Cellular Engineering and Biocatalysis Strategies toward
Sustainable Cadaverine Production: State of the Art and Perspectives
Posted on 14.01.2021 - 02:29
Cadaverine, a diamine monomer, broadly exists in living organisms participating in metabolism processes. As a promising substitute of 1,6-diaminohexane, cadaverine can polymerize with dicarboxylic acids and yield biobased polyamides, polyamide (PA) 5×, showing ecofriendly and excellent mechanical properties in the fields of electronics, automobile, material, storage, and others. Due to the increasing attentions on environment problems, biopolyamide is expected to be an ideal and green material to substitute conventional chemistry polyamide. This review summarizes the properties, potential applications, and production strategies about cadaverine and mainly focuses on the recent developments by cellular engineering Escherichia coli and Corynebacterium glutamicum as main workhorses. In addition, the key enzyme lysine decarboxylase decorated by means of immobilization and mutation to efficiently catalyze lysine and its catalysis mechanisms are also discussed. In order to achieve industrial applications, the indispensable steps of separation and purification are described as well and perspectives for cadaverine manufacturing from renewable resources are further provided.
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Mi, Jiali; Liu, Simin; Qi, Haishan; Huang, Jie; Lan, Xiang; Zhang, Lei (1753): Cellular Engineering and Biocatalysis Strategies toward Sustainable Cadaverine Production: State of the Art and Perspectives. ACS Publications. Collection. https://doi.org/10.1021/acssuschemeng.0c07414
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applicationproduction strategiessubstituteenvironment problemschemistry polyamidePAcadaverine manufacturingCorynebacterium glutamicummaterialmetabolism processesbiobased polyamidesCellular Engineeringcatalyze lysineengineering Escherichia colidiamine monomercatalysis mechanismsSustainable Cadaverine Productionenzyme lysine decarboxylasedicarboxylic acidsPerspectives CadaverineBiocatalysis Strategies