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Unravelling gradient layers of microbial communities, proteins, and chemical structure in aerobic granules

Agnieszka Cydzik‐Kwiatkowska, Nadieh de Jonge, Jan Struckmann Poulsen, Jeppe Lund Nielsen

2022The Science of The Total Environment24 citationsDOIOpen Access PDF

Abstract

Most bacteria live in microbial assemblages like biofilms and granules, and each layer of these assemblages provides a niche for certain bacteria with specific metabolic functions. In this study, a gentle (non-destructive) extraction approach based on a cation exchange resin and defined shear was employed to gradually disintegrate biomass and collect single layers of aerobic granules from a full-scale municipal wastewater treatment plant. The microbial community composition of granule layers was characterized using next-generation sequencing (NGS) targeting the 16S rRNA gene, and protein composition was investigated using metaproteomics. The chemical composition of eroded layers was explored using Fourier Transformed Infrared Spectroscopy. On the surface of the granules, the microbial structure (flocculation-supporting Nannocystis sp.) as well as composition of extracellular polymers (extracellular DNA) and proteome (chaperonins and binding proteins) favored microbial aggregation. Extracellular polymeric substances in the granules were composed of mostly proteins and EPS-producers, such as Tetrasphaera sp. and Zoogloea sp., were evenly distributed throughout the granule structure. The interior of the granules harbored several denitrifiers (e.g., Thauera sp.), phosphate-accumulating denitrifiers (Candidatus Accumulibacter, Dechloromonas sp.) and nitrifiers (Candidatus Nitrotoga). Proteins associated with glycolytic activity were identified in the outer and middle granule layers, and proteins associated with phosphorus conversions, in the deeper layers. In conclusion, the use of an existing cation-exchange resin for gradual biomass disintegration, combined with NGS and metaproteomic analysis was demonstrated as a promising approach for simultaneously investigating the identity and functions of microbes in multilayered biofilm structures.

Topics & Concepts

Granule (geology)Extracellular polymeric substanceMetaproteomicsBiofilmMicrobial population biologyChemistryBacteriaBiologyMicrobiologyBiochemistryGeneMetagenomicsPaleontologyGeneticsWastewater Treatment and Nitrogen RemovalMicrobial Community Ecology and PhysiologyMicrobial Fuel Cells and Bioremediation
Unravelling gradient layers of microbial communities, proteins, and chemical structure in aerobic granules | Litcius