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Heme biosensor-guided in vivo pathway optimization and directed evolution for efficient biosynthesis of heme

Jian Zhang, Qingbin Li, Qi Wang, Jingyu Zhao, Yuan Zhu, Tianyuan Su, Qingsheng Qi, Qian Wang, Qian Wang, Qian Wang

2023Biotechnology for Biofuels and Bioproducts15 citationsDOIOpen Access PDF

Abstract

BACKGROUND: into PPIX to generate heme. Biosynthesis of heme is limited by the need for optimized expression levels of multiple genes, complex regulatory mechanisms, and low enzymatic activity; these problems need to be overcome in metabolic engineering to improve heme synthesis. RESULTS: We report a heme biosensor-guided screening strategy using the heme-responsive protein HrtR to regulate tcR expression in Escherichia coli, providing a quantifiable link between the intracellular heme concentration and cell survival in selective conditions (i.e., the presence of tetracycline). This system was used for rapid enrichment screening of heme-producing strains from a library with random ribosome binding site (RBS) variants and from a FECH mutant library. Through up to four rounds of iterative evolution, strains with optimal RBS intensities for the combination of hemBCDEFY were screened; we obtained a PPIX titer of 160.8 mg/L, the highest yield yet reported in shaken-flask fermentation. A high-activity FECH variant was obtained from the saturation mutagenesis library. Fed-batch fermentation of strain SH20C, harboring the optimized hemBCDEFY and the FECH mutant, produced 127.6 mg/L of heme. CONCLUSION: We sequentially improved the multigene biosynthesis pathway of PPIX and performed in vivo directed evolution of FECH, based on a heme biosensor, which demonstrated the effectiveness of the heme biosensor-based pathway optimization strategy and broadens our understanding of the mechanism of heme synthesis.

Topics & Concepts

HemeFerrochelataseProtoporphyrin IXBiochemistryMutantDirected evolutionProtoporphyrinMutagenesisChemistryProtoporphyrinogen oxidaseHemeproteinBiologyEnzymeGenePhotodynamic therapyPorphyrinOrganic chemistryPorphyrin Metabolism and DisordersPhotosynthetic Processes and MechanismsMicrobial Metabolic Engineering and Bioproduction
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