, et al. Structural characterization and
                 (中国海洋大学), 2012.                                   protective effect of gallic acid grafted  O-carboxymethyl chitosan
            [13]  ABULATEEFEH S R, KHANFAR M A K, Al BAKAIN R Z, et al.   against hydrogen peroxide-induced oxidative damage[J]. International
                 Synthesis and characterization of new derivatives of alginic acid and   Journal of Biological Macromolecules, 2020, 143: 49-59.
                 evaluation of their iron (Ⅲ)-crosslinked beads as potential controlled   [28]  HU Q B, WANG T R, ZHOU M Y, et al. In vitro antioxidant-activity
                 release  matrices[J]. Pharmaceutical Development and Technology,   evaluation  of  gallic-acid-grafted chitosan conjugate synthesized by
                 2014, 19(7): 856-867.                             free-radical-induced grafting method[J]. Journal of Agricultural &
            [14]  XIE M H, HU  B, WANG  Y,  et al. Grafting of gallic  acid onto   Food Chemistry, 2016, 64: 5893-5900.
                 chitosan enhances antioxidant activities and alters rheological   [29]  WU C H, WANG L P, FANG Z X, et al. The effect of the molecular
                 properties of the copolymer[J]. Journal of Agricultural & Food   architecture on the antioxidant properties of chitosan  gallate[J].
                 Chemistry, 2014, 62(37): 9128-9136.               Marine Drugs, 2016, 14: 95-113.
            [15]  WANG  Y  Y, XIE M H, MA G X, et al. The antioxidant and   [30]  ABBASI A M, GUO X B, XIONG F, et al. Comparative assessment
                 antimicrobial activities of  different  phenolic acids grafted onto   of phenolic content and in vitro antioxidant capacity in the pulp and
                 chitosan[J]. Carbohydrate Polymers, 2019, 225: 115238-115244.   peel of mango cultivars[J]. International Journal of Molecular Sciences,
            [16]  ZHANG X F (张喜峰)，CUI J (崔  晶)，WANG W Q (王文琴), et al.   2015, 16(6): 13507-13527.
                 Preparation, antioxidant and lymphocyte proliferation activities of   [31]  CHEN Y, XU K Z, SONG J R, et al. Theoretical study on antioxidant
                 spirulina polysaccharide iron (Ⅲ) complex[J]. Fine Chemicals (精细  activity of five phenolic acids[J]. Food Science, 2011, 32(9): 36-39.
                 化工), 2019, 36(6): 1097-1103.                  [32]  YE X Q (叶小琴). Influence of phenolic acids and flavonols with
            [17]  TANG Y F (唐裕芳), LIANG F (梁帆), SHI Y (石宇), et al.   different structures on their antioxidant effects[D]. Nanchang:
                 Preparation of antioxidative peptides from  Hydrilla verticillata   Nanchang University (南昌大学), 2019.