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Engineering the β-Carotene Metabolic Pathway of Microalgae <i>Dunaliella</i> To Confirm Its Carotenoid Synthesis Pattern in Comparison To Bacteria and Plants

Hao‐Hong Chen, Ming‐Hua Liang, Zhiwei Ye, Yue‐Hui Zhu, Jian‐Guo Jiang

2023Microbiology Spectrum26 citationsDOIOpen Access PDF

Abstract

The synthesis mode of all trans -lycopene in bacteria and plants is clear, but there are still doubts in microalgae. Dunaliella is the organism with the highest β-carotene content, and plant-type and bacterial-type enzyme genes have been found in its carotenoid metabolism pathway. In this study, the entire plant-type enzyme gene was completely cloned into Escherichia coli , and high-efficiency expression was obtained, which proved that carotenoid synthesis of algae is similar to that of plants.

Topics & Concepts

CarotenoidEscherichia coliBacteriaLycopeneBiologyEnzymeDunaliellaAlgaeMetabolic engineeringMetabolic pathwayGeneBiochemistryCaroteneMetabolismOrganismBotanyGeneticsAlgal biology and biofuel productionPhotosynthetic Processes and MechanismsAntioxidant Activity and Oxidative Stress
Engineering the β-Carotene Metabolic Pathway of Microalgae <i>Dunaliella</i> To Confirm Its Carotenoid Synthesis Pattern in Comparison To Bacteria and Plants | Litcius