Structure Characteristics, Biochemical Properties, and Pharmaceutical Applications of Alginate Lyases

Alginate, the most abundant polysaccharides of brown algae, consists of various proportions of uronic acid epimers -L-guluronic acid (G) and -D-mannuronic acid (M). Alginate oligosaccharides (AOs), the degradation products of alginates, exhibit excellent bioactivities and a great potential for broad...

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Veröffentlicht in:Marine drugs 2021-11, Vol.19 (11), p.628
Hauptverfasser: Gao, Shu-Kun, Yin, Rui, Wang, Xiao-Chen, Jiang, Hui-Ning, Liu, Xiao-Xiao, Lv, Wei, Ma, Yu, Zhou, Yan-Xia
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Sprache:eng
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Zusammenfassung:Alginate, the most abundant polysaccharides of brown algae, consists of various proportions of uronic acid epimers -L-guluronic acid (G) and -D-mannuronic acid (M). Alginate oligosaccharides (AOs), the degradation products of alginates, exhibit excellent bioactivities and a great potential for broad applications in pharmaceutical fields. Alginate lyases can degrade alginate to functional AOs with unsaturated bonds or monosaccharides, which can facilitate the biorefinery of brown algae. On account of the increasing applications of AOs and biorefinery of brown algae, there is a scientific need to explore the important aspects of alginate lyase, such as catalytic mechanism, structure, and property. This review covers fundamental aspects and recent developments in basic information, structural characteristics, the structure-substrate specificity or catalytic efficiency relationship, property, molecular modification, and applications. To meet the needs of biorefinery systems of a broad array of biochemical products, alginate lyases with special properties, such as salt-activated, wide pH adaptation range, and cold adaptation are outlined. Withal, various challenges in alginate lyase research are traced out, and future directions, specifically on the molecular biology part of alginate lyases, are delineated to further widen the horizon of these exceptional alginate lyases.
ISSN:1660-3397
1660-3397
DOI:10.3390/md19110628