Abstract
Chiral amines are important building blocks for the synthesis of pharmaceutical products, fine chemicals, and agrochemicals. ω-Transaminases are able to directly synthesize enantiopure chiral amines by catalysing the transfer of an amino group from a primary amino donor to a carbonyl acceptor with pyridoxal 5′-phosphate (PLP) as cofactor. In nature, (S)-selective amine transaminases are more abundant than the (R)-selective enzymes, and therefore more information concerning their structures is available. Here, we present the crystal structure of an (R)-ω-transaminase from Aspergillus terreus determined by X-ray crystallography at a resolution of 1.6 Å. The structure of the protein is a homodimer that displays the typical class IV fold of PLP-dependent aminotransferases. The PLP-cofactor observed in the structure is present in two states (i) covalently bound to the active site lysine (the internal aldimine form) and (ii) as substrate/product adduct (the external aldimine form) and free lysine. Docking studies revealed that (R)-transaminases follow a dual binding mode, in which the large binding pocket can harbour the bulky substituent of the amine or ketone substrate and the α-carboxylate of pyruvate or amino acids, and the small binding pocket accommodates the smaller substituent.
Highlights
Chiral amines are important building blocks for the synthesis of pharmaceutical products, fine chemicals and agrochemicals [1,2,3]
The amino group of the amino donor should be oriented towards this aldimine to enable a transaldimination reaction between the aldimine and the amine donor resulting in the formation of a Schiff base between pyridoxal 59phosphate (PLP) and the amino donor
Transaminases belong to the fold classes I and IV of (PLP)– dependent enzymes, which are classified into five different protein folds [44,45]
Summary
Chiral amines are important building blocks for the synthesis of pharmaceutical products, fine chemicals and agrochemicals [1,2,3]. The amino group of the amino donor should be oriented towards this aldimine to enable a transaldimination reaction between the aldimine and the amine donor resulting in the formation of a Schiff base between PLP and the amino donor. This external aldimine is further converted to a ketimine by a 1,3-. During the time of the submission of this manuscript a paper describing the crystallization and preliminary X-ray diffraction of the (R)-selective amine transaminase from Aspergillus fumigatus has been published [30] and its unreleased structure has been deposited in the PDB (PDB ID: 4CHI). In this paper we describe the structure of an (R)-amine aminotransferase (AT-vTA) from Aspergillus terreus
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