Ecology, inhibitory activity, and morphogenesis of a marine antagonistic bacterium belonging to the Roseobacter clade.
about
Acyl-homoserine lactone-based quorum sensing in the Roseobacter clade: complex cell-to-cell communication controls multiple physiologiesMorphological Heterogeneity and Attachment of Phaeobacter inhibensPhaeobacter gallaeciensis reduces Vibrio anguillarum in cultures of microalgae and rotifers, and prevents vibriosis in cod larvaeExo-metabolome of Pseudovibrio sp. FO-BEG1 analyzed by ultra-high resolution mass spectrometry and the effect of phosphate limitationDraft genome sequence of the marine Rhodobacteraceae strain O3.65, cultivated from oil-polluted seawater of the Deepwater Horizon oil spillIsolation of an antimicrobial compound produced by bacteria associated with reef-building corals.Cross-ocean distribution of Rhodobacterales bacteria as primary surface colonizers in temperate coastal marine watersGenetic dissection of tropodithietic acid biosynthesis by marine roseobactersGenetic tools for the investigation of Roseobacter clade bacteria.Inactivation of Vibrio anguillarum by attached and planktonic Roseobacter cells.Genome sequence of Phaeobacter inhibens type strain (T5(T)), a secondary metabolite producing representative of the marine Roseobacter clade, and emendation of the species description of Phaeobacter inhibens.Resistance and tolerance to tropodithietic acid, an antimicrobial in aquaculture, is hard to selectAlgae-bacteria association inferred by 16S rDNA similarity in established microalgae culturesThe phytoplankton Nannochloropsis oculata enhances the ability of Roseobacter clade bacteria to inhibit the growth of fish pathogen Vibrio anguillarum.Expression of tropodithietic acid biosynthesis is controlled by a novel autoinducerProduction of the antimicrobial secondary metabolite indigoidine contributes to competitive surface colonization by the marine roseobacter Phaeobacter sp. strain Y4IPhaeobacter gallaeciensis genomes from globally opposite locations reveal high similarity of adaptation to surface life.Identification of an antagonistic probiotic combination protecting ornate spiny lobster (Panulirus ornatus) larvae against Vibrio owensii infection.Hybrid biosynthesis of roseobacticides from algal and bacterial precursor molecules.Characterisation of non-autoinducing tropodithietic Acid (TDA) production from marine sponge Pseudovibrio species.TdaA regulates Tropodithietic acid synthesis by binding to the tdaC promoter region.Genome mining reveals unlocked bioactive potential of marine Gram-negative bacteria.Biofilm formation is not a prerequisite for production of the antibacterial compound tropodithietic acid in Phaeobacter inhibens DSM17395.Patterns and mechanisms of genetic and phenotypic differentiation in marine microbes.Production of antibacterial compounds and biofilm formation by Roseobacter species are influenced by culture conditionsContributions of tropodithietic acid and biofilm formation to the probiotic activity of Phaeobacter inhibens.Influence of Iron on Production of the Antibacterial Compound Tropodithietic Acid and Its Noninhibitory Analog in Phaeobacter inhibens.A novel inducer of Roseobacter motility is also a disruptor of algal symbiosis.Mode of action and resistance studies unveil new roles for tropodithietic acid as an anticancer agent and the γ-glutamyl cycle as a proton sink.Investigation of the Genetics and Biochemistry of Roseobacticide Production in the Roseobacter Clade Bacterium Phaeobacter inhibens.Phaeobacter and Ruegeria species of the Roseobacter clade colonize separate niches in a Danish Turbot (Scophthalmus maximus)-rearing farm and antagonize Vibrio anguillarum under different growth conditionsA