Add to ORKGThe role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be restricted to localizing proteins involved in the synthesis of the septal wall. In this issue of Molecular Microbiology, the groups of Christine Jacobs-Wagner and Walde-mar Vollmer provide compelling evidence that in Cau-lobacter crescentus, FtsZ plays an additional role in CW synthesis in non-dividing cells. During elongation (cell growth) FtsZ is responsible for the incorporation of CW material in a zone at the midcell by recruiting MurG, a protein involved in peptidoglycan (PG) pre-cursor synthesis. This resembles earlier findings of FtsZ mediated PG synthesis activity in Escherichia coli. A role of FtsZ in PG synthesis during elongation fo...
Assembly of the division machinery in Gram-negative and Gram-positive bacteria occurs in two time-de...
During the transition from elongation to septation, Escherichia coli establishes a ring-like peptido...
Assembly of the division machinery in Gram-negative and Gram-positive bacteria occurs in two time-de...
The role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be r...
The role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be r...
The role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be r...
Certain penicillin binding protein mutants of Escherichia coli grow with spirillum-like morphologies...
The mechanism by which bacteria divide is not well understood. Cell division is mediated by filament...
Bacterial division requires the coordination of cytoskeleton constriction and insertion of new pepti...
Bacterial resistance to the antibiotics is an increasing worldwide health problem, and the inhibitio...
The bacterial GTPase FtsZ forms a cytokinetic ring at midcell, recruits the division machinery, and ...
Cell division is an essential process in all life forms that requires regulated changes in cell shap...
FtsZ, the bacterial homologue of eukaryotic tubulin, plays a central role in cell division in nearly...
A bacterium’s cell wall is its first major defense against turgor pressure and antibiotic assault. T...
Peptidoglycan synthesis and turnover in relation to cell growth and division has been studied by usi...
Assembly of the division machinery in Gram-negative and Gram-positive bacteria occurs in two time-de...
During the transition from elongation to septation, Escherichia coli establishes a ring-like peptido...
Assembly of the division machinery in Gram-negative and Gram-positive bacteria occurs in two time-de...
The role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be r...
The role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be r...
The role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be r...
Certain penicillin binding protein mutants of Escherichia coli grow with spirillum-like morphologies...
The mechanism by which bacteria divide is not well understood. Cell division is mediated by filament...
Bacterial division requires the coordination of cytoskeleton constriction and insertion of new pepti...
Bacterial resistance to the antibiotics is an increasing worldwide health problem, and the inhibitio...
The bacterial GTPase FtsZ forms a cytokinetic ring at midcell, recruits the division machinery, and ...
Cell division is an essential process in all life forms that requires regulated changes in cell shap...
FtsZ, the bacterial homologue of eukaryotic tubulin, plays a central role in cell division in nearly...
A bacterium’s cell wall is its first major defense against turgor pressure and antibiotic assault. T...
Peptidoglycan synthesis and turnover in relation to cell growth and division has been studied by usi...
Assembly of the division machinery in Gram-negative and Gram-positive bacteria occurs in two time-de...
During the transition from elongation to septation, Escherichia coli establishes a ring-like peptido...
Assembly of the division machinery in Gram-negative and Gram-positive bacteria occurs in two time-de...