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Molecular simulations provide new insights into the role of the accessory immunoglobulin-like domain of Cel9A |
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| Authors: | Hanbin Liu Jose Henrique Pereira Paul D Adams Rajat Sapra Blake A Simmons Kenneth L Sale |
| Institution: | a Deconstruction Division, Joint BioEnergy Institute, Emeryville, CA, United States b Technology Division, Joint BioEnergy Institute, Emeryville, CA, United States c Biomass Science and Conversion Technology Department, Sandia National Laboratories, Livermore, CA, United States d Lawrence Berkeley National Laboratories, Berkeley, CA, United States |
| Abstract: | Cel9A from the thermoacidophilic bacterium Alicyclobacillus acidocaldarius belongs to the subfamily E1 of family 9 glycoside hydrolases, many members of which have an N-terminal Ig-like domain followed by the catalytic domain. The Ig-like domain is not directly involved in either carbohydrate binding or biocatalysis; however, deletion of the Ig-domain promotes loss of enzymatic activity. We have investigated the functional role of the Ig-like domain using molecular dynamics simulations. Our simulations indicate that residues within the Ig-like domain are dynamically correlated with residues in the carbohydrate-binding pocket and with key catalytic residues of Cel9A. Free energy perturbation simulations indicate that the Ig-like domain stabilizes the catalytic domain and may be responsible for the enhanced thermostability of Cel9A. |
| Keywords: | Glycosylase-GH9 Cel9A Immunoglobulin-like domain Computational modeling Molecular dynamic |
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