Search results for "Freshwater reservoir"

showing 3 items of 3 documents

Novel Synechococcus Genomes Reconstructed from Freshwater Reservoirs

2017

Freshwater picocyanobacteria including Synechococcus remain poorly studied at the genomic level, compared to their marine representatives. Here, using a metagenomic assembly approach we discovered two novel Synechococcus sp. genomes from two freshwater reservoirs Tous and Lake Lanier, both sharing 96% average nucleotide identity and displaying high abundance levels in these two lakes located at similar altitudes and temperate latitudes. These new genomes have the smallest estimated size (2.2 Mb) and average intergenic spacer length (20 bp) of any previously sequenced freshwater Synechococcus, which may contribute to their success in oligotrophic freshwater systems. Fluorescent in situ hybri…

0301 basic medicineMicrobiology (medical)Cyanobacteria030106 microbiologylcsh:QR1-502medicine.disease_causeMicrobiologyGenomelcsh:Microbiology579 - Microbiología03 medical and health sciencesBotanyGene clustermedicineOriginal ResearchSynechococcusmetagenomicsabundancebiologyfungiRuBisCOProtistsmallest estimated sizebiology.organism_classificationSynechococcusCarboxysomeMetagenomicsbiology.proteinbacteriapicocyanobacteriafreshwater reservoirsFrontiers in Microbiology
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Key roles for freshwater A ctinobacteria revealed by deep metagenomic sequencing

2014

Freshwater ecosystems are critical but fragile environments directly affecting society and its welfare. However, our understanding of genuinely freshwater microbial communities, constrained by our capacity to manipulate its prokaryotic participants in axenic cultures, remains very rudimentary. Even the most abundant components, freshwater Actinobacteria, remain largely unknown. Here, applying deep metagenomic sequencing to the microbial community of a freshwater reservoir, we were able to circumvent this traditional bottleneck and reconstruct de novo seven distinct streamlined actinobacterial genomes. These genomes represent three new groups of photoheterotrophic, planktonic Actinobacteria.…

DNA BacterialMolecular Sequence DatarhodopsinsFresh WaterCyanobacteria633 - Cultivos y producciones [CDU]GenomeFreshwater ecosystemActinobacteriaContig MappingPhylogeneticsRNA Ribosomal 16Slignin degradationGeneticsMicrococcineaePhylogenyEcology Evolution Behavior and SystematicsmetagenomicsbiologyEcologyHigh-Throughput Nucleotide SequencingSequence Analysis DNAbiology.organism_classificationfreshwater reservoirActinobacteriaSpainMetagenomicsMetagenomicsActinomycetalesWater MicrobiologyGenome BacterialGC-contentMolecular Ecology
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Data from: Key roles for freshwater Actinobacteria revealed by deep metagenomic sequencing

2014

Freshwaters ecosystems are critical but fragile environments directly affecting society and its welfare. However, our understanding of genuinely freshwater microbial communities, constrained by our capacity to manipulate its prokaryotic participants in axenic cultures, remains very rudimentary. Even the most abundant components, freshwater Actinobacteria, remain largely unknown. Here, applying deep metagenomic sequencing to the microbial community of a freshwater reservoir, we were able to circumvent this traditional bottleneck and reconstruct de novo seven distinct streamlined actinobacterial genomes. These genomes represent three new groups of photoheterotrophic, planktonic Actinobacteria…

metagenomicsLignin DegradationLife Sciencesactinobacterium acAMD-5Actinobacteriamedicine and health careactinobacterium acAMD-2Freshwater reservoiractinobacterium acMicro-4MedicineRhodopsinsactinobacterium acIB-AMD-7actinobacterium acIB-AMD-6actinobacterium acMicro-1
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