https://www.selleckchem.com/products/isa-2011b.html In this work, the expression of an α-amylase from Bacillus megaterium on the cell surface of Escherichia coli strains WDHA (Δ hycA and Δ ldhA) and WDHFP (Δ hycA, Δ frdD and Δ pta) by the autodisplay adhesin involved in diffuse adherence (AIDA) system was carried out with the purpose to confer the ability to E. coli strains to degrade starch and thus produce hydrogen, ethanol and succinic acid. For the characterization of the biocatalyst, the effect of temperature (30-70 °C), pH (3-6) and CaCl2 concentration (0-25 mM), as well as the thermostability of the biocatalyst (55-80 °C) at several time intervals (15-60 min) were evaluated. The results showed that the biocatalyst had a maximum activity at 55 °C and pH 4.5. Calcium was required for the activity as well for the thermal stability of the biocatalyst. The calculated Vmax and Km values were 0.24 U/cm3 and 5.8 mg/cm3, respectively. Furthermore, a set of anaerobic batch fermentations was carried out using 10 g/dm3 of starch and 1 g/dm3 of glucose as carbon sources in 120 cm3 serological bottles, using WDHA and WDHFP strains harboring the pAIDA-amyA plasmid. The hydrogen production for WDHA was 1056.06 cm3/dm3 and the succinic acid yield was 0.68 g/gstarch, whereas WDHFP strain produced 1689.68 cm3/dm3 of hydrogen and an ethanol yield of 0.28 g/gstarch. This work represents a promising strategy to improve the exploitation of starchy biomass for the production of biofuels (hydrogen and ethanol) or succinate without the need of a pre-saccharification process. Soybean is a most promising sustainable protein source for feed and food to help meet the protein demand of the rapidly rising global population. To enrich soy protein, the environment-friendly enzymatic processing requires multiple carbohydrases including cellulase, xylanase, pectinase, α-galactosidase and sucrase. Besides enriched protein, the processing adds value by generating monosaccharides that are ready fe