scholarly article | Q13442814 |
P50 | author | Samuel Million-Weaver | Q82820521 |
P2093 | author name string | Manel Camps | |
P2860 | cites work | Bacterial chromosome segregation | Q83142841 |
Reconstitution of DNA segregation driven by assembly of a prokaryotic actin homolog | Q24601170 | ||
10 x '20 Progress--development of new drugs active against gram-negative bacilli: an update from the Infectious Diseases Society of America | Q24601746 | ||
Escherichia coli low-copy-number plasmid R1 centromere parC forms a U-shaped complex with its binding protein ParR | Q24648410 | ||
Colicin biology | Q24671701 | ||
Bacterial actins and their diversity | Q27001005 | ||
Structure and Filament Dynamics of the pSK41 Actin-like ParM Protein: IMPLICATIONS FOR PLASMID DNA SEGREGATION | Q27659237 | ||
A bipolar spindle of antiparallel ParM filaments drives bacterial plasmid segregation | Q27674856 | ||
The pUC plasmids, an M13mp7-derived system for insertion mutagenesis and sequencing with synthetic universal primers | Q28131744 | ||
Mechanisms of, and barriers to, horizontal gene transfer between bacteria | Q28270244 | ||
A novel role for site-specific recombination in maintenance of bacterial replicons | Q28277110 | ||
Bipolar localization of a chromosome partition protein in Bacillus subtilis | Q28488948 | ||
Modulation of ColE1-like plasmid replication for recombinant gene expression | Q28748298 | ||
Cell-free study of F plasmid partition provides evidence for cargo transport by a diffusion-ratchet mechanism | Q30538806 | ||
High-copy bacterial plasmids diffuse in the nucleoid-free space, replicate stochastically and are randomly partitioned at cell division. | Q30569014 | ||
New quantitative methods for measuring plasmid loss rates reveal unexpected stability | Q30574660 | ||
Introducing the bacterial 'chromid': not a chromosome, not a plasmid. | Q33524679 | ||
Effects of a recombinant gene expression on ColE1-like plasmid segregation in Escherichia coli. | Q33833147 | ||
Plasmid effects on Escherichia coli metabolism | Q33965399 | ||
Paradigms of plasmid organization | Q33994576 | ||
The art of selective killing: plasmid toxin/antitoxin systems and their technological applications | Q34013680 | ||
Pushing and pulling in prokaryotic DNA segregation | Q34120912 | ||
ATP control of dynamic P1 ParA-DNA interactions: a key role for the nucleoid in plasmid partition | Q34127956 | ||
The ParMRC system: molecular mechanisms of plasmid segregation by actin-like filaments | Q34138268 | ||
Plasmid addiction systems: perspectives and applications in biotechnology | Q34160193 | ||
Plasmids foster diversification and adaptation of bacterial populations in soil | Q34186192 | ||
Bacterial DNA segregation by dynamic SopA polymers | Q34201903 | ||
An analysis of the factory model for chromosome replication and segregation in bacteria | Q34278956 | ||
Bacterial mitosis: ParM of plasmid R1 moves plasmid DNA by an actin-like insertional polymerization mechanism. | Q34285646 | ||
Active stable maintenance functions in low copy-number plasmids of Gram-positive bacteria I. Partition systems | Q34355715 | ||
Silencing of genes flanking the P1 plasmid centromere | Q34488932 | ||
Impact of targeted vector design on Co/E1 plasmid replication | Q34635353 | ||
Chromosome replication and segregation in bacteria. | Q34641845 | ||
Defining the role of ATP hydrolysis in mitotic segregation of bacterial plasmids. | Q35075148 | ||
Centromere binding specificity in assembly of the F plasmid partition complex. | Q35224378 | ||
Multicopy plasmids are clustered and localized in Escherichia coli | Q35264445 | ||
The kinetics of plasmid loss | Q35290276 | ||
Plasmid copy number and plasmid stability | Q35747473 | ||
Localization of the naturally occurring plasmid ColE1 at the cell pole | Q35759410 | ||
Insensitivity of chromosome I and the cell cycle to blockage of replication and segregation of Vibrio cholerae chromosome II. | Q35953425 | ||
Oscillating focus of SopA associated with filamentous structure guides partitioning of F plasmid. | Q35987332 | ||
Advanced genetic strategies for recombinant protein expression in Escherichia coli | Q35988183 | ||
Spindle positioning by cortical pulling forces | Q36088848 | ||
In vivo visualization of type II plasmid segregation: bacterial actin filaments pushing plasmids | Q36176596 | ||
Mechanism of DNA segregation in prokaryotes: replicon pairing by parC of plasmid R1. | Q36203335 | ||
Plasmid R1--replication and its control | Q36274445 | ||
F plasmid ccd mechanism in Escherichia coli | Q36283783 | ||
A first global analysis of plasmid encoded proteins in the ACLAME database | Q36634372 | ||
Diversification and specialization of the bacterial cytoskeleton | Q36687804 | ||
Intracellular localization of P1 ParB protein depends on ParA and parS. | Q36775594 | ||
Plasmid selection in Escherichia coli using an endogenous essential gene marker. | Q36856568 | ||
Plasmid partition and incompatibility--the focus shifts | Q36917129 | ||
Plasmid segregation: how to survive as an extra piece of DNA. | Q37768422 | ||
