Protein engineering of selected residues from conserved sequence regions of a novel Anoxybacillus α-amylase
The α-amylases from Anoxybacillus species (ASKA and ADTA), Bacillus aquimaris (BaqA) and Geobacillus thermoleovorans (GTA, Pizzo and GtamyII) were proposed as a novel group of the α-amylase family GH13. An ASKA yielding a high percentage of maltose upon its reaction on starch was chosen as a model t...
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| Main Authors: | , , , , , , |
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| Format: | Article |
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Nature Publishing Group
2014
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| Subjects: | |
| Online Access: | http://eprints.utm.my/62358/ http://eprints.utm.my/62358/ http://eprints.utm.my/62358/ |
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| Summary: | The α-amylases from Anoxybacillus species (ASKA and ADTA), Bacillus aquimaris (BaqA) and Geobacillus thermoleovorans (GTA, Pizzo and GtamyII) were proposed as a novel group of the α-amylase family GH13. An ASKA yielding a high percentage of maltose upon its reaction on starch was chosen as a model to study the residues responsible for the biochemical properties. Four residues from conserved sequence regions (CSRs) were thus selected, and the mutants F113V (CSR-I), Y187F and L189I (CSR-II) and A161D (CSR-V) were characterised. Few changes in the optimum reaction temperature and pH were observed for all mutants. Whereas the Y187F (t 1/2 43 €...h) and L189I (t 1/2 36 €...h) mutants had a lower thermostability at 65°C than the native ASKA (t 1/2 48 €...h), the mutants F113V and A161D exhibited an improved t 1/2 of 51 €...h and 53 €...h, respectively. Among the mutants, only the A161D had a specific activity, k cat and k cat /K m higher (1.23-, 1.17- and 2.88-times, respectively) than the values determined for the ASKA. The replacement of the Ala-161 in the CSR-V with an aspartic acid also caused a significant reduction in the ratio of maltose formed. This finding suggests the Ala-161 may contribute to the high maltose production of the ASKA. |
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