Abstract

A feruloyl esterase (StFaeC) produced by Sporotrichum thermophile was purified to homogeneity. The native StFaeC was homodimer with a subunit of M r 23,000 and pI 3.1. The enzyme activity was optimal at pH 6.0 and 55 °C. The esterase displayed remarkable stability at pH 10.0 and retained 50% of its activity after 133 and 55 min at 55 and 60 °C, respectively. Determination of k cat/ K m revealed that the enzyme had a broad spectrum of activity against the (hydroxyl) cinnamate esters indicating a type C feruloyl esterase. The enzyme was active on substrates containing ferulic acid ester linked to the C-5 and C-2 linkages of arabinofuranose and hydrolysed 4-nitrophenyl-5- O- trans-feruloyl-α- l-arabinofuranoside three times more efficiently than 4-nitrophenyl-2- O- trans-feruloyl-α- l-arabinofuranoside. Ferulic acid was efficiently released from wheat bran when the esterase was incubated together with xylanase from S. thermophile (a maximum of 41% total ferulic acid released after 1 h incubation). StFaeC by itself could release FA but at a level almost 10-fold lower than that obtained in the presence of xylanase. The potential of StFaeC for the synthesis of various phenolic acid esters was examined using as a reaction system a ternary water–organic mixture consisting of n-hexane, 1-butanol and water. Also StFaeC catalyzed the transfer of the feruloyl group to l-arabinose in a similar system using t-butanol, with about a 40% conversion of l-arabinose to feruloylated derivative was achieved. This work is the first example of enzymatic feruloylation of a carbohydrate.

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