Journal
BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY
Volume 86, Issue 8, Pages 1114-1121Publisher
OXFORD UNIV PRESS
DOI: 10.1093/bbb/zbac077
Keywords
aromatic diamine; biopolymer; fermentation; polyurea
Categories
Funding
- Advanced Low Carbon Technology Research and Development Program [5100270]
- Japan Science and Technology Agency (JST-ALCA)
- Moonshot project [JPNP18016]
- NEDO, Japan
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In this study, 4APEA was produced through fermentation using genetically engineered Escherichia coli with the highest reported yield to date (7.2%) within 72 h. The fermented 4APEA was then purified and polymerized with methylene diphenyldiisocyanate and hexamethylene diisocyanate to produce polyureas PU-1 and PU-2 with excellent thermostability. This is the first study to synthesize polyureas from a microbial aromatic diamine, showing great potential for the industrial production of heat-resistant polymer materials.
The aromatic diamine 2-(4-aminophenyl)ethylamine (4APEA) is a potential monomer for polymers and advanced materials. Here, 4APEA was produced by fermentation using genetically engineered Escherichia coli (Masuo et al.). Optimizing fed-batch cultures of this strain produced the highest reported yield to date of 4APEA (7.2%; 3.5 g/L versus glucose) within 72 h. Appropriate aeration was important to maximize production and avoid unfavorable 4APEA degradation. Fermented 4APEA was purified from culture medium and polymerized with methylene diphenyldiisocyanate and hexamethylene diisocyanate to produce polyureas PU-1 and PU-2, respectively. The decomposition temperatures for 10% weight loss (T-d10) of PU-1 and PU-2 were 276 degrees C and 302 degrees C, respectively, and were comparable with that of other thermostable aromatic polyureas. This study is the first to synthesize polyureas from the microbial aromatic diamine. Their excellent thermostability will be useful for the industrial production of heat-resistant polymer materials.
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