The tryptophan residue at the active site tunnel entrance of Trichoderma reesei cellobiohydrolase Cel7A is important for initiation of degradation of crystalline cellulose.

BACKGROUND: Mutation of Trp-40 in the Cel7A cellobiohydrolase from Trichoderma reesei (TrCel7A) causes a loss of crystalline cellulose-degrading ability. RESULTS: Mutant W40A showed reduced specific activity for crystalline cellulose and diffused the cellulose chain from the entrance of the active site tunnel. CONCLUSION: Trp-40 is essential for chain end loading to initiate processive hydrolysis of TrCel7A. SIGNIFICANCE: The mechanisms of crystalline polysaccharide degradation are clarified. The glycoside hydrolase family 7 cellobiohydrolase Cel7A from Trichoderma reesei is one of the best studied cellulases with the ability to degrade highly crystalline cellulose. The catalytic domain and the cellulose-binding domain (CBD) are both necessary for full activity on crystalline substrates. Our previous high-speed atomic force microscopy studies showed that mutation of Trp-40 at the entrance of the catalytic tunnel drastically decreases the ability to degrade crystalline cellulose. Here, we examined the activities of the WT enzyme and mutant W40A (with and without the CBD) for various substrates. Evaluation and comparison of the specific activities of the enzymes (WT, W40A, and the corresponding catalytic subunits (WTcat and W40Acat)) adsorbed on crystalline cellulose indicated that Trp-40 is involved in recruiting individual substrate chains into the active site tunnel to initiate processive hydrolysis. This was supported by molecular dynamics simulation study, i.e. the reducing end glucose unit was effectively loaded into the active site of WTcat, but not into that of W40Acat, when the simulation was started from subsite -7. However, when similar simulations were carried out starting from subsite -5, both enzymes held the substrate for 50 ns, indicating that the major difference between WTcat and W40Acat is the length of the free chain end of the substrate required to allow initiation of processive movements; this also reflects the difference between crystalline and amorphous celluloses. The CBD is important for enhancing the enzyme population on crystalline substrate, but it also decreases the specific activity of the adsorbed enzyme, possibly by attaching the enzyme to non-optimal places on the cellulose surface and/or hindering processive hydrolysis.

An antibody surface for selective neuronal cell attachment.

An optimal surface for culturing human embryonic stem cell (hESC)-derived neuronal cells is of high interest. In this study, a specific antibody to a neural cell adhesion molecule (NCAM) was immobilised on a solid surface of polystyrene and used as a selective matrix for culturing of hESC-derived neuronal cells. Thereafter, hESC-derived neurospheres were seeded on the matrix. The neurospheres did not attach to the NCAM antibody containing matrix whereas individual neuronal cells did. The neuronal cell attachment was depended on the NCAM antibody concentration. The neuronal cells were viable on the NCAM antibody containing matrix during an 8 day follow-up and exhibited typical bipolar morphology of immature neurons. Specific binding of the NCAM antigen to an immunoglobulin-polymer coated surface was verified by surface plasmon resonance (SPR) measurements. This study is to our knowledge the first demonstrating the use of an antibody layer as a selective surface for hESC-derived neuronal cells.

Functional characterisation of Fab'-fragments self-assembled onto hydrophilic gold surfaces.

Antibody Fab'-fragments have been immobilised on hydrophilic gold by direct self-assembly, and embedded in a matrix of non-ionic hydrophilic polymers, tris(hydroxymethyl)methylacrylamide, carrying lipoate terminal linking groups. Different polymers were synthesised, and co-adsorbed or post-adsorbed between the antibody fragments in order to optimise the antigen binding. Various factors were investigated that influence the activity of the immobilised Fab'-fragments for binding of the antigen, human IgG. The Fab'-fragments were immobilised in dense layers close to monolayer coverage, and the stoichiometric efficiency of immobilisation was up to 30%, with the human IgG also approaching monolayer coverage. The cleaning of the gold surface was a crucial factor in preservation of activity. Besides the usual treatment in hot ammonia/peroxide solution, hot DMSO appeared to be highly effective as a cleaning agent.