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Delta dnaK52 mutants of Escherichia coli have defects in chromosome segregation and plasmid maintenance at normal growth temperatures.

Biology Department, Massachusetts Institute of Technology, Cambridge 02139.

ABSTRACT

Major heat shock proteins, such as the Escherichia coli DnaK protein, not only are required for cell growth after heat shock but seem to possess important functions in cellular metabolism at normal growth temperatures as well. E. coli delta dnaK52 mutants have severe cellular defects at 30 degrees C, one of which is in cell division (B. Bukau and G. C. Walker, J. Bacteriol, 171:2337-2346, 1989). Here we show that at 30 degrees C, delta dnaK52 mutants have defects in chromosome segregation and in maintenance of low-copy-number plasmids. Fluorescence microscopic analysis revealed that chromosomes were frequently lacking at peripheries of cell filaments of delta dnaK52 mutants and clustered at other locations. In other parts of the cell filaments, chromosomes were apparently normally distributed and they were also present in most of the small cells found in populations of delta dnaK52 cells. These defects might be at the level of DNA replication, since delta dnaK52 mutants have a threshold lower rate of DNA synthesis than wild-type cells. Chromosome segregation defects of delta dnaK52 mutants were also observed in an rnh dnaA mutant background, in which initiation of DNA replication is DnaA-oriC independent. We also found that low-copy-number P1 miniplasmids could not be stably maintained in delta dnaK52 mutants at 30 degrees C. delta par P1 miniplasmids that carry the P1-encoded rep functions required for their replication but lack the P1-encoded par functions required for faithful partitioning of the plasmids during cell division were also unstable in delta dnaK52 mutants. Taken together, our results indicate important, although not absolutely essential, functions for DnaK at 30 degrees C in one or more processes necessary for correct replication and/or partitioning of chromosomes and P1 miniplasmids. Furthermore, we found that P1 miniplasmids were also highly unstable in dnaJ259 mutants, indicating a role for the DnaJ heat shock protein in maintenance of these plasmids.

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