Abstract
Chitin proteins are commonly found in bacteria that utilize chitin as a source of energy. CBP21 is a chitin-binding protein from Serratia marcescens, a Gram-negative soil bacterium capable of efficient chitin degradation. When grown on chitin, S. marcescens secretes large amounts of CBP21, along with chitin-degrading enzymes. In an attempt to understand the molecular mechanism of CBP21 action, we have determined its crystal structure at 1.55 angstroms resolution. This is the first structure to be solved of a family 33 carbohydrate-binding module. The structure reveals a "budded" fibronectin type III fold consisting of two beta-sheets, arranged as a beta-sheet sandwich, with a 65-residue "bud" consisting of three short helices, located between beta-strands 1 and 2. Remarkably, conserved aromatic residues that have been suggested previously to play a role in chitin binding were mainly found in the interior of the protein, seemingly incapable of interacting with chitin, whereas the structure revealed a surface patch of highly conserved, mainly hydrophilic residues. The roles of six of these conserved surface-exposed residues (Tyr-54, Glu-55, Glu-60, His-114, Asp-182, and Asn-185) were probed by site-directed mutagenesis and subsequent binding studies. All single point mutations lowered the affinity of CBP21 for beta-chitin, as shown by 3-8-fold increases in the apparent binding constant. Thus, binding of CBP21 to chitin seems to be mediated primarily by conserved, solvent-exposed, polar side chains.
Highlights
Chitin is a linear insoluble polymer of (1– 4)-linked N-acetylglucosamine, which is a common constituent of fungal cell walls, shells of crustaceans, and exoskeletons of insects
Genes putatively encoding chitin-binding proteins or proteins containing chitin binding domains have been found in many organisms, ranging from bacteria to man with high diversity
Concluding Remarks—We have solved the structure of CBP21, the first structure of a family 33 CBM
Summary
Chitin is a linear insoluble polymer of (1– 4)-linked N-acetylglucosamine, which is a common constituent of fungal cell walls, shells of crustaceans, and exoskeletons of insects. Cnrs-mrs.fr/CAZY/), proteins and protein domains with chitin binding properties are classified into several families of carbohydrate-binding modules (families 1, 2, 12, 14, 18, 19, and 33) based on amino acid similarity. The majority of these modules are domains of larger enzymes, where they are thought to increase substrate affinity and enhance catalytic efficiency [2]. Some CBPs in this family appear as chitin binding domains in putative chitinases, but none of these multidomain enzymes have been characterized
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