Enhanced Fermentable Sugar Production from Enteromorpha Polysaccharides by the Crude Enzymes of Vibrio sp. H11.

IF 1.2 Q2 Biochemistry, Genetics and Molecular Biology
Jin Li, Yan Xu, Tao Peng, Mingqi Zhong, Zhong Hu
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引用次数: 1

Abstract

In recent years, large-scale outbreaks of the green alga Enteromorpha prolifera in China's offshore waters have posed a serious threat. This study aimed to improve Enteromorpha polysaccharide (EP) enzymatic sugar production using the hydrolase system of Vibrio sp. H11, an EP-utilizing microbial strain. Strain H11 was found to contain 711 carbohydrate-related genes, and 259 genes belong to glycoside hydrolases that have the potential to hydrolyze EP. To maximize the capability of strain H11 to hydrolyze EP, both the culture medium and the composition were optimized. Response surface methodology analysis showed that maximal enzymatic production from strain H11 was 8.43 U/mL after 26-h incubation. When 50 g/L of EP were treated with crude H11 enzyme, the concentration of fermentation sugars increased by 36.12%. Under these conditions, the hydrolysates were capable of generating 3,217 mL/L of biogas and 6.74 g/L of biosolvents, with increases of 28.17 and 7.29%, respectively, compared to controls. The combined application of the H11 enzymatic system and anaerobic fermentation has the potential to improve the comprehensive application of EP.

利用H11弧菌粗酶提高浒苔多糖发酵产糖的研究。
近年来,中国近海海域大规模爆发的浒苔(Enteromorpha prolifera)造成了严重威胁。本研究旨在利用利用肠胚多糖的微生物Vibrio sp. H11的水解酶体系提高肠胚多糖(EP)酶解糖的产量。菌株H11含有711个碳水化合物相关基因,其中259个基因属于可能水解EP的糖苷水解酶。为了使菌株H11水解EP的能力最大化,对培养基和组成进行了优化。响应面法分析表明,菌株H11在培养26 h后酶产率最高,为8.43 U/mL。粗H11酶处理50 g/L EP时,发酵糖浓度提高了36.12%。在此条件下,水解产物可产生3217 mL/L的沼气和6.74 g/L的生物溶剂,分别比对照增加28.17%和7.29%。H11酶体系与厌氧发酵的联合应用,有可能提高EP的综合利用水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Molecular Microbiology and Biotechnology
Journal of Molecular Microbiology and Biotechnology 生物-生物工程与应用微生物
CiteScore
3.90
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: We are entering a new and exciting era of microbiological study and application. Recent advances in the now established disciplines of genomics, proteomics and bioinformatics, together with extensive cooperation between academic and industrial concerns have brought about an integration of basic and applied microbiology as never before.
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