All Stories

  1. Metabolic control of DNA replication: mechanism and function
  2. The Replicative DnaE Polymerase of Bacillus subtilis Recruits the Glycolytic Pyruvate Kinase (PykA) When Bound to Primed DNA Templates
  3. Control of DNA replication by a glycolytic enzyme
  4. A hub linking DNA replication to carbon metabolism
  5. Inter- and intra-cellular diversity of bacterial metabolism
  6. Links between central carbon metabolism and DNA replication
  7. Correction to ‘Interactions of the Bacillus subtilis DnaE polymerase with replisomal proteins modulate its activity and fidelity’
  8. The activity of the lagging strand DNA polymerase DnaE is stimulated in the replisome
  9. Combining combing and secondary ion mass spectrometry to study DNA on chips using 13C and 15N labeling
  10. The DnaE polymerase, DnaG primase and DnaC helicase form a complex during lagging strand synthesis
  11. Genetic link between central carbon metabolism and DNA replication in E. coli
  12. Combed Single DNA Molecules Imaged by Secondary Ion Mass Spectrometry
  13. Genetic relationship between metabolism and DNA replication
  14. Toward a Hyperstructure Taxonomy
  15. Genetic evidence for a link between glycolysis and DNA replication
  16. Functional Taxonomy of Bacterial Hyperstructures
  17. The replicative polymerases PolC and DnaE are required for theta replication of the Bacillus subtilis plasmid pBS72
  18. Biochemical characterization of the second essential B. subtilis DNA polymerase
  19. Identification of a new vector for Synthetic Biology in Bacillus subtilis
  20. Two DNA polymerases at a bacterial replication fork
  21. The RepE Initiator Is a Double-stranded and Single-stranded DNA-binding Protein That Forms an Atypical Open Complex at the Onset of Replication of Plasmid pAMβ1 from Gram-positive Bacteria
  22. Inhibition of a naturally occurring rolling-circle replicon in derivatives of the theta-replicating plasmid pIP501
  23. Effect of a topoisomerase of type I on plasmid replication in Bacillus subtilis
  24. Replication terminus for DNA polymerase I during initiation of pAMβ1 replication: role of the plasmid-encoded resolution system
  25. In vivo analysis of the plasmid pAM beta 1 resolution system
  26. Countertranscript-driven attenuation system of the pAM?1 repE gene
  27. pAMβ1 resolvase has an atypical recombination site and requires a histone-like protein HU
  28. Primosome assembly site in Bacillus subtilis.
  29. The pAM?1 CopF repressor regulates plasmid copy number by controlling transcription of the repE gene
  30. The Promiscuous Plasmids pIP501 and pAMβ1 from Gram-Positive Bacteria Encode Complementary Resolution Functions
  31. A fourth class of theta-replicating plasmids: the pAM beta 1 family from gram-positive bacteria.
  32. Biochemical and Genetic Analysis of the Unidirectional Theta Replication of the S. agalactiae Plasmid pIP501
  33. Characterization of a region of the Enterococcus faecalis plasmid pAMβ1 which enhances the segregational stability of pAMβ1-derived cloning vectors in Bacillus subtilis
  34. Plasmid replication and structural stability in Bacillus subtilis
  35. Characterization of cloning vectors for Synthetic Biology in Gram-positive bacteria
  36. A METHOD FOR DETECTING UNIDIRECTIONAL THETA REPLICATION IN BACILLUS SUBTILIS PLASMIDS
  37. Tn10-derived transposons active in Bacillus subtilis.
  38. DNA RECOMBINATION IN PLASMIDS AND THE CHROMOSOME OF BACILLUS SUBTILIS
  39. Structural Instability of Bacillus Subtilis Plasmids
  40. Stable gene amplification in the chromosome of Bacillus subtilis
  41. Repeated DNA Sequences Recombine 1,000 Times More Frequently in a Plasmid Than in the Chromosome of Bacillus Subtilis
  42. Plasmid Replication and Copy Number Control