Litcius/Paper detail

Changes in active-site geometry on X-ray photoreduction of a lytic polysaccharide monooxygenase active-site copper and saccharide binding

Tobias Tandrup, Sebastian J. Muderspach, Sanchari Banerjee, Gianluca Santoni, Johan Ø. Ipsen, Cristina Hernández‐Rollán, Morten H. H. Nørholm, Katja S. Johansen, Flora Meilleur, Leila Lo Leggio

2022IUCrJ28 citationsDOIOpen Access PDF

Abstract

The recently discovered lytic polysaccharide monooxygenases (LPMOs) are Cu-containing enzymes capable of degrading polysaccharide substrates oxidatively. The generally accepted first step in the LPMO reaction is the reduction of the active-site metal ion from Cu 2+ to Cu + . Here we have used a systematic diffraction data collection method to monitor structural changes in two AA9 LPMOs, one from Lentinus similis ( Ls AA9_A) and one from Thermoascus aurantiacus ( Ta AA9_A), as the active-site Cu is photoreduced in the X-ray beam. For Ls AA9_A, the protein produced in two different recombinant systems was crystallized to probe the effect of post-translational modifications and different crystallization conditions on the active site and metal photoreduction. We can recommend that crystallographic studies of AA9 LPMOs wishing to address the Cu 2+ form use a total X-ray dose below 3 × 10 4 Gy, while the Cu + form can be attained using 1 × 10 6 Gy. In all cases, we observe the transition from a hexacoordinated Cu site with two solvent-facing ligands to a T-shaped geometry with no exogenous ligands, and a clear increase of the θ 2 parameter and a decrease of the θ 3 parameter by averages of 9.2° and 8.4°, respectively, but also a slight increase in θ T . Thus, the θ 2 and θ 3 parameters are helpful diagnostics for the oxidation state of the metal in a His-brace protein. On binding of cello-oligosaccharides to Ls AA9_A, regardless of the production source, the θ T parameter increases, making the Cu site less planar, while the active-site Tyr—Cu distance decreases reproducibly for the Cu 2+ form. Thus, the θ T increase found on copper reduction may bring Ls AA9_A closer to an oligosaccharide-bound state and contribute to the observed higher affinity of reduced Ls AA9_A for cellulosic substrates.

Topics & Concepts

PolysaccharideActive siteChemistryLytic cycleMonooxygenaseMetalEnzymeBiochemistryBiologyOrganic chemistryVirusVirologyCytochrome P450Plant biochemistry and biosynthesisEnzyme-mediated dye degradationMicrobial Metabolism and Applications