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(Received for publication, February 6,
1995; and in revised form, July 6, 1995) The amino acid sequences of
Volume 270,
Number 37,
Issue of September 15, pp. 21928-21933, 1995
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
-Glucosidases with Improved Enzymatic Properties
-glucosidases from Cellvibrio gilvus and Agrobacterium tumefaciens show
about 40% similarity. The pH/temperature optima and stabilities and
substrate specificities of the two enzymes are quite different. C.
gilvus -glucosidase exhibits an optimum pH of 6.2-6.4
and temperature of 35 °C, whereas the corresponding values for A. tumefaciens are 7.2- 7.4 and 60 °C, respectively. The
substrate specificity of A. tumefaciens enzyme toward
different aryl glycosides is broader than C. gilvus enzyme. To
analyze these properties further, three chimeric -glucosidases
were constructed by substituting segments from the C-terminal
homologous region of C. gilvus -glucosidase gene with
that of A. tumefaciens. The chimeric enzymes were
characterized with respect to pH/temperature activity and stability and
substrate specificity. Chimeric enzymes exhibited chromatographic
behavior similar to that of C. gilvus enzyme. However,
enzymatic properties of chimeras were admixtures of those of the two
parents. The chimeric enzymes were optimally active at 45-50
°C and pH 6.6-7.0. K values of
chimeric enzymes for the various saccharides were admixtures of both
parental enzymes. These results suggest that the two domains of C.
gilvus and A. tumefaciens enzymes probably can fold
independently. The homologous C-terminal region in
-glucosidase
appears to play an important role in determining enzyme
characteristics. Changes in the properties on substitution of segments
in this region might be related to the enzyme specificity, and
-glucosidases with improved properties can be prepared by
manipulating this region.
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