Main Polyol Dehydrogenase of Gluconobacter suboxydans IFO 3255, Membrane-bound D-Sorbitol Dehydrogenase, That Needs Product of Upstream Gene, sldB, for Activity(Biochemistry & Molecular Biology)
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概要
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The D-sorbitol dehydrogenase gene, sldA, and an upstream gene, sldB, encoding a hydrophobic polypeptide, SldB, of Gluconobacter suboxydans IFO 3255 were disrupted in a check of their biological functions. The bacterial cells with the sldA gene disrupted did not produce L-sorbose by oxidation of D-sorbitol in resting-cell reactions at pHs 4.5 and 7.0, indicating that the dehydrogenase was the main D-sorbitol-oxidizing enzyme in this bacterium. The cells did not produce D-fructose from D-mannitol or dihydroxyacetone from glycerol. The disruption of the sldB gene resulted in undetectable oxidation of D-sorbitol, D-mannitol, or glycerol, although the cells produced the dehydrogenase. The cells with the sldB gene disrupted produced more of what might be signal-unprocessed SldA than the wildtype cells did. SldB may be a chaperone-like component that assists signal processing and folding of the SldA polypeptide to form active D-sorbitol dehydrogenase.
- 2002-11-23
著者
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Hoshino Tatsuo
Departments of Medicine, Keio University and The Lankenau Hospital
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SHINJOH MASAKO
Department of Applied Microbiology, Nippon Roche Research Center
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Shinjoh M
Department Of Applied Microbiology Nippon Roche Research Center
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Shinjoh Masako
Department Of Applied Microbiology Nippon Roche Research Center
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Hoshino Tatsuo
Department Of Applied Microbiology Nippon Roche Research Center
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Miyazaki T
Department Of Applied Microbiology Nippon Roche Research Center
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TOMIYAMA Noribumi
Department of Applied Microbiology, Nippon Roche Research Center
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MIYAZAKI Taro
Department of Applied Microbiology, Nippon Roche Research Center
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Tomiyama Noribumi
Department Of Applied Microbiology Nippon Roche Research Center
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HOSHINO Tatsuo
Department of Applied Microbiology, Nippon Roche Research Center
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