Tailored microbial consortium producing hydrolytic enzyme cocktail for maximum saccharification of wheat straw.

• Microbial consortium designed using five robust lignocellulolytic bacteria. • Kinetic study reveals enzyme cocktail's strong affinity for wheat straw as substrate. • Consortium-mediated enzyme cocktails showed 89% wheat straw saccharification. • Genomic analysis of strains reveals unique GHs and LPMOs contributing to synergy. • Designed consortia offer a sustainable approach for lignocellulose bioconversion. The potential of hydrolytic enzyme cocktail obtained from designed bacterial consortium WSh-1 comprising Bacillus subtilis CRN 16, Paenibacillus dendritiformis CRN 18, Niallia circulans CRN 24, Serratia marscens CRN 29, and Streptomyces sp. CRN 30, was investigated for maximum saccharification. Activity was further enhanced to 1.01 U/ml from 0.82 U/ml by supplementing growth medium with biotin and cellobiose as a cofactor and inducer. Through kinetic analysis, the enzyme cocktail showed a high wheat straw affinity with Michaelis-Menten constant (Km) of 0.68 µmol/L and a deconstruction rate (Vmax) of 4.5 U/ml/min. The statistical optimization of critical parameters increased saccharification to 89 %. The optimized process in a 5-L lab-scale bioreactor yielded 501 mg/g of reducing sugar from NaOH-pretreated wheat straw. Lastly, genomic insights revealed unique abundant oligosaccharide deconstruction enzymes with the most diverse CAZyme profile. The consortium-mediated enzyme cocktails offer broader versatility with efficiency for the economical and sustainable valorization of lignocellulosic waste. [ABSTRACT FROM AUTHOR]