Vicente Gotor scite author profile

A series of synthetic nicotinamide cofactors were synthesized to replace natural nicotinamide cofactors and promote enoate reductase (ER)-catalyzed reactions without compromising activity or stereoselectivity of the bioreduction process. Conversions and enantioselectivities of up to >99% were obtained for C=C bioreductions and the process was successfully upscaled. Furthermore, high chemoselectivity was observed when employing these nicotinamide cofactor mimics (mNADs) with crude extracts in ER-catalyzed reactions.The asymmetric reduction of conjugated C=C double bonds using enoate reductases (ERs, EC 1.3.1.31) is receiving great interest in preparative organic chemistry.1 § Both authors contributed equally.

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Enantioselective Enzymatic Desymmetrizations in Organic Synthesis

García‐Urdiales

2004

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Lipases: Useful biocatalysts for the preparation of pharmaceuticals

Gotor‐Fernández¹,

Brieva²,

Gotor³

2006

Journal of Molecular Catalysis B: Enzymatic

323

136

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Hydrolases: catalytically promiscuous enzymes for non-conventional reactions in organic synthesis

2010

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During the last three decades the use of hydrolases for the catalysis of environmentally friendly organic processes under mild reaction conditions has been well documented. Hydrolases have shown themselves to be ideal tools for the acceleration of synthetic transformations because of their high stability, catalytic efficiency, commercial availability and broad substrate specificity in a wide spectrum of biocatalyzed processes. In recent years, novel examples have appeared related to non-conventional reactions catalyzed by hydrolytic enzymes. Amongst these, lipases and acylases have gained much attention as promiscuous biocatalysts showing good levels of reactivity in C-C bond formation, C-heteroatom bond formation, oxidative processes, and novel hydrolytic reactions. This critical review covers recent investigation in the field of catalytic promiscuity, and highlights the most surprising and uncommon activities that this class of enzymes shows in organic synthetic transformations (111 references).

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Biocatalytic Selective Modifications of Conventional Nucleosides, Carbocyclic Nucleosides, and C-Nucleosides

2000

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Candida antarctica Lipase B: An Ideal Biocatalyst for the Preparation of Nitrogenated Organic Compounds

2006

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Candida antarctica lipase B (CAL-B) is a very effective catalyst for the production of amines and amides using different enzymatic procedures. Simplicity of use, low cost, commercial availability and recycling possibility make this lipase an ideal tool for the synthesis and resolution of a wide range of nitrogenated compounds that can be used for the production of pharmaceuticals and interesting manufactures in the industrial sector.

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Non-conventional hydrolase chemistry: amide and carbamate bond formation catalyzed by lipases

Gotor

1999

Bioorganic & Medicinal Chemistry

148

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Lipase catalysed Michael addition of secondary amines to acrylonitrile

2004

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Vicente Gotor

Mimicking Nature: Synthetic Nicotinamide Cofactors for C═C Bioreduction Using Enoate Reductases

Enantioselective Enzymatic Desymmetrizations in Organic Synthesis

Lipases: Useful biocatalysts for the preparation of pharmaceuticals

Hydrolases: catalytically promiscuous enzymes for non-conventional reactions in organic synthesis

Biocatalytic Selective Modifications of Conventional Nucleosides, Carbocyclic Nucleosides, and C-Nucleosides

Candida antarctica Lipase B: An Ideal Biocatalyst for the Preparation of Nitrogenated Organic Compounds

Non-conventional hydrolase chemistry: amide and carbamate bond formation catalyzed by lipases

Lipase catalysed Michael addition of secondary amines to acrylonitrile

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