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Free keywords:
α-amylase; starch degradation; biotechnology; structure
Abstract:
Amylases are probably the best studied glycoside hydrolases and have a huge biotechnological value for industrial processes on starch. Multiple amylases from fungi and microbes are currently in use. Whereas bacterial amylases are well suited for many industrial processes due to their high stability, fungal amylases are recognized as safe and are preferred in the food industry, although they lack the pH tolerance and stability of their bacterial counterparts. Here, we describe three amylases, two of which have a broad pH spectrum extending to pH 8 and higher stability
well suited for a broad set of industrial applications. These enzymes have the characteristic GH13 alpha-amylase fold with a central (beta/alpha)8-domain, an insertion domain with the canonical calcium binding site and a C-terminal beta-sandwich domain. The active site was identified based on the binding of the inhibitor acarbose in form of a
transglycosylation product, in the amylases from Thamnidium elegans and
Cordyceps farinosa. The three amylases have shortened loops flanking the
nonreducing end of the substrate binding cleft, creating a more open
crevice. Moreover, a potential novel binding site in the C-terminal domain of the Cordyceps enzyme was identified, which might be part of a
starch interaction site. In addition, Cordyceps farinosa amylase presented a successful example of using the microseed matrix screening technique to significantly speed-up crystallization.
