| scholarly article | Q13442814 |
| P50 | author | Francois Cornet | Q71130793 |
| P2093 | author name string | Jenny E Emerson | |
| Viknesh Sivanathan | |||
| Carine Pages | |||
| David J Sherratt | |||
| Lidia K Arciszewska | |||
| P2860 | cites work | Molecular Mechanism of Sequence-Directed DNA Loading and Translocation by FtsK | Q27651751 |
| The new gene mukB codes for a 177 kd protein with coiled-coil domains involved in chromosome partitioning of E. coli | Q28264159 | ||
| Characterization of a prokaryotic SMC protein involved in chromosome partitioning | Q28269862 | ||
| FtsK Is a DNA motor protein that activates chromosome dimer resolution by switching the catalytic state of the XerC and XerD recombinases | Q28427479 | ||
| Identification of oligonucleotide sequences that direct the movement of the Escherichia coli FtsK translocase | Q30476379 | ||
| Cell-specific SpoIIIE assembly and DNA translocation polarity are dictated by chromosome orientation | Q30494865 | ||
| Only the N-terminal domain of FtsK functions in cell division | Q33736636 | ||
| Sister chromatid exchange frequencies in Escherichia coli analyzed by recombination at the dif resolvase site. | Q33743436 | ||
| Role of the C terminus of FtsK in Escherichia coli chromosome segregation | Q33743902 | ||
| Sequence-directed DNA export guides chromosome translocation during sporulation in Bacillus subtilis. | Q33911060 | ||
| Replication termination in Escherichia coli: structure and antihelicase activity of the Tus-Ter complex | Q33940331 | ||
| Chromosome segregation | Q34455319 | ||
| FtsK-dependent and -independent pathways of Xer site-specific recombination | Q34505366 | ||
| Effects of replication termination mutants on chromosome partitioning in Bacillus subtilis | Q34590865 | ||
| FtsK functions in the processing of a Holliday junction intermediate during bacterial chromosome segregation. | Q35208023 | ||
| Plasmid pSC101 harbors a recombination site, psi, which is able to resolve plasmid multimers and to substitute for the analogous chromosomal Escherichia coli site dif. | Q36107933 | ||
| Diverse paths to midcell: assembly of the bacterial cell division machinery | Q36187570 | ||
| Cloning and location of the dgsA gene of Escherichia coli | Q36364550 | ||
| FtsK, a literate chromosome segregation machine | Q36826102 | ||
| RecA-dependent mutants in Escherichia coli reveal strategies to avoid chromosomal fragmentation. | Q37621630 | ||
| KOPS: DNA motifs that control E. coli chromosome segregation by orienting the FtsK translocase | Q39491027 | ||
| Synthetic lethal phenotypes caused by mutations affecting chromosome partitioning in Bacillus subtilis | Q39497623 | ||
| A mutation in the ftsK gene of Escherichia coli affects cell-cell separation, stationary-phase survival, stress adaptation, and expression of the gene encoding the stress protein UspA. | Q39847240 | ||
| Decatenation of DNA circles by FtsK-dependent Xer site-specific recombination | Q40323795 | ||
| Site-specific recombination in the replication terminus region of Escherichia coli: functional replacement of dif | Q40806309 | ||
| Unlinking chromosome catenanes in vivo by site-specific recombination. | Q41944169 | ||
| The FtsK gamma domain directs oriented DNA translocation by interacting with KOPS. | Q42151292 | ||
| A dual role for the FtsK protein in Escherichia coli chromosome segregation. | Q42583753 | ||
| MukB colocalizes with the oriC region and is required for organization of the two Escherichia coli chromosome arms into separate cell halves | Q42911216 | ||
| Dissection of a functional interaction between the DNA translocase, FtsK, and the XerD recombinase | Q43251035 | ||
| Switching catalytic activity in the XerCD site-specific recombination machine | Q43729997 | ||
| A new in vivo termination function for DNA polymerase I of Escherichia coli K12. | Q45307988 | ||
| Identification of two new genes, mukE and mukF, involved in chromosome partitioning in Escherichia coli | Q48066115 | ||
| dif, a recA-independent recombination site in the terminus region of the chromosome of Escherichia coli | Q48217431 | ||
