Glucose oxidase|cas:9001-37-0|西域试剂

Glucose oxidase

产品编号：Bellancom-P2902| CAS NO：9001-37-0| 分子式：C₆H₁₂O₆| 分子量：154.120

Glucose oxidase（GOD，葡萄糖氧化酶）是一种氧化还原酶，能通过与细胞内的氧气 (O2)和β-D-葡萄糖反应，生成过氧化氢 (H2O2) 和葡萄糖酸，从而切断癌细胞的营养来源，抑制癌细胞的增殖。

本网站销售的所有产品仅用于工业应用或者科学研究等非医疗目的,不可用于人类或动物的临床诊断或者治疗,非药用,非食用，

货号	包装	价格	库存与货期	购买量	操作
Bellancom-P2902		￥900.00	杭州北京（现货）
Bellancom-P2902		￥1500.00	杭州北京（现货）
Bellancom-P2902		￥3000.00	杭州北京（现货）

增值税发票√顺丰快递√订货电话：18601927057

Glucose oxidase

产品介绍	Glucose oxidase 在食品和饮料工业中用作防腐剂和稳定剂，通常来源于真菌黑曲霉。Glucose oxidase 能与细胞内的葡萄糖和氧气 (O₂) 反应生成过氧化氢 (H₂O₂) 和葡萄糖酸，切断癌细胞的营养来源，从而抑制癌细胞的增殖。
生物活性	Glucose oxidase is used in the food and beverage industry as a preservative and stabilizer and is commonly derived from the fungus Aspergillus niger. Glucose oxidase can react with intracellular glucose and oxygen (O₂) to produce hydrogen peroxide (H₂O₂) and gluconic acid, which can cut off the nutrition source of cancer cells and consequently inhibit their proliferation.
体外研究	Glucose oxidase is a subset of oxidoreductase enzymes that catalyzes the transfer of electrons from an oxidant to a reductant. Glucose oxidases use oxygen as an external electron acceptor that releases hydrogen peroxide (H2 O2). Glucose oxidase has many applications in commercial processes, including improving the color and taste, increasing the persistence of food materials, removing the glucose from the dried egg, and eliminating the oxygen from different juices and beverages^[4]. 西域 has not independently confirmed the accuracy of these methods. They are for reference only.
体内研究
体内研究
性状	Solid
溶解性数据	In Vitro: H₂O : 50 mg/mL (Need ultrasonic) In Vivo: 请根据您的实验动物和给药方式选择适当的溶解方案。以下溶解方案都请先按照 In Vitro 方式配制澄清的储备液，再依次添加助溶剂： ——为保证实验结果的可靠性，澄清的储备液可以根据储存条件，适当保存；体内实验的工作液，建议您现用现配，当天使用；以下溶剂前显示的百分比是指该溶剂在您配制终溶液中的体积占比；如在配制过程中出现沉淀、析出现象，可以通过加热和/或超声的方式助溶 1. 请依序添加每种溶剂： PBS Solubility: 50 mg/mL (Infinity mM); Clear solution; Need ultrasonic *以上所有助溶剂都可在西域网站选购。
运输条件	Room temperature in continental US; may vary elsewhere.
储存方式	Please store the product under the recommended conditions in the Certificate of Analysis.
参考文献	. Konishi T, et al. Safety evaluation of glucose oxidase from Penicillium chrysogenum [published correction appears in Regul Toxicol Pharmacol. 2013 Aug;66(3):300]. Regul Toxicol Pharmacol. 2013;66(1):13-23. [Content Brief] . Leskovac V, et al. Glucose oxidase from Aspergillus niger: the mechanism of action with molecular oxygen, quinones, and one-electron acceptors. Int J Biochem Cell Biol. 2005;37(4):731-750. [Content Brief] . Wang M, et al. Recent Advances in Glucose-Oxidase-Based Nanocomposites for Tumor Therapy. Small. 2019;15(51):e1903895. [Content Brief] [4]. Khatami SH, et al. Glucose oxidase: Applications, sources, and recombinant production [published online ahead of print, 2021 Apr 11]. Biotechnol Appl Biochem. 2021;10.1002/bab.2165. [Content Brief]

