RESUMO
In conventional preparation of enzyme embedded organic-inorganic hybrid flower-like nanostructures, usually it requires three days which is time-consuming and limits their widespread applications. In this context, alpha-amylase hybrid bio-microflowers were prepared by simple, efficient and rapid method in the presence of chitosan via inotropic gelation and biomineralization approach. The hybrid bio-microflowers was synthesized within 6â¯h with â¼140 % enhanced catalytic activity. The prepared hybrid bio-microflowers were characterized by FT-IR, SEM, and PXRD. The hybrid bio-microflowers exhibited higher rate of reaction (Vmax) and outstanding thermo-stability (in the temperature range 55-75⯰C). Further, hybrid bio-microflowers showed magnificent reusability (upto eight cycles) and long-term storage stability (for about 30 days). In the end, in starch hydrolytic study, immobilized alpha-amylase exhibited higher hydrolytic potential towards corn, wheat and potato starch as compared to free form. This designed hybrid bio-microflowers can be employed as an engineered biocatalyst in industrial applications.