Abstract
Sphingobium sp. strain SYK-6 is able to use a phenylcoumaran-type biaryl, dehydrodiconiferyl alcohol (DCA), as a sole source of carbon and energy. In SYK-6 cells, the alcohol group of the B-ring side chain of DCA was first oxidized to the carboxyl group, and then the alcohol group of the A-ring side chain was oxidized to generate 5-(2-carboxyvinyl)-2-(4-hydroxy-3-methoxyphenyl)-7-methoxy-2,3-dihydrobenzofuran-3-carboxylate (DCA-CC). We identified phcF, phcG and phcH, which conferred the ability to convert DCA-CC into 3-(4-hydroxy-3-(4-hydroxy-3-methoxystyryl)-5-methoxyphenyl)acrylate (DCA-S) in a host strain. These genes exhibited no significant sequence similarity with known enzyme genes, whereas phcF and phcG, which contain a DUF3237 domain of unknown function, showed 32% amino acid sequence identity with each other. The DCA-CC conversion activities were markedly decreased by disruption of phcF and phcG, indicating that phcF and phcG play dominant roles in the conversion of DCA-CC. Purified PhcF and PhcG catalysed the decarboxylation of the A-ring side chain of DCA-CC, producing DCA-S, and showed enantiospecificity towards (+)- and (-)-DCA-CC respectively. PhcF and PhcG formed homotrimers, and their Km for DCA-CC were determined to be 84 μM and 103 μM, and Vmax were 307 μmol⋅min-1 ⋅mg-1 and 137 μmol⋅min-1 ⋅mg-1 respectively. In conclusion, PhcF and PhcG are enantiospecific decarboxylases involved in phenylcoumaran catabolism.
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