Bacterial Chemosensing [E-Book] : Methods and Protocols / edited by Michael D. Manson.
This volume covers a wide range of up-to-date technologies that have been successfully applied to study the chemosensing behavior of the traditional model species, such as Escherichia coli and Salmonella typhimurium, while being also applicable to a wide spectrum of other species. Beginning with an...
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Full text |
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Personal Name(s): | Manson, Michael D., editor |
Imprint: |
New York, NY :
Humana Press,
2018
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Physical Description: |
XIII, 389 p. 29 illus. in color. online resource. |
Note: |
englisch |
ISBN: |
9781493975778 |
DOI: |
10.1007/978-1-4939-7577-8 |
Series Title: |
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Methods in molecular biology ;
1729 |
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- The Diversity of Bacterial Chemosensing
- Transmembrane Signal Transduction in Bacterial Chemosensing
- Two Spatial Chemotaxis Assays: The Nutrient-Depleted Chemotaxis Assay and the Agarose-Plug-Bridge Assay
- Quantification of Bacterial Chemotaxis Responses at the Mouths of Hydrogel Capillaries
- A Static Microfluidic Device for Investigating the Chemotaxis Response to Stable, Non-Linear Gradients
- Visualizing Chemoattraction of Planktonic Cells to a Biofilm
- Labeling Bacterial Flagella with Fluorescent Dyes
- All-Codon Mutagenesis for Structure-Function Studies of Chemotaxis Signaling Proteins
- Mutational Analysis of Binding Protein/Chemoreceptor Interactions
- In Vitro Assay for Measuring Receptor-Kinase Activity in the Bacillus subtilis Chemotaxis Pathway
- FRET Analysis of the Chemotaxis Pathway Response
- Monitoring Two-Component Sensor Kinases with a Chemotaxis Signal Readout
- Analyzing Protein Domain Interactions in Chemoreceptors by In Vivo PEGylation
- Tuning Chemoreceptor Signaling by Positioning Aromatic Residues at the Lipid-Aqueous Interface
- Analyzing Chemoreceptor Interactions In Vivo with the Tri-Functional Crosslinker TMEA
- Use of Cryo-EM to Study the Structure of Chemoreceptor Arrays In Vivo
- Visualizing Chemoreceptor Arrays in Bacterial Minicells by Cryo-Electron Tomography and Subtomogram Analysis
- Bacterial Chemoreceptor Imaging at High Spatio-Temporal Resolution Using Photoconvertible Fluorescent Proteins
- Imaging of Single Dye-Labeled Chemotaxis Proteins in Live Bacteria Using Electroporation
- Fluorescence Anisotropy to Detect In Vivo Stimulus-Induced Changes in Chemoreceptor Packing
- Chemotaxis to Atypical Chemoattractants by Soil Bacteria
- Screening ChemoreceptorLigand Interactions by High-Throughput Thermal-Shift Assays
- High-Throughput Screening to Identify Chemoreceptor Ligands.-Identification of Specific Ligands for Sensory Receptors by Small-Molecule Ligand Arrays and Surface Plasmon Resonance.-Fluorescence Measurement of Kinetics of CheY Autophosphorylation with Small Molecule Phosphodonors
- Synthesis of a Stable Analog of the Phosphorylated Form of CheY: Phosphono-CheY
- Quantitative Modeling of Flagellar Motor-Mediated Adaptation
- Molecular Modeling of Chemoreceptor:Ligand Interactions
- Phylogenetic and Protein Sequence Analysis of Bacterial Chemoreceptors.