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Over-expression of an electron transport protein OmcS provides sufficient NADH for d-lactate production in cyanobacterium

Hengkai Meng, Wei Zhang, Huawei Zhu, Fan Yang, Yanping Zhang, Jie Zhou, Yin Li

2021Biotechnology for Biofuels37 citationsDOIOpen Access PDF

Abstract

BACKGROUND: An efficient supply of reducing equivalent is essential for chemicals production by engineered microbes. In phototrophic microbes, the NADPH generated from photosynthesis is the dominant form of reducing equivalent. However, most dehydrogenases prefer to utilize NADH as a cofactor. Thus, sufficient NADH supply is crucial to produce dehydrogenase-derived chemicals in cyanobacteria. Photosynthetic electron is the sole energy source and excess electrons are wasted in the light reactions of photosynthesis. RESULTS: Here we propose a novel strategy to direct the electrons to generate more ATP from light reactions to provide sufficient NADH for lactate production. To this end, we introduced an electron transport protein-encoding gene omcS into cyanobacterium Synechococcus elongatus UTEX 2973 and demonstrated that the introduced OmcS directs excess electrons from plastoquinone (PQ) to photosystem I (PSI) to stimulate cyclic electron transfer (CET). As a result, an approximately 30% increased intracellular ATP, 60% increased intracellular NADH concentrations and up to 60% increased biomass production with fourfold increased D-lactate production were achieved. Comparative transcriptome analysis showed upregulation of proteins involved in linear electron transfer (LET), CET, and downregulation of proteins involved in respiratory electron transfer (RET), giving hints to understand the increased levels of ATP and NADH. CONCLUSIONS: This strategy provides a novel orthologous way to improve photosynthesis via enhancing CET and supply sufficient NADH for the photosynthetic production of chemicals.

Topics & Concepts

PhotosynthesisElectron transport chainPhotosystem IPlastoquinoneCyanobacteriaBiochemistryElectron transferNAD+ kinaseIntracellularBiologyPhototrophCofactorPhotosystem IIChemiosmosisBiophysicsChemistryChloroplastPhotochemistryATP synthaseEnzymeGeneThylakoidBacteriaGeneticsPhotosynthetic Processes and MechanismsMicrobial Fuel Cells and BioremediationMicrobial Metabolic Engineering and Bioproduction