The MinC component of the division site selection system in Escherichia coli interacts with FtsZ to prevent polymerization. - Wikidata - wikimedia - TriplyDB

The MinC component of the division site selection system in Escherichia coli interacts with FtsZ to prevent polymerization.

The MinC component of the division site selection system in Escherichia coli interacts with FtsZ to prevent polymerization.

http://www.wikidata.org/entity/Q33884803

about

The Min system and other nucleoid-independent regulators of Z ring positioning Dynamic assembly of MinD on phospholipid vesicles regulated by ATP and MinE Recruitment of MinC, an inhibitor of Z-ring formation, to the membrane in Escherichia coli: role of MinD and MinE.The bacterial cytoskeleton Growth rate-dependent regulation of medial FtsZ ring formation The Nucleoid Occlusion SlmA Protein Accelerates the Disassembly of the FtsZ Protein Polymers without Affecting Their GTPase Activity MreB-Dependent Inhibition of Cell Elongation during the Escape from Competence in Bacillus subtilis The MinCDJ system in Bacillus subtilis prevents minicell formation by promoting divisome disassembly Noise-induced Min phenotypes in E. coli.Crystal structure of the bacterial cell division regulator MinD Crystal structure of the bacterial cell division inhibitor MinC.Novel coiled-coil cell division factor ZapB stimulates Z ring assembly and cell division Crystal structure of the N-terminal domain of MinC dimerized via domain swapping Minicells, Back in Fashion The N-terminal amphipathic helix of the topological specificity factor MinE is associated with shaping membrane curvature Genetic and biochemical characterization of the MinC-FtsZ interaction in Bacillus subtilis SepF, a novel FtsZ-interacting protein required for a late step in cell division Large ring polymers align FtsZ polymers for normal septum formation A moonlighting enzyme links Escherichia coli cell size with central metabolism Why are bacteria different from eukaryotes?Mapping out Min protein patterns in fully confined fluidic chambers A multistranded polymer model explains MinDE dynamics in E. coli cell division.Regulation of symmetric bacterial cell division by MinE: What is the role of conformational dynamics?Trapping of a spiral-like intermediate of the bacterial cytokinetic protein FtsZ.Positioning of chemosensory clusters in E. coli and its relation to cell division.A new multicompartmental reaction-diffusion modeling method links transient membrane attachment of E. coli MinE to E-ring formation.FtsZ in bacterial cytokinesis: cytoskeleton and force generator all in one.MinCDE exploits the dynamic nature of FtsZ filaments for its spatial regulation Asymmetric constriction of dividing Escherichia coli cells induced by expression of a fusion between two min proteins.Bacterial growth and form under mechanical compression.Cytokinesis in bacteria Gonococcal MinD affects cell division in Neisseria gonorrhoeae and Escherichia coli and exhibits a novel self-interaction.Characterization of ftsZ mutations that render Bacillus subtilis resistant to MinC Analysis of MinD mutations reveals residues required for MinE stimulation of the MinD ATPase and residues required for MinC interaction.MinC mutants deficient in MinD- and DicB-mediated cell division inhibition due to loss of interaction with MinD, DicB, or a septal component.Pattern formation in Escherichia coli: a model for the pole-to-pole oscillations of Min proteins and the localization of the division site.Assembly dynamics of the bacterial cell division protein FTSZ: poised at the edge of stability Differential affinities of MinD and MinE to anionic phospholipid influence Min patterning dynamics in vitro Analysis of MinC reveals two independent domains involved in interaction with MinD and FtsZ Deletion of the min operon results in increased thermosensitivity of an ftsZ84 mutant and abnormal FtsZ ring assembly, placement, and disassembly.

P2860

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P2860

The MinC component of the division site selection system in Escherichia coli interacts with FtsZ to prevent polymerization.

http://www.wikidata.org/entity/Q33884803

description

1999 nî lūn-bûn

@nan

1999 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

@hyw

1999 թվականի դեկտեմբերին հրատարակված գիտական հոդված

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1999年の論文

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1999年論文

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1999年論文

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1999年論文

@zh-hk

1999年論文

@zh-mo

1999年論文

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1999年论文

@wuu

name

The MinC component of the divi ...... tsZ to prevent polymerization.

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The MinC component of the divi ...... tsZ to prevent polymerization.

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type

label

The MinC component of the divi ...... tsZ to prevent polymerization.

@ast

The MinC component of the divi ...... tsZ to prevent polymerization.

@en

prefLabel

The MinC component of the divi ...... tsZ to prevent polymerization.

@ast

The MinC component of the divi ...... tsZ to prevent polymerization.

@en

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PNAS.96.26.14819

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

The MinC component of the divi ...... tsZ to prevent polymerization.

@en

P2093

A Mukherjee

http://www.w3.org/2001/XMLSchema#string

J Lutkenhaus

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S Pichoff

http://www.w3.org/2001/XMLSchema#string

Z Hu

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P2860

Dynamic assembly of FtsZ regulated by GTP hydrolysis.

Polar localization of the MinD protein of Bacillus subtilis and its role in selection of the mid-cell division site

Actin depolymerizing factor (ADF/cofilin) enhances the rate of filament turnover: implication in actin-based motility

Rapid pole-to-pole oscillation of a protein required for directing division to the middle of Escherichia coli

Crystal structure of the bacterial cell-division protein FtsZ

Interaction of actin monomers with Acanthamoeba actophorin (ADF/cofilin) and profilin

Tight regulation, modulation, and high-level expression by vectors containing the arabinose PBAD promoter

Regulation of the expression of the cell-cycle gene ftsZ by DicF antisense RNA. Division does not require a fixed number of FtsZ molecules

FtsZ ring structure associated with division in Escherichia coli

Ca2+-mediated GTP-dependent dynamic assembly of bacterial cell division protein FtsZ into asters and polymer networks in vitro

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14819-14824

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26

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10611296

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P921

Escherichia coli

P932

24731

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