Sentences with phrase «histidine kinase»

Transgenic lines, from left to right, are paired sets from lines containing all components but lacking the TNT receptor -LRB-- TNT receptor); lacking the chimeric histidine kinase -LRB-- Trg - PhoR); lacking the protein for nuclear translocation / transcriptional activation -LRB-- PhoB - VP64); with the phospho - relay disrupted (PhoBD53A - VP64).

Structure of CheA, a signal - transducing histidine kinase.

From the basic research perspective, the ability to generate chimeric histidine kinase molecules could allow the dissection of specific functions of the individual components in multigene families.

We show that evolutionarily conserved histidine kinase signal transduction components [9], [10], [11] can be used to build a synthetic signal transduction system, and we then use this system to link input from computationally re-designed receptors to a plant response.

An homolog of the CheA histidine kinase of Thermotoga maritima (38) was also found in UM270.

These receptors have been used in bacterial biosensors, where re-designed PBPs were linked to gene expression through a histidine kinase signaling pathway [5].

Diagram of the complete synthetic signal transduction system in transgenic plants, using TNT as the ligand, signaling through the bacterial chimeric histidine kinase, and adapted response regulator, then activating a transcriptional response.

A member of sensorial systems found in the UM270 genome includes halovibrin (hvnA), a histidine kinase two - component system (CheA) and sensory box regulators.

In vivo functional characterization of the transmembrane histidine kinase KinC in Bacillus subtilis.

On the other hand, histidine kinases allow bacteria, plants, and fungi to sense and respond to their environment, regulating a number of cellular responses such as osmoregulation, chemotaxis, sporulation and microbial pathogenesis (37).

Jung K, Fried L, Behr S, Heermann R. Histidine kinases and response regulators in networks.