Literature DB >> 22925136

Biofilm shows spatially stratified metabolic responses to contaminant exposure.

Bin Cao1, Paul D Majors, Bulbul Ahmed, Ryan S Renslow, Crystal P Silvia, Liang Shi, Staffan Kjelleberg, Jim K Fredrickson, Haluk Beyenal.   

Abstract

Biofilms are core to a range of biological processes, including the bioremediation of environmental contaminants. Within a biofilm population, cells with diverse genotypes and phenotypes coexist, suggesting that distinct metabolic pathways may be expressed based on the local environmental conditions in a biofilm. However, metabolic responses to local environmental conditions in a metabolically active biofilm interacting with environmental contaminants have never been quantitatively elucidated. In this study, we monitored the spatiotemporal metabolic responses of metabolically active Shewanella oneidensis MR-1 biofilms to U(VI) (uranyl, UO(2)(2+)) and Cr(VI) (chromate, CrO(4) (2-)) using non-invasive nuclear magnetic resonance imaging (MRI) and spectroscopy (MRS) approaches to obtain insights into adaptation in biofilms during biofilm-contaminant interactions. While overall biomass distribution was not significantly altered upon exposure to U(VI) or Cr(VI), MRI and spatial mapping of the diffusion revealed localized changes in the water diffusion coefficients in the biofilms, suggesting significant contaminant-induced changes in structural or hydrodynamic properties during bioremediation. Finally, we quantitatively demonstrated that the metabolic responses of biofilms to contaminant exposure are spatially stratified, implying that adaptation in biofilms is custom-developed based on local microenvironments.
© 2012 Society for Applied Microbiology and Blackwell Publishing Ltd.

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Year:  2012        PMID: 22925136      PMCID: PMC3480979          DOI: 10.1111/j.1462-2920.2012.02850.x

Source DB:  PubMed          Journal:  Environ Microbiol        ISSN: 1462-2912            Impact factor:   5.491


  34 in total

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Authors:  Sara M Belchik; David W Kennedy; Alice C Dohnalkova; Yuanmin Wang; Papatya C Sevinc; Hong Wu; Yuehe Lin; H Peter Lu; James K Fredrickson; Liang Shi
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3.  Growing oral biofilms in a constant depth film fermentor (CDFF).

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4.  Spatiotemporal activity of the mshA gene system in Shewanella oneidensis MR-1 biofilms.

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6.  The involvement of cell-to-cell signals in the development of a bacterial biofilm.

Authors:  D G Davies; M R Parsek; J P Pearson; B H Iglewski; J W Costerton; E P Greenberg
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7.  Shewanella oneidensis MR-1 fluxome under various oxygen conditions.

Authors:  Yinjie J Tang; Judy S Hwang; David E Wemmer; Jay D Keasling
Journal:  Appl Environ Microbiol       Date:  2006-11-10       Impact factor: 4.792

8.  Interactions between uronic acids and chromium(III).

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Journal:  Environ Toxicol Chem       Date:  2009-03-17       Impact factor: 3.742

9.  Molecular dynamics of the Shewanella oneidensis response to chromate stress.

Authors:  Steven D Brown; Melissa R Thompson; Nathan C Verberkmoes; Karuna Chourey; Manesh Shah; Jizhong Zhou; Robert L Hettich; Dorothea K Thompson
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Journal:  Appl Environ Microbiol       Date:  2017-02-01       Impact factor: 4.792

2.  Colonization of epidermal tissue by Staphylococcus aureus produces localized hypoxia and stimulates secretion of antioxidant and caspase-14 proteins.

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Review 3.  Material properties of biofilms-a review of methods for understanding permeability and mechanics.

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5.  Disruption of putrescine biosynthesis in Shewanella oneidensis enhances biofilm cohesiveness and performance in Cr(VI) immobilization.

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6.  Influence of 3-Chloroaniline on the Biofilm Lifestyle of Comamonas testosteroni and Its Implications on Bioaugmentation.

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Journal:  Appl Environ Microbiol       Date:  2016-06-30       Impact factor: 4.792

7.  METABOLIC SPATIAL VARIABILITY IN ELECTRODE-RESPIRING GEOBACTER SULFURREDUCENS BIOFILMS.

Authors:  Rs Renslow; Jt Babauta; A Dohnalkova; Mi Boyanov; Km Kemner; Pd Majors; Jk Fredrickson; H Beyenal
Journal:  Energy Environ Sci       Date:  2013-06-01       Impact factor: 38.532

8.  Matrix Polysaccharides and SiaD Diguanylate Cyclase Alter Community Structure and Competitiveness of Pseudomonas aeruginosa during Dual-Species Biofilm Development with Staphylococcus aureus.

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9.  How to Cope With Heavy Metal Ions: Cellular and Proteome-Level Stress Response to Divalent Copper and Nickel in Halobacterium salinarum R1 Planktonic and Biofilm Cells.

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10.  A Generalized Spatial Measure for Resilience of Microbial Systems.

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Journal:  Front Microbiol       Date:  2016-04-07       Impact factor: 5.640
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