scholarly article | Q13442814 |
P2093 | author name string | Jan Löwe | |
Keiichi Namba | |||
Takashi Fujii | |||
Pananghat Gayathri | |||
P2860 | cites work | Reconstitution of DNA segregation driven by assembly of a prokaryotic actin homolog | Q24601170 |
Molecular structure of the ParM polymer and the mechanism leading to its nucleotide-driven dynamic instability | Q24648604 | ||
Prokaryotic origin of the actin cytoskeleton | Q27634702 | ||
F-actin-like filaments formed by plasmid segregation protein ParM | Q27640173 | ||
The structure of nonvertebrate actin: Implications for the ATP hydrolytic mechanism | Q27641158 | ||
The structure of bacterial ParM filaments | Q27648225 | ||
Structural analysis of the ParR/parC plasmid partition complex | Q27648589 | ||
Structural insights into the conformational variability of FtsZ | Q27648605 | ||
Segrosome structure revealed by a complex of ParR with centromere DNA | Q27649386 | ||
The lattice as allosteric effector: Structural studies of - and -tubulin clarify the role of GTP in microtubule assembly | Q27650226 | ||
The nature of the globular- to fibrous-actin transition | Q27653487 | ||
Structural polymorphism of the ParM filament and dynamic instability | Q27657413 | ||
Specific arrangement of alpha-helical coiled coils in the core domain of the bacterial flagellar hook for the universal joint function | Q27658167 | ||
Structure and Filament Dynamics of the pSK41 Actin-like ParM Protein: IMPLICATIONS FOR PLASMID DNA SEGREGATION | Q27659237 | ||
Direct visualization of secondary structures of F-actin by electron cryomicroscopy | Q27664529 | ||
Filament structure of bacterial tubulin homologue TubZ | Q27665359 | ||
Structural basis for the slow dynamics of the actin filament pointed end | Q27667181 | ||
A bipolar spindle of antiparallel ParM filaments drives bacterial plasmid segregation | Q27674856 | ||
Structure of a type III secretion needle at 7-A resolution provides insights into its assembly and signaling mechanisms | Q27677828 | ||
FtsA forms actin-like protofilaments | Q27678310 | ||
Novel Actin-like Filament Structure from Clostridium tetani | Q27678603 | ||
Structural reorganization of the bacterial cell-division protein FtsZ from Staphylococcus aureus | Q27682149 | ||
SPIDER and WEB: processing and visualization of images in 3D electron microscopy and related fields | Q27860560 | ||
UCSF Chimera--a visualization system for exploratory research and analysis | Q27860666 | ||
EMAN: semiautomated software for high-resolution single-particle reconstructions | Q27860772 | ||
Accurate determination of local defocus and specimen tilt in electron microscopy | Q27861008 | ||
Dynamic instability in a DNA-segregating prokaryotic actin homolog | Q28291840 | ||
Architecture and Assembly of a Divergent Member of the ParM Family of Bacterial Actin-like Proteins | Q28946356 | ||
A robust algorithm for the reconstruction of helical filaments using single-particle methods | Q30306597 | ||
Are ParM filaments polar or bipolar? | Q30416466 | ||
The iterative helical real space reconstruction method: surmounting the problems posed by real polymers | Q30441328 | ||
Pushing and pulling in prokaryotic DNA segregation | Q34120912 | ||
The ParMRC system: molecular mechanisms of plasmid segregation by actin-like filaments | Q34138268 | ||
Bacterial mitosis: ParM of plasmid R1 moves plasmid DNA by an actin-like insertional polymerization mechanism. | Q34285646 | ||
Tubulin and FtsZ form a distinct family of GTPases | Q34471922 | ||
Direct membrane binding by bacterial actin MreB. | Q35185171 | ||
In vivo visualization of type II plasmid segregation: bacterial actin filaments pushing plasmids | Q36176596 | ||
Evolution of cytomotive filaments: the cytoskeleton from prokaryotes to eukaryotes. | Q37259743 | ||
Bacterial actin homolog ParM: arguments for an apolar, antiparallel double helix | Q42321421 | ||
Bacterial actin: architecture of the ParMRC plasmid DNA partitioning complex | Q42405775 | ||
Multi-resolution contour-based fitting of macromolecular structures | Q57975967 | ||
Electron Cryomicroscopy of E. coli Reveals Filament Bundles Involved in Plasmid DNA Segregation | Q57979488 | ||
Partitioning of plasmid R1. The ParM protein exhibits ATPase activity and interacts with the centromere-like ParR-parC complex | Q73497856 | ||
Improvements in the analysis of domain motions in proteins from conformational change: DynDom version 1.50 | Q78605578 | ||
Structural insights into FtsZ protofilament formation | Q81042807 | ||
P433 | issue | 1 | |
P304 | page(s) | 33-42 | |
P577 | publication date | 2013-02-24 | |
P1433 | published in | Journal of Structural Biology | Q3186947 |
P1476 | title | Structure of the ParM filament at 8.5Å resolution | |
P478 | volume | 184 |
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Q46275108 | Bacterial Actins |
Q27683843 | Bacterial actin MreB forms antiparallel double filaments |
Q64073921 | Conservation of conformational dynamics across prokaryotic actins |
Q27681561 | Crenactin fromPyrobaculum calidifontisis closely related to actin in structure and forms steep helical filaments |
Q33881285 | Direct and convenient measurement of plasmid stability in lab and clinical isolates of E. coli. |
Q34177902 | Mechanisms of plasmid segregation: have multicopy plasmids been overlooked? |
Q40077114 | Polymerization Dynamics of the Prophage-Encoded Actin-Like Protein AlpC Is Influenced by the DNA-Binding Adapter AlpA. |
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