Biocatalytic production of a Nylon 6 precursor from caprolactone in continuous flow.
6-aminocaproic acid (6ACA) is a key building block and an attractive precursor of caprolactam, which is used to synthesize nylon-6, one of the most common polymers manufactured nowadays. (Bio)-production of platform chemicals from renewable feedstocks is instrumental to tackle climate change and dec...
| Published in: | ChemSusChem |
|---|---|
| Main Authors: | , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Wiley
2022
|
| Subjects: | |
| Online Access: | https://boris.unibe.ch/170501/1/ChemSusChem_-_2022_-_Romero-Fernandez_-_Biocatalytic_production_of_a_Nylon_6_precursor_from_caprolactone_in_continuous_flow.pdf https://boris.unibe.ch/170501/ |
| Summary: | 6-aminocaproic acid (6ACA) is a key building block and an attractive precursor of caprolactam, which is used to synthesize nylon-6, one of the most common polymers manufactured nowadays. (Bio)-production of platform chemicals from renewable feedstocks is instrumental to tackle climate change and decrease fossil fuel dependence. Here, we report the cell-free biosynthesis of 6ACA from 6-hydroxycaproic acid using a co-immobilised multienzyme system based on horse liver alcohol dehydrogenase, Halomonas elongata transaminase, and Lactobacillus pentosus NADH oxidase for in-situ cofactor recycling, with >90% molar conversion (m. c.) The integration of a step to synthesize hydroxy-acid from lactone by immobilised Candida antarctica lipase B resulted in >80% m. c. of ε-caprolactone to 6ACA, >20% of δ-valerolactone to 5-aminovaleric acid, and 30% of γ-butyrolactone to gamma-aminobutyric acid, in one-pot batch reactions. Two serial packed-bed reactors were set-up using these biocatalysts and applied to the continuous flow synthesis of 6ACA from ε-caprolactone, achieving a space-time yield of up to 3.31 g 6ACA h -1 L -1 with a segmented liquid/air flow for constant oxygen supply. |
|---|