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利用枯草芽孢杆菌NIOA181(一种与大型藻类相关的细菌)的岩藻依聚糖酶酶解产生的岩藻依聚糖寡糖的益生元潜力。

Prebiotic potential of enzymatically produced ulvan oligosaccharides using ulvan lyase of Bacillus subtilis, NIOA181, a macroalgae-associated bacteria.

作者信息

Jagtap Ashok S, Parab Ashutosh S, Manohar Cathrine S, Kadam Nitin S

机构信息

Biological Oceanography Division, CSIR-National Institute of Oceanography, Dona Paula, Goa, India.

School of Earth, Ocean and Atmospheric Sciences, Goa University, Taleigao Plateau, Goa, India.

出版信息

J Appl Microbiol. 2022 Nov;133(5):3176-3190. doi: 10.1111/jam.15775. Epub 2022 Aug 22.

DOI:10.1111/jam.15775
PMID:35957555
Abstract

AIMS

To characterize the polysaccharide hydrolyzing potential of macroalgae-associated bacteria (MABs) for the enzymatic production of oligosaccharides and determining their prebiotic potential.

METHODS AND RESULTS

Approximately 400 MABs were qualitatively characterized for polysaccharide hydrolyzing activity. Only about 5%-15% of the isolates were found to have the potential for producing porphyranase, alginate lyase and ulvan lyase enzymes, which were quantified in specific substrate broths. One potential MAB, Bacillus subtilis, NIOA181, isolated from green macroalgae, showed the highest ulvan lyase activity. This enzyme was partially purified and used to hydrolyse ulvan into ulvan oligosaccharides. Structural characterization of ulvan oligosaccharides showed that they are predominantly composed of di-, tri- and tetrasaccharide units. Results showed that the enzymatically produced ulvan oligosaccharides exhibited prebiotic activity by promoting the growth of probiotic bacteria and suppressing the enteric pathogens, which were higher than the ulvan polysaccharide and equivalent to commercial fructooligosaccharides.

CONCLUSIONS

A potential MAB, NIOA181, producing ulvan lyase was isolated and used for the production of ulvan oligosaccharides with prebiotic activity.

SIGNIFICANCE AND IMPACT OF THE STUDY

Rarely studied ulvan oligosaccharides with prebiotic activity can be widely used as an active pharmaceutical ingredient in nutraceutical and other healthcare applications.

摘要

目的

表征大型藻类相关细菌(MABs)的多糖水解潜力,用于酶法生产低聚糖并确定其益生元潜力。

方法与结果

对约400株MABs进行多糖水解活性的定性表征。仅约5%-15%的分离株被发现具有产生紫菜聚糖酶、藻酸盐裂解酶和褐藻糖胶裂解酶的潜力,这些酶在特定底物肉汤中进行了定量。从绿色大型藻类中分离出的一株潜在MAB,枯草芽孢杆菌NIOA181,表现出最高的褐藻糖胶裂解酶活性。该酶经部分纯化后用于将褐藻糖胶水解为褐藻糖胶低聚糖。褐藻糖胶低聚糖的结构表征表明,它们主要由二糖、三糖和四糖单元组成。结果表明,酶法生产的褐藻糖胶低聚糖通过促进益生菌生长和抑制肠道病原体表现出益生元活性,其活性高于褐藻糖胶多糖且与商业低聚果糖相当。

结论

分离出一株产生褐藻糖胶裂解酶的潜在MAB,NIOA181,并用于生产具有益生元活性的褐藻糖胶低聚糖。

研究的意义与影响

具有益生元活性的褐藻糖胶低聚糖此前很少被研究,可广泛用作营养保健品和其他医疗保健应用中的活性药物成分。

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