Constructing arabinofuranosidases for dual arabinoxylan debranching activity |
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Authors: | Weijun Wang Nikola Andric Cody Sarch Bruno T Silva Maija Tenkanen Emma R Master |
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Institution: | 1. Department of Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, Ontario, Canada;2. Department of Food and Environmental Sciences, University of Helsinki, Helsinki, Finland;3. Department of Bioproducts and Biosystems, Aalto University, Espoo, Finland |
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Abstract: | Enzymatic conversion of arabinoxylan requires α‐L‐arabinofuranosidases able to remove α‐L‐arabinofuranosyl residues (α‐L‐Araf) from both mono‐ and double‐substituted D‐xylopyranosyl residues (Xylp) in xylan (i.e., AXH‐m and AXH‐d activity). Herein, SthAbf62A (a family GH62 α‐L‐arabinofuranosidase with AXH‐m activity) and BadAbf43A (a family GH43 α‐L‐arabinofuranosidase with AXH‐d3 activity), were fused to create SthAbf62A_BadAbf43A and BadAbf43A_SthAbf62A. Both fusion enzymes displayed dual AXH‐m,d and synergistic activity toward native, highly branched wheat arabinoxylan (WAX). When using a customized arabinoxylan substrate comprising mainly α‐(1 → 3)‐L‐Araf and α‐(1 → 2)‐L‐Araf substituents attached to disubstituted Xylp (d‐2,3‐WAX), the specific activity of the fusion enzymes was twice that of enzymes added as separate proteins. Moreover, the SthAbf62A_BadAbf43A fusion removed 83% of all α‐L‐Araf from WAX after a 20 hr treatment. 1H NMR analyses further revealed differences in SthAbf62A_BadAbf43 rate of removal of specific α‐L‐Araf substituents from WAX, where 9.4 times higher activity was observed toward d‐α‐(1 → 3)‐L‐Araf compared to m‐α‐(1 → 3)‐L‐Araf positions. |
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Keywords: | α ‐L‐arabinofuranohydrolase activity synergy arabinoxylan fusion enzyme dual α ‐L‐Araf debranching activity |
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