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Gas phase noncovalent protein complexes that retain solution binding properties: Binding of xylobiose inhibitors to the beta-1,4 exoglucanase from Cellulomonas fimi

TitleGas phase noncovalent protein complexes that retain solution binding properties: Binding of xylobiose inhibitors to the beta-1,4 exoglucanase from Cellulomonas fimi
Publication TypeJournal Article
Year of Publication2007
AuthorsTesic, M, Wicki, J, Poon, DKY, Withers, SG, Douglas, DJ
JournalJOURNAL OF THE AMERICAN SOCIETY FOR MASS SPECTROMETRY
Volume18
Pagination64-73
Date PublishedJAN
ISSN1044-0305
Abstract

Tandem mass spectrometry has been used to compare gas-phase and solution binding of three small-molecule inhibitors to the wild type and three mutant forms of the catalytic domain of Cex, an enzyme that hydrolyses xylan and xylo-oligosaccharides. The inhibitors, xylobiosyl-deoxynojirimycin, xylobiosyl-isofagomine lactam, and xylobiosyl-isofagomine consist of a common distal xylose linked to different proximal aza-sugars. The three mutant forms of the enzyme contain the substitutions ASn44A1d, G1n87Met, and G1n87Tyr that alter the binding interactions between Cex and the distal sugar of each inhibitor. An electrospray ionization (ESI) triple quadrupole MS/MS system is used to measure the internal energies, Delta E-int, that must be added to gas-phase ions to cause dissociation of the noncovalent enzyme-inhibitor complexes. Collision cross sections of ions of the apo-enzyme and enzyme-inhibitor complexes, which are required for the calculations of Delta E-int have also been measured. The results show that, in the gas phase, enzyme-inhibitor complexes have more compact, folded conformations than the corresponding apo-enzyme ions. With the mutant enzymes, the effects of substituting a single residue can be detected. The energies required to dissociate the gas-phase complexes follow the same trend as the values of Delta G(0) for dissociation of the complexes in solution. This trend is observed both with different inhibitors, which probe binding to the proximal sugar, and with mutants of Cex, which probe binding to the distal sugar. Thus the gas-phase complexes appear to retain much of their solution binding characteristics.

DOI10.1016/j.jasms.2006.08.012