Proteomics

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A metaproteomic analysis of the response of a freshwater microbial community under nutrient enrichment


ABSTRACT: Eutrophication can lead to an uncontrollable increase in algal biomass, which has repercussions for the entire microbial and pelagic community. Studies have shown how nutrient enrichment affects microbial species succession, however details regarding the impact on community functionality are rare. Here, we applied a metaproteomic approach to investigate the functional changes to algal and bacterial communities, over time, in oligotrophic and eutrophic conditions, in freshwater microcosms. Samples were taken early during algal and cyanobacterial dominance and later under bacterial dominance. 1048 proteins, from the two treatments and two timepoints, were identified and quantified by their exponentially modified protein abundance index. In oligotrophic conditions, Bacteroidetes express extracellular hydrolases and Ton-B dependent receptors to degrade and transport high molecular weight compounds captured while attached to the phycosphere. Alpha- and Beta-proteobacteria were found to capture different substrates from algal exudate (carbohydrates and amino acids, respectively) suggesting resource partitioning to avoid direct competition. In eutrophic conditions, environmental adaptation proteins from cyanobacteria suggested better resilience compared to algae in a low carbon nutrient enriched environment. This study provides insight into differences in functional microbial processes between oligo- and eutrophic conditions at different timepoints and highlights how primary producers control bacterial resources in freshwater environments.

INSTRUMENT(S): maXis

ORGANISM(S): Mixed Sample

SUBMITTER: David Russo  

LAB HEAD: Jagroop Pandhal

PROVIDER: PXD004592 | Pride | 2016-08-01

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
T12A1.zip Other
T12A10.zip Other
T12B1.zip Other
T12B10.zip Other
T12_Alg_Eutro.mzid.gz Mzid
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Publications

A Metaproteomic Analysis of the Response of a Freshwater Microbial Community under Nutrient Enrichment.

Russo David A DA   Couto Narciso N   Beckerman Andrew P AP   Pandhal Jagroop J  

Frontiers in microbiology 20160803


Eutrophication can lead to an uncontrollable increase in algal biomass, which has repercussions for the entire microbial and pelagic community. Studies have shown how nutrient enrichment affects microbial species succession, however details regarding the impact on community functionality are rare. Here, we applied a metaproteomic approach to investigate the functional changes to algal and bacterial communities, over time, in oligotrophic and eutrophic conditions, in freshwater microcosms. Sample  ...[more]

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