X-ray and neutron scattering

L-Arabinose binding, isomerization, and epimerization by D-xylose isomerase: X-ray/neutron crystallographic and molecular simulation study.

Structure (London, England : 1993) 22:9 (2014) 1287-1300

Authors:

Paul Langan, Amandeep K Sangha, Troy Wymore, Jerry M Parks, Zamin Koo Yang, B Leif Hanson, Zoe Fisher, Sax A Mason, Matthew P Blakeley, V Trevor Forsyth, Jenny P Glusker, Horace L Carrell, Jeremy C Smith, David A Keen, David E Graham, Andrey Kovalevsky

Abstract:

D-xylose isomerase (XI) is capable of sugar isomerization and slow conversion of some monosaccharides into their C2-epimers. We present X-ray and neutron crystallographic studies to locate H and D atoms during the respective isomerization and epimerization of L-arabinose to L-ribulose and L-ribose, respectively. Neutron structures in complex with cyclic and linear L-arabinose have demonstrated that the mechanism of ring-opening is the same as for the reaction with D-xylose. Structural evidence and QM/MM calculations show that in the reactive Michaelis complex L-arabinose is distorted to the high-energy (5)S1 conformation; this may explain the apparent high KM for this sugar. MD-FEP simulations indicate that amino acid substitutions in a hydrophobic pocket near C5 of L-arabinose can enhance sugar binding. L-ribulose and L-ribose were found in furanose forms when bound to XI. We propose that these complexes containing Ni(2+) cofactors are Michaelis-like and the isomerization between these two sugars proceeds via a cis-ene-diol mechanism.

Observation of interstitial molecular hydrogen in clathrate hydrates.

Angewandte Chemie (International ed. in English) 53:40 (2014) 10710-10713

Authors:

R Gary Grim, Brian C Barnes, Patrick G Lafond, Winfred A Kockelmann, David A Keen, Alan K Soper, Masaki Hiratsuka, Kenji Yasuoka, Carolyn A Koh, Amadeu K Sum

Abstract:

The current knowledge and description of guest molecules within clathrate hydrates only accounts for occupancy within regular polyhedral water cages. Experimental measurements and simulations, examining the tert-butylamine + H2 + H2O hydrate system, now suggest that H2 can also be incorporated within hydrate crystal structures by occupying interstitial sites, that is, locations other than the interior of regular polyhedral water cages. Specifically, H2 is found within the shared heptagonal faces of the large (4(3)5(9)6(2)7(3)) cage and in cavities formed from the disruption of smaller (4(4)5(4)) water cages. The ability of H2 to occupy these interstitial sites and fluctuate position in the crystal lattice demonstrates the dynamic behavior of H2 in solids and reveals new insight into guest-guest and guest-host interactions in clathrate hydrates, with potential implications in increasing overall energy storage properties.

An anisotropic local modification of crystal field levels in Pr-based pyrochlores: a muon-induced effect modelled using density functional theory

(2014)

Authors:

FR Foronda, F Lang, JS Möller, T Lancaster, AT Boothroyd, FL Pratt, SR Giblin, D Prabhakaran, SJ Blundell

Coupling of magnetic order to planar Bi electrons in the anisotropic Dirac metals AMnBi2 (A =Sr,Ca)

Physical Review B American Physical Society (APS) 90:7 (2014) 075120

Authors:

YF Guo, AJ Princep, X Zhang, P Manuel, D Khalyavin, II Mazin, YG Shi, AT Boothroyd

Crystal field splitting in Srn+1IrnO3n+1 (n=1,2) iridates probed by x-ray Raman spectroscopy

Physical Review B American Physical Society (APS) 90:8 (2014) 085126

Authors:

M Moretti Sala, M Rossi, A Al-Zein, S Boseggia, EC Hunter, RS Perry, D Prabhakaran, AT Boothroyd, NB Brookes, DF McMorrow, G Monaco, M Krisch