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Interspecific Bacterial Interactions are Reflected in Multispecies Biofilm Spatial OrganizationHigh-throughput screening of multispecies biofilm formation and quantitative PCR-based assessment of individual species proportions, useful for exploring interspecific bacterial interactions.High prevalence of biofilm synergy among bacterial soil isolates in cocultures indicates bacterial interspecific cooperationType 3 Fimbriae Encoded on Plasmids Are Expressed from a Unique Promoter without Affecting Host Motility, Facilitating an Exceptional Phenotype That Enhances Conjugal Plasmid TransferThe interconnection between biofilm formation and horizontal gene transfer.A post-planktonic era of in vitro infectious models: issues and changes addressed by a clinically relevant wound like media.Coexistence facilitates interspecific biofilm formation in complex microbial communities.Whole-Genome Sequence of Pseudomonas fluorescens EK007-RG4, a Promising Biocontrol Agent against a Broad Range of Bacteria, Including the Fire Blight Bacterium Erwinia amylovora.A spatiotemporal view of plasmid loss in biofilms and planktonic cultures.Antagonism correlates with metabolic similarity in diverse bacteria.Low-abundant species facilitates specific spatial organization that promotes multispecies biofilm formation.Bacterial social interactions and the emergence of community-intrinsic properties.An intriguing relationship between the cyclic diguanylate signaling system and horizontal gene transferMicro-scale intermixing: a requisite for stable and synergistic co-establishment in a four-species biofilmEnhanced bacterial mutualism through an evolved biofilm phenotypeEstimating the Transfer Range of Plasmids Encoding Antimicrobial Resistance in a Wastewater Treatment Plant Microbial CommunityA culture-independent method for studying transfer of IncI1 plasmids from wild-type Escherichia coli in complex microbial communitiesCommunity-intrinsic properties enhance keratin degradation from bacterial consortiaPriority of Early Colonizers but No Effect on Cohabitants in a Synergistic Biofilm CommunityInterspecies interactions reduce selection for a biofilm-optimized variant in a four-species biofilm modelFluidic resistance control enables high-throughput establishment of mixed-species biofilms
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description
researcher ORCID ID = 0000-0003-4830-1796
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wetenschapper
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name
Jonas Stenløkke Madsen
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Jonas Stenløkke Madsen
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Jonas Stenløkke Madsen
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Jonas Stenløkke Madsen
@nl
type
label
Jonas Stenløkke Madsen
@ast
Jonas Stenløkke Madsen
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Jonas Stenløkke Madsen
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Jonas Stenløkke Madsen
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prefLabel
Jonas Stenløkke Madsen
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Jonas Stenløkke Madsen
@en
Jonas Stenløkke Madsen
@es
Jonas Stenløkke Madsen
@nl
P106
P21
P31
P496
0000-0003-4830-1796