fresh look at natural tropolonoids.Disruption of cell-to-cell signaling does not abolish the antagonism of Phaeobacter gallaeciensis toward the fish pathogen Vibrio anguillarum in algal systemsSurface colonization by marine roseobacters: integrating genotype and phenotype.Genome sequence of Phaeobacter daeponensis type strain (DSM 23529(T)), a facultatively anaerobic bacterium isolated from marine sediment, and emendation of Phaeobacter daeponensis.Identification of the antibacterial compound produced by the marine epiphytic bacterium Pseudovibrio sp. D323 and related sponge-associated bacteriaThe expanding roles of c-di-GMP in the biosynthesis of exopolysaccharides and secondary metabolites.Quorum Sensing and Quorum Quenching in the Phycosphere of Phytoplankton: a Case of Chemical Interactions in Ecology.Global occurrence and heterogeneity of the Roseobacter-clade species Ruegeria mobilis.Tropodithietic acid production in Phaeobacter gallaeciensis is regulated by N-acyl homoserine lactone-mediated quorum sensing
P2860
Q27013856-827EE6F9-2ECC-44B8-A275-0442205A123EQ27312023-0FFF4641-E2C0-4D51-A17D-D00B7093AE15Q28482462-C1FAE3DF-6D98-48B1-8C88-16936F279CEEQ28538401-56EB85F2-AA2E-4F95-B2FC-689A89A503C7Q28821979-001F70F6-8C42-4190-B731-500CD4DD4695Q31127109-7FDF7ECC-CD46-4913-B39E-201974F361F7Q33304154-3D8EC4CD-FE6C-4D4A-AA57-52CE7F332C95Q33314522-F977D49B-A81E-4D8F-AC85-F18F3D433647Q33519700-A21FFA6A-B152-4456-8C7D-B8BE7960AE2CQ33768330-8C05457C-F30B-4D97-A808-665ECADC29EDQ33774403-B0BDFDE6-2429-47CF-BEC6-272C34FD1C07Q33801949-4383F37D-029A-4146-BA87-08F43668A30FQ33849177-5C7015E8-C033-4F5A-9F12-8D4A71A0D617Q34067044-7A8386AF-E4AA-4C89-8CDB-C77E90809DDCQ34119111-3540394D-7101-48E0-A7C1-29A986240E2BQ34267588-6843CB5F-6D57-499E-92F9-8A7859BD19ADQ34311184-A6AF4E31-BCBB-46A4-8B81-5DEFD592CEA3Q34335714-727AEEC9-DF53-47D0-B613-1F6A9D28036BQ34489519-DB919159-7CC9-4105-9008-48423E559DDDQ34780527-7801A096-15E8-4244-8B98-54BB02231CBBQ35139186-365448C9-C6E9-4753-B0C7-8FB97C374303Q35176785-A4D34704-8F03-4BEA-A9BD-DC0CF9D298F7Q35303208-EEC4E1F1-30F3-4558-818F-2FA37FA2036AQ35575478-7CCAB828-D0DB-45F1-B5BF-AAD1DA400AA4Q35633468-D706E65F-3815-48FD-AF35-1EC2FDF4F7F1Q35884353-E15D07E8-62B4-403B-93A6-B1F89FFC9ADCQ36457781-CEE56235-2FEB-4387-AD60-24D8C6086786Q36581187-4397296E-FAE1-4AAD-98C7-154AA27137A9Q36598794-DDBF62EE-8570-409D-8406-50310BA291C2Q36727679-06F1362E-7DBE-4D16-8C46-8A322965E71CQ36993660-C4A52D79-1B02-4ABC-B1BB-44D49CD0C291Q37077345-C82840C5-028C-46A3-8A8A-798B4100F23CQ37123007-0A94AC64-5320-4B7D-AB00-9FBD491D59C8Q37365275-86FF4FF5-C5BC-4A2A-8328-41751E82BAEEQ37543617-D784A13B-30DE-4FCE-AB24-5E5912BCF4E6Q38274164-817D2B27-0E7D-4E56-897F-70F3428FC3C9Q38349818-C6653B53-A20A-4623-B722-ABA62601AC5FQ39002334-8718F91D-F545-429E-B88B-5F76D570D579Q39462618-28BEC482-30B4-48EE-8E7C-4A27847C25ABQ39662688-57E5809E-28EF-4F9A-AFB8-8A80DB8335D1
P2860
Ecology, inhibitory activity, and morphogenesis of a marine antagonistic bacterium belonging to the Roseobacter clade.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Ecology, inhibitory activity, ...... ging to the Roseobacter clade.
@en
Ecology, inhibitory activity, ...... ging to the Roseobacter clade.
@nl
type
label
Ecology, inhibitory activity, ...... ging to the Roseobacter clade.
@en
Ecology, inhibitory activity, ...... ging to the Roseobacter clade.
@nl
prefLabel
Ecology, inhibitory activity, ...... ging to the Roseobacter clade.
@en
Ecology, inhibitory activity, ...... ging to the Roseobacter clade.
@nl
P2093
P2860
P50
P1476
Ecology, inhibitory activity, ...... nging to the Roseobacter clade
@en
P2093
Jesper Bartholin Bruhn
José Bresciani
Mette Hjelm
P2860
P304
P356
10.1128/AEM.71.11.7263-7270.2005
P407
P577
2005-11-01T00:00:00Z