Understanding D-Xylose Isomerase Using X-rays and Neutrons

The Science

Converting biomass to fuels on a large scale will require optimizing enzymes that transform breakdown-resistant biomass components into forms that are easy to change into fuel molecules. The enzyme xylose isomerase (XI) is especially important because it can convert sugars that resist bioconversion to fuel into sugars that are readily fermented by, for example, yeasts. A new study led by scientists at Los Alamos National Laboratory (LANL) has shown how the structure around the active site of XI changes as it carries out the conversion. The research used neutron diffraction experiments at the Protein Crystallography Station at the Lujan Center at LANL to map the positioning of individual hydrogen atoms as XI moves them from one carbon to another on the sugar molecule. The research team was able to model how specific amino acids in the XI structure are involved in the movement of the protons. The results may enable new approaches to modifying the enzyme to improve its performance for biofuel and other applications. The research was led by Paul Langan of LANL and included scientists at six other universities and institutes in the United States, France and the United Kingdom.

The Impact

XI is an important enzyme because it can convert sugars that resist bioconversion to fuel into those readily fermented by, for example, yeasts. Through neutron diffraction experiments at the Los Alamos Neutron Science Center, researchers were able to map the positioning of individual hydrogen atoms as XI moves them from one carbon to another on a sugar molecule. Results may enable new approaches for modifying the enzyme to improve its performance for biofuel and other applications.

Principal Investigator

Paul Langan
Los Alamos National Laboratory

BER Program Manager

Amy Swain

U.S. Department of Energy, Biological and Environmental Research (SC-33)
Biological Systems Science Division
[email protected]

References

Kovalevsky, A. Y., L. Hanson, S. Z. Fisher, M. Mustyakimov, S. Mason, T. Forsyth, M. P. Blakeley, D. A. Kean, T. Wagner, H. L. Carrell, A. K. Katz, J. P. Glusker, and P. Langan. 2010. “Metal Ion Roles and the Movement of Hydrogen during Reaction Catalyzed by D-Xylose Isomerase: A Joint X-Ray and Neutron Diffraction Study,” Structure 18, 688-99. DOI:10.1016/j.str.2010.03.011.