about
You are what you talk: quorum sensing induces individual morphologies and cell division modes in Dinoroseobacter shibaeThe complete genome sequence of the algal symbiont Dinoroseobacter shibae: a hitchhiker's guide to life in the sea.Metabolic fluxes in the central carbon metabolism of Dinoroseobacter shibae and Phaeobacter gallaeciensis, two members of the marine Roseobacter clade.Constitutive expression of the proteorhodopsin gene by a flavobacterium strain representative of the proteorhodopsin-producing microbial community in the North Sea.A dual-species co-cultivation system to study the interactions between Roseobacters and dinoflagellates.Functional biomarkers for chronic periodontitis and insights into the roles of Prevotella nigrescens and Fusobacterium nucleatum; a metatranscriptome analysis.Cross-feeding and interkingdom communication in dual-species biofilms of Streptococcus mutans and Candida albicans.Transcriptional activation of prostate specific homeobox gene NKX3-1 in subsets of T-cell lymphoblastic leukemia (T-ALL).Ectopic expression of homeobox gene NKX2-1 in diffuse large B-cell lymphoma is mediated by aberrant chromatin modifications.High-resolution taxonomic profiling of the subgingival microbiome for biomarker discovery and periodontitis diagnosis.BOR-syndrome-associated Eya1 mutations lead to enhanced proteasomal degradation of Eya1 proteinThe CtrA phosphorelay integrates differentiation and communication in the marine alphaproteobacterium Dinoroseobacter shibae.The biofilm inhibitor carolacton disturbs membrane integrity and cell division of Streptococcus mutans through the serine/threonine protein kinase PknB.Stool metatranscriptomics: A technical guideline for mRNA stabilisation and isolation.The Alternative Sigma Factor SigX Controls Bacteriocin Synthesis and Competence, the Two Quorum Sensing Regulated Traits in Streptococcus mutansLow diversity of planktonic bacteria in the tropical ocean.Identification of Genetic Modules Mediating the Jekyll and Hyde Interaction of Dinoroseobacter shibae with the Dinoflagellate Prorocentrum minimumQuorum sensing of Streptococcus mutans is activated by Aggregatibacter actinomycetemcomitans and by the periodontal microbiome.Genomics and physiology of a marine flavobacterium encoding a proteorhodopsin and a xanthorhodopsin-like protein.Bacterioplankton Biogeography of the Atlantic Ocean: A Case Study of the Distance-Decay Relationship.Co-occurrence Analysis of Microbial Taxa in the Atlantic Ocean Reveals High Connectivity in the Free-Living BacterioplanktonThe delta subunit of RNA polymerase, RpoE, is a global modulator of Streptococcus mutans environmental adaptation.Integrated analysis of gene expression and metabolic fluxes in PHA-producing Pseudomonas putida grown on glycerol.Transcriptional response of the photoheterotrophic marine bacterium Dinoroseobacter shibae to changing light regimesGene Flow Across Genus Barriers - Conjugation of Dinoroseobacter shibae's 191-kb Killer Plasmid into Phaeobacter inhibens and AHL-mediated Expression of Type IV Secretion Systems.Genomic Analysis of the Evolution of Phototrophy among Haloalkaliphilic Rhodobacterales.Use of Single-Frequency Impedance Spectroscopy to Characterize the Growth Dynamics of Biofilm Formation in Pseudomonas aeruginosa.Dual function of tropodithietic acid as