Temporal expression dynamics of plant biomass-degrading enzymes by a synthetic bacterial consortium growing on sugarcane bagasseJavier Jimenez, D., Chaib De Mares, M. & Falcao Salles, J., 26-Feb-2018, In : Frontiers in Microbiology. 9, 13 p., 299.
Research output: Contribution to journal › Article › Academic › peer-review
Plant biomass (PB) is an important source of sugars useful for biofuel production, whose degradation efficiency depends on synergistic and dynamic interactions of different enzymes. Here, using a metatranscriptomics-based approach, we explored the expression of PB-degrading enzymes in a five-species synthetic bacterial consortium during cultivation on sugarcane bagasse as a unique carbon source. By analyzing the temporal expression dynamics of a selection of enzymes we revealed the functional role of each consortium member and disentangled the potential interactions between them. Based on normalized expression values and the taxonomic affiliation of all the transcripts within thirty carbohydrate-active enzyme (CAZy) families, we observed a successional profile. For instance, endo-glucanases/-xylanases (e.g., GH8, GH10, and GH16) were significantly expressed at 12 h, whereas exo-glucanases (e.g., GH6 and GH48) and alpha-arabinosidases/beta-xylosidases (e.g., GH43) were highly expressed at 48 h. Indeed, a significant peak of extracellular beta-xylosidase activity was observed at this stage. Moreover, we observed a higher expression of several CAZy families at 12-48 h, suggesting easy access to the main plant polysaccharides. Based on this evidence, we predicted that the highest level of collaboration between strains takes place at the initial stages of growth. Here, Paenibacillus, Brevundimonas, and Chryseobacterium were the most important contributors, whereas Stenotrophomonas was highly active at the end of the culture (96-192 h) without contributing to a large extent to the expression of lignocellulolytic enzymes. Our results contribute to the understanding of enzymatic and ecological mechanisms within PB-degrading microbial consortia, yielding new perspectives to improve the PB saccharification processes.
|Number of pages||13|
|Journal||Frontiers in Microbiology|
|Publication status||Published - 26-Feb-2018|
- bacterial consortium, expression dynamics, lignocellulolytic enzymes, metatranscriptomics, sugarcane bagasse, synergism, MICROBIAL CONSORTIA, WHEAT-STRAW, GLYCOSIDE HYDROLASES, METAGENOMICS, CARBOHYDRATE, COMMUNITIES, DECONSTRUCTION, LIGNOCELLULOSE, DECOMPOSITION, PRODUCTIVITY