Two Novel Cyclodextrin-Degrading Enzymes Isolated from Thermophilic Bacteria Have Similar Domain Structures but Differ in Oligomeric State and Activity Profile(ENZYMOLOGY, PROTEIN ENGINEERING, AND ENZYME TECHNOLOGY)
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概要
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In this paper, we present the expression and characterization of two novel enzymes from the α-amylase family exhibiting cyclomaltodextrinase specificity. The nucleotide sequences encoding the enzymes were isolated from the genomic DNA of two thermophilic bacterial strains originating from Icelandic hot springs and belonging to the genera Anoxybacillus (AfCda13) and Laceyella (LsCda13). The genes were amplified using a consensus primer strategy utilizing two of the four conserved regions present in glycoside hydrolase family 13. No identifiable signal peptides were present in open reading frames encoding the enzymes, indicating an intracellular location of both enzymes, and their physiological function to be intracellular cyclodextrin degradation. The domain structures of both enzymes were also similar, including an N-terminal domain, the catalytic module composed of the A- and B-domains, and a C-terminal domain. Despite the similarity in domain composition, the two enzymes displayed differences in the oligomeric state with AfCda13 being a dimeric protein, whereas LsCda13 was monomeric. The two enzymes also displayed significantly different activity profiles, despite being active on the same range of substrates. It was shown that the enzyme displaying the highest activity on cyclodextrin was dimeric (AfCda13). Moreover, a fraction of the dimeric enzyme could be converted to a monomeric state in the presence of KCl and this fraction retained only 23% of its activity on α-cyclodextrin while its activity on starch was not significantly affected, indicating that the oligomeric state is an important factor for a high activity on cyclodextrin substrates.
- 社団法人日本生物工学会の論文
- 2005-10-25
著者
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Karlsson Eva
Department Of Biotechnology Lund University
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Karlsson Eva
Department Of Biotechnology Centre For Chemistry And Chemical Engineering Lund University
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HOLST OLLE
Department of Biotechnology, Centre for Chemistry and Chemical Engineering, Lund University
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Holst Olle
Department Of Biotechnology Centre For Chemistry And Chemical Engineering Lund University
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Holst Olle
Department Of Biotechnology Lund University
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Turner Pernilla
Department of Biotechnology, Lund University
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Labes Antje
Institute for General Microbiology, Christian-Albrechts University
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Fridjonsson Olafur
Prokaria Ltd.
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Hreggvidson Gudmundur
Prokaria Ltd.
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Schonheit Peter
Institute for General Microbiology, Christian-Albrechts University
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Kristjansson Jakob
Prokaria Ltd.
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Labes Antje
Institute For General Microbiology Christian-albrechts University
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Schonheit Peter
Institute For General Microbiology Christian-albrechts University
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Turner Pernilla
Department Of Biotechnology Lund University
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- Two Novel Cyclodextrin-Degrading Enzymes Isolated from Thermophilic Bacteria Have Similar Domain Structures but Differ in Oligomeric State and Activity Profile(ENZYMOLOGY, PROTEIN ENGINEERING, AND ENZYME TECHNOLOGY)
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