Abstract

AbstractFtsZ, the master coordinator of bacterial cell division, assembles into filaments in the presence of nucleotide. FtsZ from Streptococcus pneumoniae bears two tryptophan residues (W294 and W378) in its amino acid sequence. The tryptophan fluorescence of FtsZ increases during the assembly of FtsZ. We hypothesized that this increase in the fluorescence intensity was due to the change in the environment of one or both tryptophan residues. To examine this, we constructed two mutants (W294F and W378F) of FtsZ by individually replacing tryptophan with phenylalanine. The mutants displayed similar secondary structures, GTPase activity, and polymerization ability as the wild type FtsZ. During the polymerization, only one tryptophan (W294) showed an increase in its fluorescence intensity. Using time‐correlated single‐photon counting, the fluorescence lifetime of W294 was found to be significantly higher than W378, indicating that W294 was more buried in the structure than W378. The lifetime of W294 further increased during polymer formation, while that of W378 remained unchanged. Fluorescence quenching experiment suggested that the solvent exposure of W294 reduced during the polymerization of FtsZ. W294 is located near the T‐7 loop of the protein, a region important for the monomer‐monomer interaction during the formation of a protofilament. The results indicated that the region around W294 of S. pneumoniae FtsZ undergoes a conformational switch during polymerization as seen for FtsZ from other bacteria.

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