scholarly article | Q13442814 |
P50 | author | Gloria del Solar | Q42121507 |
José A Ruiz-Masó | Q75272124 | ||
P2093 | author name string | Ramón Díaz-Orejas | |
Luis M Luengo | |||
Inmaculada Moreno-Córdoba | |||
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Repressor CopG prevents access of RNA polymerase to promoter and actively dissociates open complexes. | Q42095432 | ||
Interactions between the RepB initiator protein of plasmid pMV158 and two distant DNA regions within the origin of replication. | Q42854097 | ||
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Role of the Rom Protein in Copy Number Control of Plasmid pBR322 at Different Growth Rates inEscherichia coliK-12 | Q57695264 | ||
Structural features of the initiator of replication protein RepB encoded by the promiscuous plasmid pMV158 | Q59385674 | ||
Fitness of the pMV158 replicon in Streptococcus pneumoniae | Q62019574 | ||
Transformation of Staphylococcus epidermidis and other staphylococcal species with plasmid DNA by electroporation | Q68501944 | ||
Plasmid pLS1-encoded RepA protein regulates transcription from repAB promoter by binding to a DNA sequence containing a 13-base pair symmetric element | Q68860398 | ||
Plasmid repopulation kinetics in Staphylococcus aureus | Q69003982 | ||
Control of replication of FII plasmids: comparison of the basic replicons and of the copB systems of plasmids R100 and R1 | Q69894166 | ||
Replication control of plasmid pLS1: efficient regulation of plasmid copy number is exerted by the combined action of two plasmid components, CopG and RNA II | Q71575660 | ||
Genome of the Bacterium Streptococcus pneumoniae Strain R6 | Q22065464 | ||
Kid cleaves specific mRNAs at UUACU sites to rescue the copy number of plasmid R1 | Q24536942 | ||
Stable inheritance of plasmid R1 requires two different loci | Q24669687 | ||
Plasmid replication initiator RepB forms a hexamer reminiscent of ring helicases and has mobile nuclease domains | Q27655468 | ||
Construction and characterization of amplifiable multicopy DNA cloning vehicles derived from the P15A cryptic miniplasmid | Q29614535 | ||
Primer3--new capabilities and interfaces | Q29614816 | ||
High efficiency transformation of E. coli by high voltage electroporation | Q29615278 | ||
Identification of tetracycline-resistant R-plasmids in Streptococcus agalactiae (group B) | Q33736201 | ||
Multiple homeostatic mechanisms in the control of P1 plasmid replication | Q33864292 | ||
Plasmid copy number control: an ever-growing story | Q33994582 | ||
Antisense RNAs in bacteria and their genetic elements | Q34121867 | ||
Initiation signals for the conversion of single stranded to double stranded DNA forms in the streptococcal plasmid pLS1. | Q34692380 | ||
Plasmid R1--replication and its control | Q36274445 | ||
Physical and genetic analyses of streptococcal plasmid pAM beta 1 and cloning of its replication region. | Q36297349 | ||
Facilitation of Plasmid Transfer in Streptococcus pneumoniae by Chromosomal Homology | Q36310116 | ||
Cloning of chromosomal genes in Streptococcus pneumoniae | Q36379645 | ||
Replication-specific conversion of the Staphylococcus aureus pT181 initiator protein from an active homodimer to an inactive heterodimer | Q37638219 | ||
Control of plasmid replication--how do DNA iterons set the replication frequency? | Q38012140 | ||
The structure of plasmid-encoded transcriptional repressor CopG unliganded and bound to its operator | Q38330387 | ||
Purification and characterization of the CopB replication control protein, and precise mapping of its target site in the R1 plasmid | Q38351010 | ||
Conformational plasticity of RepB, the replication initiator protein of promiscuous streptococcal plasmid pMV158. | Q38430334 | ||
Plasmid Replication Control by Antisense RNAs | Q38535700 | ||
Plasmid Rolling-Circle Replication. | Q38536027 | ||
Complementary specificity of restriction endonucleases of Diplococcus pneumoniae with respect to DNA methylation | Q39165718 | ||
Aromatic-dependent Salmonella typhimurium are non-virulent and effective as live vaccines | Q39513114 | ||
Clustering of genes involved in replication, copy number control, incompatibility, and stable maintenance of the resistance plasmid R1drd-19. | Q39978177 | ||
Control of replication of bacterial plasmids: Genetics, molecular biology, and physiology of the plasmid R1 system | Q40112314 | ||
Enhancements and modifications of primer design program Primer3. | Q40230955 | ||
Effect of the CopB auxiliary replication control system on stability of maintenance of Par(+) plasmid R1. | Q40377258 | ||
The 5'-tail of antisense RNAII of pMV158 plays a critical role in binding to the target mRNA and in translation inhibition of repB. | Q41107755 | ||
Coupling between the basic replicon and the Kis-Kid maintenance system of plasmid R1: modulation by Kis antitoxin levels and involvement in control of plasmid replication | Q41494477 | ||
The ParB-parS Chromosome Segregation System Modulates Competence Development in Streptococcus pneumoniae | Q41497684 | ||
P304 | page(s) | 2367 | |
P577 | publication date | 2017-12-01 | |
P1433 | published in | Frontiers in Microbiology | Q27723481 |
P1476 | title | Successful Establishment of Plasmids R1 and pMV158 in a New Host Requires the Relief of the Transcriptional Repression of Their Essential rep Genes | |
P478 | volume | 8 |
Q91811411 | Combining Modules for Versatile and Optimal Labeling of Lactic Acid Bacteria: Two pMV158-Family Promiscuous Replicons, a Pneumococcal System for Constitutive or Inducible Gene Expression, and Two Fluorescent Proteins | cites work | P2860 |
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