Development of a homogeneous fluorescence anisotropy assay to monitor and measure FtsZ assembly in solution.
about
The Nucleoid Occlusion SlmA Protein Accelerates the Disassembly of the FtsZ Protein Polymers without Affecting Their GTPase ActivityScreening for FtsZ Dimerization Inhibitors Using Fluorescence Cross-Correlation Spectroscopy and Surface Resonance Plasmon AnalysisMacromolecular interactions of the bacterial division FtsZ protein: from quantitative biochemistry and crowding to reconstructing minimal divisomes in the test tubeMicroenvironments created by liquid-liquid phase transition control the dynamic distribution of bacterial division FtsZ proteinCrowding activates ClpB and enhances its association with DnaK for efficient protein aggregate reactivation.Charged Molecules Modulate the Volume Exclusion Effects Exerted by Crowders on FtsZ PolymerizationStudies on the dissociation and urea-induced unfolding of FtsZ support the dimer nucleus polymerization mechanism.Evidence That Bacteriophage λ Kil Peptide Inhibits Bacterial Cell Division by Disrupting FtsZ Protofilaments and Sequestering Protein Subunits.Characterization of Caulobacter crescentus FtsZ protein using dynamic light scatteringMg(2+)-linked self-assembly of FtsZ in the presence of GTP or a GTP analogue involves the concerted formation of a narrow size distribution of oligomeric speciesMinC protein shortens FtsZ protofilaments by preferentially interacting with GDP-bound subunitsBacterial division proteins FtsZ and ZipA induce vesicle shrinkage and cell membrane invagination.Control by potassium of the size distribution of Escherichia coli FtsZ polymers is independent of GTPase activity.Nucleotide and receptor density modulate binding of bacterial division FtsZ protein to ZipA containing lipid-coated microbeads.Three-dimensional structure of the Z-ring as a random network of FtsZ filaments.Toward an understanding of biochemical equilibria within living cells.
P2860
Q27307726-EBD8F867-77CC-4785-AE28-11C15AAE4209Q28546375-06F08411-0DEF-4C22-9B2F-6FD0242CFDD0Q30357098-CAD1BCF5-08E1-4A5E-B514-42C3DC46F0D8Q30820181-0B1740FD-5E80-4B69-AE5F-B35863D3A036Q33595843-CF9E4337-F373-4346-A609-BE0381CA484EQ35921883-0EE5013F-CAC7-4BD7-A28E-44F56533C6ABQ35926214-82A0E1E2-7C5B-4704-9509-240E14B24529Q35953141-CD59E052-DB9B-4130-BF48-352CC56A4862Q36078863-7539E344-9C34-4A2A-B6F3-7D2C3D2E7826Q36250031-991BFABA-E45E-445C-B71D-5B0D69DD7B98Q42563460-35D17664-748F-4BC8-95FB-1BE7236A732FQ42611094-94572B13-2A60-493B-AC13-36958B64190FQ42649496-EA668824-01A5-4DAC-86C5-103E07AA2039Q42652581-6F328792-1DCC-41FE-A8E7-329B1B673FABQ44022826-00F58E92-2F6F-4E65-B3B6-409D2EBEEB5CQ48128426-8CD70EEF-0773-4204-8431-BDE274F6A59C
P2860
Development of a homogeneous fluorescence anisotropy assay to monitor and measure FtsZ assembly in solution.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
Development of a homogeneous f ...... ure FtsZ assembly in solution.
@en
Development of a homogeneous f ...... ure FtsZ assembly in solution.
@nl
type
label
Development of a homogeneous f ...... ure FtsZ assembly in solution.
@en
Development of a homogeneous f ...... ure FtsZ assembly in solution.
@nl
prefLabel
Development of a homogeneous f ...... ure FtsZ assembly in solution.
@en
Development of a homogeneous f ...... ure FtsZ assembly in solution.
@nl
P50
P356
P1476
Development of a homogeneous f ...... sure FtsZ assembly in solution
@en
P2093
Belén Reija
Miguel Vicente
P356
10.1016/J.AB.2011.07.001
P407
P577
2011-07-13T00:00:00Z