Transcription factor Spo0A switches the localization of the cell division protein FtsZ from a medial to a bipolar pattern in Bacillus subtilis.

Levin, Petra Anne; Losick, Richard

doi:10.1101/gad.10.4.478

Cited by 248 publications

(285 citation statements)

References 58 publications

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“…Counterstaining to visualize DNA was achieved by adding a final concentration of 10 g ml ¹1 propidium iodide 10 min before the end of the secondary antibody incubation. Under our labelling conditions, propidium iodide only labels DNA because the RNA is degraded by a contaminating RNase in the lysozyme (Levin and Losick, 1996). We confirmed that the intensity of staining by propidium iodide was not affected by treating the cells with RNase (not shown).…”

Section: Microscopysupporting

confidence: 73%

Dominant C‐terminal deletions of FtsZ that affect its ability to localize in Caulobacter and its interaction with FtsA

Din

Quardokus

Sackett

et al. 1998

Molecular Microbiology

115

116

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SummaryThe cell division protein FtsZ is composed of three regions based on sequence similarity: a highly conserved N-terminal region of Ϸ320 amino acids; a variable spacer region; and a conserved C-terminal region of eight amino acids. We show that FtsZ mutants missing different C-terminal fragments have dominant lethal effects because they block cell division in Caulobacter crescentus by two different mechanisms. Removal of the C-terminal conserved region, the linker, and 40 amino acids from the end of the Nterminal conserved region (FtsZ⌬C281) prevents the localization or the polymerization of FtsZ. Because two-hybrid analysis indicates that FtsZ⌬C281 does not interact with FtsZ, we hypothesize that FtsZ⌬C281 blocks cell division by competing with a factor required for FtsZ localization or that it titrates a factor required for the stability of the FtsZ ring. The removal of 24 amino acids from the C-terminus of FtsZ (FtsZ⌬C485) causes a punctate pattern of FtsZ localization and affects its interaction with FtsA. This suggests that the conserved C-terminal region of FtsZ is required for proper polymerization of FtsZ in Caulobacter and for its interaction with FtsA.

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Section: Microscopysupporting

confidence: 73%

Dominant C‐terminal deletions of FtsZ that affect its ability to localize in Caulobacter and its interaction with FtsA

Din

Quardokus

Sackett

et al. 1998

Molecular Microbiology

115

116

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“…The symmetrical position of the vegetative division septum, as indicated by the FtsZ band, was not surprising. In contrast, the symmetrical location of the septum in sporulating S. ureae was surprising, because it was strikingly different from the asymmetrical location observed for sporulating B. subtilis (Levin and Losick, 1996). Several lines of evidence make us confident that we were indeed observing sporulating cells (as distinct from vegetative cells): (i) the cells were expressing spoIIA-lacZ, which is an early sporulationspecific event; (ii) the cells expressing ␤-galactosidase from the spoIIA-lacZ fusion were only observed in samples taken after the end of exponential growth -as with B. subtilis, the end of exponential growth is defined as the start of sporulation; (iii) no subsequent division was observed during sporulation of S. ureae.…”

Section: Discussionmentioning

confidence: 69%

“…1A). Since FtsZ protein assembles at the site of septum formation, the band is presumed to indicate a cell division occurring perpendicular to the plane of the image, as has been observed with B. subtilis (Levin and Losick, 1996) and Escherichia coli (Bi and Lutkenhaus, 1991;Addinall et al, 1996). The ring pattern is presumed to indicate a division in the plane of the image.…”

Section: Resultsmentioning

confidence: 93%

“…Examples are shown in Fig. 1B and C. In B. subtilis, E -directed genes, such as cotE, are expressed after the sporulation septum has been completed (Harry et al, 1995;Zhang et al, 1996), by which time FtsZ is no longer localized at the septum (Levin and Losick, 1996). In S. ureae strain SL6920 containing pLZ72, no FtsZ band or ring was seen in any cells taken from cultures that were expressing cotE-lacZ (data not shown).…”

Section: Localization Of Ftsz In Sporulating Cellsmentioning

confidence: 95%

“…The FtsZ protein is associated with the initiation of cell division in all species of bacteria that have been studied and forms an annular structure at the site of the division septum (Lutkenhaus, 1993;Wang and Lutkenhaus, 1996). FtsZ has been shown to be associated with both the symmetrically located vegetative division septum and the asymmetrically located sporulation division septum in B. subtilis (Levin and Losick, 1996). Our analysis of FtsZ bands in S. ureae indicates that the location of the band during sporulation shows the same symmetry as that observed during vegetative division, in sharp contrast to the situation with B. subtilis (Levin and Losick, 1996).…”

Section: Introductionmentioning

confidence: 99%

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The division during bacterial sporulation is symmetrically located in Sporosarcina ureae

Zhang

Higgins

Piggot

1997

Molecular Microbiology

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SummaryImmunofluorescence microscopy was used to visualize the FtsZ band that marks the site of septation in Sporosarcina ureae. Image analysis indicated that the vegetative division was symmetrically located with respect to the ends of the cells. Fusions of lacZ to the sporulation loci, spoIIA and cotE, of Bacillus subtilis were introduced into S. ureae by mobilization of plasmids containing the fusions from Escherichia coli. The fusions showed similar patterns of sporulation-associated expression in S. ureae to those observed in B. subtilis. Formation of ␤-galactosidase encoded by the spoIIA-lacZ fusion made it possible to identify early sporulating cells by immunofluorescence microscopy. Analysis of the position of FtsZ bands in cells expressing spoIIA-lacZ indicated that the location of sporulation division was symmetrical with respect to the ends of the cells, in sharp contrast to the asymmetrical location of septation in sporulating Bacilli. It is inferred that asymmetry of location of the sporulation division is not essential for the compartmentalization of gene expression that follows the division.

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Inhibitors of Bacterial Cell Partitioning

2013

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Transcription factor Spo0A switches the localization of the cell division protein FtsZ from a medial to a bipolar pattern in Bacillus subtilis.

Cited by 248 publications

References 58 publications

Dominant C‐terminal deletions of FtsZ that affect its ability to localize in Caulobacter and its interaction with FtsA

Dominant C‐terminal deletions of FtsZ that affect its ability to localize in Caulobacter and its interaction with FtsA

The division during bacterial sporulation is symmetrically located in Sporosarcina ureae

Inhibitors of Bacterial Cell Partitioning

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