Asymmetric reductive amination by a wild-type amine dehydrogenase from the thermophilic bacteria Petrotoga mobilis

Mayol Ombeline; David Sylvain; Darii EkaterinaDebard AdrienMariage AlinePellouin VirginiePetit Jean-LouisSalanoubat Marcelde Berardinis VeroniqueZaparucha AnneVergne-Vaxelaire Carine

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Asymmetric reductive amination by a wild-type amine dehydrogenase from the thermophilic bacteria Petrotoga mobilis

机译：由野生型不对称还原胺化作用从高温厌氧胺脱氢酶细菌Petrotoga mobilis

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The biocatalytic reductive amination of ketone to chiral amine is one of the most challenging reactions. Using a genome-mining approach, we found proteins catalyzing the reductive amination of ketones without a carboxylic function in the alpha or beta position. The synthesis of (4S)-4-aminopentanoic acid (ee >= 99.5%) was achieved with the thermoactive amine dehydrogenase (AmDH) AmDH4 from Petrotoga mobilis in 88% yield. The high stability and substrate tolerance make AmDH4 a very good starting point for further discovery of reductive amination biocatalysts with an enlarged substrate range. This is the first report of wild-type enzymes with related genes having proper NAD(P)H-AmDH activity.

机译：酮的biocatalytic还原胺化作用手性胺是最具有挑战性之一反应。发现蛋白质催化还原胺化作用酮的羧基功能α或β的位置。(4 s) 4-aminopentanoic酸(ee > = 99.5%)实现传热胺脱氢酶(AmDH) AmDH4 Petrotoga mobilis在88%的收益率。宽容使AmDH4一个很好的起点为进一步发现还原胺化作用生物催化剂基质范围扩大。这是第一次报告的野生型酶相关基因有适当的NAD (P) H-AmDH活动。

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来源
《Catalysis science & technology》 |2016年第20期|7421-7428|共8页
作者
Mayol Ombeline; David Sylvain; Darii EkaterinaDebard AdrienMariage AlinePellouin VirginiePetit Jean-LouisSalanoubat Marcelde Berardinis VeroniqueZaparucha AnneVergne-Vaxelaire Carine;
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CEA, IG, DRF, Genoscope, 2 Rue Gaston Cremieux, F-91057 Evry, France;

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正文语种英语
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Petrotoga mobilis; amine dehydrogenase; KetonesAminationAquifex aeolicusReducing Agents;

机译：Petrotoga mobilis;胺脱氢酶;KetonesAminationAquifexaeolicusReducing代理;

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2. Reductive Amination of Aldehydes and Ketones with Primary Amines by Using Lithium Amidoborane as Reducing Reagent [O] . Xu Weiliang, Zheng Xueli, Wu Guotao, 2012

机译：Reductive amination of aldehydes and Ketones with primary amines by Using Lithium amidoborane as Reducing Reagent

Asymmetric reductive amination by a wild-type amine dehydrogenase from the thermophilic bacteria Petrotoga mobilis

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