cis-benzeneglycol production using a mutant Pseudomonas strain

Journal of Fermentation Technology Pub Date : 1988-01-01 DOI:10.1016/0385-6380(88)90109-4

Jean-Jacques Yarmoff, Yasushi Kawakami, Takeshi Yago, Hiroyuki Maruo, Hajime Nishimura

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引用次数: 13

Abstract

The biotransformation of commodity aromatic chemicals into dihydroxy derivatives was studied. A strain isolated from the invironment, Pseudomonas JI104, used benzene, toluene, and other hydrocarbons as sole carbon and energy sources. We selected mutants unable to grow with benzene, and among these, screened for strains with deficient cis-benzenglycol dehydrogenase able to stably produce cis-benzeneglycol when another carbon source was co-metabolized.

We exained the possibility of cis-benzeneglycol production by growing the mutant strain in the presence of benzene vapor. Ethanol was the carbon and energy source most adapted to the cis-benzeneglycol production phase, and lactate or propanol could also be used. Glucose inhibited the production of the metabolite.

The growth rates were barely affected by the presence of benzene at a reduced partial pressure (less than 20% of saturation), showing that continuous culture is possible. In a batch process, 0.54g·1⁻¹ of a cell suspension produced 5.1 mmol·1⁻¹cis-benzeneglycol in 27 h, using ethanol as the energy source.

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利用假单胞菌突变株生产顺式苯乙二醇

研究了日用芳香族化学品生物转化为二羟基衍生物的过程。一种从环境中分离出来的菌株，假单胞菌JI104，利用苯、甲苯和其他碳氢化合物作为唯一的碳和能量来源。我们选择了不能与苯一起生长的突变体，并在这些突变体中筛选了缺乏顺式苯乙二醇脱氢酶的菌株，当另一种碳源共同代谢时，它们能够稳定地产生顺式苯乙二醇。我们通过在苯蒸气中生长突变菌株来检验顺式苯乙二醇生产的可能性。乙醇是最适合顺式苯乙二醇生产阶段的碳和能量来源，乳酸或丙醇也可以使用。葡萄糖抑制了代谢物的产生。在降低分压(低于饱和的20%)下，苯的存在几乎不影响生长速率，这表明连续培养是可能的。在间歇过程中，0.54g·1−1的细胞悬液以乙醇为能量源，在27 h内产生5.1 mmol·1−1cis-苯乙二醇。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Fermentation Technology

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