Proteomics

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Succession of proteomic, transcriptomic and exometabolomic signatures in Alteromonas macleodii degrading a mix of macroalgal polysaccharides


ABSTRACT: Polysaccharides from macroalgae are important bacterial nutrient source and central biogeochemical component in the oceans. To illuminate the cellular mechanisms of polysaccharide degradation by marine bacteria, growth of Alteromonas macleodii 83-1 on a mix of laminarin, alginate and pectin was characterized using transcriptomics, proteomics and exometabolomics. A. macleodii 83-1 showed two distinct growth stages, with exponential growth during laminarin utilization followed by maintenance during simultaneous alginate/pectin utilization. The biphasic growth coincided with major temporal shifts in gene expression and metabolite secretion, enabling to define major/accessory polysaccharide utilization loci, reconstruct the complete degradation pathways for each polysaccharide, as well as identify temporal phenotypes in other relevant traits. FT-ICR-MS revealed a distinct suite of secreted metabolites for each growth phase, with pyrroloquinoline quinone exclusively produced with alginate/pectin. The finding of substrate-unique phenotypes indicates an exquisite adaptation to polysaccharide utilization with probable relevance for the degradation of macroalgal biomass, which comprises a complex mix of polysaccharides. Moreover, substrate-unique exometabolomes possibly influence metabolic interactions with other community members. Overall, the presence of fine-tuned genetic machineries for polysaccharide degradation and the widespread detection of related CAZymes in global locations indicate an ecological relevance of A. macleodii in marine polysaccharide cycling and bacteria-algae interactions.

INSTRUMENT(S): LTQ Orbitrap

ORGANISM(S): Alteromonas Macleodii

SUBMITTER: Alexandra Dürwald  

LAB HEAD: Thomas Schweder

PROVIDER: PXD008280 | Pride | 2018-08-22

REPOSITORIES: Pride

Dataset's files

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Action DRS
170119_O2_P8_SG_StM_G1_1.raw Raw
170119_O2_P8_SG_StM_G1_10.raw Raw
170119_O2_P8_SG_StM_G1_2.raw Raw
170119_O2_P8_SG_StM_G1_3.raw Raw
170119_O2_P8_SG_StM_G1_4.raw Raw
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Publications

Biphasic cellular adaptations and ecological implications of Alteromonas macleodii degrading a mixture of algal polysaccharides.

Koch Hanna H   Dürwald Alexandra A   Schweder Thomas T   Noriega-Ortega Beatriz B   Vidal-Melgosa Silvia S   Hehemann Jan-Hendrik JH   Dittmar Thorsten T   Freese Heike M HM   Becher Dörte D   Simon Meinhard M   Wietz Matthias M  

The ISME journal 20180816 1


Algal polysaccharides are an important bacterial nutrient source and central component of marine food webs. However, cellular and ecological aspects concerning the bacterial degradation of polysaccharide mixtures, as presumably abundant in natural habitats, are poorly understood. Here, we contextualize marine polysaccharide mixtures and their bacterial utilization in several ways using the model bacterium Alteromonas macleodii 83-1, which can degrade multiple algal polysaccharides and contribute  ...[more]

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