Evaluating metabolic stress and plasmid stability in plasmid DNA production by Escherichia coli | Q37975786 | ||
The ABCs of plasmid replication and segregation. | Q38052448 | ||
Mechanisms that contribute to the stable segregation of plasmids | Q38763392 | ||
All 16 centromere DNAs from Saccharomyces cerevisiae show DNA curvature | Q39727484 | ||
Different relative importances of the par operons and the effect of conjugal transfer on the maintenance of intact promiscuous plasmid RK2. | Q39836752 | ||
Fine-structure analysis of the P7 plasmid partition site | Q39928910 | ||
Partitioning of a mini-F plasmid into anucleate cells of the mukB null mutant | Q39945577 | ||
Centromere parC of plasmid R1 is curved | Q40405337 | ||
Studies of single-chain antibody expression in quiescent Escherichia coli | Q40833107 | ||
Plasmid replication and partition in Escherichia coli: is the cell membrane the key? | Q41325837 | ||
Structure of the ParM filament at 8.5Å resolution | Q41611388 | ||
Mechanism of DNA segregation in prokaryotes: ParM partitioning protein of plasmid R1 co-localizes with its replicon during the cell cycle | Q41831997 | ||
Dual role of DNA in regulating ATP hydrolysis by the SopA partition protein. | Q41850144 | ||
Bacterial DNA segregation dynamics mediated by the polymerizing protein ParF. | Q41963127 | ||
Distribution of centromere-like parS sites in bacteria: insights from comparative genomics | Q42065969 | ||
Role of the ATP-binding site of SopA protein in partition of the F plasmid | Q43887433 | ||
Partitioning of plasmid R1. Structural and functional analysis of the parA locus | Q44138444 | ||
Partitioning of the F plasmid: overproduction of an essential protein for partition inhibits plasmid maintenance | Q44500431 | ||
Cell cycle-dependent polar localization of chromosome partitioning proteins in Caulobacter crescentus | Q46121025 | ||
Plasmid partitioning and the spreading of P1 partition protein ParB. | Q47640753 | ||
Replication of a bacterial plasmid and an episome in Escherichia coli | Q47781945 | ||
Bacterial mitosis: partitioning protein ParA oscillates in spiral-shaped structures and positions plasmids at mid-cell | Q47814289 | ||
The F plasmid CcdB protein induces efficient ATP-dependent DNA cleavage by gyrase. | Q54223810 | ||
Multimerization of high copy number plasmids causes instability: Cole 1 encodes a determinant essential for plasmid monomerization and stability | Q54477200 | ||
Subcellular distribution of actively partitioning F plasmid during the cell division cycle in E. coli. | Q54558803 | ||
Partition functions of mini-F affect plasmid DNA topology in Escherichia coli. | Q54616869 | ||
Partitioning of plasmid R1. The parA operon is autoregulated by ParR and its transcription is highly stimulated by a downstream activating element. | Q54637821 | ||
Partitioning of plasmid R1. Ten direct repeats flanking the parA promoter constitute a centromere-like partition site parC, that expresses incompatibility. | Q54637826 | ||
Lon-dependent proteolysis of CcdA is the key control for activation of CcdB in plasmid-free segregant bacteria. | Q54639171 | ||
Multicopy plasmid instability: the dimer catastrophe hypothesis. | Q54656527 | ||
Effects of plasmid copy number and runaway plasmid replication on overproduction and excretion of beta-lactamase from Escherichia coli. | Q54665644 | ||
ATPase activity of SopA, a protein essential for active partitioning of F plasmid. | Q54673752 | ||
Replication of a bacterial episome under relaxed control | Q54685517 | ||
Stabilizing plasmid copy number to improve recombinant protein production | Q58840824 | ||
Polymerization of SopA partition ATPase: regulation by DNA binding and SopB | Q59446829 | ||
Control of cole 1 plasmid replication: Enhancement of binding of RNA I to the primer transcript by the rom protein | Q72747501 | ||
Role of the mukB gene in chromosome and plasmid partition in Escherichia coli | Q73167642 | ||
Effect of growth rate and incC mutation on symmetric plasmid distribution by the IncP-1 partitioning apparatus | Q73189419 | ||
Subcellular localization of plasmids containing the oriC region of the Escherichia coli chromosome, with or without the sopABC partitioning system | Q73189468 | ||
Partitioning of plasmid R1. The ParM protein exhibits ATPase activity and interacts with the centromere-like ParR-parC complex | Q73497856 | ||
Clustering versus random segregation of plasmids lacking a partitioning function: a plasmid paradox? | Q73837280 | ||
Plasmid maintenance in Escherichia coli recombinant cultures is dramatically, steadily, and specifically influenced by features of the encoded proteins | Q74660064 | ||
Timing, self-control and a sense of direction are the secrets of multicopy plasmid stability | Q77394575 | ||
Toxin-antitoxin pairs in bacteria: killers or stress regulators? | Q78789976 | ||
P921 | main subject | oversight | Q60697989 |
P304 | page(s) | 27-36 | |
P577 | publication date | 2014-08-07 | |
P1433 | published in | Plasmid | Q15754448 |
P1476 | title | Mechanisms of plasmid segregation: have multicopy plasmids been overlooked? | |
P478 | volume | 75 |
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