ABSTRACT
The condensation of DNA in bacterial nucleoids during cell cycle is a complex and dynamic process. Proteins displaying the physico-chemical properties of histones are known to contribute to this process. During a search for B. subtilis nucleoid associated proteins, HBsu and L24 were identified as the most abundant proteins in nucleoid containing fractions. Purified L24 binds and condenses DNA in vitro. In this paper we describe immunofluorescence studies that demonstrated that L24 is located at the poles of the nucleoids in exponentially growing cells. In contrast, the protein is dispersed in the cytoplasm during stationary phase. Moreover, overexpression of the rplX gene encoding L24 disrupts nucleoid segregation and positioning.
Subject(s)
Bacillus subtilis/genetics , Chromosome Segregation , DNA, Bacterial/metabolism , Ribosomal Proteins/metabolism , Cell Division , Chromosomes, Bacterial , In Situ Hybridization, Fluorescence , Microscopy, Fluorescence , Plasmids , RNA, Ribosomal/chemistry , Ribosomal Proteins/isolation & purificationABSTRACT
HPB12-L24 was previously described as a bifunctional histone-like and ribosomal protein in Bacillus subtilis. In order to confirm the identity of HPB12 and L24, and to study the properties of this protein, the rplX gene of B. subtilis encoding L24 has been overexpressed in Escherichia coli by an efficient protein overproduction system. A simple and rapid purification scheme using ammonium sulfate precipitation and cation-exchange chromatography is presented. 10 mg of pure L24 per g of Escherichia coli cells were obtained. The purified recombinant protein L24 is heat-stable, acid-soluble and binds preferentially supercoiled DNA like protein HPB12. These results confirm the identity of HPB12 and L24. Overexpression of rplX led to gross alterations of cell morphology and to an abnormal shape of nucleoids.