Molecular basis for the preferential recognition of ß1,3-1,4-glucans by the family 11 carbohydrate-binding module from Clostridium thermocellum.

ABSTRACT

Understanding the specific molecular interactions between proteins and ß1,3-1,4-mixed-linked d-glucans is fundamental to harvest the full biological and biotechnological potential of these carbohydrates and of proteins that specifically recognize them. The family 11 carbohydrate-binding module from Clostridium thermocellum (CtCBM11) is known for its binding preference for ß1,3-1,4-mixed-linked over ß1,4-linked glucans. Despite the growing industrial interest of this protein for the biotransformation of lignocellulosic biomass, the molecular determinants of its ligand specificity are not well defined. In this report, a combined approach of methodologies was used to unravel, at a molecular level, the ligand recognition of CtCBM11. The analysis of the interaction by carbohydrate microarrays and NMR and the crystal structures of CtCBM11 bound to ß1,3-1,4-linked glucose oligosaccharides showed that both the chain length and the position of the ß1,3-linkage are important for recognition, and identified the tetrasaccharide Glcß1,4Glcß1,4Glcß1,3Glc sequence as a minimum epitope required for binding. The structural data, along with site-directed mutagenesis and ITC studies, demonstrated the specificity of CtCBM11 for the twisted conformation of ß1,3-1,4-mixed-linked glucans. This is mediated by a conformation-selection mechanism of the ligand in the binding cleft through CH-π stacking and a hydrogen bonding network, which is dependent not only on ligand chain length, but also on the presence of a ß1,3-linkage at the reducing end and at specific positions along the ß1,4-linked glucan chain. The understanding of the detailed mechanism by which CtCBM11 can distinguish between linear and mixed-linked ß-glucans strengthens its exploitation for the design of new biomolecules with improved capabilities and applications in health and agriculture. DATABASE Structural data are available in the Protein Data Bank under the accession codes 6R3M and 6R31.