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118. [4.036] Yang Wang et al."Degradable Fe3O4-based nanocomposite for cascade reaction-enhanced anti-tumor therapy."RSC Advances.2023 Mar;13(12):7952-7962

117. [4.52] Zhangxu Zhou et al."Multi-point analysis of absorbance for detection of lactose in breast milk using back-propagation neural network."JOURNAL OF FOOD COMPOSITION AND ANALYSIS.2023 Jul;120:105305

116. [9.965] Peiwei Gong et al."Enzyme coordination conferring stable monodispersity of diverse metal–organic frameworks for photothermal/starvation therapy."JOURNAL OF COLLOID AND INTERFACE SCIENCE.2023 Jul;642:612

115. [14.957] He Li et al."Artificial receptor-mediated phototransduction toward protocellular subcompartmentalization and signaling-encoded logic gates."Science Advances.2023 Mar;9(9)

114. [5.518] Ye Zhu et al."Flexible Biosensor Based on Signal Amplification of Gold Nanoparticles-Composite Flower Clusters for Glucose Detection in Sweat."COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS.2023 Jan;:130908

113. [10.383] Chenlei Cai et al."Activity-Based Self-Enriched SERS Sensor for Blood Metabolite Monitoring."ACS Applied Materials & Interfaces.2023;15(4):4895–4902

112. [12.545] Wanqi Jiang et al."Two birds with one stone: An enzyme-regulated ratiometric fluorescent and photothermal dual-mode probe for organophosphorus pesticide detection."BIOSENSORS & BIOELECTRONICS.2023 Jan;:115074

111. [4.501] Ying Zhang et al."MOF-Based G−Quadruplex/Hemin DNAzymes for Cascade Reaction."Catalysts.2023 Jan;13(1):81

110. [10.383] Shizhuo Zhang et al."Epidermal Patch with Biomimetic Multistructural Microfluidic Channels for Timeliness Monitoring of Sweat."ACS Applied Materials & Interfaces.2022;XXXX(XXX):XXX-XXX

109. [5.743] Tao Tian et al."A Catechol-Meter Based on Conventional Personal Glucose Meter for Portable Detection of Tyrosinase and Sodium Benzoate."Biosensors-Basel.2022 Dec;12(12):1084

108. [4.478] Wang Yinghui et al."Competitive ELISA based on pH-responsive persistent luminescence nanoparticles for autofluorescence-free biosensor determination of ochratoxin A in cereals."ANALYTICAL AND BIOANALYTICAL CHEMISTRY.2023 Feb;:1-11

107. [4.927] Kanglin Pei et al."Ultrarapid Microwave-Assisted Synthesis of Fluorescent Silver Coordination Polymer Nanoparticles and Its Application in Detecting Alkaline Phosphatase Activity."MOLECULES.2023 Jan;28(4):1892

106. [IF=4.831] Peipei Huang et al."Rapidly and ultra-sensitive colorimetric detection of H2O2 and glucose based on ferrous-metal organic framework with enhanced peroxidase-mimicking activity."SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY.2023 Jan;28

105. [IF=9.231] Guangzheng Wang et al."Enhancing the technofunctionality of γ-aminobutyric acid enriched germinated wheat by modification of arabinoxylan, gluten proteins and liquid lamella of dough."FOOD CHEMISTRY.2023 Mar;404:134523

104. [IF=9.136] Ziqi Zhao et al."Fenton-like reaction of glucose oxidase-glucose@Kaolin coupled with green rust: A framework triggering FeⅣ=O in refractory pollutants degradation."SEPARATION AND PURIFICATION TECHNOLOGY.2022 Nov;301:122061

103. [IF=8.663] Zicao Peng et al."Directional sweat transport window based on hydrophobic/hydrophilic Janus fabric enables continuous transfer and monitoring of sweat."Applied Materials Today.2022 Dec;29:101623