antibiotic and signaling molecule in global gene regulation of the probiotic bacterium Phaeobacter inhibens.Fixation of CO2 using the ethylmalonyl-CoA pathway in the photoheterotrophic marine bacterium Dinoroseobacter shibae.Oxidative stress and starvation in Dinoroseobacter shibae: the role of extrachromosomal elements.Subpopulation-specific transcriptome analysis of competence-stimulating-peptide-induced Streptococcus mutans.Correction: Ectopic Expression of Homeobox Gene NKX2-1 in Diffuse Large B-Cell Lymphoma Is Mediated by Aberrant Chromatin Modifications.Packaging of Dinoroseobacter shibae DNA into Gene Transfer Agent Particles Is Not Random.High diversity of thermophilic cyanobacteria in Rupite hot spring identified by microscopy, cultivation, single-cell PCR and amplicon sequencingThe complete genome sequence of Rhodobaca barguzinensis alga05 (DSM 19920) documents its adaptation for life in soda lakesDetermining lineage-specific bacterial growth curves with a novel approach based on amplicon reads normalization using internal standard (ARNIS)Integrated Transcriptional Regulatory Network of Quorum Sensing, Replication Control, and SOS Response inClustered Core- and Pan-Genome Content on Rhodobacteraceae ChromosomesParallel evolutionary paths to produce more than one Pseudomonas aeruginosa biofilm phenotype
P50
Q30557495-245C48EF-8DC6-4C0E-B844-08F2B77EE61DQ33501472-CEBFF5A0-1820-4F70-88CB-3F7B14474C49Q33507443-C5A8C2F4-2212-4DC6-8A55-20C8BCBB546DQ33543643-EE2CDAF2-1F0A-46A8-A679-B9D6D732157AQ33802559-DEACCFF6-8B44-44C9-8A91-8DC7977943D8Q33914780-9A3DC2DD-5A5B-4849-A74F-D91CD4B2D40AQ34040951-87A5697A-0A66-446E-A6F1-1BEA30457564Q34358037-5E50DB0A-2A8B-4DA3-B4D5-A5062CBD4561Q34700307-BEB464DB-90A8-4258-B69F-C04BC61BB964Q34933624-60D25CED-09A7-4BC8-B61E-F1E8EE8B8C61Q35086700-7F54C391-89D7-4FC0-9FD9-865A50F03185Q35093985-929EE722-A189-45A1-8B9F-F40DC64958B1Q35272640-E048B66F-1153-4F8D-8BFD-6457B771FDA1Q35682285-723789E6-BFE3-47B6-90C1-87775EB27CD0Q35687127-7C351B9A-3D79-4B08-B862-1A162E5E14A1Q35889757-39692803-D335-4C81-959D-F4A7CB22455AQ36276880-DA835B7B-54FE-4797-87B8-2A7DAC865E1BQ36315208-26279167-8B2B-41D1-97A8-9C7F9BC9B523Q36654784-2AB492EA-2EE4-446D-BFA0-7740950494A2Q36835781-F295DD98-BB6E-4977-B059-DF64B558A9EDQ36875170-BF8235DA-6E4B-48EE-94E6-421807932ECEQ38341985-7FE54E84-EEA6-494A-BE32-926374EB9664Q38872143-CFF18BAC-05EA-4B6D-963D-24A71A75DBEBQ39346219-E16F52F7-A55C-4648-AB0F-A63AE95E24E1Q39682448-6355A7CE-86DD-4DF7-B6C0-FCF8D2BB78F8Q40092436-747720B0-5F28-4F85-B268-322684AA1C88Q40137469-A6E73CD9-8827-4996-B87D-6BC86DF4F004Q40259823-7062F4A2-F2F1-4DDF-9DD5-2C3E3D090A54Q40266913-11B5505F-2E31-4326-BDF6-54FD7961240BQ41094312-0A98F2A8-3BED-4C0D-ABB8-AC988BD29D19Q41811101-9C66C25A-6DB5-4ACC-A586-9B4AA9E5B99DQ45849125-A61FEB0F-2369-4235-B7A4-3B9A51CC7F8AQ49218112-D05EBB3E-D0D5-4008-BC6B-86F8A35E5E51Q57026825-F8823D28-658D-4E10-8860-EC44DA8007E0Q57091725-934DDCC1-663F-45B6-871E-2116FE152C64Q60551220-38EC52BB-A631-492B-86E5-248A96346094Q64118971-53EA9601-D569-4D4A-8B70-1FAC36A5166BQ91623580-160BA33A-F293-4EEF-B9A1-4A4E8C446EEDQ92619950-8716D706-339C-4863-B75F-2F9CBBE69B0D
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Jürgen Tomasch
@en
Jürgen Tomasch
@nl
type
label
Jürgen Tomasch
@en
Jürgen Tomasch
@nl
prefLabel
Jürgen Tomasch
@en
Jürgen Tomasch
@nl
P31
P496
0000-0002-3914-2781