还原酮

顺式还原酮加双氧酶（ARD）家族参与甲硫氨酸循环，并普遍存在于从微生物到动植物的各种生物体中。

The aci-reductone dioxygenase ( ARD ) family is evolutionarily conserved from bacteria to plants and animals .

植物细胞作为很有前景的生物催化剂已经用于多种有机反应，例如羟基化、糖基化、水解、氧化醇、还原酮和烯烃等。

In the past decades , plant cells have been widely used as the most promising biocatalysts for various organic reactions such as hydroxylation , glycosylation , hydrolysis , oxidation of alcohol , and reduction of ketone and olefin .

用芹菜茎生物催化对映选择性还原芳香酮

Enantioselective Reduction of Aromatic Ketones Using Celeriac as Biocatalyst

立体选择性还原芳香酮微生物的筛选及反应特性的研究

Isolation of Microbe for Asymmetric Reduction of Prochiral Aromatic Ketone and Its Reaction Characters

CBS催化剂是重要的手性催化剂，用于不对称还原前手性酮，催化反应收率与光学收率均很高。

CBS catalyst is one kind of the important chiral catalysts in asymmetric reductions of prochiral ketones , which have extremely high yield and optical yield .

本工作采用酵母FD-12催化还原2-辛酮，合成（S）-2-辛醇。

In this study the asymmetric reduction of 2-octanone to ( S ) - 2-octanol catalyzed by FD-12 was studied .

两相系统中不对称还原2-辛酮的菌株筛选

Strains screening for asymmetric reduction of 2-octanone in aqueous-organic solvents biphasic systems

本文从包括酵母、细菌和霉菌在内的菌株中筛选得到还原2-辛酮生成手性2-辛醇效果较好的2株菌株。

Asymmetry reduction of 2-octanone by Yeast , Mold and Bacteria was investigated .

本文报导用低价钛盐还原偶联芳酮为烷烃的反应。

The paper reports the reductive coupling of aromatic ketones to alkanes by low-valent titanium salt .

从93株酵母、霉菌和细菌中筛选出能不对称还原2-辛酮的菌株。

Asymmetric reduction of 2-octanone by yeast , mold and bacteria in aqueous-organic solvents biphasic systems were investigated .

文章综述近几年来由低价钛还原偶联醛酮合成片呐醇的进展。

Progress in pinacol coupling of aldehydes and ketones using low valent titanium is reviewed in recent years .

水-有机溶剂两相体系中面包酵母不对称还原苯乙酮合成手性苯乙醇的研究

Asymmetric Reduction of Acetophenone to Chiral α - Phenylethyl Alcohol Catalyzed by Saccharomyces cerevisiae in Aqueous-Organic Solvent Biphasic System

不对称氢转移反应是选择性地还原醛、酮及亚胺等化合物的重要方法之一，条件温和，操作简便。

The new chiral iridium ( I ) complex catalysts were successfully applied to asymmetric transfer hydrogenation of various aromatic ketones an .

该催化剂在不对称还原苯乙酮的反应中可以重复使用26次仍然保持较高的催化效率与对映选择性。

The catalyst can be reused more than twenty-six times with no significant decline both in selectivity and activity for asymmetric transfer hydrogenation of acetophenone .

不对称催化硼氢化反应是应用广泛且具有工业价值的反应，其中的硼烷还原前手性酮反应有着举足轻重的作用。

Asymmetric hydroboration is a kind of widely applied and valuable reaction , in which borane reduction of prochiral ketones reaction is an important method .

酵母细胞不对称还原4-氯苯乙酮合成相应手性醇

Asymmetric Reduction of 4-Chloroacetophenone to Corresponding Chiral Alcoho Catalyzed by Saccharomyces cerevisiae