The genomic basis of trophic strategy in marine bacteria

Lauro, Federico M.; McDougald, Diane; Thomas, Torsten; Williams, Timothy J.; Egan, Suhelen; Rice, Scott A.; DeMaere, Matthew Z.; Ting, Lily; Ertan, Haluk; Johnson, Justin; Ferriera, Steven; Lapidus, Alla; Anderson, Iain; Kyrpides, Nikos C.; Munk, A. Christine; Detter, Chris; Han, Cliff; Brown, Mark V.; Robb, Frank T.; Kjelleberg, Staffan; Cavicchioli, Ricardo

doi:10.1073/pnas.0903507106

Cited by 660 publications

(767 citation statements)

References 38 publications

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“…Despite the fact that the probes used target groups from different taxonomical ranks, most of these groups present ecological coherence (Philippot et al, 2010). Thus, our results provide valuable information concerning the auto-ecology of the most abundant bacterial large phylogenetic groups in the sea, sometimes difficult to discern in the huge amount of genomic data (for example, Lauro et al, 2009). For example, our observations reinforce previous reports that SAR11 can grow in culture only with low substrate concentration (Rappé et al, 2002).…”

Section: Discussionsupporting

confidence: 82%

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Bacterioplankton niche partitioning in the use of phytoplankton-derived dissolved organic carbon: quantity is more important than quality

2016

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Some prokaryotes are known to be specialized in the use of phytoplankton-derived dissolved organic carbon (DOCp) originated by exudation or cell lysis; however, direct quantification measurements are extremely rare. Several studies have described bacterial selectivity based on DOCp quality, but very few have focused on the quantity of DOCp, and the relative importance of each of these variables (for example, quantity versus quality) on prokaryote responses. We applied an adapted version of the MAR-FISH (microautoradiography coupled with catalyzed reporter deposition fluorescence in situ hybridization) protocol using radiolabelled exudates from axenic algal cultures to calculate a specialization index (d') for large bacterioplankton phylogenetic groups using DOCp from different phytoplankton species and at different concentrations to elucidate to what extent the bacterial response to DOCp is driven by resource quantity (different DOCp concentrations) or by quality (DOCp from different phytoplankton species). All bacterial phylogenetic groups studied had lower d' at higher DOCp concentration, indicating more generalist behavior at higher resource availabilities. Indeed, at increasing resource concentrations, most bacterial groups incorporated DOCp indiscriminately, regardless of its origin (or quality). At low resource concentrations, only some specialists were able to actively incorporate the various types of organic matter effectively. The variability of bacterial responses to different treatments was systematically higher at varying concentrations than at varying DOCp types, suggesting that, at least for this range of concentrations (10-100 μM), DOCp quantity affects bacterial responses more than quality does. Therefore, resource quantity may be more relevant than resource quality in the bacterial responses to DOCp and affect how bacterioplankton use phytoplankton-derived carbon.

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Section: Discussionsupporting

confidence: 82%

“…Conversely, largegenome copiotrophs would have higher genetic potential (more genes coding for a higher number of enzymes), allowing handling a wider range of molecules, which makes them more generalists (Lauro et al, 2009); however, they need a higher amount of energy to start the synthesis of such a complex enzymatic machinery.…”

Section: Discussionmentioning

confidence: 99%

Bacterioplankton niche partitioning in the use of phytoplankton-derived dissolved organic carbon: quantity is more important than quality

2016

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“…The abundance of chaperones may help bacteria to deal with low nutrient availability and have been related to environmental stress tolerance (Storz and Hengge, 2011). The high abundance of secondary metabolism genes (Q) together with the low number of genes associated with transcription (K) in the filter samples is consistent with another study in which these two categories differentiated oligotrophic from copiotrophic microorganisms (Lauro et al, 2009). The abundance of transposases in the RSF metagenomes was striking: they accounted for 1.18% ± 0.09% and 1.49% ± 0.04% of the total annotated genes in the ISLBulk and ISLTop, respectively, substantially higher than in a study of 2137 complete genomes where the average transposase abundance was 0.83% (Aziz et al, 2010).…”

