Mirjam E. G. Aarsman scite author profile

SummaryCell division proteins FtsZ (FtsA, ZipA, ZapA), FtsE/X, FtsK, FtsQ, FtsL/B, FtsW, PBP3, FtsN and AmiC localize at mid cell in Escherichia coli in an interdependent order as listed. To investigate whether this reflects a time dependent maturation of the divisome, the average cell age at which FtsZ, FtsQ, FtsW, PBP3 and FtsN arrive at their destination was determined by immunoand GFP-fluorescence microscopy of steady state grown cells at a variety of growth rates. Consistently, a time delay of 14-21 min, depending on the growth rate, between Z-ring formation and the mid cell recruitment of proteins down stream of FtsK was found. We suggest a two-step model for bacterial division in which the Z-ring is involved in the switch from cylindrical to polar peptidoglycan synthesis, whereas the much later localizing cell division proteins are responsible for the modification of the envelope shape into that of two new poles.

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Interaction between two murein (peptidoglycan) synthases, PBP3 and PBP1B, in Escherichia coli

Bertsche

Kast

Wolf

et al. 2006

Molecular Microbiology

174

236

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SummaryThe murein (peptidoglycan) sacculus is an essential polymer embedded in the bacterial envelope. The Escherichia coli class B penicillin-binding protein (PBP) 3 is a murein transpeptidase and essential for cell division. In an affinity chromatography experiment, the bifunctional transglycosylasetranspeptidase murein synthase PBP1B was retained by PBP3-sepharose when a membrane fraction of E. coli was applied. The direct protein-protein interaction between purified PBP3 and PBP1B was characterized in vitro by surface plasmon resonance. The interaction was confirmed in vivo employing two different methods: by a bacterial two-hybrid system, and by cross-linking/co-immunoprecipitation. In the bacterial two-hybrid system, a truncated PBP3 comprising the N-terminal 56 amino acids interacted with PBP1B. Both synthases could be cross-linked in vivo in wild-type cells and in cells lacking FtsW or FtsN. PBP1B localized diffusely and in foci at the septation site and also at the side wall. Statistical analysis of the immunofluorescence signals revealed that the localization of PBP1B at the septation site depended on the physical presence of PBP3, but not on the activity of PBP3. These studies have demonstrated, for the first time, a direct interaction between a class B PBP (PBP3) and a class A PBP (PBP1B) in vitro and in vivo, indicating that different murein synthases might act in concert to enlarge the murein sacculus during cell division.

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Penicillin‐binding protein PBP2 of Escherichia coli localizes preferentially in the lateral wall and at mid‐cell in comparison with the old cell pole

Blaauwen¹,

Aarsman

Vischer

et al. 2003

Molecular Microbiology

128

156

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SummaryThe localization of penicillin-binding protein 2 (PBP2) in Escherichia coli has been studied using a functional green fluorescent protein (GFP)-PBP2 fusion protein. PBP2 localized in the bacterial envelope in a spot-like pattern and also at mid-cell during cell division. PBP2 disappeared from mid-cell just before separation of the two daughter cells. It localized with a preference for the cylindrical part of the bacterium in comparison with the old cell poles, which are known to be inert with respect to peptidoglycan synthesis. In contrast to subunits of the divisome, PBP2 failed to localize at mid-cell when PBP3 was inhibited by the specific antibiotic aztreonam. Therefore, despite its dependency on active PBP3 for localization at midcell, it seems not to be an integral part of the divisome. Cells grown for approximately half a mass doubling time in the presence of the PBP2 inhibitor mecillinam synthesized nascent cell poles with an increased diameter, indicating that PBP2 is required for the maintenance of the correct diameter of the new cell pole.

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Timing of FtsZ Assembly in Escherichia coli

et al. 1999

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The timing of the appearance of the FtsZ ring at the future site of division in Escherichia coli was determined by in situ immunofluorescence microscopy for two strains grown under steady-state conditions. The strains, B/rA and K-12 MC4100, differ largely in the duration of the D period, the time between termination of DNA replication and cell division. In both strains and under various growth conditions, the assembly of the FtsZ ring was initiated approximately simultaneously with the start of the D period. This is well before nucleoid separation or initiation of constriction as determined by fluorescence and phase-contrast microscopy. The durations of the Z-ring period, the D period, and the period with a visible constriction seem to be correlated under all investigated growth conditions in these strains. These results suggest that (near) termination of DNA replication could provide a signal that initiates the process of cell division.

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R174 of Escherichia coli FtsZ is involved in membrane interaction and protofilament bundling, and is essential for cell division

Koppelman

Aarsman

Postmus

et al. 2003

Molecular Microbiology

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SummaryWe investigated the interaction between FtsZ and the cytoplasmic membrane using inside-out vesicles. Comparison of the trypsin accessibility of purified FtsZ and cytoplasmic membrane-bound FtsZ revealed that the protruding loop between helix 6 and helix 7 is protected from trypsin digestion in the latter. This hydrophobic loop contains an arginine residue at position 174. To investigate the role of R174, this residue was replaced by an aspartic acid, and FtsZ-R174D was fused to green fluorescent protein (GFP). FtsZ-R174D-GFP could localize in an FtsZ and in an FtsZ84(Ts) background at both the permissive and the non-permissive temperature, and it had a reduced affinity for the cytoplasmic membrane compared with wild-type FtsZ. FtsZ-R174D could also localize in an FtsZ depletion strain. However, in contrast to wildtype FtsZ, FtsZ-R174D was not able to complement the ftsZ84 mutation or the depletion strain and induced filamentation. In vitro polymerization experiments showed that FtsZ-R174D is able to polymerize, but that these polymers cannot form bundles in the presence of 10 mM CaCl 2 . This is the first description of an FtsZ mutant that has reduced affinity for the cytoplasmic membrane and does not support cell division, but is still able to localize. The mutant is able to form protofilaments in vitro but fails to bundle. It suggests that neither membrane interaction nor bundling is a requirement for initiation of cell division.

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