Two-Component Signaling Systems, Part BAcademic Press, 3 juil. 2007 - 648 pages 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 in Two-Component Signaling Systems, Part B include:
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Table des matières
Section II Reconstitution of Heterogeneous Systems | 265 |
Section III Intracellular Methods and Assays | 363 |
573 | |
Expressions et termes fréquents
Acad acid agar plates analysis aspartate aspartate receptor assay autophosphorylation bacterial chemotaxis Bacteriol binding Biol Borbat buffer cells CheA Chem chemoreceptor chemotaxis CheW CheY complex concentration containing CorS crosslinking cysteine cytoplasmic cytoplasmic domain DEER dimer dipolar distances disulfide bond disulfide formation Edited EnvZ EnvZc Enzyme Escherichia coli expression Falke FRET function fusion gene gene expression genome HAMP domain Helicobacter pylori histidine kinase incubated Inouye interactions kinase activity lipid liposomes measurements methods Microbiol molecular molecules mutant Mycobacterium tuberculosis N‐terminal Nanodiscs Natl nitroxide peptide periplasmic phenotype phosphatase phosphorelay phosphorylation phosphotransfer phytochrome PICM plasmid probe Proc pulse purified pylori reaction receiver domain residues resonance response regulator sample SDS‐PAGE sequence signal transduction site‐directed solution spin labels structure studies subunits tion TonB transmembrane trimer two‐component signaling two‐component system vivo VOLUME wild‐type X‐ray
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