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Characterization of esterases acting on hemicelluloses: Dissertation

Julkaisuvuosi

1995

Tekijät

Tenkanen, Maija

Tiivistelmä

Xylans and mannans contain different esterified substituents such as acetyl, feruloyl and p-coumaroyl side groups. The properties and function of hemicellulose-acting esterases of Trichoderma reesei and Aspergillus oryzae were studied in this work. Both fungi produce multiple esterases. Two almost identical acetyl xylan esterases of pI 7.0 (AXE I) and pI 6.8 (AXE II) were purified from T. reesei. Both enzymes were monomeric glycoproteins with apparent molecular masses of 34 kDa and they seemed to be coded by a single gene. The purified enzyme(s) efficiently liberated esterified acetic acid from polymeric xylans and were even capable of removing acetyl groups from xylan on the surface layers of ground birchwood. Acetyl xylan esterase(s) had high specificity for acetylated xylan: the enzyme was unable to remove acetyl substituents from softwood galactoglucomannan or phenolic substituents from wheat straw arabinoxylan. T. reesei also produces another type of esterase which was shown to have activity only towards short oligomeric and monomeric acetates. This enzyme showed clear regional specificity, removing mainly O-3' linked acetyl substituents from xylobiose. Even though acetyl xylan esterase had high activity towards polymeric xylan it was unable to liberate all the acetyl substituents. Acetyl esterase was needed to remove these residual acetyl groups, which were most probably located near to the other substituent, 4-O-methylglucuronic acid. In addition to acetylated xylooligomers, the acetyl esterase exhibited activity towards acetylated oligomers derived from galactoglucomannan. Athough T. reesei is an efficient producer of different xylanolytic and mannanolytic enzymes, it was not found to produce esterases which were able to efficiently liberate esterified ferulic acid from wheat straw xylan, or acetic acid from softwood galactoglucomannan. These esterases were therefore purified from another fungus, Aspergillus oryzae. Both feruloyl esterase and acetyl glucomannan esterase were small, acidic monomeric proteins with apparent molecular masses of 30 and 36 kDa and isolelectric points of 3.6 and 4.6, respectively. Feruloyl esterase was able to liberate most of the feruloyl substituents from wheat straw xylan but the reaction was enhanced by the presence of xylanase. This esterase had a broad substrate specificity. In addition to feruloyl substituents it was active towards p-coumaroyl and acetyl side groups. Feruloyl esterase was equally efficient in the deacetylation of xylan as the acetyl xylan esterase of T. reesei and it could also remove most of the acetyl substituents from galactoglucomannan. The acetyl glucomannan esterase was more specific than the feruloyl esterase. It did not show any feruloyl esterase activity and its specific acetyl glucomannan esterase activity was eight times higher and specific acetyl xylan esterase activity four times lower than those of feruloyl esterase. Although the acetyl glucomannan esterase had high activity towards polymeric galactoglucomannan, the maximum amount of acetic acid liberated was less than with feruloyl esterase. The activity of acetyl glucomannan esterase was clearly enhanced by addition of mannanase and a-galactosidase, whereas no significant synergism between these two glycanases and the feruloyl esterase was observed. The simultaneous enzymatic liberation of acetyl groups from O-acetyl-4-O-methylglucuronoxylan of hardwood and O-acetyl-galactoglucomannan of softwood clearly enhanced the action of other xylanolytic and mannanolytic enzymes. If deacetylation (chemical or enzymatic) was performed before hydrolysis with endoxylanase the extent of the hydrolysis was lower, due to the decreased solubility of the deacetylated substrate. Removal of feruloyl groups from wheat straw a
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VTT Technical Research Centre of Finland

Numero

242

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