New Twists and Turns in Bacterial Locomotion and Signal Transduction
Prokaryotic organisms occupy the most diverse set of environments and conditions on our planet. Their ability to sense and respond to a broad range of external cues remain key research areas in modern microbiology, central to behaviors that underlie beneficial and pathogenic interactions of bacteria...
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| Veröffentlicht in: | Journal of bacteriology 2019-10, Vol.201 (20), p.1 |
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| creator | Watts, Kylie J Vaknin, Ady Fuqua, Clay Kazmierczak, Barbara I |
| description | Prokaryotic organisms occupy the most diverse set of environments and conditions on our planet. Their ability to sense and respond to a broad range of external cues remain key research areas in modern microbiology, central to behaviors that underlie beneficial and pathogenic interactions of bacteria with multicellular organisms and within complex ecosystems. Advances in our understanding of the one- and two-component signal transduction systems that underlie these sensing pathways have been driven by advances in imaging the behavior of many individual bacterial cells, as well as visualizing individual proteins and protein arrays within living cells. Cryo-electron tomography continues to provide new insights into the structure and function of chemosensory receptors and flagellar motors, while advances in protein labeling and tracking are applied to understand information flow between receptor and motor. Sophisticated microfluidics allow simultaneous analysis of the behavior of thousands of individual cells, increasing our understanding of how variance between individuals is generated, regulated and employed to maximize fitness of a population.
experiments have been complemented by the study of signal transduction and motility in complex
models, allowing investigators to directly address the contribution of motility, chemotaxis and aggregation/adhesion on virulence during infection. Finally, systems biology approaches have demonstrated previously uncharted areas of protein space in which novel two-component signal transduction pathways can be designed and constructed
These exciting experimental advances were just some of the many novel findings presented at the 15
Bacterial Locomotion and Signal Transduction conference (BLAST XV) in January 2019. |
| doi_str_mv | 10.1128/JB.00439-19 |
| format | Article |
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experiments have been complemented by the study of signal transduction and motility in complex
models, allowing investigators to directly address the contribution of motility, chemotaxis and aggregation/adhesion on virulence during infection. Finally, systems biology approaches have demonstrated previously uncharted areas of protein space in which novel two-component signal transduction pathways can be designed and constructed
These exciting experimental advances were just some of the many novel findings presented at the 15
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experiments have been complemented by the study of signal transduction and motility in complex
models, allowing investigators to directly address the contribution of motility, chemotaxis and aggregation/adhesion on virulence during infection. Finally, systems biology approaches have demonstrated previously uncharted areas of protein space in which novel two-component signal transduction pathways can be designed and constructed
These exciting experimental advances were just some of the many novel findings presented at the 15
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Their ability to sense and respond to a broad range of external cues remain key research areas in modern microbiology, central to behaviors that underlie beneficial and pathogenic interactions of bacteria with multicellular organisms and within complex ecosystems. Advances in our understanding of the one- and two-component signal transduction systems that underlie these sensing pathways have been driven by advances in imaging the behavior of many individual bacterial cells, as well as visualizing individual proteins and protein arrays within living cells. Cryo-electron tomography continues to provide new insights into the structure and function of chemosensory receptors and flagellar motors, while advances in protein labeling and tracking are applied to understand information flow between receptor and motor. Sophisticated microfluidics allow simultaneous analysis of the behavior of thousands of individual cells, increasing our understanding of how variance between individuals is generated, regulated and employed to maximize fitness of a population.
experiments have been complemented by the study of signal transduction and motility in complex
models, allowing investigators to directly address the contribution of motility, chemotaxis and aggregation/adhesion on virulence during infection. Finally, systems biology approaches have demonstrated previously uncharted areas of protein space in which novel two-component signal transduction pathways can be designed and constructed
These exciting experimental advances were just some of the many novel findings presented at the 15
Bacterial Locomotion and Signal Transduction conference (BLAST XV) in January 2019.</abstract><cop>United States</cop><pub>American Society for Microbiology</pub><pmid>31358610</pmid><doi>10.1128/JB.00439-19</doi><orcidid>https://orcid.org/0000-0001-7051-1760</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Bacteria Bacteriology Chemoreception Chemotaxis Ecosystems Flagella In vivo methods and tests Information flow Locomotion Meeting Review Microbiology Microfluidics Motility Protein arrays Proteins Receptor mechanisms Receptors Signal transduction Structure-function relationships Transduction Virulence |
| title | New Twists and Turns in Bacterial Locomotion and Signal Transduction |
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