7735-02-6Relevant articles and documents
Parallel anti-sense two-step cascade for alcohol amination leading to ω-amino fatty acids and α,ω-diamines
Sung, Sihyong,Jeon, Hyunwoo,Sarak, Sharad,Ahsan, Md Murshidul,Patil, Mahesh D.,Kroutil, Wolfgang,Kim, Byung-Gee,Yun, Hyungdon
supporting information, p. 4591 - 4595 (2018/10/23)
Running two two-step cascades in parallel anti-sense to transform an alcohol to an amine allowed the conversion of ω-hydroxy fatty acids (ω-HFAs) and α,ω-diols to the corresponding ω-amino fatty acids (ω-AmFAs) and α,ω-diamines, respectively. The network required only two enzymes namely an aldehyde reductase (AHR) and a transaminase (TA). Benzylamine served on the one hand as amine donor and on the other hand after deamination to benzaldehyde also as oxidant. All ω-HFAs tested were efficiently transformed to their corresponding ω-AmFAs using purified enzymes as well as a whole-cell system, separately expressing both the enzymes, with conversions ranging from 80-95%. Additionally, a single-cell co-expressing all enzymes successfully produced the ω-AmFAs as well as the α,ω-diamines with >90% yield. This system was extended by employing a lactonase, enabling the transformation of ?-caprolactone to its corresponding ω-AmFA with >80% conversion.