Add to ORKGHalobacterium salinarium shows a qualitatively different swimming behavior than E. coli, what demands a different mechanism of flagellar motor switching. In this study we postulate general properties of the switching mechanism in Halobacteria, derived from experimental findings and present a detailed model that quantitatively reproduces various different experimental results with the same set of parameters. Even seemingly paradox findings are accomplished by the presented model
<div><p>Marine bacterium <i>Vibrio alginolyticus</i> uses a single polar flagellum to navigate in an...
The reliable response to weak biological signals requires that they be amplified with fidelity. In E...
AbstractWe found recently that polar flagellated marine bacterium Vibrio alginolyticus is capable of...
Halobacterium salinarium shows a qualitatively different swimming behavior than E. coli, what demand...
Prokaryotic taxis, the active search of motile cells for the best environmental conditions, is one o...
AbstractBy reverse-engineering we have detected eight kinetic phases of the symmetric switch cycle o...
Halobacteria are light sensitive, motile microorganisms, which are propelled by rotating flagella. U...
Two long time series of swimming intervals of a bacterium inverting its motion under periodic light ...
A two-lobe response function is considered as a manifestation of temporal signal comparison in bacte...
An optical trapping technique is implemented to investigate the chemotactic behavior of a marine bac...
Krohs U. Damped oscillations in photosensory transduction of Halobacterium salinarium induced by rep...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
AbstractWe investigate bacterial chemotactic strategies using run-tumble and run-reverse-flick motil...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
The reliable response to weak biological signals requires that they be amplified with fidelity. In E...
<div><p>Marine bacterium <i>Vibrio alginolyticus</i> uses a single polar flagellum to navigate in an...
The reliable response to weak biological signals requires that they be amplified with fidelity. In E...
AbstractWe found recently that polar flagellated marine bacterium Vibrio alginolyticus is capable of...
Halobacterium salinarium shows a qualitatively different swimming behavior than E. coli, what demand...
Prokaryotic taxis, the active search of motile cells for the best environmental conditions, is one o...
AbstractBy reverse-engineering we have detected eight kinetic phases of the symmetric switch cycle o...
Halobacteria are light sensitive, motile microorganisms, which are propelled by rotating flagella. U...
Two long time series of swimming intervals of a bacterium inverting its motion under periodic light ...
A two-lobe response function is considered as a manifestation of temporal signal comparison in bacte...
An optical trapping technique is implemented to investigate the chemotactic behavior of a marine bac...
Krohs U. Damped oscillations in photosensory transduction of Halobacterium salinarium induced by rep...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
AbstractWe investigate bacterial chemotactic strategies using run-tumble and run-reverse-flick motil...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
The reliable response to weak biological signals requires that they be amplified with fidelity. In E...
<div><p>Marine bacterium <i>Vibrio alginolyticus</i> uses a single polar flagellum to navigate in an...
The reliable response to weak biological signals requires that they be amplified with fidelity. In E...
AbstractWe found recently that polar flagellated marine bacterium Vibrio alginolyticus is capable of...