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North Sea spring bloom-associated Gammaproteobacteria fill diverse heterotrophic niches
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North Sea spring bloom-associated Gammaproteobacteria fill diverse heterotrophic niches
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Journal Article
North Sea spring bloom-associated Gammaproteobacteria fill diverse heterotrophic niches
2021
Overview
Background
The planktonic bacterial community associated with spring phytoplankton blooms in the North Sea is responsible for a large amount of carbon turnover in an environment characterised by high primary productivity. Individual clades belonging to the
Gammaproteobacteria
have shown similar population dynamics to
Bacteroidetes species
, and are thus assumed to fill competing ecological niches. Previous studies have generated large numbers of metagenome assembled genomes and metaproteomes from these environments, which can be readily mined to identify populations performing potentially important ecosystem functions. In this study we attempt to catalogue these spring bloom-associated
Gammaproteobacteria
, which have thus far attracted less attention than sympatric
Alphaproteobacteria
and
Bacteroidetes
.
Methods
We annotated 120 non-redundant species-representative gammaproteobacterial metagenome assembled genomes from spring bloom sampling campaigns covering the four years 2010–2012 and 2016 using a combination of Prokka and PfamScan, with further confirmation via BLAST against NCBI-NR. We also matched these gene annotations to 20 previously published metaproteomes covering those sampling periods plus the spring of 2009.
Results
Metagenome assembled genomes with clear capacity for polysaccharide degradation via dedicated clusters of carbohydrate active enzymes were among the most abundant during blooms. Many genomes lacked gene clusters with clearly identifiable predicted polysaccharide substrates, although abundantly expressed loci for the uptake of large molecules were identified in metaproteomes. While the larger biopolymers, which are the most abundant sources of reduced carbon following algal blooms, are likely the main energy source, some gammaproteobacterial clades were clearly specialised for smaller organic compounds. Their substrates range from amino acids, monosaccharides, and DMSP, to the less expected, such as terpenoids, and aromatics and biphenyls, as well as many ‘unknowns’. In particular we uncover a much greater breadth of apparent methylotrophic capability than heretofore identified, present in several order level clades without cultivated representatives.
Conclusions
Large numbers of metagenome assembled genomes are today publicly available, containing a wealth of readily accessible information. Here we identified a variety of predicted metabolisms of interest, which include diverse potential heterotrophic niches of spring bloom-associated
Gammaproteobacteria
. Features such as those identified here could well be fertile ground for future experimental studies.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
