Family 42 carbohydrate-binding modules display multiple arabinoxylan-binding interfaces presenting different ligand affinities

Enzymes that degrade plant cell wall polysaccharides display a modular architecture comprising a catalytic domain bound to one or more non-catalytic carbohydrate-binding modules (CBMs). CBMs display considerable variation in primary structure and are grouped into 59 sequence-based families organized in the Carbohydrate-Active enZYme (CAZy) database. Here we report the crystal structure of CtCBM42A together with the biochemical characterization of two other members of family 42 CBMs from Clostridium thermocellum. CtCBM42A, CtCBM42B and CtCBM42C bind specifically to the arabinose side-chains of arabinoxylans and arabinan, suggesting that various cellulosomal components are targeted to these regions of the plant cell wall. The structure of CtCBM42A displays a beta-trefoil fold, which comprises 3 sub-domains designated as α, β and γ. Each one of the three sub-domains presents a putative carbohydrate-binding pocket where an aspartate residue located in a central position dominates ligand recognition. Intriguingly, the γ sub-domain of CtCBM42A is pivotal for arabinoxylan binding, while the concerted action of β and γ sub-domains of CtCBM42B and CtCBM42C is apparently required for ligand sequestration. Thus, this work reveals that the binding mechanism of CBM42 members is in contrast with that of homologous CBM13s where recognition of complex polysaccharides results from the cooperative action of three protein sub-domains presenting similar affinities.

Research Highlights
► 1. Family 42 Carbohydrate-Binding Modules (CBM42s) bind the arabinose side-chains of complex hemicelluloses.
► 2. CBM42s display a beta-trefoil fold, which comprises 3 sub-domains designated as α, β and γ.
► 3. Each one of the three sub-domains presents a putative carbohydrate-binding pocket.
► 4. The three CBM42 subdomains present different ligand affinities.