Bacteria in Ostreococcus tauri cultures â€“ friends, foes or hitchhikers?

Abby, Sophie S.; Touchon, Marie; Jode, Aurélien De; Grimsley, Nigel; Piganeau, Gwenaël

doi:10.3389/fmicb.2014.00505

Cited by 27 publications

(39 citation statements)

References 81 publications

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“…Overall, in this study, the co‐dominance of Oceanicaulis and Dinoroseobacter phylotypes (closely related to Oceanicaulis alexandrii and Dinoroseobacter shibae at 96% and 99% 16S rRNA gene sequence similarity, respectively; Table ) at exponential and late stationary algal growth phases reflects their high metabolic plasticity, considering the deep differences in terms of inorganic nutrient concentrations and organic matter quality and availability between the two distinct phases. Oceanicaulis representatives have been retrieved from several marine algal cultures ( Alexandrium tamarense , Strompl, ; Emiliania huxleyi , Zabeti, Bonin, Volkman, Guasco, & Rontani, ; Eutreptiella sp., Kuo & Lin, ; Ostreococcus tauri , Abby, Touchon, De Jode, Grimsley, & Piganeau, ), and genes and regulons involved in biosynthesis pathways of B vitamins (i.e., B 1 , B 7 , and B 12 ) have been detected in Oceanicaulis phylotypes (Oh et al., ). Additionally, the versatile chemoheterotrophic metabolism reported for this genus (Chen, Sheu, Chen, Wang, & Chen, ; Oh et al., ; Strompl, ) also encompasses efficient phosphate uptake capacity in carbon‐limited medium and inorganic nutrient depleted conditions through high‐affinity phosphate transporters located in the prosthecae (McAdams, ; Oh et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…ovata exponential growth phase. Roseovarius ‐affiliated phylotypes have been recovered from different cultured marine algal species (Biebl et al., ; Onda et al., ), also concurrently with Oceanicaulis (Abby et al., ; Kuo & Lin, ) and Fabibacter relatives (Green, Echavarri‐Bravo, Brennan, & Hart, ), and in association with toxic dinoflagellate blooms (Vanucci, Guidi, et al., ; Yang et al., ). Metagenomic and biochemical analyses highlighted the large metabolic portfolio of Roseovarius (Bruns et al., ; Riedel et al., ), including synthesis of dual nature compounds (i.e., algal growth promoting and algicidal ones; Ziesche et al., ).…”

Section: Discussionmentioning

confidence: 99%

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Microbial dynamics during harmful dinoflagellate Ostreopsis cf. ovata growth: Bacterial succession and viral abundance pattern

2018

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Algal–bacterial interactions play a major role in shaping diversity of algal associated bacterial communities. Temporal variation in bacterial phylogenetic composition reflects changes of these complex interactions which occur during the algal growth cycle as well as throughout the lifetime of algal blooms. Viruses are also known to cause shifts in bacterial community diversity which could affect algal bloom phases. This study investigated on changes of bacterial and viral abundances, bacterial physiological status, and on bacterial successional pattern associated with the harmful benthic dinoflagellate Ostreopsis cf. ovata in batch cultures over the algal growth cycle. Bacterial community phylogenetic structure was assessed by 16S rRNA gene ION torrent sequencing. A comparison between bacterial community retrieved in cultures and that one co‐occurring in situ during the development of the O. cf. ovata bloom from where the algal strain was isolated was also reported. Bacterial community growth was characterized by a biphasic pattern with the highest contributions (~60%) of highly active bacteria found at the two bacterial exponential growth steps. An alphaproteobacterial consortium composed by the Rhodobacteraceae Dinoroseobacter (22.2%–35.4%) and Roseovarius (5.7%–18.3%), together with Oceanicaulis (14.2‐40.3%), was strongly associated with O. cf. ovata over the algal growth. The Rhodobacteraceae members encompassed phylotypes with an assessed mutualistic‐pathogenic bimodal behavior. Fabibacter (0.7%–25.2%), Labrenzia (5.6%–24.3%), and Dietzia (0.04%–1.7%) were relevant at the stationary phase. Overall, the successional pattern and the metabolic and functional traits of the bacterial community retrieved in culture mirror those ones underpinning O. cf. ovata bloom dynamics in field. Viral abundances increased synoptically with bacterial abundances during the first bacterial exponential growth step while being stationary during the second step. Microbial trends also suggest that viruses induced some shifts in bacterial community composition.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Microbial dynamics during harmful dinoflagellate Ostreopsis cf. ovata growth: Bacterial succession and viral abundance pattern

