| scholarly article | Q13442814 |
| P2093 | author name string | Barbara E Funnell | |
| Kiyoshi Mizuuchi | |||
| Michiyo Mizuuchi | |||
| Yong-Woon Han | |||
| Anthony G Vecchiarelli | |||
| Ling Chin Hwang | |||
| Yoshie Harada | |||
| P2860 | cites work | Streptococcus pyogenes pSM19035 requires dynamic assembly of ATP-bound ParA and ParB on parS DNA during plasmid segregation | Q27650598 |
| Probing the ATP-binding site of P1 ParA: partition and repression have different requirements for ATP binding and hydrolysis. | Q28348491 | ||
| Movement and equipositioning of plasmids by ParA filament disassembly | Q30491600 | ||
| Cell-free study of F plasmid partition provides evidence for cargo transport by a diffusion-ratchet mechanism | Q30538806 | ||
| P1 plasmid segregation: accurate redistribution by dynamic plasmid pairing and separation. | Q33648662 | ||
| The double par locus of virulence factor pB171: DNA segregation is correlated with oscillation of ParA. | Q33952913 | ||
| Phage Mu transposition immunity: protein pattern formation along DNA by a diffusion-ratchet mechanism | Q34013767 | ||
| ATP control of dynamic P1 ParA-DNA interactions: a key role for the nucleoid in plasmid partition | Q34127956 | ||
| Bacterial DNA segregation by dynamic SopA polymers | Q34201903 | ||
| Molecular anatomy of the Streptococcus pyogenes pSM19035 partition and segrosome complexes. | Q34779462 | ||
| Oscillating focus of SopA associated with filamentous structure guides partitioning of F plasmid. | Q35987332 | ||
| Soj (ParA) DNA binding is mediated by conserved arginines and is essential for plasmid segregation | Q36299930 | ||
| Plasmid segregation mechanisms | Q36312215 | ||
| Surfing biological surfaces: exploiting the nucleoid for partition and transport in bacteria | Q36346800 | ||
| Intracellular localization of P1 ParB protein depends on ParA and parS. | Q36775594 | ||
| ATP-regulated interactions between P1 ParA, ParB and non-specific DNA that are stabilized by the plasmid partition site, parS. | Q40395232 | ||
| Bacterial chromosome segregation: structure and DNA binding of the Soj dimer--a conserved biological switch | Q40950045 | ||
| P1 ParA interacts with the P1 partition complex at parS and an ATP-ADP switch controls ParA activities | Q41838980 | ||
| Biochemical activities of the parA partition protein of the P1 plasmid | Q41931454 | ||
| Bacterial DNA segregation dynamics mediated by the polymerizing protein ParF. | Q41963127 | ||
| F plasmid partition depends on interaction of SopA with non-specific DNA. | Q42442508 | ||
| Plasmid partitioning and the spreading of P1 partition protein ParB. | Q47640753 | ||
| Subcellular positioning of F plasmid mediated by dynamic localization of SopA and SopB. | Q51956214 | ||
| Partitioning of P1 plasmids by gradual distribution of the ATPase ParA. | Q53288337 | ||
| P1 partition complex assembly involves several modes of protein-DNA recognition. | Q53570382 | ||
| ATPase activity of SopA, a protein essential for active partitioning of F plasmid. | Q54673752 | ||
| The P1 plasmid partition protein ParA. A role for ATP in site-specific DNA binding | Q61959644 | ||
| Altered ParA partition proteins of plasmid P1 act via the partition site to block plasmid propagation | Q73831965 | ||
| Autoregulation of the partition genes of the mini-F plasmid and the intracellular localization of their products in Escherichia coli | Q74406510 | ||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | self-organization | Q609408 |
| P304 | page(s) | 1238-1249 | |
| P577 | publication date | 2013-02-26 | |
| P1433 | published in | The EMBO Journal | Q1278554 |
| P1476 | title | ParA-mediated plasmid partition driven by protein pattern self-organization | |
| P478 | volume | 32 |
| Q59134878 | A conserved mechanism drives partition complex assembly on bacterial chromosomes and plasmids |
| Q34466603 | A moving ParA gradient on the nucleoid directs subcellular cargo transport via a chemophoresis force |
| Q41627253 | A novel nucleoid-associated protein coordinates chromosome replication and chromosome partition |
| Q30575534 | A propagating ATPase gradient drives transport of surface-confined cellular cargo |
| Q41883961 | A three-dimensional ParF meshwork assembles through the nucleoid to mediate plasmid segregation |
| Q35858420 | Arabidopsis PCH2 Mediates Meiotic Chromosome Remodeling and Maturation of Crossovers |
| Q57143652 | Bacterial chromosome organization and segregation |
| Q33627231 | Bacterial scaffold directs pole-specific centromere segregation |
| Q47122291 | Bactofilin-mediated organization of the ParABS chromosome segregation system in Myxococcus xanthus |
