about
Azospirillum genomes reveal transition of bacteria from aquatic to terrestrial environmentsMethylation of inorganic and organic selenium by the bacterial thiopurine methyltransferase.Promoter-trap identification of wheat seed extract-induced genes in the plant-growth-promoting rhizobacterium Azospirillum brasilense Sp245.Survival and spread of Shiga toxin-producing Escherichia coli in alpine pasture grasslands.Effects of Azospirillum brasilense with genetically modified auxin biosynthesis gene ipdC upon the diversity of the indigenous microbiota of the wheat rhizosphere.Draft Genome Sequence of Chryseobacterium sp. JV274 Isolated from Maize RhizosphereDistribution of 2,4-Diacetylphloroglucinol Biosynthetic Genes among the Pseudomonas spp. Reveals Unexpected Polyphyletism.Complex regulatory network controls initial adhesion and biofilm formation in Escherichia coli via regulation of the csgD gene.Plant root transcriptome profiling reveals a strain-dependent response during Azospirillum-rice cooperationBiochemical and genomic comparison of inorganic phosphate solubilization in Pseudomonas species.Plant growth-promoting rhizobacteria and root system functioning.Fluorescent Pseudomonas Strains with only Few Plant-Beneficial Properties Are Favored in the Maize Rhizosphere.Long-term survival of Shiga toxin-producing Escherichia coli in cattle effluents and environment: an updated review.Phylogenetic diversity and antagonistic traits of root and rhizosphere pseudomonads of a bean from Iran for controlling Rhizoctonia solani.Persistence of culturable Escherichia coli fecal contaminants in dairy alpine grassland soils.Analysis of genes contributing to plant-beneficial functions in Plant Growth-Promoting Rhizobacteria and related ProteobacteriaPlant secondary metabolite profiling evidences strain-dependent effect in the Azospirillum-Oryza sativa association.Pseudomonas aeruginosa virulence genes identified in a Dictyostelium host model.Duplication of plasmid-borne nitrite reductase gene nirK in the wheat-associated plant growth-promoting rhizobacterium Azospirillum brasilense Sp245.Mapping of critical source areas for diffuse fecal bacterial pollution in extensively grazed watersheds.Comparison of prominent Azospirillum strains in Azospirillum-Pseudomonas-Glomus consortia for promotion of maize growth.Genome wide profiling of Azospirillum lipoferum 4B gene expression during interaction with rice roots.The nucleoid-associated protein Fis directly modulates the synthesis of cellulose, an essential component of pellicle-biofilms in the phytopathogenic bacterium Dickeya dadantii.Characterization of a novel selenium methyltransferase from freshwater bacteria showing strong similarities with the calicheamicin methyltransferase.Regulation of hydroxycinnamic acid degradation drives Agrobacterium fabrum lifestyles.Exploiting rhizosphere microbial cooperation for developing sustainable agriculture strategies.Persistence of Shiga toxin-producing Escherichia coli O26 in cow slurry.Growth and survival of non-O157:H7 Shiga-toxin-producing Escherichia coli in cow manure.Differential responses of Oryza sativa secondary metabolism to biotic interactions with cooperative, commensal and phytopathogenic bacteria.Pseudomonas fluorescens and closely-related fluorescent pseudomonads as biocontrol agents of soil-borne phytopathogens.Phylogeny of the 1-aminocyclopropane-1-carboxylic acid deaminase-encoding gene acdS in phytobeneficial and pathogenic Proteobacteria and relation with strain biogeography.Frequent, independent