[A test system based on the lux-regulon from Vibrio fischeri for studying the functional activity of mutant forms of Escherichia coli lon-proteinase].

The possibility of application of the bioluminescence method (Lux-test) for studying in vivo functional activity of Escherichia coli protease Lon and its mutants was demonstrated. This assay is based on the capacity of protease Lon and its mutant forms for specific degradation of the LuxR protein, a positive transcriptional activator of the right operon luxICDABE from the marine bacterium Vibrio fischeri, and thus to affect the level of AB luciferase in the cells. A correlation between in vitro activity of the protease Lon mutants and the intensity of bioluminescence measured by the Lux-test was revealed.

[Suc-Phe-Leu-Phe-SBzl--a new substrate for functional study of Escherichia coli ATP-dependent Lon-proteinase and its modified forms].

A new efficient substrate, Suc-Phe-Leu-Phe-SBzl, was proposed for studying the function of the Escherichia coli ATP-dependent Lon protease and its modified forms. The kinetic parameters of hydrolysis of the substrate were determined. The esterase activity of protease Lon was found to be nucleotide-regulated.

The isolated proteolytic domain of Escherichia coli ATP-dependent protease Lon exhibits the peptidase activity.

Selective protein degradation is an energy-dependent process performed by high-molecular-weight proteases. The activity of proteolytic components of these enzymes is coupled to the ATPase activity of their regulatory subunits or domains. Here, we obtained the proteolytic domain of Escherichia coli protease Lon by cloning the corresponding fragment of the lon gene in pGEX-KG, expression of the hybrid protein, and isolation of the proteolytic domain after hydrolysis of the hybrid protein with thrombin.

[Synthesis and characterisation of ATP-dependent forms of Lon-proteinase with modified N-terminal domain from Escherichia coli].

The functional domain boundaries of the ATP-dependent Lon proteases were identified by comparative analysis of the amino acid sequences of the enzymes from evolutionarily distant organisms. Modified forms of the Escherichia coli Lon protease with the elongated or substituted N-terminal domain and a truncated enzyme lacking the N-terminal domain were obtained through genetic engineering methods. Analysis of the enzymatic properties of the resulting modified forms of Lon protease revealed the importance of the N-terminal domain in its function.