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admin has written 3 posts for Blum Scientific


I moved to the Netherlands and joint the Organisation for the Prohibition of Chemical Weapons (OPCW) in September 2012. I will keep this site as a repository of earlier work and I am working on a version “2.0”. However Blum – Scientific Services as a commercial entity ceased operations.

Neutron structure and mechanistic investigations of DFPase

In a new article in the Journal Acta Crystallographica D we discuss comprehensively the neutron diffraction structure of DFPase and studies on the reaction mechanism of this enzyme. Three mechanisms proposed for DFPase will be discussed. This includes the original mechanism proposed in 2001 in which histidine residue 287 activates a water molecule for nucleophilic attack on the substrate’s phosphorus atom which itself is activated by coordination to the catalytic calcium ion. The second mechanism proposed in 2006 and currently view as the correct one, includes a covalent phospho-enzyme intermediate. The third mechanism which is discussed and refuted includes water as the nucleophile directly activated by coordination to the calcium.The article point out that besides important structural investigations (the neutron diffraction structure of DFPase yielded important and indispensable information) also mutagenesis and other mechanistic studies are required to derive enzyme reaction mechanisms.

X-ray structure of perdeuterated DFPase – perdeuteration of enzymes for neutron diffraction

Perdeuteration of proteins is a much discussed strategy to overcome the problems of incoherent scattering caused by hydrogen in neutron diffraction experiments because deuterium displays a significantly lower incoherent scattering cross section compared to the normal hydrogen isotope. Expression of the protein in perdeuterated media is required for this. We report the X-ray structure of perdeuterated DFPase, which displays practically no differences to the hydrogenous structure. B-factors and RMSD values are reported. Even though a very big perdeuterated DFPase crystal was grown, it did not diffract neutrons. Reasons for this unexpected behaviour are discussed. The structure is presented in a new publication in Acta Cryst. F.