Modulation of quorum sensing in Pseudomonas aeruginosa through alteration of membrane propertiesThe non-classical ArsR-family repressor PyeR (PA4354) modulates biofilm formation in Pseudomonas aeruginosaThe Vibrio seventh pandemic island-II is a 26.9 kb genomic island present in Vibrio cholerae El Tor and O139 serogroup isolates that shows homology to a 43.4 kb genomic island in V. vulnificus.Aquimarina amphilecti sp. nov., isolated from the sponge Amphilectus fucorum.Maribacter spongiicola sp. nov. and Maribacter vaceletii sp. nov., isolated from marine sponges, and emended description of the genus Maribacter.Computational prediction of the Crc regulon identifies genus-wide and species-specific targets of catabolite repression control in Pseudomonas bacteria.Marine metagenomics: new tools for the study and exploitation of marine microbial metabolism.Metabolomic profiling and genomic study of a marine sponge-associated Streptomyces sp.Physiological and metabolic diversity in the yeast Kluyveromyces marxianus.Functional metagenomic strategies for the discovery of novel enzymes and biosurfactants with biotechnological applications from marine ecosystems.Diversity and bioactive potential of endospore-forming bacteria cultured from the marine sponge Haliclona simulans.A high-throughput screen to identify novel calcineurin inhibitors.Diversity and antimicrobial activities of microbes from two Irish marine sponges, Suberites carnosus and Leucosolenia sp.Pyrosequencing reveals diverse and distinct sponge-specific microbial communities in sponges from a single geographical location in Irish waters.Transcriptome profiling of bacterial responses to root exudates identifies genes involved in microbe-plant interactionsPseudovibrio axinellae sp. nov., isolated from an Irish marine sponge.Diversity and antibacterial activity of bacteria isolated from the coastal marine sponges Amphilectus fucorum and Eurypon major.Pseudomonas for biocontrol of phytopathogens: from functional genomics to commercial exploitation.Characterization of interactions between the transcriptional repressor PhlF and its binding site at the phlA promoter in Pseudomonas fluorescens F113.Tetracycline resistance-encoding plasmid from Bacillus sp. strain #24, isolated from the marine sponge Haliclona simulans.The bacterial secondary metabolite 2,4-diacetylphloroglucinol impairs mitochondrial function and affects calcium homeostasis in Neurospora crassa.Biochemical and genomic comparison of inorganic phosphate solubilization in Pseudomonas species.Evolutionary history of the phl gene cluster in the plant-associated bacterium Pseudomonas fluorescens.Dual effects of plant steroidal alkaloids on Saccharomyces cerevisiae.Exploitation of genetically modified inoculants for industrial ecology applications.Archaea appear to dominate the microbiome of Inflatella pellicula deep sea sponges.Evidence of a putative deep sea specific microbiome in marine sponges.A novel erythromycin resistance plasmid from Bacillus sp. strain HS24, isolated from the marine sponge Haliclona simulans.What can bacterial genome research teach us about bacteria-plant interactions?Applications of autofluorescent proteins for in situ studies in microbial ecology.Exploiting new systems-based strategies to elucidate plant-bacterial interactions in the rhizosphere.Characterization of mineral phosphate solubilization traits from a barley rhizosphere soil functional metagenomeGenome diversity of Pseudomonas aeruginosa isolates from cystic fibrosis patients and the hospital environment.Implications of interspecies signaling for virulence of bacterial and fungal pathogens.Cell factory applications of the yeast Kluyveromyces marxianus for the biotechnological production of natural flavour and fragrance molecules.Genome-wide investigation of cellular targets and mode of action of the antifungal bacterial metabolite 2,4-diacetylphloroglucinol in Saccharomyces cerevisiae.Acquisition of the yeast Kluyveromyces marxianus from unpasteurised milk by a kefir grain enhances kefir quality.MexT functions as a redox-responsive regulator modulating disulfide stress resistance in Pseudomonas aeruginosa.Subtilomycin: a new lantibiotic from Bacillus subtilis strain MMA7 isolated from the marine sponge Haliclona simulans.Pseudomonas aeruginosa secreted factors impair biofilm development in Candida albicans.
