Discovery of a new mechanism of 2,3-butanediol stereoisomer formation in Bacillus cereus YUF-4

Journal of Fermentation and Bioengineering Pub Date : 1998-01-01 DOI:10.1016/S0922-338X(97)80358-3

Sadaharu Ui, Takeshi Hosaka, Kazuhide Watanabe, Akio Mimura

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引用次数: 21

Abstract

A mechanism of 2,3-butanediol (BD) stereoisomer formation was examined with respect to the BD cycle. The enzymes acetylacetoin synthase, acetylacetoin reductase (AACR), and acetylbutanediol hydrolase (ABDH), which are part of the BD cycle, were found to be present in the cell-free extract of the bacterial strain Bacillus cereus YUF-4. Two kinds of acetylbutanediol (ABD) stereoisomers were produced in the reduction of acetylacetoin (AAC) by AACR, which were identified as having 3R,4R and 3S,4R configurations by NMR spectroscopy and an enzymic method. The two ABD formations were found to be catalyzed independently by two respective enzymes: the former was catalyzed by a NADPH-dependent AACR (3R,4R-ABD forming) and the latter by a NADH-dependent AACR (3S,4R-ABD forming). The 3R,4R-ABD was converted into R,R-BD and the 3S,4R-ABD into R,S-BD by intracellular ABDH. These findings demonstrated the existence of a new BD isomer formation mechanism derived from the BD cycle.

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蜡样芽孢杆菌YUF-4中2,3-丁二醇立体异构体形成新机制的发现

研究了2,3-丁二醇(BD)立体异构体在BD循环中的形成机理。在蜡样芽孢杆菌YUF-4的无细胞提取物中发现了BD循环的一部分乙酰乙酰丙酮合酶、乙酰乙酰丙酮还原酶(AACR)和乙酰丁二醇水解酶(ABDH)。采用AACR法还原乙酰乙酰金(AAC)，生成了两种乙酰丁二醇(ABD)立体异构体，经核磁共振波谱和酶法鉴定为3R、4R和3S、4R构型。发现这两种ABD形成是由两种不同的酶独立催化的:前者由nadh依赖的AACR催化(3R,4R-ABD形成)，后者由nadh依赖的AACR催化(3S,4R-ABD形成)。3R,4R-ABD通过胞内ABDH转化为R,R- bd, 3S,4R-ABD转化为R,S-BD。这些发现证明了BD循环中存在一种新的BD异构体形成机制。

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Journal of Fermentation and Bioengineering

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