Litcius/Paper detail

Characterization of thermo/halo stable cellulase produced from halophilic Virgibacillus salarius BM-02 using non-pretreated biomass

Naeima Yousef, Asmaa M. M. Mawad

2022World Journal of Microbiology and Biotechnology28 citationsDOIOpen Access PDF

Abstract

Abstract The production of extremozymes from halophilic bacteria has increased significantly due to their stability and efficiency in catalyzing a reaction, as well as their capacity to display optimum activity at various salt concentrations. In the current study, the halophilic bacterium Virgibacillus salarius strain BM-02 could utilize many non-pretreated substrates including cellulose, corn stover, sugarcane bagasse and wheat bran as a sole carbon source. However, wheat bran was the best substrate for achieving optimum saccharification yield (90.1%). The partially purified cellulase was active and stable at a wide range of pH (5–8) with residual activities > 58%. Moreover, it was stable at 5–12% of NaCl. Metal ions have a variable impact on the activity of partially purified cellulase however, Fe +3 exhibited the highest increase in the cellulase activity. The enzyme exhibited a thermal stability at 40, 50 and 60 °C with half-lives of 1049.50, 168.14 and 163.5 min, respectively. The value of V max was 22.27 U/mL while Km was 2.1 mM. The activation energy of denaturation E d 69.81 kJ/mol, the enthalpy values (ΔH d ) were positive, and the entropy values (ΔS) were negative. Therefore, V. Salarius is recommended as a novel promising halophilic extremozyme producer and agricultural waste remover in the bio-industrial applications. Graphical abstract

Topics & Concepts

CellulaseFood scienceChemistryBranCorn stoverHydrolysisCelluloseHalophileCorn steep liquorBagasseHuskCarboxymethyl celluloseNuclear chemistrySodiumBacteriaBiochemistryBotanyBiologyBiotechnologyOrganic chemistryFermentationRaw materialGeneticsBiofuel production and bioconversionEnzyme Production and CharacterizationEnzyme Catalysis and Immobilization