Section: Metagenomic Assembly and Taxonomysupporting

confidence: 90%

Metagenomic analysis of rapid gravity sand filter microbial communities suggests novel physiology ofNitrospiraspp.

et al. 2016

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Rapid gravity sand filtration is a drinking water production technology widely used around the world. Microbially catalyzed processes dominate the oxidative transformation of ammonia, reduced manganese and iron, methane and hydrogen sulfide, which may all be present at millimolar concentrations when groundwater is the source water. In this study, six metagenomes from various locations within a groundwater-fed rapid sand filter (RSF) were analyzed. The community gene catalog contained most genes of the nitrogen cycle, with particular abundance in genes of the nitrification pathway. Genes involved in different carbon fixation pathways were also abundant, with the reverse tricarboxylic acid cycle pathway most abundant, consistent with an observed Nitrospira dominance. From the metagenomic data set, 14 near-complete genomes were reconstructed and functionally characterized. On the basis of their genetic content, a metabolic and geochemical model was proposed. The organisms represented by draft genomes had the capability to oxidize ammonium, nitrite, hydrogen sulfide, methane, potentially iron and manganese as well as to assimilate organic compounds. A composite Nitrospira genome was recovered, and amo-containing Nitrospira genome contigs were identified. This finding, together with the high Nitrospira abundance, and the abundance of atypical amo and hao genes, suggests the potential for complete ammonium oxidation by Nitrospira, and a major role of Nitrospira in the investigated RSFs and potentially other nitrifying environments.

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“…Recent metagenomic sequencing of natural environments has revealed that microbial communities act in different trophic levels (Lauro et al, 2009), exhibit successional change (Koenig et al, 2011;Teeling et al, 2012;Huws et al, 2016) and engage in fierce competition when resources are limited (Weckx et al, 2011). This suggests that adaptation to specific niches must also occur in microbial communities, however demonstrating this in natural communities remains a challenge (Marco, 2008).…”

Section: Introductionmentioning

confidence: 99%

Erratum: Divergent functional isoforms drive niche specialisation for nutrient acquisition and use in rumen microbiome

Rubino¹,

Carberry²,

Waters³

et al. 2017

The ISME Journal

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Many microbes in complex competitive environments share genes for acquiring and utilising nutrients, questioning whether niche specialisation exists and if so, how it is maintained. We investigated the genomic signatures of niche specialisation in the rumen microbiome, a highly competitive, anaerobic environment, with limited nutrient availability determined by the biomass consumed by the host. We generated individual metagenomic libraries from 14 cows fed an ad libitum diet of grass silage and calculated functional isoform diversity for each microbial gene identified. The animal replicates were used to calculate confidence intervals to test for differences in diversity of functional isoforms between microbes that may drive niche specialisation. We identified 153 genes with significant differences in functional isoform diversity between the two most abundant bacterial genera in the rumen (Prevotella and Clostridium). We found Prevotella possesses a more diverse range of isoforms capable of degrading hemicellulose, whereas Clostridium for cellulose. Furthermore, significant differences were observed in key metabolic processes indicating that isoform diversity plays an important role in maintaining their niche specialisation. The methods presented represent a novel approach for untangling complex interactions between microorganisms in natural environments and have resulted in an expanded catalogue of gene targets central to rumen cellulosic biomass degradation.

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The genomic basis of trophic strategy in marine bacteria

Cited by 660 publications

References 38 publications

Bacterioplankton niche partitioning in the use of phytoplankton-derived dissolved organic carbon: quantity is more important than quality

Bacterioplankton niche partitioning in the use of phytoplankton-derived dissolved organic carbon: quantity is more important than quality

Metagenomic analysis of rapid gravity sand filter microbial communities suggests novel physiology ofNitrospiraspp.

Erratum: Divergent functional isoforms drive niche specialisation for nutrient acquisition and use in rumen microbiome

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