Add to ORKGMost motile bacteria as well as many archaea sense and respond to their environment through arrays of chemoreceptors. While X-ray crystallography and NMR spectroscopy and other high-resolution structural methods have produced atomic models of components and sub-complexes of these arrays, we have used electron cryotomography to visualize their basic architecture in their native state within intact cells and reconstituted in vitro systems to ∼2 nm resolution, revealing principles of array structure and assembly
Most motile bacteria sense and respond to their environment through a transmembrane chemoreceptor ar...
International audienceMotile bacteria sense chemical gradients with transmembrane receptors organise...
International audienceMotile bacteria sense chemical gradients with transmembrane receptors organise...
Most motile bacteria as well as many archaea sense and respond to their environment through arrays o...
Electron cryotomography (ECT) can produce three-dimensional images of biological samples such as int...
Bacterial chemosensory arrays are protein assemblies that are the key structural and functional comp...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
International audienceChemotactic responses in motile bacteria are the result of sophisticated signa...
Chemotactic responses in motile bacteria are the result of sophisticated signal transduction by larg...
Electron cryotomog. (ECT) has made it possible to visualize large macromol. assemblies inside intac...
Most motile bacteria sense and respond to their environment through a transmembrane chemoreceptor ar...
A new method for recording both fluorescence and cryo-EM images of small bacterial cells was devel-o...
Most motile bacteria sense and respond to their environment through a transmembrane chemoreceptor ar...
International audienceMotile bacteria sense chemical gradients with transmembrane receptors organise...
International audienceMotile bacteria sense chemical gradients with transmembrane receptors organise...
Most motile bacteria as well as many archaea sense and respond to their environment through arrays o...
Electron cryotomography (ECT) can produce three-dimensional images of biological samples such as int...
Bacterial chemosensory arrays are protein assemblies that are the key structural and functional comp...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
Bacterial chemoreceptors cluster in highly ordered, cooperative, extended arrays with a conserved ar...
International audienceChemotactic responses in motile bacteria are the result of sophisticated signa...
Chemotactic responses in motile bacteria are the result of sophisticated signal transduction by larg...
Electron cryotomog. (ECT) has made it possible to visualize large macromol. assemblies inside intac...
Most motile bacteria sense and respond to their environment through a transmembrane chemoreceptor ar...
A new method for recording both fluorescence and cryo-EM images of small bacterial cells was devel-o...
Most motile bacteria sense and respond to their environment through a transmembrane chemoreceptor ar...
International audienceMotile bacteria sense chemical gradients with transmembrane receptors organise...
International audienceMotile bacteria sense chemical gradients with transmembrane receptors organise...