Styrene Production in Genetically Engineered Escherichia coli in a Two-Phase Culture

Noda, Shuhei; Fujiwara, Ryosuke; Mori, Yutaro; Dainin, Mayumi; Shirai, Tomokazu; Kondo, Akihiko

doi:10.3390/biotech13010002

BioTech

2024

DOI: 10.3390/biotech13010002

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Styrene Production in Genetically Engineered Escherichia coli in a Two-Phase Culture

Shuhei Noda,

Ryosuke Fujiwara,

Yutaro Mori

et al.

Abstract: Styrene is an important industrial chemical. Although several studies have reported microbial styrene production, the amount of styrene produced in batch cultures can be increased. In this study, styrene was produced using genetically engineered Escherichia coli. First, we evaluated five types of phenylalanine ammonia lyases (PALs) from Arabidopsis thaliana (AtPAL) and Brachypodium distachyon (BdPAL) for their ability to produce trans-cinnamic acid (Cin), a styrene precursor. AtPAL2-expressing E. coli produced… Show more

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Integrated strategies for engineering ferulic acid decarboxylase with tunnel conformation and substrate pocket for adapting non-natural substrates

Zhu,

Feng,

Wang

et al. 2025

Biochemical Engineering Journal

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Integrated strategies for engineering ferulic acid decarboxylase with tunnel conformation and substrate pocket for adapting non-natural substrates

Zhu,

Feng,

Wang

et al. 2025

Biochemical Engineering Journal

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Antibacterial, Transparency, and Mechanical Properties of Cationic Radical Initiator Triggered Polystyrene Sheets Obtained by Thermal Blending

Maruyama,

Kishi,

Konoeda

et al. 2024

Polymers

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Polystyrene (PS) is widely used because of its transparency, mechanical strength, and ease of production. With rising health concerns, antibacterial PS is increasingly sought after, but few polymer-based antibacterial agents have been prepared to date. In this study, polystyrene was synthesized using a cationic radical initiator, 2,2′-azobis-[2-(1,3-dimethyl-4,5-dihydro-1H-imidazol-3-ium-2-yl)] propane triflate (ADIP), and evaluated as an antibacterial additive. The PS polymerized with ADIP (ADIP-PS) was prepared with number-average molecular weights (Mn) from 15,000 to 40,000. Further, blending 5–10% ADIP-PS with an Mn of 23,000 into general-purpose polystyrene (GPPS) provided antibacterial activity against Staphylococcus aureus while maintaining the transparency and strength of GPPS. Surface analysis revealed hydrophilic properties and exposed cationic groups, as confirmed by contact angle measurement and anionic dye titration, respectively. In addition, the antibacterial activity increased with higher cationic group concentrations, particularly at lower molecular weights. This method presents a promising approach to introducing antibacterial properties to PS products.

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Styrene Production in Genetically Engineered Escherichia coli in a Two-Phase Culture

Cited by 2 publications

References 42 publications

Integrated strategies for engineering ferulic acid decarboxylase with tunnel conformation and substrate pocket for adapting non-natural substrates

Integrated strategies for engineering ferulic acid decarboxylase with tunnel conformation and substrate pocket for adapting non-natural substrates

Antibacterial, Transparency, and Mechanical Properties of Cationic Radical Initiator Triggered Polystyrene Sheets Obtained by Thermal Blending

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