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dc.contributor.authorTan, Chuan Haoen
dc.contributor.authorKoh, Kai Shyangen
dc.contributor.authorXie, Chaoen
dc.contributor.authorZhang, Joelaen
dc.contributor.authorTan, Xiao Huien
dc.contributor.authorLee, Guo Pingen
dc.contributor.authorZhou, Yanen
dc.contributor.authorNg, Wun Jernen
dc.contributor.authorRice, Scott A.en
dc.contributor.authorKjelleberg, Staffanen
dc.identifier.citationTan, C. H., Koh, K. S., Xie, C., Zhang, J., Tan, X. H., Lee, G. P., et al. (2015). Community quorum sensing signalling and quenching: Microbial granular biofilm assembly. NPJ biofilms and microbiomes, 1, 15006-.en
dc.description.abstractBackground: Recent reports exploring the role of gradients of quorum sensing (QS) signals in functional activated sludge have raised the question of whether shared systems of signalling synthesis and degradation, or quorum quenching (QQ), across the community inform of the means by which QS biology regulate floccular and granular biofilm assembly. Aims: In this study, we aimed to explore the species origin and interactive role of QS and QQ activities in such highly diverse microbial biofilm communities. Methods: Here, such aims were addressed systematically by a comprehensive multi-pronged RNA-sequencing, microbiological and analytical chemistry experimental approach, using two related but independently evolved floccular and granular sludge communities. Results: Our data revealed a distinct difference between the QS and QQ potentials of the two communities, with different species largely displaying either QS or QQ functions. The floccular sludge community showed a high rate of QQ activity, and this rate was dependent on the acyl chain length demonstrating specificity of degradation. When the floccular biomass was transformed into the granular sludge, the QQ activity of the community was reduced by 30%. N-acyl homoserine lactones with four to eight carbons on the acyl chain accumulated at the granular stage, and their concentrations were at least threefold higher than those of the floccular stage. These findings corroborated meta-community analysis where a major shift in the dominant species from potential signal quenchers to producers was observed during the transition from flocs to granules, indicating the role of species composition and associated signalling activities in coordinating community behaviours. Conclusions: This study suggests that QQ has an important function in regulating community level QS signalling, and provides a mechanistic insight into the role of QS biology in complex community assembly.en
dc.relation.ispartofseriesNPJ biofilms and microbiomesen
dc.rightsThis work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit
dc.subjectDRNTU::Science::Biological sciences::Microbiologyen
dc.titleCommunity quorum sensing signalling and quenching : microbial granular biofilm assemblyen
dc.typeJournal Articleen
dc.contributor.schoolSchool of Civil and Environmental Engineeringen
dc.contributor.schoolSchool of Biological Sciencesen
dc.contributor.researchAdvanced Environmental Biotechnology Centre (AEBC)en
dc.contributor.researchNanyang Environment and Water Research Instituteen
dc.contributor.researchSingapore Centre for Environmental Life Sciences Engineeringen
dc.description.versionPublished versionen
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