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Melvin I. (EDT)/ Crane Simon, Alexandrine Crane, Brian Crane, Brian R. Crane, Melvin I. Simon
Two-Component Signaling Systems
English · Hardback
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Description
Klappentext Multicellular organisms must be able to adapt to cellular events to accommodate prevailing conditions. Sensory-response circuits operate by making use of a phosphorylation control mechanism known as the "two-component system." Sections include: Structural ApproachesReconstitution of Heterogeneous SystemsIntracellular Methods and AssaysGenome-Wide Analyses of Two-Component Systems Presents detailed protocols Includes troubleshooting tips Zusammenfassung Sensory-response circuits operate by making use of a phosphorylation control mechanism known as the "two-component system." This title features sections including: Structural Approaches; Reconstitution of Heterogeneous Systems; and! Genome-Wide Analyses of Two-Component Systems. It presents protocols and includes troubleshooting tips. Inhaltsverzeichnis Section I: Structural Approaches [1]: The PICM Chemical Scanning Method for Identifying Domain-Domain and Protein-Protein Interfaces: Applications to the Core Signaling Complex of E. coli Chemotaxis [2]: Use of Site-Directed Cysteine and Disulfide Chemistry to Probe Protein Structure and Dynamics: Applications to Soluble and Transmembrane Receptors of Bacterial Chemotaxis [3]: Measuring Distances by Pulsed Dipolar ESR Spectroscopy: Spin-Labeled Histidine Kinases [4]: Rigid Body Refinement of Protein Complexes with Long-Range Distance Restraints from Pulsed Dipolar ESR [5]: TonB/TolA Amino-Terminal Domain Modeling [6]: Functional Dynamics of Response Regulators Using NMR Relaxation Techniques [7]: The Design and Development of Tar-EnvZ Chimeric Receptors [8]: Functional and Structural Characterization of EnvZ, an Osmosensing Histidine Kinase of E. coli [9]: Light Modulation of Histidine-Kinase Activity in Bacterial Phytochromes Monitored by Size Exclusion Chromatography, Crosslinking, and Limited Proteolysis [10]: A Temperature-Sensing Histidine Kinase-Function, Genetics, and Membrane Topology [11]: The Regulation of Histidine Sensor Kinase Complexes by Quorum Sensing Signal Molecules Section II: Reconstitution of Heterogeneous Systems [12]: Liposome-Mediated Assembly of Receptor Signaling Complexes [13]: Analyzing Transmembrane Chemoreceptors Using In Vivo Disulfide Formation Between Introduced Cysteines [14]: Using Nanodiscs to Create Water-Soluble Transmembrane Chemoreceptors Inserted in Lipid Bilayers [15]: Assays for CheC, FliY, and CheX as Representatives of Response Regulator Phosphatases [16]: Genetic Dissection of Signaling Through the Rcs Phosphorelay Section III: Intracellular Methods and Assays [17]: In Vivo Measurement by FRET of Pathway Activity in Bacterial Chemotaxis [18]: In Vivo and In Vitro Analysis of the Rhodobacter sphaeroides Chemotaxis Signaling Complexes [19]: In Vivo Crosslinking Methods for Analyzing the Assembly and Architecture of Chemoreceptor Arrays [20]: A "Bucket of Light? for Viewing Bacterial Colonies in Soft Agar [21]: Phenotypic Suppression Methods for Analyzing Intra- and Inter-Molecular Signaling Interactions of Chemoreceptors [22]: Single-Cell Analysis of Gene Expression by Fluorescence Microscopy Section IV: Genome-Wide Analyses of Two-Component Systems [23]: Two-Component Systems of Mycobacterium tuberculosis-Structure-Based Approaches [24]: Transcriptomic Analysis of ArlRS Two-Component Signaling Regulon, a Global Regulator, in Staphylococcus aureus [25]: Global Analysis of Two-Component Gene Regulation in H. pylori by Mutation Analysis and Transcriptional Profiling [26]: Phosphotransfer Profiling: Systematic Mapping of Two-Component Signal Transduction Pathways and Phosphorelays [27]: Identification of Histidine Phosphorylations in Proteins Using Mass Spectrometry and Affinity-Based Techniques Subject Index Author ...