102. [IF=4.229] Wei-Yi Zhang et al."An Economical and Portable Paper-Based Colorimetric Sensor for the Determination of Hydrogen Peroxide-Related Biomarkers."Chemosensors.2022 Aug;10(8):335

101. [IF=3.705] Tao Tian et al."Ascorbate oxidase enabling glucometer readout for portable detection of hydrogen peroxide."ENZYME AND MICROBIAL TECHNOLOGY.2022 Jul;:110096

100. [IF=4.336] Bichong Luo et al."CuS NP-based nanocomposite with photothermal and augmented-photodynamic activity for magnetic resonance imaging-guided tumor synergistic therapy."JOURNAL OF INORGANIC BIOCHEMISTRY.2022 Jul;:111940

99. [IF=5.518] Li-Jing Peng et al."The peroxidase-like catalytic activity of in situ prepared cobalt carbonate and its applications in colorimetric detection of hydrogen peroxide, glucose and ascorbic acid."COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS

98. [IF=11.322] Qian Wang et al."Conductive hydrogel dressings based on cascade reactions with photothermal effect for monitoring and treatment of diabetic wounds."COMPOSITES PART B-ENGINEERING.2022 Aug;242:110098

97. [IF=6.14] Yujun Wang et al."Introduction of Cascade Biocatalysis Systems into Metal–Organic Aerogel Nanostructures for Colorimetric Sensing of Glucose."ACS Applied Nano Materials.2022;XXXX(XXX):XXX-XXX

96. [IF=7.59] Hanchun Yao et al."Cascade nanozymes based on the “butterfly effect” for enhanced starvation therapy through the regulation of autophagy."Biomaterials Science.2022 Jun;:

95. [IF=6.321] Zhimin Luo et al."Enzyme Encapsulation by Facile Self-Assembly Silica-Modified Magnetic Nanoparticles for Glucose Monitoring in Urine."Pharmaceutics. 2022 Jun;14(6):1154

94. [IF=2.527] Jin Zhang et al."Self-assembled nanovehicle for intracellular enzyme-triggered antitumor drug release."MACROMOLECULAR CHEMISTRY AND PHYSICS. 2022 Apr 04

93. [IF=6.321] Guangqu Liu et al."Multivesicular Liposomes for Glucose-Responsive Insulin Delivery."Pharmaceutics. 2022 Jan;14(1):21

92. [IF=5.875] Yu Cheng et al."FC-BBR/IND-induced glucose oxidase nanodrugs for targeted combination therapy."Int J Pharmaceut. 2022 Jan;611:121349

91. [IF=12.479] Xing-Lan Ding et al."Multifunctional liquid metal-based nanoparticles with glycolysis and mitochondrial metabolism inhibition for tumor photothermal therapy."Biomaterials. 2022 Feb;281:121369

90. [IF=9.229] Hao Zhao et al."Metal Nanoparticles@Covalent Organic Framework@Enzymes: A Universal Platform for Fabricating a Metal–Enzyme Integrated Nanocatalyst."Acs Appl Mater Inter. 2022;XXXX(XXX):XXX-XXX

89. [IF=6.558] Zhongzeng Zhou et al."Wireless USB-like electrochemical platform for individual electrochemical sensing in microdroplets."Anal Chim Acta. 2022 Mar;1197:339526

88. [IF=6.498] Zefeng Li et al."Green rust (GR) and glucose oxidase (GOX) based Fenton-like reaction: Capacity of sustainable release, promoted conversion of glucose through GOX-iron and pH self-adjustment."Environ Res. 2022 May;208:112656

87. [IF=9.229] Xiao Hong et al."Hybrid Janus Membrane with Dual-Asymmetry Integration of Wettability and Conductivity for Ultra-Low-Volume Sweat Sensing."Acs Appl Mater Inter. 2022;XXXX(XXX):XXX-XXX

86. [IF=6.057] Yujun Cheng et al."The construction of molecularly imprinted electrochemical biosensor for selective glucose sensing based on the synergistic enzyme-enzyme mimic catalytic system."Talanta. 2022 May;242:123279

