1. Production of different molecular weight glycosaminoglycans with microbial cell factories.
- Author
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Wang, Daoan, Hu, Litao, Xu, Ruirui, Zhang, Weijiao, Xiong, Haibo, Wang, Yang, Du, Guocheng, and Kang, Zhen
- Subjects
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GLYCOSAMINOGLYCANS , *MICROBIAL cells , *MOLECULAR weights , *CHONDROITIN sulfates , *SYNTHETIC biology , *FACTORIES - Abstract
Glycosaminoglycans (GAGs) are naturally occurring acidic polysaccharides with wide applications in pharmaceuticals, cosmetics, and health foods. The diverse biological activities and physiological functions of GAGs are closely associated with their molecular weights and sulfation patterns. Except for the non-sulfated hyaluronan which can be synthesized naturally by group A Streptococcus , all the other GAGs such as heparin and chondroitin sulfate are mainly acquired from animal tissues. Microbial cell factories provide a more effective platform for the production of structurally homogeneous GAGs. Enhancing the production efficiency of polysaccharides, accurately regulating the GAGs molecular weight, and effectively controlling the sulfation degree of GAGs represent the major challenges of developing GAGs microbial cell factories. Several enzymatic, metabolic engineering, and synthetic biology strategies have been developed to tackle these obstacles and push forward the industrialization of biotechnologically produced GAGs. This review summarizes the recent advances in the construction of GAGs synthesis cell factories, regulation of GAG molecular weight, and modification of GAGs chains. Furthermore, the challenges and prospects for future research in this field are also discussed. [Display omitted] • Various microbial cell factories have been constructed to efficiently synthesize unsulfured GAGs. • Many strategies have been developed for controlling the molecular weight of GAGs. • Artificial sulfation systems have been designed and constructed for preparing GAGs and its oligosaccharides. • The biosynthesis of GAGs with microbial cell factories has many advantages comparing the traditional extraction methods. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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