[Antirestriction activity of the mercury resistance nonconjugative transposon Tn5053 is controlled by the protease ClpXP].

When transformed into Escherichia coli K12 strains, the mercury resistance transposon Tn5053@ exhibits high antirestriction activity against the EcoKI type I restriction and modification system. The products of the genes merR and ardD contribute to the antirestriction activity of Tn5053. The merR gene encodes the MerR protein, the transcription regulator of the mer operon genes.

[Trigger factor dependent refolding of bacterial luciferases in Escherichia coli cells: kinetics, efficiency and effect of the bichaperone system, DnaKJE-ClpB].

Here were determined the basic parameters of the Tigger Factor (TF) -dependent refolding of thermal inactivated bacterial luciferases. The TF-dependent refolding is less efficient and requires more time than DnaKJE-dependent refolding. The increase in the intracellular concentration of TF leads to an apparent decrease in the level of the thermal inactivated bacterial luciferase refolding.

[Effects of the IbpAB AND ClpA chaperones on DnaKJE-dependent refolding of bacterial luciferases in Escherichia coli cells].

The rate and level of DnaKJE-dependent refolding of the thermoinactivated Aliivibrio fischeri luciferase are considerably lower in Escherichia coli ibpA and ibpB mutants than in wild type cells. The rate and level of refolding are lower in E. coli ibpB::kan than in ibpA::kan cells.

[Proteolytic control of expression of Vibrio fischeri lux-operon genes in Escherichia coli cells].

The key elements of the regulatory system activating expression of the lux-operon genes in the sea bacteria Vibrio fischeri are the LuxR protein (an activator oftranscription) and N-(3-oxohexanoyl) L-homoserine lactone (an autoinducer, AI). It is shown that the ATP-dependent proteases ClpXP and Lon take part in the negative control of expression of the lux-operon genes and that AI protects the LuxR protein from proteolysis.

[The C-terminal domain of the Vibrio fischeri transcription activator LuxR is not essential for degradation by Lon protease].

The Vibrio fischer luxICDABEG genes are activated by autoinducer N-(3-oxohexanoyl)homoserine lactone and the LuxR protein. The LuxR contains 250 aa and consists of two domains. The C-domain, that extends from around residue 162 to the C-terminus, is thought to bind lux regulatory DNA and activate transcription of the luxICDABEG genes.