Shengsheng Cao scite author profile

Shengsheng Cao

5Publications

23Citation Statements Received

123Citation Statements Given

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312

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Nanjing Tech University, Shaanxi University of Chinese Medicine

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Evolving strategies for marine enzyme engineering: recent advances on the molecular modification of alginate lyase

Cao

et al. 2021

Mar Life Sci Technol

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Alginate, an acidic polysaccharide, is formed by β-d-mannuronate (M) and α-l-guluronate (G). As a type of polysaccharide lyase, alginate lyase can efficiently degrade alginate into alginate oligosaccharides, having potential applications in the food, medicine, and agriculture fields. However, the application of alginate lyase has been limited due to its low catalytic efficiency and poor temperature stability. In recent years, various structural features of alginate lyase have been determined, resulting in modification strategies that can increase the applicability of alginate lyase, making it important to summarize and discuss the current evidence. In this review, we summarized the structural features and catalytic mechanisms of alginate lyase. Molecular modification strategies, such as rational design, directed evolution, conserved domain recombination, and non-catalytic domain truncation, are also described in detail. Lastly, the application of alginate lyase is discussed. This comprehensive summary can inform future applications of alginate lyases.

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An updated comprehensive review of advances on structural features, catalytic mechanisms, modification methods and applications of chitosanases

Cao

et al. 2022

Process Biochemistry

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Efficient Degradation of Alginate and Preparation of Alginate Oligosaccharides by a Novel Biofunctional Alginate Lyase with High Activity and Excellent Thermophilic Features

Cao

Zhu

et al. 2023

Marine Drugs

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The enzymatic degradation of seaweed polysaccharides is gaining interest for its potential in the production of functional oligosaccharides and fermentable sugars. Herein, a novel alginate lyase, AlyRm3, was cloned from a marine strain, Rhodothermus marinus DSM 4252. The AlyRm3 showed optimal activity (37,315.08 U/mg) at 70 °C and pH 8.0, with the sodium alginate used as a substrate. Noticeably, AlyRm3 was stable at 65 °C and also exhibited 30% of maximal activity at 90 °C. These results indicated that AlyRm3 is a thermophilic alginate lyase that efficiently degrades alginate at high industrial temperatures (>60 °C). The FPLC and ESI−MS analyses suggested that AlyRm3 primarily released disaccharides and trisaccharides from the alginate, polyM, and polyG in an endolytic manner. In the saccharification process of sodium alginate (0.5%, w/v), the AlyRm3 yielded numerous reducing sugars (1.73 g/L) after 2 h of reaction. These results indicated that AlyRm3 has a high enzymatic capacity for saccharifying the alginate, and could be used to saccharify the alginate biomass before the main fermentation process for biofuels. These properties make AlyRm3 a valuable candidate for both fundamental research and industrial applications.

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Construction and biochemical characterization of a novel hybrid alginate lyase with high activity by module recombination to prepare alginate oligosaccharides

Cao

et al. 2021

International Journal of Biological Macromolecules

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Alginate modifying enzymes: An updated comprehensive review of the mannuronan C5-epimerases

Cao¹,

Li²,

Zhu³

et al. 2023

Algal Research

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Shengsheng Cao

Evolving strategies for marine enzyme engineering: recent advances on the molecular modification of alginate lyase

An updated comprehensive review of advances on structural features, catalytic mechanisms, modification methods and applications of chitosanases

Efficient Degradation of Alginate and Preparation of Alginate Oligosaccharides by a Novel Biofunctional Alginate Lyase with High Activity and Excellent Thermophilic Features

Construction and biochemical characterization of a novel hybrid alginate lyase with high activity by module recombination to prepare alginate oligosaccharides

Alginate modifying enzymes: An updated comprehensive review of the mannuronan C5-epimerases

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