Carl A. Denard scite author profile

In a continuous effort to emulate the efficiency of biosynthetic pathways, considerable progress has been made in developing one-pot chemoenzymatic processes that take full advantage of the chemo-, regio-, and stereoselectivity of biocatalysts and the productivity of chemical catalysts. Over the last 20 years, research in this area has provided us with proof of concept examples in which chemical and biological transformations occur in one vessel, sequentially or concurrently. These transformations typically access products with high enantiopurity and chemical diversity. In this perspective, we present some of the most successful reports in this field.

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Cooperative Tandem Catalysis by an Organometallic Complex and a Metalloenzyme

Denard

et al. 2013

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Although chemical and enzymatic catalysts have been combined, reactions in which an organometallic catalyst and a metalloenzyme work cooperatively to create products, which cannot be generated with either catalyst alone or in comparable yields by sequential reactions of the two catalysts, have not been reported. Such reactions are challenging to achieve, in part because the milieu in which these catalysts operate are typically different. Herein, two classes of catalysts are demonstrated to react cooperatively in the same system. Combination of a metathesis catalyst and a P450 enzyme lead to a dynamic equilibration of alkenes and a selective epoxidation of the cross-metathesis products. These results show the potential of combining the two classes of catalysts for synthetic transformations.

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Improving and repurposing biocatalysts via directed evolution

Denard

Ren

Zhao

2015

Current Opinion in Chemical Biology

226

102

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Tandem Catalytic Conversion of Glucose to 5-Hydroxymethylfurfural with an Immobilized Enzyme and a Solid Acid

et al. 2014

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Conversion of cellulosic biomass to renewable chemicals such as 5-hydroxymethylfurfural (HMF) is of high current interest. Herein, we report a rare example of one-pot synthesis of HMF from glucose by tandem catalysis. The system is composed of a thermophilic glucose isomerase enzyme for glucose isomerization to fructose and a solid acid catalyst for fructose dehydration to HMF. A base (−NH2) functionalized mesoporous silica (aminopropyl-FMS) with large pore size was deployed successfully to immobilize and protect the thermophilic glucose isomerase in organic solvents at high temperature. The combination of this catalyst with a Brønsted acid (−SO3H) functionalized mesoporous silica (propylsulfonic acid-FMS) allowed us to conduct a one-pot transformation of glucose to HMF directly in a monophasic solvent system composed of tetrahydrofuran (THF) and H2O (4:1 v/v) with 61% yield of fructose and 30% yield of HMF at temperatures >363 K in 24 h.

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Development of a One-Pot Tandem Reaction Combining Ruthenium-Catalyzed Alkene Metathesis and Enantioselective Enzymatic Oxidation To Produce Aryl Epoxides

et al. 2015

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We report the development of a tandem chemoenzymatic transformation that combines alkene metathesis with enzymatic epoxidation to provide aryl epoxides. The development of this one-pot reaction required substantial protein and reaction engineering to improve both selectivity and catalytic activity. Ultimately, this reaction converts a mixture of alkenes into a single epoxide product in high enantioselectivity and moderate yields and illustrates both the challenges and benefits of tandem catalysis combining organometallic and enzymatic systems.

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Carl A. Denard

Multistep One-Pot Reactions Combining Biocatalysts and Chemical Catalysts for Asymmetric Synthesis

Cooperative Tandem Catalysis by an Organometallic Complex and a Metalloenzyme

Improving and repurposing biocatalysts via directed evolution

Tandem Catalytic Conversion of Glucose to 5-Hydroxymethylfurfural with an Immobilized Enzyme and a Solid Acid

Development of a One-Pot Tandem Reaction Combining Ruthenium-Catalyzed Alkene Metathesis and Enantioselective Enzymatic Oxidation To Produce Aryl Epoxides

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