首页> 美国卫生研究院文献>Applied and Environmental Microbiology >Identification of a Novel Dihydrodaidzein Racemase Essential for Biosynthesis of Equol from Daidzein in Lactococcus sp. Strain 20-92
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Identification of a Novel Dihydrodaidzein Racemase Essential for Biosynthesis of Equol from Daidzein in Lactococcus sp. Strain 20-92

机译:新型双氢黄豆苷元消旋酶的鉴定对于乳酸菌球菌中黄豆苷元的生物合成紫杉醇至关重要。应变20-92

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摘要

Equol is metabolized from daidzein, a soy isoflavone, by the gut microflora. In this study, we identified a novel dihydrodaidzein racemase (l-DDRC) that is involved in equol biosynthesis in a lactic acid bacterium, Lactococcus sp. strain 20-92, and confirmed that histidine-tagged recombinant l-DDRC (l-DDRC-His) was able to convert both the (R)- and (S)-enantiomers of dihydrodaidzein to the racemate. Moreover, we showed that recombinant l-DDRC-His was essential for in vitro equol production from daidzein by a recombinant enzyme mixture and that efficient in vitro equol production from daidzein was possible using at least four enzymes, including l-DDRC. We also proposed a model of the metabolic pathway from daidzein to equol in Lactococcus strain 20-92.
机译:大豆微生物通过大豆异黄酮黄豆苷元代谢了紫杉酚。在这项研究中,我们确定了一种新型的二氢黄豆苷元消旋酶(1-DDRC),它参与了乳酸菌乳球菌sp。的雌马酚的生物合成。菌株20-92,并证实组氨酸标签的重组1-DDRC(1-DDRC-His)能够将二氢黄豆苷元的(R)-和(S)-对映异构体均转化为外消旋体。此外,我们显示重组1-DDRC-His对于通过重组酶混合物从黄豆苷元体外雌马酚生产是必不可少的,并且使用至少四种酶,包括1-DDRC,从黄豆苷元有效地体外雌马酚生产是可能的。我们还提出了黄豆球菌菌株20-92中从大豆苷元到雌马酚的代谢途径模型。

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