P50
Q28492526-865E5958-1256-4632-9D2C-65727F31154FQ28492835-5A912A37-23CA-4D4E-B534-C41FCC5A19C3Q30349790-28E05DDE-5D1B-42F4-BD86-8617BDCD4A15Q30673083-4E222495-FDD3-4EEA-A1C0-6CCDE8E0611FQ30921454-74C5DC53-DB91-4FED-93F5-D2D13930C479Q33756096-AE59D307-EB48-426C-8A69-BFF5C35F1B09Q33801083-3B898FF8-3962-4E1F-811E-205EAF3444DCQ33808936-2BA891F0-6AF1-4BF9-B1FA-F32813C72745Q33933184-B9152E54-7A93-481F-BBDE-1119BAA169F8Q33967264-241FAB35-2E49-4E2A-85D3-259F4A4AB25FQ34045139-3EA676A4-E55B-4A99-A4ED-843018BDF7E9Q34067826-9EF44F65-8EE6-4A61-AE0E-B650DD2F092EQ34086890-416E7FC7-E892-4A06-994C-A8B4D4F343E1Q34142589-F0D6D82E-F5F4-4ADF-A046-208BFF8A64A1Q34161085-347AFD5E-4414-4AE8-B159-66A33BDE93C5Q34173026-E2CDE046-E0D9-46A8-BC52-78B7C432D8E9Q34240320-29E12A02-637D-4231-864F-2EFEF51B5D06Q34280286-F73EDB3D-E0D6-420F-8104-990A4B4244A6Q34311722-366EB3C6-F8E2-4044-BA97-1ED385D39060Q34483872-E99DF002-7CBF-4B31-8A4F-E83A7547C41CQ34651026-C67B0FE0-5B65-4DA9-80FF-304AFC1AF414Q34772650-5399A18C-1D22-4B06-9051-BE6E1A5B081FQ34933575-B674D306-F390-4F67-9884-028192EEF047Q34973741-E41E5069-AF99-4A6B-B004-4F9C0B0E4B94Q35007808-8B3266F8-F303-4567-9807-FDEA681E517FQ35080944-B950E893-1193-40CB-BC17-7D081F7CCA25Q35131945-EB52BD10-8342-4D93-9CC7-ADE321E84E49Q35535622-92D487EA-C1CF-485B-8D64-97B61C2CB611Q35683383-E7B12DBE-8310-499B-BFF5-801875F7750CQ36253575-BBBFABAA-25F7-4ECE-A18B-989F28A4F36BQ36441102-8CAFBC62-2CF0-46A1-B9FD-2483C36943F9Q37318683-8709E90A-00B9-4A30-A2F6-27AB782BD345Q37703045-A4375B34-D5AF-448F-BE54-CF14CC72423AQ37907310-A4206680-C5DC-4209-B02F-436B8BD49306Q38267857-73C865BA-5B2D-48D1-B881-E85D2A26D208Q39460244-3BA7C9CB-72A7-48A7-ADAC-5F19B5FB2542Q39638315-2F80F421-9D90-4048-8083-2D43FFA3AD94Q41901671-AC6C55B2-D626-454B-87C4-6B7C07B08BDDQ42260240-14057C69-CC14-4850-9153-BFBAB16BE88CQ43164831-D673F032-AFB6-4AD0-A80E-3D7A9A57C797
P50
description
Irish molecular biologist
@en
irischer Molekularbiologe
@de
moleculair bioloog
@nl
name
John Morrissey
@af
John Morrissey
@an
John Morrissey
@ang
John Morrissey
@ast
John Morrissey
@bar
John Morrissey
@bs
John Morrissey
@ca
John Morrissey
@co
John Morrissey
@cs
John Morrissey
@cy
type
label
John Morrissey
@af
John Morrissey
@an
John Morrissey
@ang
John Morrissey
@ast
John Morrissey
@bar
John Morrissey
@bs
John Morrissey
@ca
John Morrissey
@co
John Morrissey
@cs
John Morrissey
@cy
altLabel
John P. Morrissey
@af
John P. Morrissey
@an
John P. Morrissey
@ang
John P. Morrissey
@ast
John P. Morrissey
@bar
John P. Morrissey
@bs
John P. Morrissey
@ca
John P. Morrissey
@co
John P. Morrissey
@cs
John P. Morrissey
@cy
prefLabel
John Morrissey
@af
John Morrissey
@an
John Morrissey
@ang
John Morrissey
@ast
John Morrissey
@bar
John Morrissey
@bs
John Morrissey
@ca
John Morrissey
@co
John Morrissey
@cs
John Morrissey
@cy
P1153
7402608014
P19
P21
P27
P2798
P31
P496
0000-0001-7960-2001
P569
1968-12-31T00:00:00Z