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Gluconobacter oxydans is an organism involved in the incomplete oxidation mechanism of many sugars and alcohols. G. oxydans is involved in the biotransformation of d-sorbitol to l-sorbose via a membrane-bound d-sorbitol dehydrogenase (SDH). The focus of this study was to investigate the binding of d-sorbitol to SDH and determine the amino acids involved in the formation of l-sorbose. In order to determine the crucial interactions of d-sorbitol with SDH, in silico polarized ligand docking was employed. QM/MM-based interaction studies suggested that His302, Met366, and Asp368 actively participate in d-sorbitol binding. MD simulation-based mutational studies confirmed that these amino acids are key residues in the binding of d-sorbitol. In particular, mutation of His302 resulted in the denaturation of protein structure and loss of stability. Overall, our results suggest that the role of His302 is to hold the d-sorbitol …