85. [IF=6.953] Jiarong Zhang et al.Self-assembled recombinant camel serum albumin nanoparticles-encapsulated hemin with peroxidase-like activity for colorimetric detection of hydrogen peroxide and glucose.Int J Biol Macromol. 2021 Dec;193:2103

84. [IF=2.647] Xu Jiawei et al."TiO2/CeO2-CePO4-decorated enzymatic glucose biosensors operating in oxygen-restrictive environments."J Solid State Electr. 2021 Jul;25(7):1937-1947

83. [IF=2.896] Manman Lu et al."Gold nanoparticle etching induced by an enzymatic-like reaction for the colorimetric detection of hydrogen peroxide and glucose."Anal Methods-Uk. 2019 Sep;11(37):4829-4834

82. [IF=2.896] Dan Zhu et al."Synthesis of catalytically active peroxidase-like Fe-doped carbon dots and application in ratiometric fluorescence detection of hydrogen peroxide and glucose."Anal Methods-Uk. 2019 May;11(20):2663-2668

81. [IF=3.223] Ke Yang et al."Using Transparent Adhesive Tape as New Substrate for Integrated Flexible Enzymatic Sensor: Good Adhesion and Better Printability."Electroanal. 2021 Jun;33(6):1668-1677

80. [IF=3.366] Qu Fei et al."Fluorescent Detection of 2,4-Dichlorophenoxyacetic Acid in Food Samples Based on Covalent Organic Frameworks and MnO2 Nanosheets."Food Anal Method. 2020 Oct;13(10):1842-1851

79. [IF=3.493] Hao Zhang et al."Glucose oxidase-mediated sodium alginate gelation: Equipment-Free detection of glucose in fruit samples."Enzyme Microb Tech. 2021 Aug;148:109805

78. [IF=3.591] Guoning Chen et al."Fluorescent biosensor based on magnetic cross-linking enzyme aggregates/CdTe quantum dots for the detection of H2O2-bioprecursors."New J Chem. 2020 Oct;44(41):17984-17992

77. [IF=3.72] Huajiao Liu et al."Compartmentalization of Biocatalysts by Immobilizing Bienzyme in Hollow ZIF-8 for Colorimetric Detection of Glucose and Phenol."Ind Eng Chem Res. 2020;59(1):42–51

76. [IF=4.098] Ting Zhou et al."Fluorescence detections of hydrogen peroxide and glucose with polyethyleneimine-capped silver nanoclusters."Spectrochim Acta A. 2021 Jan;244:118881

75. [IF=4.098] Aihui Liang et al."A facile and sensitive fluorescence assay for glucose via hydrogen peroxide based on MOF-Fe catalytic oxidation of TMB."Spectrochim Acta A. 2022 Jan;265:120376

74. [IF=4.142] Li Cong et al."A fluorescence strategy for monitoring α-glucosidase activity and screening its inhibitors from Chinese herbal medicines based on Cu nanoclusters with aggregation-induced emission."Anal Bioanal Chem. 2021 Apr;413(9):2553-2563

73. [IF=4.142] Qu Fei et al."Ratiometric detection of alkaline phosphatase based on aggregation-induced emission enhancement."Anal Bioanal Chem. 2019 Nov;411(28):7431-7440

72. [IF=4.39] Xucan Yuan et al."Redox-induced target-dependent ratiometric fluorescence sensing strategy and logic gate operation for detection of α-glucosidase activity and its inhibitor."Dalton T. 2021 Jul;50(27):9426-9437

71. [IF=4.464] Rui Feng et al."A long-term stable and flexible glucose sensor coated with poly(ethylene glycol)-modified polyurethane."J Electroanal Chem. 2021 Aug;895:115518

70. [IF=4.616] Guoning Chen et al."Facile one-step targeted immobilization of an enzyme based on silane emulsion self-assembled molecularly imprinted polymers for visual sensors."Analyst. 2019 Dec;145(1):268-276

69. [IF=4.616] Meng-Meng Liu et al."Improving quantitative control and homogeneous distribution of samples on paper-based analytical devices via drop-on-demand inkjet printing."Analyst. 2019 Jun;144(13):4013-4023