transfers of a catabolic gene from bacteria to contrasted filamentous eukaryotes.Complex ecological interactions of Staphylococcus aureus in tampons during menstruation.Impact of currently marketed tampons and menstrual cups on growth and TSST-1 production in vitroEffect of Clay Mineralogy on Iron Bioavailability and Rhizosphere Transcription of 2,4-Diacetylphloroglucinol Biosynthetic Genes in Biocontrol Pseudomonas protegensThe role of the antimicrobial compound 2,4-diacetylphloroglucinol in the impact of biocontrol Pseudomonas fluorescens F113 on Azospirillum brasilense phytostimulatorsAssessment of SCAR markers to design real-time PCR primers for rhizosphere quantification ofAzospirillum brasilensephytostimulatory inoculants of maizeDevelopment of a 16S rRNA microarray approach for the monitoring of rhizosphere Pseudomonas populations associated with the decline of take-all disease of wheatMolecular characterization and PCR detection of a nitrogen-fixing Pseudomonas strain promoting rice growth[15] First stages of biofilm formation: Characterization and quantification of bacterial functions involved in colonization process
P50
Q21092424-498705AF-74B1-499A-94BE-2A5E7663B33DQ31052950-7C0C2831-0FAF-40BC-8723-984C9F72F01EQ33300933-9B2BAAFF-A801-4E27-A36B-086A0015211FQ33506514-04021D94-0B70-4DFE-A71A-2B4EC25594D8Q33529954-CFFBE942-765D-4644-8841-97F5434D11ABQ33563992-CAC14E67-6709-48D9-AC2D-5F32721B8419Q33854676-286273FA-A02E-48A7-90D0-C0A672D63741Q33997251-2573CCED-927F-4CFC-A882-F40D082470B4Q34462561-B38286D6-17C3-44D8-B398-62CC2F31E5CFQ34772650-C6FD59BE-CDC3-49FA-957A-BF59E967E5DFQ37177075-1621293D-A17D-4530-A071-2705E05A4E09Q37201868-6926DBDA-B3F7-4E35-ABD3-9F5AE72DE824Q37202365-D67F8A88-5B37-42A4-8215-436DD4D6154AQ38603238-334B3F43-2CD6-49E6-A0EE-0FF514A23499Q39104287-5DB91142-7F7D-4EB2-B915-4FD7324EB19DQ42855028-5691FECE-A857-46AD-BDED-E8393CF603F6Q43805442-9BF255AC-9F79-40BA-8B89-6DFAF0FE3778Q43889743-ED21B1B4-00A8-42BC-9FDA-AB92AF69440EQ45338807-A70CDF40-7FD8-4273-8C8F-F66166130B75Q46116643-293CEF3E-C61D-4621-BB10-81669C0B9D56Q46827176-A87EEAE8-99EA-4104-A872-034F41282A64Q46966532-DC0037ED-F5CD-45A6-9D78-3FC2A42110B1Q47218423-FC2D9E3C-A95F-4494-90B5-278BC4C96B1FQ48183327-5966234E-EFC4-40B4-A672-FDE127F97F0BQ49820574-5446D59F-B1CB-4F5F-B023-0FB22700771AQ50127827-E04323B2-58A1-4BE7-BC48-CBBEB6FC3A38Q50675426-FB3F07B3-7106-426A-BEE2-D60FD9B4C780Q50703783-24D727E6-C881-4021-90E5-08F0BC0138F5Q51338377-04E4F8CF-FFA1-4027-BE5D-95C07736764BQ51665442-0081D355-9BD8-4207-B9E6-48F871B02DCBQ51727610-03B92FDA-176D-4134-A52A-D0E17E3DF65AQ55025632-5D3CBDC2-5045-4414-BE1E-2AAAFBA8D698Q55517606-28559DAC-4D5E-4538-9C63-05A7D539BAF8Q57230744-88C51629-A7D5-40A6-8C27-CF0C661D86B8Q57269264-A35E5AF9-3CEF-4FB3-8807-CAD2A35837D5Q57269269-56BC1125-B6B9-4231-9EE4-DCC0C0F10B41Q57269270-84A8FA88-0146-4526-AD5F-6D74A478D2F4Q57269272-4B44EF60-48F1-475B-914A-E8F5AFEDBEE7Q57269273-1207107B-204F-4578-8786-29538AFE432CQ57269276-CA31381C-37ED-45B3-8B23-7D58C32AE37A
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Claire Prigent-Combaret
@ast
Claire Prigent-Combaret
@en
Claire Prigent-Combaret
@es
Claire Prigent-Combaret
@nl
Claire Prigent-Combaret
@sl
type
label
Claire Prigent-Combaret
@ast
Claire Prigent-Combaret
@en
Claire Prigent-Combaret
@es
Claire Prigent-Combaret
@nl
Claire Prigent-Combaret
@sl
prefLabel
Claire Prigent-Combaret
@ast
Claire Prigent-Combaret
@en
Claire Prigent-Combaret
@es
Claire Prigent-Combaret
@nl
Claire Prigent-Combaret
@sl
P1053
S-7437-2016
P106
P1153
6602611031
P21
P31
P3829
P496
0000-0001-8968-0660