Abstract: The invention relates to transaminases and their use. The ATAs according to the invention are particularly useful for catalyzing the conversion of amines to ketones and/or vice versa. Preferably, the transaminase (ATA) according to the invention comprises an amino acid sequence with at least 80% homology to SEQ ID NO:1, wherein the amino acid sequence is engineered compared to SEQ ID NO:1 such that it comprises at least a substitution selected from the group consisting of F255L, F255A, F255C, F255D, F255E, F255G, F255H, F255K, F255M, F255N, F255P, F255Q, F255R, F255S, F255T, F255V, F255W, and F255Y.

Abstract: The invention relates to ketoreductases and the use thereof. The ketoreductases of the invention are particularly useful for enzymatically catalyzing the reduction of ketones to chiral secondary alcohols.

Abstract: The invention relates to transaminases that are particularly useful for catalyzing the conversion of amine substrates to ketone products and/or vice versa.

Abstract: The invention relates to transaminases and their use. The ATAs according to the invention are particularly useful for catalyzing the conversion of amines to ketones and/or vice versa. Preferably, the transaminase (ATA) according to the invention comprises an amino acid sequence with at least 80% homology to SEQ ID NO:1, wherein the amino acid sequence is engineered compared to SEQ ID NO:1 such that it comprises at least a substitution selected from the group consisting of F255L, F255A, F255C, F255D, F255E, F255G, F255H, F255K, F255M, F255N, F255P, F255Q, F255R, F255S, F255T, F255V, F255W, and F255Y.

Abstract: The invention relates to ketoreductases and the use thereof. The ketoreductases of the invention are particularly useful for enzymatically catalyzing the reduction of ketones to chiral secondary alcohols.

Abstract: The invention relates to transaminases that are particularly useful for catalyzing the conversion of amine substrates to ketone products and/or vice versa.

Abstract: The invention relates to ketoreductases and the use thereof. The ketoreductases of the invention are particularly useful for enzymatically catalyzing the reduction of ketones to chiral secondary alcohols.

Abstract: The invention relates to ketoreductases and the use thereof. The ketoreductases of the invention are particularly useful for enzymatically catalyzing the reduction of ketones to chiral secondary alcohols.

Abstract: The invention relates to a nitrilase having improved activity in the reaction of a nitrile to form the corresponding carboxylic acid, in particular with respect to reacting 2-methylglutaronitrile, 1-(cyanomethyl)cyclohexane-1-carbonitrile, and benzonitrile. The nitrilase according to the invention is related to nitrilase from acidovorax facilis.

Abstract: The invention relates to a nitrilase having improved activity in the reaction of a nitrile to form the corresponding carboxylic acid, in particular with respect to reacting 2-methylglutaronitrile, 1-(cyanomethyl)cyclohexane-1-carbonitrile, and benzonitrile. The nitrilase according to the invention is related to nitrilase from acidovorax facilis.