Gokcan, HandeIspirli, HumeyraDertli, Enes2026-02-282026-02-2820261557-18581557-1866https://doi.org/10.1007/s11483-026-10105-zhttps://hdl.handle.net/20.500.12403/5942Glucansucrases catalyze the production of alpha-glucans using sucrose as substrate with distinct physicochemical characteristics originates from mainly the type of linkages, degree of branching and molecular mass. New forms of alpha-glucans can be produced by applying specific mutations to glucansucrases. In this study, a single and double mutation at Leu933 and Leu935 sites of glucansucrase E81 was applied and L933I and L933I-L935F sites modified glucansucrase was obtained. Structural characterisation of bioengineered alpha-glucans revealed that ratio of (1 -> 3):(1 -> 6) linked alpha-Glc units altered at L933I whereas no (1 -> 3)-linked alpha-Glc units were presented for L933I-L935F modified glucansucrase detected by NMR analysis. Both bioengineered alpha-glucans had lower molecular weights in comparison to glucan E81 detected by GPC analysis. TGA and DSC analysis were applied to detect the thermal profiles of bioengineered alpha-glucans whereas FTIR and XRD analysis were applied to determine the alterations in the structural and physical nature of the bioengineered alpha-glucans, respectively. Finally, SEM and AFM analysis were applied to explore the morphological modifications of the bioengineered alpha-glucans. This study provides a better understanding for the potential role of final glucan structures on their physicochemical characteristics. Keywords: glucansucrase; carbohydrate engineering; mutation.eninfo:eu-repo/semantics/closedAccessGlucansucraseCarbohydrate engineeringMutationArticle21110.1007/s11483-026-10105-zWOS:001674423700002Q2