Genome Sequencing-Based Mining and Characterization of a Novel Alginate Lyase from Vibrio alginolyticus S10 for Specific Production of Disaccharides

• Published in: Marine drugs Vol. 21; no. 11; p. 564
• Main Authors: Shu, Zhiqiang, Wang, Gongming, Liu, Fang, Xu, Yingjiang, Sun, Jianan, Hu, Yang, Dong, Hao, Zhang, Jian
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.11.2023
• Subjects: Alginate lyase; alginate oligosaccharide; Alginic acid; Amino acids; Bacteria; complete genome sequencing; Disaccharides; Enzymes; Gene sequencing; Genes; Genomes; heterologous expression; Hydrolysis; Intestine; Intestines; Lyases; Marine invertebrates; Microorganisms; Molecular weight; Oligosaccharides; Operating costs; Polymerization; product specificity; Production costs; Seaweed meal; Sodium; Sodium alginate; Specificity; Vibrio alginolyticus; Water purification
• ISSN: 1660-3397; 1660-3397
• DOI: 10.3390/md21110564

Alginate oligosaccharides prepared by alginate lyases attracted great attention because of their desirable biological activities. However, the hydrolysis products are always a mixture of oligosaccharides with different degrees of polymerization, which increases the production cost because of the following purification procedures. In this study, an alginate lyase, Alg4755, with high product specificity was identified, heterologously expressed, and characterized from Vibrio alginolyticus S10, which was isolated from the intestine of sea cucumber. Alg4755 belonged to the PL7 family with two catalytic domains, which was composed of 583 amino acids. Enzymatic characterization results show that the optimal reaction temperature and pH of Alg4755 were 35 °C and 8.0, respectively. Furthermore, Alg4755 was identified to have high thermal and pH stability. Moreover, the final hydrolysis products of sodium alginate catalyzed by Alg4755 were mainly alginate disaccharides with a small amount of alginate trisaccharides. The results demonstrate that alginate lyase Alg4755 could have a broad application prospect because of its high product specificity and desirable catalytic properties.