2-Keto-3-Deoxy- l-Rhamnonate Aldolase (YfaU) as Catalyst in Aldol Additions of Pyruvate to Amino Aldehyde Derivatives.

4-Hydroxy-2-keto acid derivatives are versatile building blocks for the synthesis of amino acids, hydroxy carboxylic acids and chiral aldehydes. Pyruvate aldolases are privileged catalysts for a straightforward access to this class of keto acid compounds. In this work, a Class II pyruvate aldolase from Escherichia coli K-12, 2-keto-3-deoxy- l-rhamnonate aldolase (YfaU), was evaluated for the synthesis of amino acid derivatives of proline, pipecolic acid, and pyrrolizidine-3-carboxylic acid. The aldol addition of pyruvate to N-protected amino aldehydes was the key enzymatic aldol addition step followed by catalytic intramolecular reductive amination. The corresponding N-Cbz-amino-4-hydroxy-2-keto acid (Cbz=benzyloxycarbonyl) precursors were obtained in 51-95% isolated yields and enantioselectivity ratios from 26:74 to 95:5, with chiral α-substituted N-Cbz-amino aldehydes. ( S)- N-Cbz-amino aldehydes gave aldol adducts with preferentially ( R)-configuration at the newly formed stereocenter, whereas the contrary is true for ( R)- N-Cbz-amino aldehydes. Addition reactions to achiral amino aldehydes rendered racemic aldol adducts. Molecular models of the pre-reaction ternary complexes YfaU-pyruvate enolate-acceptor aldehyde were constructed to explain the observed stereochemical outcome of the reactions. Catalytic reductive amination of the aldol adducts yielded 4-hydroxy-2-pipecolic acid, and unprecedented C-5 substituted 4-hydroxyproline and pyrrolizidine-3-carboxylic acid derivatives. [ABSTRACT FROM AUTHOR]