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中国精品科技期刊2020
于源,刘小芳,苗钧魁,等. 南极磷虾壳聚糖、壳寡糖的制备与品质鉴定[J]. 华体会体育,2021,42(15):1−8. doi: 10.13386/j.issn1002-0306.2020100096.
引用本文: 于源,刘小芳,苗钧魁,等. 南极磷虾壳聚糖、壳寡糖的制备与品质鉴定[J]. 华体会体育,2021,42(15):1−8. doi: 10.13386/j.issn1002-0306.2020100096.
YU Yuan, LIU Xiaofang, MIAO Junkui, et al. Preparation and Quality Identification of Chitosan and Chitooligosaccharide from Antarctic Krill [J]. Science and Technology of Food Industry, 2021, 42(15): 1−8. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2020100096.
Citation: YU Yuan, LIU Xiaofang, MIAO Junkui, et al. Preparation and Quality Identification of Chitosan and Chitooligosaccharide from Antarctic Krill [J]. Science and Technology of Food Industry, 2021, 42(15): 1−8. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2020100096.

南极磷虾壳聚糖、壳寡糖的制备与品质鉴定

Preparation and Quality Identification of Chitosan and Chitooligosaccharide from Antarctic Krill

  • 摘要: 本研究以南极磷虾壳为原料,制备较高品质的壳聚糖与壳寡糖,并对二者的品质进行鉴定。南极磷虾壳经脱钙、脱蛋白处理,探索脱乙酰反应条件(碱溶液浓度、反应温度与反应时间),制备具有较高脱乙酰度的南极磷虾壳聚糖,并对壳聚糖的理化指标进行鉴定;探索酶法降解条件(壳聚糖酶添加量、酶解时间),制备较高纯度的南极磷虾壳寡糖,并对壳寡糖的结构特征进行鉴定。结果表明,使用60%的氢氧化钠于110 ℃脱乙酰处理4 h制备的南极磷虾壳聚糖脱乙酰度为85.74%,粘均分子量为 305.65 kDa,水分含量4.66%,灰分含量0.98%,酸不溶物含量0.40%,各项理化指标均符合食品级壳聚糖的要求;使用壳聚糖酶水解南极磷虾壳聚糖制备壳寡糖,在壳聚糖酶添加量为0.2% (m/V),酶解16 h条件下,南极磷虾壳寡糖产品得率为46.0%,红外光谱与NMR谱图显示了表征壳寡糖结构的全部特征峰,质谱结果显示南极磷虾壳寡糖主要由二糖(GlcN)2、三糖(GlcN)2-GlcNAc与四糖(GlcN)3-GlcNAc构成。本研究通过制备较高品质的壳聚糖与壳寡糖,为南极磷虾壳的高值综合利用与南极磷虾新产品开发提供了技术支持。

     

    Abstract: In this study, Antarctic krill shell was used as raw materials to prepare chitosan and chitooligosaccharide, their quality were also identified. After demineralization and deproteinization of Antarctic krill shell, deacetylation reaction conditions (alkali concentration, reaction temperature and reaction time) were explored to prepare Antarctic krill chitosan with high degree of deacetylation, and the physicochemical properties of chitosan were identified. The enzymatic hydrolysis conditions (chitosanase dosage and hydrolysis time) were explored to prepare high purity chitooligosaccharide, and the structural characteristics were identified. Results showed that Antarctic krill chitosan was finally prepared by 60% of sodium hydroxide deacetylation at 110 ℃ for 4 h, the deacetylation degree was 85.74%, the viscosity average molecular weight was 305.65 kDa, moisture content was 4.66%, ash content was 0.98% and acid insoluble content was 0.40%. The physicochemical properties of Antarctic krill chitosan met the food grade quality. Chitooligosaccharide was prepared by 0.2% (m/V) of chitosanase hydrolysis for 16 h. The yield of chitooligosaccharides from Antarctic krill chitosan was 46.0%. IR and NMR spectra showed all the characteristic signals of chitooligosaccharide. The MS results showed that chitooligosaccharide was mainly composed of disaccharide (GlcN)2, trisaccharide (GlcN)2-GlcNAc and tetrasaccharide (GlcN)3-GlcNAc. In this study, the preparation of high quality chitosan and chitooligosaccharide provided technical support for the comprehensive utilization of Antarctic krill shells and the development of Antarctic krill new products.

     

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