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Oceanicola
Genome Characteristics of a Generalist Marine Bacterial Lineage
Excess Labile Carbon Promotes the Expression of Virulence Factors in Coral Reef Bacterioplankton
Horizontal Operon Transfer, Plasmids, and the Evolution of Photosynthesis in Rhodobacteraceae
R Graphics Output
Dimethylsulphoniopropionate Biosynthesis in Marine Bacteria and Identification of the Key Gene in This Process
Downloaded from Genbank
A059p283.Pdf
Taxonomic Hierarchy of the Phylum Proteobacteria and Korean Indigenous Novel Proteobacteria Species
CGM-18-001 Perseus Report Update Bacterial Taxonomy Final Errata
Biodiversity and Degradation Potential of Oil-Degrading Bacteria Isolated from Deep-Sea Sediments of South Mid-Atlantic Ridge
Genomic Analysis of the Evolution of Phototrophy Among Haloalkaliphilic Rhodobacterales
Phaeobacter Caeruleus Type Strain (DSM 24564T), a Surface-Associated Member of the Marine Roseobacter Clade Paul G
Phylogenomics and Signature Proteins for the Alpha Proteobacteria and Its Main Groups Radhey S Gupta* and Amy Mok
Biofilm Plasmids with a Rhamnose Operon Are Widely Distributed Determinants of the ‘Swim-Or-Stick’ Lifestyle in Roseobacters
Phylogenomics and Signature Proteins for the Alpha Proteobacteria and Its Main Groups Radhey S Gupta* and Amy Mok
Extremophiles in an Antarctic Marine Ecosystem
American Museum Novitates
Report of 29 Unrecorded Bacterial Species from the Phylum Proteobacteria
Top View
Redalyc.Probiotic Modulation of the Gut Bacterial Community of Juvenile Litopenaeus Vannamei Challenged with Vibrio Parahaemolyt
Nioella Nitratireducens Gen. Nov., Sp. Nov., a Novel Member of the Family Rhodobacteraceae Isolated from Azorean Island
Excess Labile Carbon Promotes the Expression of Virulence Factors in Coral Reef Bacterioplankton
Laetantesicola Maris Gen. Nov., Sp. Nov. Isolated from the Sea of Japan Shallow Sediments
Characterization of Motility and Surface Attachment in Thirteen Members of the Roseobacter Clade
On the Chimeric Nature, Thermophilic Origin, and Phylogenetic Placement of the Thermotogales
Phylogenomics of Rhodobacteraceae Reveals Evolutionary Adaptation to Marine and Non-Marine Habitats
IMG [16] As Well As
Ecological Drivers of Bacterial Community Assembly in Synthetic Phycospheres