about
Natural transformation in the Ralstonia solanacearum species complex: number and size of DNA that can be transferredPolyphasic characterization of xanthomonads pathogenic to members of the Anacardiaceae and their relatedness to species of XanthomonasReport of the ad hoc committee for the re-evaluation of the species definition in bacteriologyNovel tellurite-amended media and specific chromosomal and Ti plasmid probes for direct analysis of soil populations of Agrobacterium biovars 1 and 2Phylogeny of the Rhizobium-Allorhizobium-Agrobacterium clade supports the delineation of Neorhizobium gen. nov.Revised phylogeny of Rhizobiaceae: proposal of the delineation of Pararhizobium gen. nov., and 13 new species combinations.Development and validation of a prototype 16S rRNA-based taxonomic microarray for Alphaproteobacteria.Tomato root microbiota and Phytophthora parasitica-associated disease.Relationships between Staphylococcus aureus genetic background, virulence factors, agr groups (alleles), and human diseaseMolecular tools for the characterisation of antibiotic-resistant bacteria.Potential of a 16S rRNA-based taxonomic microarray for analyzing the rhizosphere effects of maize on Agrobacterium spp. and bacterial communities.A new Agrobacterium strain isolated from aerial tumors on Ficus benjamina L.Conditions for natural transformation of Ralstonia solanacearum.GC-Content evolution in bacterial genomes: the biased gene conversion hypothesis expands.Ecological speciation in bacteria: reverse ecology approaches reveal the adaptive part of bacterial cladogenesis.Genomic species are ecological species as revealed by comparative genomics in Agrobacterium tumefaciens.Identification of genomic species in Agrobacterium biovar 1 by AFLP genomic markers.Plant genome complexity may be a factor limiting in situ the transfer of transgenic plant genes to the phytopathogen Ralstonia solanacearum.Analysis of hydroxycinnamic acid degradation in Agrobacterium fabrum reveals a coenzyme A-dependent, beta-oxidative deacetylation pathway.Seasonal fluctuations and long-term persistence of pathogenic populations of Agrobacterium spp. in soils.Relationship between spatial and genetic distance in Agrobacterium spp. in 1 cubic centimeter of soil.A mathematical method for determining genome divergence and species delineation using AFLP.Coordinated Regulation of Species-Specific Hydroxycinnamic Acid Degradation and Siderophore Biosynthesis Pathways in Agrobacterium fabrum.Comparison between electrochemical and optoelectrochemical impedance measurements for detection of DNA hybridization.Small RNA Deep-Sequencing Analyses Reveal a New Regulator of Virulence in Agrobacterium fabrum C58.Genomospecies identification and phylogenomic relevance of AFLP analysis of isolated and non-isolated strains of Frankia spp.Optimization and biochemical characterization of a bacteriocin from a newly isolated Bacillus subtilis strain 14B for biocontrol of Agrobacterium spp. strains.Engineering root exudation of Lotus toward the production of two novel carbon compounds leads to the selection of distinct microbial populations in the rhizosphere.Single acquisition of protelomerase gave rise to speciation of a large and diverse clade within the Agrobacterium/Rhizobium supercluster characterized by the presence of a linear chromid.Direct conjugal transfers of Ti plasmid to soil microflora.IS292: a novel insertion element from Agrobacterium.A highly selectable and highly transferable Ti plasmid to study conjugal host range and Ti plasmid dissemination in complex ecosystems.Ralstonia solanacearum virulence increased following large interstrain gene transfers by natural transformation.Rapid and efficient identification of Agrobacterium species by recA allele analysis: Agrobacterium recA diversity.Homologous recombination in Agrobacterium: potential implications for the genomic species concept in bacteriaRapid and simultaneous detection of linear chromosome and large plasmids in Proteobacteria
P50
Q28288836-CD2464BF-1F53-444D-B636-77E6D680E035Q29038363-C4A7B3CD-B267-4D5A-B604-2C7A984E5B88Q29614356-1DC18EBC-C615-4BF3-ACCE-F4DE0E538560Q30660496-0D6FE654-5B98-4E57-A38A-B511F9A248E2Q30767450-5D088350-484B-4C56-B580-16B543DCD2A1Q30884757-2B9BE4FC-6DC4-4856-9ECC-6BE09990CA0EQ33232056-00FCBF79-26FD-4AF1-8F5B-EF8AD2FD6DA0Q33696736-33C85B54-4943-4F68-8965-1B5DE6DFDA0FQ34116989-CDD194EF-04DE-415E-ABD9-064F587B29A9Q34296679-3E7410CE-0FB3-47F9-8E83-41A0DA4E5D40Q34720556-CA02A9F4-30F7-46B5-8BCE-DA0CF606D734Q35182470-D471C7C1-7E92-45EF-B2DF-D1DBB0FD7201Q35206518-FB9C5D05-9198-4182-BCBB-AE69676550BDQ35557137-623627A3-0FED-4C7E-80D4-302F8A407A61Q35698459-8FAA89FB-9293-476B-851C-0CBD49E5EC7DQ38269137-9680613A-2406-4A9C-BA16-143FCAAB6D31Q39108390-96B4ECE2-DA7A-4822-A820-55B2F841D3B5Q39487654-F321129A-E696-4A1C-B299-A66AC26E5EA5Q39539531-5B384CF8-FDC2-480E-A89A-87E3CA3DEDE6Q39650293-880C4260-F7F5-4649-AD14-1DAF4ADA15A8Q39734799-94BC3B40-B9FA-4E68-B810-F70E4B6C41B1Q40648789-4562073D-9D87-4A72-9345-BE1F9F2ACDB4Q40722289-8EDCB790-3EC6-41F5-957A-E942126100D7Q40723829-35552527-7273-43BA-9840-49A0E04A0378Q40890031-D93FC784-D3A5-48B5-8C5A-40A0397E91E8Q43734745-FEBAB0E7-C243-4F81-BBC2-4E97B297F44CQ44116527-DCE975C4-B74B-45AF-91A4-BC21ECEE4C97Q44982956-B54B4726-5067-452C-8349-17D6A52C99E8Q46944487-0D9E1576-BC9E-4847-B08C-EC4A6B524765Q47937877-C8ADB887-E032-48E7-A559-61AE3CFE98E0Q48074750-785A91A4-5547-418F-9921-2960ED95E963Q53894431-F9C7225B-CB28-460E-899A-E21D38DCA8DFQ54395365-6DA1670C-641A-4942-9C93-9538772F31C4Q54425560-FCBF3743-0E77-4746-B0F9-F231496674B6Q79659977-39C04A43-6BF4-46C9-BF29-DF45F9152BE6Q83498445-8B8D4F94-A466-4312-BFF9-860C08387058
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Xavier Nesme
@ast
Xavier Nesme
@en
Xavier Nesme
@es
Xavier Nesme
@nl
Xavier Nesme
@sl
type
label
Xavier Nesme
@ast
Xavier Nesme
@en
Xavier Nesme
@es
Xavier Nesme
@nl
Xavier Nesme
@sl
prefLabel
Xavier Nesme
@ast
Xavier Nesme
@en
Xavier Nesme
@es
Xavier Nesme
@nl
Xavier Nesme
@sl
P106
P21
P31
P496
0000-0002-9834-7154