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. 2024 Apr;46(2):183-199.
doi: 10.1007/s10529-023-03463-y. Epub 2024 Jan 22.

Isolation of delignifying bacteria and optimization of microbial pretreatment of biomass for bioenergy

B Rabi Prasad  1 Suman Polaki  2 Radha Krushna Padhi  3
Affiliations

Isolation of delignifying bacteria and optimization of microbial pretreatment of biomass for bioenergy

B Rabi Prasad et al. Biotechnol Lett. 2024 Apr.

Abstract

Microbial pretreatment of lignocellulosic biomass holds significant promise for environmentally friendly biofuel production, offering an alternative to fossil fuels. This study focused on the isolation and characterization of two novel delignifying bacteria, GIET1 and GIET2, to enhance cellulose accessibility by lignin degradation. Molecular characterization confirmed their genetic identities, providing valuable microbial resources for biofuel production. Our results revealed distinct preferences for temperature, pH, and incubation period for the two bacteria. Bacillus haynesii exhibited optimal performance under moderate conditions and shorter incubation period, making it suitable for rice straw and sugarcane bagasse pretreatment. In contrast, Paenibacillus alvei thrived at higher temperatures and slightly alkaline pH, requiring a longer incubation period ideal for corn stalk pretreatment. These strain-specific requirements highlight the importance of tailoring pretreatment conditions to specific feedstocks. Structural, chemical, and morphological analyses demonstrated that microbial pretreatment reduced the amorphous lignin, increasing cellulose crystallinity and accessibility. These findings underscore the potential of microbial pretreatment to enhance biofuel production by modifying the lignocellulosic biomass. Such environmentally friendly bioconversion processes offer sustainable and cleaner energy solutions. Further research to optimize these methods for scalability and broader application is necessary in the pursuit for more efficient and greener biofuel production.

Keywords: Biofuel; Cellulose accessibility; Hydrolysis; Lignin degradation; Lignocellulosic biomass; Sustainable energy.

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