AbstractMany bacteria glide over surfaces without the aid of flagella. Gliding is still somewhat mysterious, but recent studies show that it involves specialized secretory systems that assemble membrane-associated filaments, and the recognition of extracellular components that trigger movement via transmembrane transducers
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Various rod-shaped bacteria mysteriously glide on surfaces in the absence of appendages such as flag...
AbstractBacterial biofilms are structured multicellular communities that are responsible for a broad...
AbstractMany bacteria glide over surfaces without the aid of flagella. Gliding is still somewhat mys...
For many bacteria, motility is essential for survival, growth, virulence, biofilm formation and intr...
For many bacteria, motility is essential for survival, growth, virulence, biofilm formation and intr...
International audienceMotility of bacterial cells promotes a range of important physiological phenom...
International audienceMotility of bacterial cells promotes a range of important physiological phenom...
Many bacteria glide smoothly on surfaces, despite having no discernable propulsive organelles on the...
International audienceCell motility is a central function of living cells, as it empowers colonizati...
Cell motility is a central function of living cells, as it empowers colonization of new environmenta...
BackgroundMany microorganisms, including myxobacteria, cyanobacteria, and flexibacteria, move by gli...
Bacteria are able to translocate over surfaces using different types of active and passive motility ...
The motility mechanism of certain prokaryotes has long been a mystery, since their motion, known as ...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Various rod-shaped bacteria mysteriously glide on surfaces in the absence of appendages such as flag...
AbstractBacterial biofilms are structured multicellular communities that are responsible for a broad...
AbstractMany bacteria glide over surfaces without the aid of flagella. Gliding is still somewhat mys...
For many bacteria, motility is essential for survival, growth, virulence, biofilm formation and intr...
For many bacteria, motility is essential for survival, growth, virulence, biofilm formation and intr...
International audienceMotility of bacterial cells promotes a range of important physiological phenom...
International audienceMotility of bacterial cells promotes a range of important physiological phenom...
Many bacteria glide smoothly on surfaces, despite having no discernable propulsive organelles on the...
International audienceCell motility is a central function of living cells, as it empowers colonizati...
Cell motility is a central function of living cells, as it empowers colonization of new environmenta...
BackgroundMany microorganisms, including myxobacteria, cyanobacteria, and flexibacteria, move by gli...
Bacteria are able to translocate over surfaces using different types of active and passive motility ...
The motility mechanism of certain prokaryotes has long been a mystery, since their motion, known as ...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Various rod-shaped bacteria mysteriously glide on surfaces in the absence of appendages such as flag...
AbstractBacterial biofilms are structured multicellular communities that are responsible for a broad...
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