The hydrophilic microenvironment surrounding an enzyme's active site can influence its catalytic activity. This study examines the effect of enhancing this environment in the Aspergillus niger fructosyltransferase, SucC. Bioinformatics analysis identified a cysteine residue (C66) near the catalytic triad (D64, D194, E271) as vital for maintaining the active site's structure and facilitating substrate transport. Simulated mutagenesis suggested that mutating cysteine to serine (C66S) could increase hydrophilicity without altering the structure significantly. This mutation was predicted to enhance substrate affinity, with binding energy changing from -3.65 to -4.14 kcal mol