Purva Vats scite author profile

The bacterial actin homolog MreB exists as a single-copy helical cytoskeletal structure that extends between the two poles of rod-shaped bacteria. In this study, we show that equipartition of the MreB cytoskeleton into daughter cells is accomplished by division and segregation of the helical MreB array into two equivalent structures located in opposite halves of the predivisional cell. This process ensures that each daughter cell inherits one copy of the MreB cytoskeleton. The process is triggered by the membrane association of the FtsZ cell division protein. The cytoskeletal division and segregation events occur before and independently of cytokinesis and involve specialized MreB structures that appear to be intermediates in this process.septasome ͉ FtsZ ͉ cell division

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Assembly of the MreB‐associated cytoskeletal ring of Escherichia coli

Vats¹,

Shih

Rothfield

2009

Molecular Microbiology

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SummaryThe Escherichia coli actin homologue MreB is part of a helical cytoskeletal structure that winds around the cell between the two poles. It has been shown that MreB redistributes during the cell cycle to form circumferential ring structures that flank the cytokinetic FtsZ ring and appear to be associated with division and segregation of the helical cytoskeleton. We show here that the MreB cytoskeletal ring also contains the MreC, MreD, Pbp2 and RodA proteins. Assembly of MreB, MreC, MreD and Pbp2 into the ring structure required the FtsZ ring but no other known components of the cell division machinery, whereas assembly of RodA into the cytoskeletal ring required one or more additional septasomal components. Strikingly, MreB, MreC, MreD and RodA were each able to independently assemble into the cytoskeletal ring and coiled cytoskeletal structures in the absence of any of the other ring components. This excludes the possibility that one or more of these proteins acts as a scaffold for incorporation of the other proteins into these structures. In contrast, incorporation of Pbp2 required the presence of MreC, which may provide a docking site for Pbp2 entry.

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Production studies and catalytic properties of phytases (myo-inositolhexakisphosphate phosphohydrolases): an overview

Vats

2004

Enzyme and Microbial Technology

187

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Production studies and catalytic properties of phytases (myo-inositolhexakisphosphate phosphohydrolases): an overview

Vats¹,

Banerjee²

2004

Enzyme and Microbial Technology

224

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Purva Vats

Removal of Dyes from the Effluent of Textile and Dyestuff Manufacturing Industry: A Review of Emerging Techniques With Reference to Biological Treatment

Duplication and segregation of the actin (MreB) cytoskeleton during the prokaryotic cell cycle

Assembly of the MreB‐associated cytoskeletal ring of Escherichia coli

Production studies and catalytic properties of phytases (myo-inositolhexakisphosphate phosphohydrolases): an overview

Production studies and catalytic properties of phytases (myo-inositolhexakisphosphate phosphohydrolases): an overview

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