68. [IF=4.821] Weishuai Ma et al."Clinically colorimetric diagnostics of blood glucose levels based on vanadium oxide quantum dots enzyme mimics."Microchem J. 2020 Mar;153:104352

67. [IF=4.821] Yan Niu et al."A “turn-on” fluorescent probe for ultra-sensitive detection of β-galactosidase."Microchem J. 2021 Jul;166:106205

66. [IF=4.821] Xucan Yuan et al."Fluorescence and scattering based dual-optical signals ratiometric sensing and logic gate device for acetylcholinesterase activity assay."Microchem J. 2021 Nov;170:106768

65. [IF=4.952] Fan Xiao et al."Gluten development and water distribution in bread dough influenced by bran components and glucose oxidase."Lwt Food Sci Technol. 2021 Feb;137:110427

64. [IF=5.268] Wenning Yang et al."A colorimetric strategy for ascorbic acid sensing based on the peroxidase-like activity of core-shell Fe3O4/CoFe-LDH hybrid."Colloid Surface B. 2020 Apr;188:110742

63. [IF=5.316] Wenning Yang et al."Biomass-derived hierarchically porous CoFe-LDH/CeO2hybrid with peroxidase-like activity for colorimetric sensing of H2O2 and glucose."J Alloy Compd. 2020 Jan;815:152276

62. [IF=5.467] Wenning Yang et al."Bioinspired hierarchical CoAl-LDH/MFe2O4(Ni, Zn, Co) as peroxidase mimics for colorimetric detection of glucose."Appl Clay Sci. 2019 Nov;181:105238

61. [IF=5.833] Wang Yan et al."Hemin-porous g-C3N4 hybrid nanosheets as an efficient peroxidase mimic for colorimetric and visual determination of glucose."Microchim Acta. 2019 Jul;186(7):1-10

60. [IF=5.833] Yang Fencheng et al."Fe/C magnetic nanocubes with enhanced peroxidase mimetic activity for colorimetric determination of hydrogen peroxide and glucose."Microchim Acta. 2019 Jul;186(7):1-8

59. [IF=6.558] Tianran Lin et al."Multicolor and photothermal dual-mode assay of alkaline phosphatase based on the UV light-assisted etching of gold nanorods."Anal Chim Acta. 2021 Oct;1181:338926

58. [IF=7.393] Siqi Xie et al."AIE-active metal–organic frameworks: facile preparation, tunable light emission, ultrasensitive sensing of copper(II) and visual fluorescence detection of glucose."J Mater Chem C. 2020 Aug;8(30):10408-10415

57. [IF=7.46] Qian Su et al."Dual-emissive fluorescence and phosphorescence detection of cholesterol and glucose based on carbon dots-cyanuric acid complex quenched by MnO2 nanosheets."Sensor Actuat B-Chem. 2021 May;335:129715

56. [IF=7.46] Dan Li et al."A simple and sensitive assay of alkaline phosphatase activity in serum by fluorescent silicon nanoparticles based on inner filter effect."Sensor Actuat B-Chem. 2020 Mar;307:127589

55. [IF=7.46] Yangyang Zhao et al."Photothermal-enhanced tandem enzyme-like activity of Ag2-xCuxS nanoparticles for one-step colorimetric glucose detection in unprocessed human urine."Sensor Actuat B-Chem. 2020 Feb;305:127420

54. [IF=7.46] Tao Chen et al."Specific detection of monosaccharide by dual-channel sensing platform based on dual catalytic system constructed by bio-enzyme and bionic enzyme using molecular imprinting polymers."Sensor Actuat B-Chem. 2020 Oct;320:128430

53. [IF=8.198] Xiqing Cheng et al."Metal–Organic Framework as a Compartmentalized Integrated Nanozyme Reactor to Enable High-Performance Cascade Reactions for Glucose Detection."Acs Sustain Chem Eng. 2020;8(48):17783–17790

52. [IF=8.897] Cheng Xiqing et al."One-step synthesis of thermally stable artificial multienzyme cascade system for efficient enzymatic electrochemical detection."Nano Res. 2019 Dec;12(12):3031-3036

