| His Kinase A (phospho-acceptor) domain |
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solved structure of the homodimeric domain of EnvZ from Escherichia coli by multi-dimensional NMR. |
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| Symbol | HisKA |
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| Pfam | PF00512 |
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| Pfam clan | CL0025 |
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| InterPro | IPR003661 |
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| SMART | HisKA |
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| SCOP2 | 1b3q / SCOPe / SUPFAM |
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| Signal transducing histidine kinase, homodimeric domain |
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structure of CheA domain p4 in complex with TNP-ATP |
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| Symbol | H-kinase_dim |
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| Pfam | PF02895 |
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| InterPro | IPR004105 |
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| SCOP2 | 1b3q / SCOPe / SUPFAM |
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| Osmosensitive K+ channel His kinase sensor domain |
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| Symbol | KdpD |
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| Pfam | PF02702 |
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| InterPro | IPR003852 |
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In molecular biology, a two-component regulatory system serves as a basic stimulus-response coupling mechanism to allow organisms to sense and respond to changes in many different environmental conditions. Two-component systems typically consist of a membrane-bound histidine kinase that senses a specific environmental stimulus, and a corresponding response regulator that mediates the cellular response, mostly through differential expression of target genes. Although two-component signaling systems are found in all domains of life, they are most common by far in bacteria, particularly in Gram-negative and cyanobacteria; both histidine kinases and response regulators are among the largest gene families in bacteria. They are much less common in archaea and eukaryotes; although they do appear in yeasts, filamentous fungi, and slime molds, and are common in plants, two-component systems have been described as "conspicuously absent" from animals.