Add to ORKGA fluorescence-based live-cell adhesion assay was used to examine biofilm formation by 20 different haloarchaea, including species of Halobacterium, Haloferax and Halorubrum, as well as novel natural isolates from an Antarctic salt lake. Thirteen of the 20 tested strains significantly adhered (P-value < 0.05) to a plastic surface. Examination of adherent cell layers on glass surfaces by differential interference contrast, fluorescence and confocal microscopy showed two types of biofilm structures. Carpet-like, multi-layered biofilms containing micro- and macrocolonies (up to 50 μm in height) were formed by strains of Halobacterium salinarum and the Antarctic isolate t-ADL strain DL24. The second type of biofilm, characterized by large aggre...
It was recently shown that haloarchaeal strains of different genera are able to adhere to surfaces a...
It was recently shown that haloarchaeal strains of different genera are able to adhere to surfaces a...
Biofilm development is characterized by distinct stages of initial attachment, microcolony formation...
Biofilms, i.e. multicellular microbial communities, are widely accepted as the predominating mode of...
Biofilms or multicellular structures become accepted as the dominant microbial lifestyle in Nature, ...
Biofilms by the hyperhalophilic archaea Halorubrum sp. and Halobacterium sp. were analyzed, and for ...
Biofilms enhance rates of gene exchange, access to specific nutrients, and cell survivability. Haloa...
International audienceBacteria and diatoms exist in sessile communities and develop as biofilm on al...
Biofilms by the hyperhalophilic archaea Halorubrum sp. and Halobacterium sp. were analyzed, and for ...
ABSTRACT The ability to form biofilms is shared by many microorganisms, including archaea. Cells in ...
BACKGROUND: Biofilm formation has been studied in much detail for a variety of bacterial species, as...
Biofilms are the most widely distributed and successful microbial modes of life. The capacity of bac...
Attachment of microorganisms to surfaces is a prerequisite for colonization and biofilm formation. T...
<div><p>Biofilms by the hyperhalophilic archaea <i>Halorubrum</i> sp. and <i>Halobacterium</i> sp. w...
Recently it was shown that Pyrococcus furiosus uses its flagella not only for swimming, but also for...
It was recently shown that haloarchaeal strains of different genera are able to adhere to surfaces a...
It was recently shown that haloarchaeal strains of different genera are able to adhere to surfaces a...
Biofilm development is characterized by distinct stages of initial attachment, microcolony formation...
Biofilms, i.e. multicellular microbial communities, are widely accepted as the predominating mode of...
Biofilms or multicellular structures become accepted as the dominant microbial lifestyle in Nature, ...
Biofilms by the hyperhalophilic archaea Halorubrum sp. and Halobacterium sp. were analyzed, and for ...
Biofilms enhance rates of gene exchange, access to specific nutrients, and cell survivability. Haloa...
International audienceBacteria and diatoms exist in sessile communities and develop as biofilm on al...
Biofilms by the hyperhalophilic archaea Halorubrum sp. and Halobacterium sp. were analyzed, and for ...
ABSTRACT The ability to form biofilms is shared by many microorganisms, including archaea. Cells in ...
BACKGROUND: Biofilm formation has been studied in much detail for a variety of bacterial species, as...
Biofilms are the most widely distributed and successful microbial modes of life. The capacity of bac...
Attachment of microorganisms to surfaces is a prerequisite for colonization and biofilm formation. T...
<div><p>Biofilms by the hyperhalophilic archaea <i>Halorubrum</i> sp. and <i>Halobacterium</i> sp. w...
Recently it was shown that Pyrococcus furiosus uses its flagella not only for swimming, but also for...
It was recently shown that haloarchaeal strains of different genera are able to adhere to surfaces a...
It was recently shown that haloarchaeal strains of different genera are able to adhere to surfaces a...
Biofilm development is characterized by distinct stages of initial attachment, microcolony formation...