Bioproduction of porphyrins, phycobilins, and their proteins using microbial cell factories: engineering, metabolic regulations, challenges, and perspectives

Porphyrins, phycobilins, and their proteins have abundant π-electrons and strongly absorb visible light, some of which bind a metal ion in the center. Because of the structural and optical properties, they not only play critical roles as an essential component in natural systems but also have attrac...

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Published in:Critical reviews in biotechnology 2024-04, Vol.ahead-of-print (ahead-of-print), p.1-15
Main Authors: Ko, Young Jin, Lee, Myeong-Eun, Cho, Byeong-Hyeon, Kim, Minhye, Hyeon, Jeong Eun, Han, Joo Hee, Han, Sung Ok
Format: Article
Language:English
Subjects:
Bioproduction
biotechnology
carbon
chlorophyll
cosmetics
heme
industry
light
market prices
metabolic engineering
metabolism
microbial cell factory
petroleum
phycobilins
phycobiliprotein
phycobiliproteins
phytochrome
phytochromes
pollutants
porphyrins
protein engineering
renewable energy sources
synthesis
synthetic biology
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Summary:Porphyrins, phycobilins, and their proteins have abundant π-electrons and strongly absorb visible light, some of which bind a metal ion in the center. Because of the structural and optical properties, they not only play critical roles as an essential component in natural systems but also have attracted much attention as a high value specialty chemical in various fields, including renewable energy, cosmetics, medicines, and foods. However, their commercial application seems to be still limited because the market price of porphyrins and phycobilins is generally expensive to apply them easily. Furthermore, their petroleum-based chemical synthesis is energy-intensive and emits a pollutant. Recently, to replace petroleum-based production, many studies on the bioproduction of metalloporphyrins, including Zn-porphyrin, Co-porphyrin, and heme, porphyrin derivatives including chlorophyll, biliverdin, and phycobilins, and their proteins including hemoproteins, phycobiliproteins, and phytochromes from renewable carbon sources using microbial cell factories have been reported. This review outlines recent advances in the bioproduction of porphyrins, phycobilins, and their proteins using microbial cell factories developed by various microbial biotechnology techniques, provides well-organized information on metabolic regulations of the porphyrin metabolism, and then critically discusses challenges and future perspectives. Through these, it is expected to be able to achieve possible solutions and insights and to develop an outstanding platform to be applied to the industry in future research.
ISSN:0738-8551
1549-7801
1549-7801
DOI:10.1080/07388551.2023.2168512