2018

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“…Indeed, several recent microbiome studies of diverse phytoplankton suggest that marine and fresh water phytoplankton harbor unique bacterial consortia which are consistent within phytoplankton species and across temporal scales [16][17][18][19]. Yet, some phytoplankton do not harbor a core set of associated bacteria [20]. In these cases, the sampling time and location are suggested to be more decisive factors determining the associated microbiome than phytoplankton species affiliation [21].…”

Section: Introductionmentioning

confidence: 99%

Niche-based assembly of bacterial consortia on the diatom Thalassiosira rotula is stable and reproducible

et al. 2020

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With each cell division, phytoplankton create new space for primary colonization by marine bacteria. Although this surface microenvironment is available to all planktonic bacterial colonizers, we show the assembly of bacterial consortia on a cosmopolitan marine diatom to be highly specific and reproducible. While phytoplankton-bacteria interactions play fundamental roles in marine ecosystems, namely primary production and the carbon cycle, the ecological paradigm behind epiphytic microbiome assembly remains poorly understood. In a replicated and repeated primary colonization experiment, we exposed the axenic diatom Thalassiosira rotula to several complex and compositionally different bacterial inocula derived from phytoplankton species of varying degrees of relatedness to the axenic Thalassiosira host or natural seawater. This revealed a convergent assembly of diverse and compositionally different bacterial inocula, containing up to 2071 operational taxonomic units (OTUs), towards a stable and reproducible core community. Four of these OTUs already accounted for a cumulative abundance of 60%. This core community was dominated by Rhodobacteraceae (30.5%), Alteromonadaceae (27.7%), and Oceanospirillales (18.5%) which was qualitatively and quantitatively most similar to its conspecific original. These findings reject a lottery assembly model of bacterial colonization and suggest selective microhabitat filtering. This is likely due to diatom host traits such as surface properties and different levels of specialization resulting in reciprocal stable-state associations.

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“…The utility of METE as a positive selection marker relies on a cobalamin-dependent Ostreococcus transformation recipient. RCC614 is a representative co-culture of Ostreococcus and various phycosphere-associated marine bacteria (Abby et al, 2014;Lupette et al, 2016). The bacteria may supply biotin, cobalamin, and methionine to the Ostreococcus phycosphere.…”

Section: Discussionmentioning

confidence: 99%

Cultured Ostreococcus is cobalamin-independent

2016

Preprint

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The marine microalga Ostreococcus is considered to depend on the methionine synthase METH and its methylated cobalamin cofactor for methionine synthesis because it lacks METE, the methylcobalamin-independent methionine synthase. Here I describe minimal media lacking both biotin and cobalamin yet suitable for growth of cultured Ostreococcus. Materials and MethodsOstreococcus cell cultures were obtained from the Roscoff Culture Collection, Roscoff, France, and the Provasoli-Guillard National Center for Marine Algae and Microbiota, East Boothbay, Maine, USA. Panels of candidates to be evaluated for DNA transformation were assembled. The panel for clade A consisted of NCMA2972 (Palenik et al., 2007), RCC754, RCC755, and

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Bacteria in Ostreococcus tauri cultures â€“ friends, foes or hitchhikers?

Cited by 27 publications

References 81 publications

Microbial dynamics during harmful dinoflagellate Ostreopsis cf. ovata growth: Bacterial succession and viral abundance pattern

Microbial dynamics during harmful dinoflagellate Ostreopsis cf. ovata growth: Bacterial succession and viral abundance pattern

Niche-based assembly of bacterial consortia on the diatom Thalassiosira rotula is stable and reproducible

Cultured Ostreococcus is cobalamin-independent

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