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Uncovering the lignin-degrading potential of Serratia quinivorans AORB19: insights from genomic analyses and alkaline lignin degradation.
Ali, Nadia Sufdar; Thakur, Subarna; Ye, Mengwei; Monteil-Rivera, Fanny; Pan, Youlian; Qin, Wensheng; Yang, Trent Chunzhong.
Afiliación
  • Ali NS; Aquatic and Crop Resource Development Research Centre, National Research Council Canada, Ottawa, ON, Canada.
  • Thakur S; Department of Biology, Lakehead University, Thunder Bay, ON, Canada.
  • Ye M; Department of Bioinformatics, University of North Bengal, Siliguri, India.
  • Monteil-Rivera F; Aquatic and Crop Resource Development Research Centre, National Research Council Canada, Montreal, QC, Canada.
  • Pan Y; Aquatic and Crop Resource Development Research Centre, National Research Council Canada, Montreal, QC, Canada.
  • Qin W; Digital Technologies Research Centre, National Research Council Canada, Ottawa, ON, Canada.
  • Yang TC; Department of Biology, Lakehead University, Thunder Bay, ON, Canada. wqin@lakeheadu.ca.
BMC Microbiol ; 24(1): 181, 2024 May 25.
Article en En | MEDLINE | ID: mdl-38789935
ABSTRACT

BACKGROUND:

Lignin is an intricate phenolic polymer found in plant cell walls that has tremendous potential for being converted into value-added products with the possibility of significantly increasing the economics of bio-refineries. Although lignin in nature is bio-degradable, its biocatalytic conversion is challenging due to its stable complex structure and recalcitrance. In this context, an understanding of strain's genomics, enzymes, and degradation pathways can provide a solution for breaking down lignin to unlock the full potential of lignin as a dominant valuable bioresource. A gammaproteobacterial strain AORB19 has been isolated previously from decomposed wood based on its high laccase production. This work then focused on the detailed genomic and functional characterization of this strain based on whole genome sequencing, the identification of lignin degradation products, and the strain's laccase production capabilities on various agro-industrial residues.

RESULTS:

Lignin degrading bacterial strain AORB19 was identified as Serratia quinivorans based on whole genome sequencing and core genome phylogeny. The strain comprised a total of 123 annotated CAZyme genes, including ten cellulases, four hemicellulases, five predicted carbohydrate esterase genes, and eight lignin-degrading enzyme genes. Strain AORB19 was also found to possess genes associated with metabolic pathways such as the ß-ketoadipate, gentisate, anthranilate, homogentisic, and phenylacetate CoA pathways. LC-UV analysis demonstrated the presence of p-hydroxybenzaldehyde and vanillin in the culture media which constitutes potent biosignatures indicating the strain's capability to degrade lignin. Finally, the study evaluated the laccase production of Serratia AORB19 grown with various industrial raw materials, with the highest activity detected on flax seed meal (257.71 U/L), followed by pea hull (230.11 U/L), canola meal (209.56 U/L), okara (187.67 U/L), and barley malt sprouts (169.27 U/L).

CONCLUSIONS:

The whole genome analysis of Serratia quinivorans AORB19, elucidated a repertoire of genes, pathways and enzymes vital for lignin degradation that widens the understanding of ligninolytic metabolism among bacterial lignin degraders. The LC-UV analysis of the lignin degradation products coupled with the ability of S. quinivorans AORB19 to produce laccase on diverse agro-industrial residues underscores its versatility and its potential to contribute to the economic viability of bio-refineries.
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Texto completo: 1 Colección: 01-internacional Banco de datos: MEDLINE Asunto principal: Serratia / Lacasa / Lignina Idioma: En Revista: BMC Microbiol Asunto de la revista: MICROBIOLOGIA Año: 2024 Tipo del documento: Article País de afiliación: Canadá

Texto completo: 1 Colección: 01-internacional Banco de datos: MEDLINE Asunto principal: Serratia / Lacasa / Lignina Idioma: En Revista: BMC Microbiol Asunto de la revista: MICROBIOLOGIA Año: 2024 Tipo del documento: Article País de afiliación: Canadá