51. [IF=9.229] Xiqing Cheng et al."Biomimetic Metal–Organic Framework Composite-Mediated Cascade Catalysis for Synergistic Bacteria Killing."Acs Appl Mater Inter. 2020;12(33):36996–37005

50. [IF=10.618] Tao Chen et al."A molecularly imprinted nanoreactor with spatially confined effect fabricated with nano-caged cascaded enzymatic system for specific detection of monosaccharides."Biosens Bioelectron. 2021 Sep;188:113355

49. [IF=10.618] Yu Cui et al."A ratiometric fluorescence platform based on boric-acid-functional Eu-MOF for sensitive detection of H2O2 and glucose."Biosens Bioelectron. 2019 Jun;135:208

48. [IF=16.806] Jiangang Liu et al."A Biomimetic Plasmonic Nanoreactor for Reliable Metabolite Detection."Adv Sci. 2020 May;7(10):1903730

47. [IF=3.361] Yao-hui Wu et al."The screening of metal ion inhibitors for glucose oxidase based on the peroxidase-like activity of nano-Fe3O4."Rsc Adv. 2017 Oct;7(75):47309-47315

46. [IF=4.098] Dongmei Yao et al."A facile SERS strategy for quantitative analysis of trace glucose coupling glucose oxidase and nanosilver catalytic oxidation of tetramethylbenzidine."Spectrochim Acta A. 2019 Jun;216:146

45. [IF=4.142] Wang Xiaoyan et al."A novel switchable fluorescent sensor for facile and highly sensitive detection of alkaline phosphatase activity in a water environment with gold/silver nanoclusters."Anal Bioanal Chem. 2019 Feb;411(5):1009-1017

44. [IF=4.142] Qi Guohua et al."Glucose oxidase probe as a surface-enhanced Raman scattering sensor for glucose."Anal Bioanal Chem. 2016 Oct;408(26):7513-7520

43. [IF=4.464] Fang Yuan et al."Split photoelectrochemistry for the immunoassay of α-fetoprotein based on graphitic carbon nitride."J Electroanal Chem. 2016 Dec;783:226

42. [IF=4.952] Meng Niu et al."Comparative study on protein polymerization in whole-wheat dough modified by transglutaminase and glucose oxidase."Lwt Food Sci Technol. 2018 Apr;90:323

41. [IF=5.268] Tingting Liu et al."Facile strategy to prepare a metalloporphyrin-based hydrophilic porous organic polymer with enhanced peroxidase-like activity and high stability for colorimetric detection of H2O2 and glucose."Colloid Surface B. 2019 Jun;178:137

40. [IF=5.339] Dongqin Yang et al."A nanocluster-based fluorescent sensor for sensitive hemoglobin detection."Talanta. 2017 Aug;170:233

39. [IF=5.339] Fangmei Zhang et al."Rapid aqueous synthesis of CuInS/ZnS quantum dots as sensor probe for alkaline phosphatase detection and targeted imaging in cancer cells."Talanta. 2018 Nov;189:411

38. [IF=5.833] Zhang Fangmei et al."Enzymatic determination of uric acid using water-soluble CuInS/ZnS quantum dots as a fluorescent probe."Microchim Acta. 2018 Nov;185(11):1-8

37. [IF=6.057] Meng-Meng Liu et al."A colorimetric assay for sensitive detection of hydrogen peroxide and glucose in microfluidic paper-based analytical devices integrated with starch-iodide-gelatin system."Talanta. 2019 Aug;200:511

36. [IF=6.057] Dalong Yu et al."Iodophenol blue-enhanced luminol chemiluminescence and its application to hydrogen peroxide and glucose detection."Talanta. 2016 Jan;146:655

35. [IF=7.1] Fangmei Zhang et al."Dopamine-modified Mn-doped ZnS quantum dots fluorescence probe for the sensitive detection of tyrosinase in serum samples and living cells imaging."Sensor Actuat B-Chem. 2018 Mar;256:1069