List of contents
Section I: Structural Approaches
[1]: The PICM Chemical Scanning Method for Identifying Domain-Domain and Protein-Protein Interfaces: Applications to the Core Signaling Complex of E. coli Chemotaxis
[2]: Use of Site-Directed Cysteine and Disulfide Chemistry to Probe Protein Structure and Dynamics: Applications to Soluble and Transmembrane Receptors of Bacterial Chemotaxis
[3]: Measuring Distances by Pulsed Dipolar ESR Spectroscopy: Spin-Labeled Histidine Kinases
[4]: Rigid Body Refinement of Protein Complexes with Long-Range Distance Restraints from Pulsed Dipolar ESR
[5]: TonB/TolA Amino-Terminal Domain Modeling
[6]: Functional Dynamics of Response Regulators Using NMR Relaxation Techniques
[7]: The Design and Development of Tar-EnvZ Chimeric Receptors
[8]: Functional and Structural Characterization of EnvZ, an Osmosensing Histidine Kinase of E. coli
[9]: Light Modulation of Histidine-Kinase Activity in Bacterial Phytochromes Monitored by Size Exclusion Chromatography, Crosslinking, and Limited Proteolysis
[10]: A Temperature-Sensing Histidine Kinase-Function, Genetics, and Membrane Topology
[11]: The Regulation of Histidine Sensor Kinase Complexes by Quorum Sensing Signal Molecules
Section II: Reconstitution of Heterogeneous Systems
[12]: Liposome-Mediated Assembly of Receptor Signaling Complexes
[13]: Analyzing Transmembrane Chemoreceptors Using In Vivo Disulfide Formation Between Introduced Cysteines
[14]: Using Nanodiscs to Create Water-Soluble Transmembrane Chemoreceptors Inserted in Lipid Bilayers
[15]: Assays for CheC, FliY, and CheX as Representatives of Response Regulator Phosphatases
[16]: Genetic Dissection of Signaling Through the Rcs Phosphorelay
Section III: Intracellular Methods and Assays
[17]: In Vivo Measurement by FRET of Pathway Activity in Bacterial Chemotaxis
[18]: In Vivo and In Vitro Analysis of the Rhodobacter sphaeroides Chemotaxis Signaling Complexes
[19]: In Vivo Crosslinking Methods for Analyzing the Assembly and Architecture of Chemoreceptor Arrays
[20]: A "Bucket of Light” for Viewing Bacterial Colonies in Soft Agar
[21]: Phenotypic Suppression Methods for Analyzing Intra- and Inter-Molecular Signaling Interactions of Chemoreceptors
[22]: Single-Cell Analysis of Gene Expression by Fluorescence Microscopy
Section IV: Genome-Wide Analyses of Two-Component Systems
[23]: Two-Component Systems of Mycobacterium tuberculosis-Structure-Based Approaches
[24]: Transcriptomic Analysis of ArlRS Two-Component Signaling Regulon, a Global Regulator, in Staphylococcus aureus
[25]: Global Analysis of Two-Component Gene Regulation in H. pylori by Mutation Analysis and Transcriptional Profiling
[26]: Phosphotransfer Profiling: Systematic Mapping of Two-Component Signal Transduction Pathways and Phosphorelays
[27]: Identification of Histidine Phosphorylations in Proteins Using Mass Spectrometry and Affinity-Based Techniques
Subject Index
Author Index
Product details
Authors | Melvin I. (EDT)/ Crane Simon |
Assisted by | Alexandrine Crane (Editor), Brian Crane (Editor), Brian R. Crane (Editor), Melvin I. Simon (Editor) |
Publisher | Academic Press London |
Languages | English |
Product format | Hardback |
Released | 03.07.2007 |
EAN | 9780123738523 |
ISBN | 978-0-12-373852-3 |
No. of pages | 609 |
Dimensions | 157 mm x 241 mm x 44 mm |
Series |
Academic Press Methods in Enzymology Academic Press Methods in Enzymology |
Subjects |
Natural sciences, medicine, IT, technology
> Biology
> Biochemistry, biophysics
SCIENCE / Life Sciences / Biochemistry, biochemistry, Enzymology |
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