Conjugal transfer of IncHI plasmid DNA between Gram‐negative bacteria is temperature sensitive, as mating is optimal between 22°C and 30°C but is inhibited at 37°C. R27, isolated from Salmonella enterica serovar Typhi, is an IncHI1 plasmid of 180 kbp that has been sequenced completely. The gene encoding green fluorescent protein (GFP) was inserted into R27 in frame with trhC. TrhC is a mating pair formation (Mpf) protein that is essential for plasmid transfer and H‐pilus production. Fluorescence microscopy allowed visualization of the TrhC–GFP fusion protein, and Escherichia coli cells were examined for the subcellular localization and temperature‐dependent production of TrhC–GFP. At 27°C, TrhC–GFP was found at the periphery of cells as discrete foci, indicating an association of TrhC within protein complexes in the bacterial cell membrane, whereas at 37°C, little fluorescence was detected. These foci probably represent the intracellular position of protein complexes involved in conjugative transfer, as the formation of foci was dependent upon the presence of other Mpf proteins. During temperature shift experiments from 37°C to 27°C, a long lag period was required for generation of GFP foci. Conversely, during short shifts from 27°C to 37°C, the GFP foci remained stable. These results suggest that the expression of transfer genes in the Tra2 region of R27 is temperature dependent. Subcellular localization of TrhC was verified by cellular fractionation. Expression patterns of TrhC–GFP were confirmed with immunoblot analysis and reverse transcriptase–polymerase chain reaction (RT–PCR). These results allow us to propose mechanisms to explain the temperature‐sensitive transfer of R27.
R27, a large conjugative plasmid of the HI incompatibility group, was subjected to a subcloning analysis which revealed the presence of a Poll-independent replicon and determinants contributing to incompatibility within a 2.7 kb SalI/XbaI fragment. The DNA sequence of the minimal replicon revealed the presence of a large open reading frame (ORF) as well two sets of 19 bp repeated oligonucleotides (iterons), in addition to characteristic Escherichia coli origin elements. The protein encoded by the ORF possesses homology with replication initiator proteins encoded by a number of plasmids from different incompatibility groups. Deletion analysis suggested that the iterons are responsible for incompatibility reactions. Dissection of the replicon confirmed this and defined a minimal origin of 230 bp. The putative replication initiator was expressed in an in vitro transcription-translation system, and the 5' end of the mRNA encoding its synthesis was identified. Transcriptional fusion of the repA promoter to lacZ demonstrated an autoregulatory function of RepA. A series of iterons present downstream of the RepA coding sequence are dispensable but are responsible for copy-number control. The minimal replicon appears to be partition-defective.
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