34. [IF=7.46] Wei Liu et al."Fluorometric and colorimetric sensor array for discrimination of glucose using enzymatic-triggered dual-signal system consisting of Au@Ag nanoparticles and carbon nanodots."Sensor Actuat B-Chem. 2018 Jul;265:310

33. [IF=7.79] Yaping Zhong et al."Water-soluble MoS2 quantum dots for facile and sensitive fluorescence sensing of alkaline phosphatase activity in serum and live cells based on the inner filter effect."Nanoscale. 2018 Nov;10(45):21298-21306

32. [IF=9.594] Fushuang Niu et al."Electrochemically generated green-fluorescent N-doped carbon quantum dots for facile monitoring alkaline phosphatase activity based on the Fe3+-mediating ON-OFF-ON-OFF fluorescence principle."Carbon. 2018 Feb;127:340

31. [IF=13.273] Jian Chen et al."pH-responsive catalytic mesocrystals for chemodynamic therapy via ultrasound-assisted Fenton reaction."Chem Eng J. 2019 Aug;369:394

30. [IF=13.281] Ming-Kang Zhang et al."Tumor Starvation Induced Spatiotemporal Control over Chemotherapy for Synergistic Therapy."Small. 2018 Dec;14(50):1803602

29. Zhang, Fangmei, et al. "Dopamine-modified Mn-doped ZnS quantum dots fluorescence probe for the sensitive detection of tyrosinase in serum samples and living cells imaging." Sensors and Actuators B: Chemical 256 (2018): 1069-1077.https://doi.org/10.1016/j.s

28. Dan Li, Yanxiao Jiang, Sihan Chen, Qingnan Zhao, Yue Zhang, Wei Wang, Ying Sun, Pinyi Ma, Daqian Song, Xinghua Wang, A simple and sensitive assay of alkaline phosphatase activity in serum by fluorescent silicon nanoparticles based on inner filter effect, S

27. Wang, Yan, et al. "Hemin-porous gC 3 N 4 hybrid nanosheets as an efficient peroxidase mimic for colorimetric and visual determination of glucose." Microchimica Acta 186.7 (2019): 1-10.

26. Ma, Weishuai, et al. "Clinically colorimetric diagnostics of blood glucose levels based on vanadium oxide quantum dots enzyme mimics." Microchemical Journal 153 (2020): 104352.https://doi.org/10.1016/j.microc.2019.104352

25. Wang, X., Liu, Z., Zhao, W. et al. A novel switchable fluorescent sensor for facile and highly sensitive detection of alkaline phosphatase activity in a water environment with gold/silver nanoclusters. Anal Bioanal Chem 411, 1009–1017 (2019). https://doi.o

24. Niu, Meng, et al. "Comparative study on protein polymerization in whole-wheat dough modified by transglutaminase and glucose oxidase." LWT 90 (2018): 323-330.https://doi.org/10.1016/j.lwt.2017.12.046

23. Meng-Meng Liu, Xin Lian, Hui Liu, Zi-Zhen Guo, Hui-Hong Huang, Yun Lei, Hua-Ping Peng, Wei Chen, Xin-Hua Lin, Ai-Lin Liu, Xing-Hua Xia, A colorimetric assay for sensitive detection of hydrogen peroxide and glucose in microfluidic paper-based analytical dev

22. Xie, Siqi, et al. "AIE-active metal–organic frameworks: facile preparation, tunable light emission, ultrasensitive sensing of copper (ii) and visual fluorescence detection of glucose." Journal of Materials Chemistry C 8.30 (2020): 10408-10415.DOI https://d

21. Liu, Tingting, et al. "Facile strategy to prepare a metalloporphyrin-based hydrophilic porous organic polymer with enhanced peroxidase-like activity and high stability for colorimetric detection of H2O2 and glucose." Colloids and Surfaces B: Biointerfaces

20. Liu, Wei, et al. "Fluorometric and colorimetric sensor array for discrimination of glucose using enzymatic-triggered dual-signal system consisting of Au@ Ag nanoparticles and carbon nanodots." Sensors and Actuators B: Chemical 265 (2018): 310-317.https://d

19. Qi, Guohua, et al. "Glucose oxidase probe as a surface-enhanced Raman scattering sensor for glucose." Analytical and bioanalytical chemistry 408.26 (2016): 7513-7520.

