Remarkably different structures and reaction mechanisms of ketoreductases for the opposite stereochemical control in the biosynthesis of BIQ antibiotics.

Taguchi T; Kunieda K; Takeda Shitaka M; Takaya D; Kawano N; Kimberley MR; Booker Milburn KI; Stephenson GR; Umeyama H; Ebizuka Y; Ichinose K

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Remarkably different structures and reaction mechanisms of ketoreductases for the opposite stereochemical control in the biosynthesis of BIQ antibiotics.

机译：在BIQ抗生素生物合成中相反的立体化学控制中，酮还原酶的结构和反应机理明显不同。

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Two ketoreductases, RED1 and RED2, are involved in the biosynthesis of actinorhodin in Streptomyces coelicolor A3(2) and dihydrogranaticin in S. violaceoruber Tu22, respectively. They are responsible for the stereospecific reductions of the bicyclic intermediate to give (S)- or (R)-DNPA, although there is no similarity between their amino acid sequences. Biotransformation using synthetic analogous substrates revealed that the substrate specificities are quite different. Homology modelling studies and site directed mutagenesis showed remarkable differences in three-dimensional structures and catalytic mechanisms between RED1 and RED2.

机译：两种酮还原酶RED1和RED2分别参与了链霉菌A3（2）中的放线菌丝素和S. violaceoruber Tu22中的双氢青霉素的生物合成。它们负责双环中间体的立体特异性还原，从而得到（S）-或（R）-DNPA，尽管它们的氨基酸序列之间没有相似性。使用合成的类似底物进行生物转化显示底物特异性差异很大。同源性建模研究和定点诱变显示RED1和RED2在三维结构和催化机理上存在显着差异。

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《Bioorganic and medicinal chemistry》 |2004年第22期|共11页
作者
Taguchi T; Kunieda K; Takeda Shitaka M; Takaya D; Kawano N; Kimberley MR; Booker Milburn KI; Stephenson GR; Umeyama H; Ebizuka Y; Ichinose K;
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正文语种 eng
中图分类基础医学;
关键词
Anabolism; control; Antibiotics; A3; 抗生素类;

机译：Anabolism;control;Antibiotics;A3;抗生素类;

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1. Remarkably different structures and reaction mechanisms of ketoreductases for the opposite stereochemical control in the biosynthesis of BIQ antibiotics. [J] . Taguchi T, Kunieda K, Takeda Shitaka M, Bioorganic and medicinal chemistry . 2004,第22期

机译：在BIQ抗生素生物合成中相反的立体化学控制中，酮还原酶的结构和反应机理明显不同。
2. Hydroxynitrile Lyases with α/β-Hydrolase Fold: Two Enzymes with Almost Identical 3D Structures but Opposite Enantioselectivities and Different Reaction Mechanisms [J] . Andexer J.N., Staunig N., Eggert T., Chembiochem: A European journal of chemical biology . 2012,第13期

机译：具有α/β-羟化酶折叠的羟腈裂解酶：两种酶具有几乎相同的3D结构，但对映选择性和不同的反应机理
3. High-throughput mutagenesis to evaluate models of stereochemical control in ketoreductase domains from the erythromycin polyketide synthase [J] . OHare HM, Baerga-Ortiz A, Popovic B, Chemistry & biology . 2006,第3期

机译：高通量诱变评估红霉素聚酮化合物合酶在酮还原酶域中的立体化学控制模型
4. Stereochemical Control Mechanisms in Propylene Polymerization Reactions with Fluorenyl Containing Single Site Catalysts [C] . Abbas Razavi, Vincenzo Bellia, Didier Baekelmans PMSE Symposia . 2002

机译：丙烯聚合反应与含氟单位催化剂的立体化学控制机制
5. New reactions, mechanisms, and stereochemical theory in organic chemistry. [D] . Kolakowski, Robert Vincent. 2010

机译：有机化学中的新反应，新机理和立体化学理论。
6. Hydroxynitrile Lyases with α/β-Hydrolase Fold: Two Enzymes with Almost Identical 3D Structures but Opposite Enantioselectivities and Different Reaction Mechanisms [O] . Jennifer N Andexer, Nicole Staunig, Thorsten Eggert, -1

机译：具有α/β-羟化酶折叠的羟腈裂解酶：两种酶具有几乎相同的3D结构但对映选择性和不同的反应机理
7. Hydroxynitrile Lyases with $\alpha$/$\beta$-Hydrolase Fold: Two Enzymes with Almost Identical 3D Structures but Opposite Enantioselectivities and Different Reaction Mechanisms [O] . Andexer, J. N., Staunig, N., Eggert, T., 2012

机译：具有$ \ alpha $ / $ \ beta $ -Hydrolase折叠的羟基腈裂解酶：两种酶具有几乎相同的3D结构，但对映选择性和反应机制不同
8. Regio- and Stereochemical Control in Substitution Reactions of Cyclophosphazenes [R] . Allen, C. W. 1991

机译：环磷酰胺取代反应中的区域和立体化学控制

Remarkably different structures and reaction mechanisms of ketoreductases for the opposite stereochemical control in the biosynthesis of BIQ antibiotics.

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