| Q40404363 | Breaking and restoring the hydrophobic core of a centromere-binding protein. |
| Q39320892 | Brownian ratchet mechanisms of ParA-mediated partitioning |
| Q30538806 | Cell-free study of F plasmid partition provides evidence for cargo transport by a diffusion-ratchet mechanism |
| Q92295508 | Chromosome Dynamics in Bacteria: Triggering Replication at the Opposite Location and Segregation in the Opposite Direction |
| Q30553117 | Chromosome replication and segregation govern the biogenesis and inheritance of inorganic polyphosphate granules |
| Q35186382 | Chromosome segregation in Vibrio cholerae |
| Q34454620 | Competing ParA structures space bacterial plasmids equally over the nucleoid |
| Q90452619 | Crystal structures of HpSoj-DNA complexes and the nucleoid-adaptor complex formation in chromosome segregation |
| Q37469320 | DNA-relay mechanism is sufficient to explain ParA-dependent intracellular transport and patterning of single and multiple cargos |
| Q34504462 | Directed and persistent movement arises from mechanochemistry of the ParA/ParB system |
| Q42155279 | Dissection of the ATPase active site of P1 ParA reveals multiple active forms essential for plasmid partition |
| Q41879084 | Dissection of the region of Pseudomonas aeruginosa ParA that is important for dimerization and interactions with its partner ParB |
| Q33794447 | Evidence for a DNA-relay mechanism in ParABS-mediated chromosome segregation |
| Q41016827 | Functional amyloids as inhibitors of plasmid DNA replication |
| Q96954789 | Genome Segregation by the Venus Flytrap Mechanism: Probing the Interaction Between the ParF ATPase and the ParG Centromere Binding Protein |
| Q40553845 | How to build segregation complexes in bacteria: Use bridges |
| Q37122027 | Mapping the driving forces of chromosome structure and segregation in Escherichia coli |
| Q28661556 | Microcompartments and protein machines in prokaryotes |
| Q40856845 | Molecular Anatomy of ParA-ParA and ParA-ParB Interactions during Plasmid Partitioning |
| Q34559298 | Multiple enzymatic activities of ParB/Srx superfamily mediate sexual conflict among conjugative plasmids |
| Q38739766 | Novel Chromosome Organization Pattern in Actinomycetales-Overlapping Replication Cycles Combined with Diploidy |
| Q35687769 | ParAB Partition Dynamics in Firmicutes: Nucleoid Bound ParA Captures and Tethers ParB-Plasmid Complexes. |
| Q89799310 | ParB spreading on DNA requires cytidine triphosphate in vitro |
| Q41583324 | Phage-host interactions during pseudolysogeny: Lessons from the Pid/dgo interaction. |
| Q40338121 | Plasmid partition: sisters drifting apart |
| Q37687672 | Plasmid segregation by a moving ATPase gradient |
| Q60912460 | Protein gradients on the nucleoid position the carbon-fixing organelles of cyanobacteria |
| Q47568435 | Reconstituting ParA/ParB-mediated transport of DNA cargo. |
| Q92174804 | Reconstitution and Coupling of DNA Replication and Segregation in a Biomimetic System |
| Q58785299 | Regulation of Pom cluster dynamics in Myxococcus xanthus |
| Q38227154 | Regulation of cell polarity in bacteria |
| Q92661742 | Rules and Exceptions: The Role of Chromosomal ParB in DNA Segregation and Other Cellular Processes |
| Q57643467 | SMC condensin: promoting cohesion of replicon arms |
| Q38717403 | Self-propulsion and interactions of catalytic particles in a chemically active medium. |
| Q33568806 | Structures of partition protein ParA with nonspecific DNA and ParB effector reveal molecular insights into principles governing Walker-box DNA segregation |
| Q50420153 | Subcellular Organization: A Critical Feature of Bacterial Cell Replication |
| Q34144533 | Switching modes of chromosome dynamics in the bacterial cell cycle |
| Q27303744 | Synergistic effect of ATP for RuvA-RuvB-Holliday junction DNA complex formation. |
| Q37627363 | The SMC condensin complex is required for origin segregation in Bacillus subtilis. |
| Q37034795 | The Slow Mobility of the ParA Partitioning Protein Underlies Its Steady-State Patterning in Caulobacter |
| Q38924256 | The application of fluorescence-conjugated pyrrole/imidazole polyamides in the characterization of protein-DNA complex formation |
| Q34393639 | The bacterial cytoplasm has glass-like properties and is fluidized by metabolic activity |
| Q49926985 | The genome sequence of Escherichia coli tailed phage D6 and the diversity of Enterobacteriales circular plasmid prophages |
| Q48127837 | The studies of ParA and ParB dynamics reveal asymmetry of chromosome segregation in mycobacteria |
| Q92134002 | Two-step chromosome segregation in the stalked budding bacterium Hyphomonas neptunium |
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