| Cell division, guillotining of dimer chromosomes and SOS induction in resolution mutants (dif, xerC and xerD) of Escherichia coli. | Q52167787 | ||
| The cytoplasmic domain of FtsK protein is required for resolution of chromosome dimers. | Q52179251 | ||
| Delayed activation of Xer recombination at dif by FtsK during septum assembly in Escherichia coli. | Q53489693 | ||
| Selection for chromosome architecture in bacteria. | Q53627728 | ||
| Extent of the activity domain and possible roles of FtsK in the Escherichia coli chromosome terminus. | Q53674237 | ||
| Oriented loading of FtsK on KOPS. | Q54453678 | ||
| FtsK activities in Xer recombination, DNA mobilization and cell division involve overlapping and separate domains of the protein. | Q54496674 | ||
| Two related recombinases are required for site-specific recombination at dif and cer in E. coli K12. | Q54649603 | ||
| Escherichia coli XerC recombinase is required for chromosomal segregation at cell division. | Q54693462 | ||
| Double-Stranded DNA Translocation: Structure and Mechanism of Hexameric FtsK | Q57910320 | ||
| Bacillus subtilis spoIIIE protein required for DNA segregation during asymmetric cell division | Q57990639 | ||
| Functional polarization of the Escherichia coli chromosome terminus: the dif site acts in chromosome dimer resolution only when located between long stretches of opposite polarity | Q73665160 | ||
| DNA degradation in the terminus region of resolvase mutants of Escherichia coli, and suppression of this degradation and the Dif phenotype by recD | Q73692507 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Escherichia coli | Q25419 |
| P304 | page(s) | 1031-1042 | |
| P577 | publication date | 2009-01-01 | |
| P1433 | published in | Molecular Microbiology | Q6895967 |
| P1476 | title | KOPS-guided DNA translocation by FtsK safeguards Escherichia coli chromosome segregation | |
| P478 | volume | 71 |
| Q31026931 | A defined terminal region of the E. coli chromosome shows late segregation and high FtsK activity. |
| Q41986487 | A septal chromosome segregator protein evolved into a conjugative DNA-translocator protein |
| Q39318699 | Activation of Xer-recombination at dif: structural basis of the FtsKγ-XerD interaction |
| Q42787954 | Activation of XerCD-dif recombination by the FtsK DNA translocase |
| Q40827176 | Alignment-free detection of horizontal gene transfer between closely related bacterial genomes |
| Q34246721 | Are two better than one? Analysis of an FtsK/Xer recombination system that uses a single recombinase |
| Q55478398 | Chromosome architecture constrains horizontal gene transfer in bacteria. |
| Q37821754 | DNA motifs that sculpt the bacterial chromosome. |
| Q36991061 | FtsK actively segregates sister chromosomes in Escherichia coli |
| Q24608507 | Genome degeneration and adaptation in a nascent stage of symbiosis |
| Q42192918 | Genome segregation and packaging machinery in Acanthamoeba polyphaga mimivirus is reminiscent of bacterial apparatus. |
| Q37811187 | Helicobacter pylorichromosomal DNA replication: Current status and future perspectives |
| Q33355284 | Organization and segregation of bacterial chromosomes |
| Q42167006 | Replication termination and chromosome dimer resolution in the archaeon Sulfolobus solfataricus |
| Q53368530 | The Bacillus subtilis SftA (YtpS) and SpoIIIE DNA translocases play distinct roles in growing cells to ensure faithful chromosome partitioning. |
| Q42268886 | The Escherichia coli SMC complex, MukBEF, shapes nucleoid organization independently of DNA replication |
| Q38314054 | The Xer/dif site-specific recombination system of Campylobacter jejuni |
| Q38151884 | The bacterial chromosome: architecture and action of bacterial SMC and SMC-like complexes. |
| Q37488740 | The multifork Escherichia coli chromosome is a self-duplicating and self-segregating thermodynamic ring polymer. |
| Q41884551 | Two DNA translocases synergistically affect chromosome dimer resolution in Bacillus subtilis |
Search more.