Membrane-bound Sugar Alcohol Dehydrogenase in Acetic Acid Bacteria catalyzes L-Ribulose Formation and NAD-Dependent Ribitol Dehydrogenase is Independent of the Oxidative Fermentation

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概要

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• To identify the enzyme responsible for pentitol oxidation by acetic acid bacteria, two different ribitol oxidizing enzymes, one in the cytosolic fraction of NAD (P)-dependent and the other in the membrane fraction of NAD (P)-independent enzymes, were examined with respect to oxidative fermentation. The cytoplasmic NAD-dependent ribitol dehydrogenase (EC 1. 1. 1. 56) was crystallized from Gluconobacter suboxydans IFO 12528 and found to be an enzyme having 100 kDa of molecular mass and 5 s as the sedimentation constant, composed of four identical subunits of 25 kDa. The enzyme catalyzed a shuttle reversible oxidoreduction between ribitol and D-ribulose in the presence of NAD and NADH, respectively. Xylitol and L-arabitol were well oxidized by the enzyme with reaction rates comparable to ribitol oxidation. D-Ribulose, L-ribulose, and L-xylulose were well reduced by the enzyme in the presence of NADH as cosubstrates. The optimum pH of pentitol oxidation was found at alkaline pH such as 9.5-10.5 and ketopentose reduction was found at pH 6.0. NAD-Dependent ribitol dehydrogenase seemed to be specific to oxidoreduction between pentitols and ketopentoses and D-sorbitol and D-mannitol were not oxidized by this enzyme. However, no D-ribulose accumulation was observed outside the cells during the growth of the organism on ribitol. L-Ribulose was accumulated in the culture medium instead, as the direct oxidation product catalyzed by a membrane-bound NAD (P)-independent ribitol dehydrogenase. Thus, the physiological role of NAD-dependent ribitol dehydrogenase was accounted to catalyze ribitol oxidation to D-ribulose in cytoplasm, taking D-ribulose to the pentose phosphate pathway after being phosphorylated. L-Ribulose outside the cells would be incorporated into the cytoplasm in several ways when need for carbon and energy sources made it necessary to use L-ribulose for their survival. From a series of simple experiments, membrane-bound sugar alcohol dehydrogenase was concluded to be the enzyme responsible for L-ribulose production in oxidative fermentation by acetic acid bacteria.

• 社団法人日本農芸化学会の論文
• 2001-01-23

著者

• 品川 恵美子

  宇部高専物質工学科

• Moonmangmee Duangtip

  山口大農応用生物化学

• Theeragool G.

  カセサート大学理

• MOONMANGMEE Duangtip

  Department of Biological Chemistry, Faculty of Agriculture, Yamaguchi University

• FUJII Yoshikazu

  Department of Biological Chemistry, Faculty of Agriculture, Yamaguchi University

• TOYAMA Hirohide

  Department of Biological Chemistry, Faculty of Agriculture, Yamaguchi University

• THEERAGOOL Gunjana

  Department of Microbiology, Faculty of Science, Kasetsart University

• LOTONG Napha

  Department of Microbiology, Faculty of Science, Kasetsart University

• MATSUSHITA Kazunobu

  Department of Biological Chemistry, Faculty of Agriculture, Yamaguchi University

• ADACHI Osao

  Department of Biological Chemistry, Faculty of Agriculture, Yamaguchi University

• ANO Yoshitaka

  Department of Biological Chemistry, Faculty of Agricultre, Yamaguchi University

• SHINAGAWA Emiko

  Department of Chemical and biological Engineering, Ube National College of Technology

• Toyama Hirohide

  Department Of Biological Chemistry Faculty Of Agriculture Yamaguchi University

• Adachi Osao

  Derartment Of Blological Chemistry Faculty Of Agriculture Yamaguchi University

• Adachi Osao

  Department Of Agricultural Chemistry Yamaguchi University

• Lotong Napha

  Department Of Microbiology Faculty Of Science Kasetsart University

• Lotong Napha

  カセサート大理 微生物

• Fujii Y

  Ritsumeikan Univ. Shiga Jpn

• Shinagawa Emiko

  Department Of Chemical And Biological Engineering Ube National College Of Technology

• Fujii Yoshikazu

  Department Of Biological Chemistry Faculty Of Agriculture Yamaguchi University

• Theeragool G.

  カセサート大理微生物

• Theeragool Gunjana

  カセサート大理 微生物

• Matsushita Kazunobu

  Department Of Biological Chemistry Faculty Of Agriculture Yamaguchi University

• Moonmangmee Duangtip

  Department Of Microbiology Faculty Of Science King Mongkut's University Of Technology Thonburi

• Moonmangmee Duangtip

  山口大農 生物機能科学

• 足立 収生

  山口大・農化

• Theeragool Gunjana

  Department Of Microbiology Faculty Of Science Kasetsart University

• Ano Yoshitaka

  Department Of Biological Chemistry Faculty Of Agriculture Yamaguchi University

• Lotong Napha

  Department Of Microbioloby Faculty Of Science Kasetsart University

• Shinagawa Emiko

  Department of Agricultural Chemistry, Faculty of Agriculture, Yamaguchi University

• Matsushita Kazunobu

  Department of Agricultural Chemistry, Faculty of Agriculture, Yamaguchi University

• ANO Yoshitaka

  Department of Applied Bioscience, Faculty of Agriculture, Ehime University

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