Abstract
Alginate lyase possesses wide application prospects for the degradation of brown algae and preparation of alginate oligosaccharides, and its degradation products display a variety of biological activities. Although many enzymes of this type have been reported, alginate lyases with unique properties are still relatively rare. In the present work, an alginate lyase abbreviated as Alyw203 has been cloned from Vibrio sp. W2 and expressed in food-grade Yarrowia lipolytica. The Alyw203 gene consists of an open reading frame (ORF) of 1,566 bp containing 521 amino acids, of which the first 17 amino acids are considered signal peptides, corresponding to secretory features. The peak activity of the current enzyme appears at 45°C with a molecular weight of approximately 57.0 kDa. Interestingly, Alyw203 exhibits unique heat recovery performance, returning above 90% of its initial activity in the subsequent incubation for 20 min at 10°C, which is conducive to the recovery of current enzymes at low-temperature conditions. Meanwhile, the highest activity is obtained under alkaline conditions of pH 10.0, showing outstanding pH stability. Additionally, as an alginate lyase independent of NaCl and resistant to metal ions, Alyw203 is highly active in various ionic environments. Moreover, the hydrolyzates of present enzymes are mainly concentrated in the oligosaccharides of DP1–DP2, displaying perfect product specificity. The alkali suitability, heat recovery performance, and high oligosaccharide yield of Alyw203 make it a potential candidate for industrial production of the monosaccharide and disaccharide.
Highlights
Alginate was a linear heteropoly glucuronic polymer extracted from brown algae, consisting of two sugar monomers linked through 1,4-glycoside, occupying approximately 22–44% of its parts dry weight (Gacesa, 1992)
We have previously reported that Alyw201, an alginate lyase from Vibrio sp
W2 strain has been sequenced, and the results reveal the existence of a putative alginate lyase encoding gene, Alyw203, which is composed of an open reading frame (ORF) of 1,566 bp containing 521 amino acids
Summary
Alginate was a linear heteropoly glucuronic polymer extracted from brown algae, consisting of two sugar monomers linked through 1,4-glycoside, occupying approximately 22–44% of its parts dry weight (Gacesa, 1992). Owing to the favorable gel properties, alginate was comprehensively used in food processing. It could be applied as a thickener and stabilizer to enhance the viscosity and stability of ice cream (Turquois and Gloria, 2000). In view of the serious defect of low bioavailability, the wide application of alginate with high molecular weight (Mw) was greatly restricted (Qian et al, 2020). Heat Recovery Alginate Lyase variety of biological functions, such as anti-oxidation, antibacterial activity, antitumor, and immunomodulatory effects (Powell et al, 2013; Pritchard et al, 2017). The development of alginate lyase with excellent performance for application in marine drug research possessed considerable theoretical and practical value
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