食品科学 ›› 2022, Vol. 43 ›› Issue (12): 66-65.doi: 10.7506/spkx1002-6630-20210621-247

• 食品化学 • 上一篇    

硒化低分子果胶的制备与结构表征及抗氧化活性

陶雯,张瑞,杨宁,吴慕慈,何静仁   

  1. (1.武汉轻工大学硒科学与工程现代产业学院,湖北 武汉 430023;2.武汉轻工大学食品科学与工程学院,湖北 武汉 430023)
  • 发布日期:2022-07-01
  • 基金资助:
    湖北省技术创新专项重大项目(2019ABA113);湖北省重点研发计划项目(2020BBA043)

Preparation, Structure Characterization and Antioxidant Activity of Selenylated Low-Molecular-Mass Pectin

TAO Wen, ZHANG Rui, YANG Ning, WU Muci, HE Jingren   

  1. (1. School of Modern Industry for Selenium Science and Engineering, Wuhan Polytechnic University, Wuhan 430023, China; 2. School of Food Science and Engineering, Wuhan Polytechnic University, Wuhan 430023, China)
  • Published:2022-07-01

摘要: 以苹果果胶为原料,经果胶酶酶解、硝酸-亚硒酸钠法超声辅助制备硒化低分子果胶,并以果胶、硒化果胶、低分子果胶作对照,采用体积排阻色谱-示差检测器-激光光散射联用技术、离子色谱法、傅里叶变换红外光谱、紫外光谱、热重分析、粒径和电位对其结构进行表征;采用氢化物-原子荧光光谱法检测硒含量,咔唑硫酸法检测半乳糖醛酸含量;利用体外实验研究其抗氧化活性以及对α-葡萄糖苷酶的抑制作用。结果表明:硒化低分子果胶的得率为(78.07±1.66)%,硒含量达(148.29±1.97)μg/g,半乳糖醛酸含量为(68.02±3.21)%;相对分子质量集中在8.905×103,在单糖组成上,硒化低分子果胶与果胶、硒化果胶、低分子果胶相同,主要由鼠李糖、阿拉伯糖、半乳糖、葡萄糖、木糖、半乳糖醛酸组成,但含量存在一定差异,红外光谱分析表明结构中含有Se=O、C—O—Se键,实现了低分子果胶的硒化。紫外光谱在约200 nm波长处具有果胶多糖的吸收峰,经过酶解与硒化处理后,热稳定性降低,分散度变高,体系稳定性增强。果胶、硒化果胶、低分子果胶、硒化低分子果胶对羟自由基、超氧阴离子自由基的清除作用以及α-葡萄糖苷酶活力的抑制作用均较好,呈剂量效应关系,且硒化低分子果胶效果最强。

关键词: 硒化低分子果胶;制备;表征;活性

Abstract: In this study, apple pectin was used as a raw material to prepare selenylated low-molecular-mass pectin by hydrolysis with pectinase followed by ultrasonic-assisted nitric acid-sodium selenite (HNO3-Na2SeO3) treatment. Using pectin, selenylated pectin and low-molecular-mass pectin as the controls, the structure of selenylated low-molecular-mass pectin was determined using size exclusion chromatography with refractive index and multi-angle laser light scattering detection (SEC-RI-MALLS), ion chromatography (IC), Fourier transform infrared (FTIR) spectroscopy, ultraviolet (UV) spectroscopy, thermal gravimetric analysis (TGA), particle size and potential. The selenium content was measured by hydride generation atomic fluorescence spectrometry (HG-AFS), and the galacturonic acid content was detected by the carbazole-sulfuric acid method. The in vitro antioxidant activity and α-glucosidase inhibitory effect were characterized. The results showed that the yield of selenylated low-molecular-mass pectin was (78.07 ± 1.66)%, with selenium content of (148.29 ± 1.97) μg/g, and galacturonic acid content of (68.02 ± 3.21)%. The relative molecular mass was concentrated at 8.905 × 103. In terms of monosaccharide composition, selenylated low-molecular-mass pectin was the same as pectin, selenylated pectin and low-molecular-mass pectin. They were mainly composed of rhanose, arabinose, galactose, glucose, xylose and galacturonic acid, but there were differences in the molar ratio among monosaccharides. Se=O and C–O–Se bonds were found in the structure by FTIR analysis, suggesting the formation of selenylated low-molecular-mass pectin. An absorption peak was found at around 200 nm in the UV spectrum, which is characteristic of pectin polysaccharides. After enzymatic hydrolysis and selenylation treatment, the thermal stability of pectin decreased, the degree of dispersion became higher and the stability of the system was enhanced. Meanwhile, pectin, selenylated pectin, low-molecular-mass pectin, and selenylated low-molecular-mass pectin had high scavenging effects on hydroxyl and superoxide anion radicals and α-glucosidase inhibitory effect in a dose-dependent manner, and selenylated low-molecular-mass pectin had the strongest effect.

Key words: selenylated low-molecular-mass pectin; preparation; characterization; activity

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