Properties and Mutation Analysis of the CelK Cellulose-Binding Domain from the Clostridium thermocellum Cellulosome

Abstract

The family IV cellulose-binding domain of Clostridium thermocellum CelK (CBD_CelK) was expressed inEscherichia coli and purified. It binds to acid-swollen cellulose (ASC) and bacterial microcrystalline cellulose (BMCC) with capacities of 16.03 and 3.95 μmol/g of cellulose and relative affinities (K _r) of 2.33 and 9.87 liters/g, respectively. The CBD_CelK is the first representative of family IV CBDs to exhibit an affinity for BMCC. The CBD_CelKalso binds to the soluble polysaccharides lichenin, glucomannan, and barley β-glucan, which are substrates for CelK. It does not bind to xylan, galactomannan, and carboxymethyl cellulose. The CBD_CelK contains 1 mol of calcium per mol. The CBD_CelK has three thiol groups and one disulfide, reduction of which results in total loss of cellulose-binding ability. To reveal amino acid residues important for biological function of the domain and to investigate the role of calcium in the CBD_CelK four highly conserved aromatic residues (Trp₅₆, Trp₉₄, Tyr₁₁₁, and Tyr₁₃₆) and Asp₁₉₂ were mutated into alanines, giving the mutants W56A, W94A, Y111A, Y136A, and D192A. In addition 14 N-terminal amino acids were deleted, giving the CBD-N_CelK. The CBD-N_CelK and D192A retained binding parameters close to that of the intact CBD_CelK, W56A and W94A totally lost the ability to bind to cellulose, Y136A bound to both ASC and BMCC but with significantly reduced binding capacity and K _rand Y111A bound weakly to ASC and did not bind to BMCC. Mutations of the aromatic residues in the CBD_CelK led to structural changes revealed by studying solubility, circular-dichroism spectra, dimer formation, and aggregation. Calcium content was drastically decreased in D192A. The results suggest that Asp192 is in the calcium-binding site of the CBD_CelK and that calcium does not affect binding to cellulose. The 14 amino acids from the N terminus of the CBD_CelK are not important for binding. Tyr136, corresponding to Cellulomonas fimi CenC CBD_N1Y85, located near the binding cleft, might be involved in the formation of the binding surface, while Y111, W56A, and W94A are essential for the binding process by keeping the CBD_CelK correctly folded.