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Improving the Intensity of Integrated Expression for Microbial Production

Zi-Kai Wang, Jin‐Song Gong, Jiufu Qin, Hui Li, Zhen‐Ming Lu, Jin‐Song Shi, Zhenghong Xu

2021ACS Synthetic Biology17 citationsDOI

Abstract

Chromosomal integration of exogenous genes is preferred for industrially related fermentation, as plasmid-mediated fermentation leads to extra metabolic burden and genetic instability. Moreover, with the development and advancement of genome engineering and gene editing technologies, inserting genes into chromosomes has become more convenient; integration expression is extensively utilized in microorganisms for industrial bioproduction and expected to become the trend of recombinant protein expression. However, in actual research and application, it is important to enhance the expression of heterologous genes at the host genome level. Herein, we summarized the basic principles and characteristics of genomic integration; furthermore, we highlighted strategies to improve the expression of chromosomal integration of genes and pathways in host strains from three aspects, including chassis cell optimization, regulation of expression elements in gene expression cassettes, optimization of gene dose level and integration sites on chromosomes. Moreover, we reviewed and summarized the relevant studies on the application of integrated expression in the exploration of gene function and the various types of industrial microorganism production. Consequently, this review would serve as a reference for the better application of integrated expression.

Topics & Concepts

BioproductionBiologyGeneComputational biologyGenomePlasmidGene expressionGenome editingSynthetic biologyGeneticsExpression cassetteRecombinant DNAVector (molecular biology)Viral Infectious Diseases and Gene Expression in InsectsMicrobial Metabolic Engineering and BioproductionCRISPR and Genetic Engineering