U.G. Wagner scite author profile

The long axial cobalt-nitrogen bond first observed in the structure of MCM appears to result from a contribution of the species without upper ligand. The tight binding of the tartrate ion conforms to the requirements of tight control of the reactive intermediates and suggests how the enzyme might use the substrate-binding energy to initiate cleavage of the cobalt-carbon bond. The cofactor does not appear to have a participating role during the radical rearrangement reaction.

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Mechanism of cyanogenesis: the crystal structure of hydroxynitrile lyase from Hevea brasiliensis

Wagner

et al. 1996

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By analogy with other alpha/beta hydrolases, the reaction catalyzed by hydroxynitrile lyase involves a tetrahedral hemiketal or hemiacetal intermediate formed by nucleophilic attack of Ser80 on the substrate, stabilized by the oxyanion hole. The SH group of Cys81 is probably involved in proton transfer between the HCN and the hydroxynitrile OH. This mechanism is significantly different from the corresponding uncatalyzed solution reaction.

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Three‐dimensional structures of enzyme‐substrate complexes of the hydroxynitrile lyase from hevea brasiliensis

et al. 1999

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The 3D structures of complexes between the hydroxynitrile lyase from Hevea brasiliensis (Hb-HNL! and several substrate and0or inhibitor molecules, including trichloracetaldehyde, hexafluoracetone, acetone, and rhodanide, were determined by X-ray crystallography. The complex with trichloracetaldehyde showed a covalent linkage between the protein and the inhibitor, which had apparently resulted from nucleophilic attack of the catalytic Ser80-Og. All other complexes showed the substrate or inhibitor molecule merely hydrogen bonded to the protein. In addition, the native crystal structure of Hb-HNL was redetermined at cryo-temperature and at room temperature, eliminating previous uncertainties concerning residual electron density within the active site, and leading to the observation of two conserved water molecules. One of them was found to be conserved in all complex structures and appears to have mainly structural significance. The other water molecule is conserved in all structures except for the complex with rhodanide; it is hydrogen bonded to the imidazole of the catalytic His235 and appears to affect the Hb-HNL catalyzed reaction. The observed 3D structural data suggest implications for the enzyme mechanism. It appears that the enzyme-catalyzed cyanohydrin formation is unlikely to proceed via a hemiacetal or hemiketal intermediate covalently attached to the enzyme, despite the observation of such an intermediate for the complex with trichloracetaldehyde. Instead, the data are consistent with a mechanism where the incoming substrate is activated by hydrogen bonding with its carbonyl oxygen to the Ser80 and Thr11 hydroxy groups. A hydrogen cyanide molecule subsequently replaces a water molecule and is deprotonated presumably by the His235 base. Deprotonation is facilitated by the proximity of the positive charge of the Lys236 side chain.Keywords: biocatalysis; cyanohydrin formation; enzyme mechanism; hydroxynitrile lyase; oxynitrilase; protein crystallography Hydroxynitrile lyases~EC 4.2.1.39! catalyze the cleavage of cyanohydrins to yield hydrocyanic acid plus the corresponding aldehyde or ketone~Fig. 1!. The release of HCN serves as a defense against herbivores and microbial attack for a variety of plants Conn, 1981;Hickel et al., 1996;Wajant & Effenberger, 1996! and is initiated by a b-glycosidases-mediated degradation of cyanoglycosides, forming a sugar and the a-hydroxynitrile~cyanohydrin!. In aqueous solution, cyanohydrin cleavage occurs spontaneously above pH 5, while the enzyme-catalyzed reaction also occurs at lower pH values~down to pH ; 3; Hickel et al., 1996!.

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Atomic Resolution Crystal Structure of Hydroxynitrile Lyase from <I>Hevea brasiliensis</I>

Gruber¹,

Gugganig²,

Wagner³

et al. 1999

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The X-ray crystal structure of native hydroxynitrile lyase from Hevea brasiliensis (Hb-HNL) has been determined at 1.1 A resolution. It refined to a final R of 11.5% for all data and an Rfree of 14.4%. The favorable data-to-parameter ratio at atomic resolution made the refinement of individual anisotropic displacement parameters possible. The data also allowed a clear distinction of the alternate orientations of all histidine and the majority of asparagine and glutamine side chains. A number of hydrogen atoms, including one on the imidazole of the mechanistically important His-235, became visible as peaks in a difference electron density map. The structure revealed a discretely disordered sidechain of Ser-80, which is part of the putative catalytic triad. Analysis of the anisotropy indicated an increased mobility of residues near the entrance to the active site and within the active site.

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Crystallization and preliminary X-ray diffraction studies of a hydroxynitrile lyase fromHevea brasiliensis

Wagner¹,

Schall²,

Hasslacher³

et al. 1996

Acta Cryst D

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Crystals of the hydroxynitrile lyase from Hevea brasiliensis" overexpressed in Pichia pastoris have been obtained by the hanging-drop technique at 294 K with ammonium sulfate and PEG 400 as precipitants. The crystals belong to the orthorhombic space group C2221 with cell dimensions of a = 47.6, b = 106.8 and c = 128.2 A. The crystals diffract to about 2.5 A resolution on a rotating-anode X-ray source.

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U.G. Wagner

Glutamate mutase from Clostridium cochlearium: the structure of a coenzyme B12-dependent enzyme provides new mechanistic insights

Mechanism of cyanogenesis: the crystal structure of hydroxynitrile lyase from Hevea brasiliensis

Three‐dimensional structures of enzyme‐substrate complexes of the hydroxynitrile lyase from hevea brasiliensis

Atomic Resolution Crystal Structure of Hydroxynitrile Lyase from <I>Hevea brasiliensis</I>

Crystallization and preliminary X-ray diffraction studies of a hydroxynitrile lyase fromHevea brasiliensis

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