Chemical Technology Archive

Usually, harvesting energy and raw materials from plants requires many process steps and aggressive chemicals. To make these processes more efficient and resource saving, researchers are looking for suitable enzymes. Using neutrons, researchers have now investigated the reaction mechanism of an important class of enzymes: the glycosidases. The measurements were made at the neutron sources in Los Alamos and Oak Ridge (USA), as well as at the research neutron source FRM II of the Technical University of Munich (TUM). The results provide the key to improving large-scale technical processing of biomass.

When producing synthetics, intermediate chemical products or biofuels from biomass, hemicellulose, a large polysaccharide abundant in plant cell walls, must first be broken down to monomeric sugars. In contrast to the uncatalyzed reaction in neutral solution, enzymes like glycosidases are able to speed up the decomposition reaction up to 18 orders of magnitude.

TUM imageGlycosidase crystal (left) with a typical diffraction image resulting from neutron scattering at the BioDiff instrument (Image: TUM).

The biomass is typically pretreated in a very alkaline environment. However, natural enzymes develop their maximum activity in mildly acidic environments. An important research goal is thus to alter these enzymes in a manner to allow them to function effectively in a basic environment.

This requires detailed knowledge of the reaction sequence of the enzyme, in particular the precise position of all hydrogen atoms in the active center of an enzyme before, during and after the chemical reaction. This insight was lacking hitherto.

Detective work using neutrons

In the context of an international collaborative project, a team of researchers led by Andrey Kovalevsky, scientist at the Oak Ridge National Laboratory, has now determined the structure of a glycosidase with hitherto unprecedented accuracy. One of the three neutron sources used in the project was the research neutron source FRM II at TU Munich.

“Unlike X-ray structure analysis, neutron diffraction is the method of choice when it comes to pinpointing the position of hydrogen atoms in the active center of enzymes,” says TUM biologist Andreas Ostermann, who, in collaboration with his colleague Tobias Schrader from the Forschungszentrum Jülich, operates the BioDiff instrument in Garching at which the measurements were made.

The scientists analyzed the structure of the glycosidase using neutron scattering on enzyme crystals. They investigated the structure at various pH levels and in a complex with a ligand molecule. The insight gained from the neutron scattering experiments was used as a starting point for molecular dynamics simulations.

A turn for the better

During their work they discovered that the decisive step depends on the orientation of one specific amino acid side chain, the free carboxyl group of a glutamic acid. When it turns down and away from the substrate, it can take over a proton from a water molecule. When the carboxyl group turns upward, the acidity is strengthened and the proton is transferred to the substrate.

The lead author of the publication, Andrey Kovalevsky is very pleased with the success of the experiments: “No one has ever observed hydrogen atoms in a glycoside hydrolase enzyme, and until now we did not know how the catalytic glutamic acid residue is protonated.” Using this knowledge, work on altering the enzyme in a way that allows efficient biomass decomposition even in high pH environments can begin.

For more information tel: +49 89 289 22731, email: presse@tum.de, or go to web: www.tum.de

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