Biocatalysis enables the scalable conversion of biobased furans into various furfurylamines.

Biobased furans have emerged as chemical building blocks for the development of materials because of their diverse scaffolds and as they can be directly prepared from sugars. However, selective, efficient, and cost-effective scalable conversion of biobased furans remains elusive. Here, we report a robust transaminase (TA) from Shimia marina (SMTA) that enables the scalable amination of biobased furanaldehydes with high activity and broad substrate specificity.

Dual-function transaminases with hybrid nanoflower for the production of value-added chemicals from biobased levulinic acid.

The U.S. Department of Energy has listed levulinic acid (LA) as one of the top 12 compounds derived from biomass.