18. Xiao, Fan, et al. "Gluten development and water distribution in bread dough influenced by bran components and glucose oxidase." LWT 137 (2021): 110427.https://doi.org/10.1016/j.lwt.2020.110427

17. Yu, Dalong, et al. "Iodophenol blue-enhanced luminol chemiluminescence and its application to hydrogen peroxide and glucose detection." Talanta 146 (2016): 655-661.https://doi.org/10.1016/j.talanta.2015.06.059

16. Cheng, Xiqing, et al. "Metal–Organic Framework as a Compartmentalized Integrated Nanozyme Reactor to Enable High-Performance Cascade Reactions for Glucose Detection." ACS Sustainable Chemistry & Engineering 8.48 (2020): 17783-17790.https://doi.org/10.1021/

15. Cheng, X., Zhou, J., Chen, J. et al. One-step synthesis of thermally stable artificial multienzyme cascade system for efficient enzymatic electrochemical detection. Nano Res. 12, 3031–3036 (2019). https://doi.org/10.1007/s12274-019-2548-8

14. Qu, Fei, et al. "Fluorescent Detection of 2, 4-Dichlorophenoxyacetic Acid in Food Samples Based on Covalent Organic Frameworks and MnO 2 Nanosheets." Food Analytical Methods 13.10 (2020): 1842-1851.https://doi.org/10.1007/s12161-020-01807-2

13. 田双起,张锦霞,胡浩杰,王新伟,王彦波.远红外制备甘薯生全粉对面团流变学特性影响[J].食品工业,2020,41(09):55-59.

12. 孔晓雪, 李蕴涵, 李柚,等. 葡萄糖氧化酶和谷氨酰胺转氨酶对发酵麦麸面团加工品质的影响[J]. 食品工业科技, 2019, 40(9).

11. 王新坤, 刘超, 杨清梅,等. 青稞籽粒β-葡聚糖含量及不同加工方式对其变化的影响[J]. 山东农业科学, 2019, 051(002):124-130.

10. 王新坤, 王月明, 刘超,等. 青稞碳水化合物构成与血糖稳定品质的关系[J]. 中国粮油学报, 2019(8):34-41.

9. 孔亚访, 樊爱萍. 金纳米簇增强的化学发光反应及在葡萄糖检测中的应用[J]. 分析科学学报, 2018.

8. 沈王庆, 陈蓉, 赵秀蓉,等. 葡萄糖氧化酶和柠檬汁对甘蔗汁保鲜效果的研究[J]. 天然产物研究与开发, 2016(28):1533.

7. 王菲菲, 高山, 牟德华. 脱糖方式对山楂中特征成分含量的影响[J]. 食品工业, 2020(3):170-175.

6. 常波, 叶丹, 王敏,等. 磁性碳纳米管修饰POD-GOD双酶系统葡萄糖传感器的研究[J]. 成都师范学院学报, 2018, 034(009):96-103.

5. 熊俐, 曹新志, 吕开斌,等. 复合菌和酶制剂在麸皮面包品质改良上的应用[J]. 食品研究与开发, 2013, 000(016):22-25.

4. 王誉涵, 林家亮, 徐宏. 基于一种新型二茂铁修饰方法的葡萄糖氧化酶电极研究[J]. 分析试验室, 2018, 37(12):1380-1383.

3. 向宇鲁群谭军张久亮刘睿朱和平.响应面分析优化枸杞浑浊汁饮料稳定工艺研究[J].核农学报 2017 31(11):2154-2163.

2. 周冉宋玉品刘晓妹等. 仿生硅化固定化葡萄糖氧化酶与辣根过氧化酶研究[J]. 食品工业科技 2017 38(002):221-225.

1. 张志国王硕生庆海.HPLC-ELSD法检测液态奶中的低聚半乳糖[J].食品与机械 2011 27(03):68-70+75.

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