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Your search keyword '"Grimwade, Julia E."' showing total 43 results
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43 results on '"Grimwade, Julia E."'

10. Replication and segregation of a miniF plasmid during the division cycle of Escherichia coli

Author

Helmstetter, Charles E., Thornton, Maureen, Zhou, Ping, Bogan, Joseph A., Leonard, Alan C., and Grimwade, Julia E.

Subjects
Plasmids -- Genetic aspects, Chromosome replication -- Genetic aspects, Cell division -- Genetic aspects, Escherichia coli -- Genetic aspects, Biological sciences
Abstract

The replication of F plasmids in the division cycle of Escherichia coli cells was analyzed with pML31 plasmids to determine the relationship between replication control and plasmid segregation. Analysis pML31 miniF plasmid replication in Escherichia coli cells indicated the similar replication rates between the F plasmid and pBR322 at all stages of the division cycle. However, the segregation of pML31 in daughter cells was different from that of pBR322. Furthermore, pML31 segregated in a nonrandom manner similar to minichromosomes and chromosomes.

Published
1997

29. Nucleotide-Induced Conformational Changes in Escherichia coli DnaA Protein Are Required for Bacterial ORC to Pre-RC Conversion at the Chromosomal Origin.

Author

Saxena, Rahul, Vasudevan, Sona, Patil, Digvijay, Ashoura, Norah, Grimwade, Julia E., and Crooke, Elliott

Subjects
ESCHERICHIA coli DNA, BACTERIAL genetics, ESCHERICHIA coli, CONFORMATIONAL analysis, MOLECULAR docking, PROTEOLYSIS, DNA replication
Abstract

DnaA oligomerizes when bound to origins of chromosomal replication. Structural analysis of a truncated form of DnaA from Aquifex aeolicus has provided insight into crucial conformational differences within the AAA+ domain that are specific to the ATP-versus ADP-bound form of DnaA. In this study molecular docking of ATP and ADP onto Escherichia coli DnaA, modeled on the crystal structure of Aquifex aeolicus DnaA, reveals changes in the orientation of amino acid residues within or near the vicinity of the nucleotide-binding pocket. Upon limited proteolysis with trypsin or chymotrypsin ADP-DnaA, but not ATP-DnaA generated relatively stable proteolytic fragments of various sizes. Examined sites of limited protease susceptibility that differ between ATP-DnaA and ADP-DnaA largely reside in the amino terminal half of DnaA. The concentration of adenine nucleotide needed to induce conformational changes, as detected by these protease susceptibilities of DnaA, coincides with the conversion of an inactive bacterial origin recognition complex (bORC) to a replication efficient pre-replication complex (pre-RC) at the E. coli chromosomal origin of replication (oriC). [ABSTRACT FROM AUTHOR]

Published
2015
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39. IHF redistributes bound initiator protein, DnaA, on supercoiled oriC ofEscherichia coli.

Author

Grimwade, Julia E., Ryan, Valorie T., and Leonard, Alan C.

Subjects
*BACTERIAL genetics, *ESCHERICHIA coli, *CHROMOSOME replication
Abstract

In Escherichia coli, initiation of chromosome replication requires that DnaA binds to R boxes (9-mer repeats) in oriC, the unique chromosomal replication origin. At the time of initiation, integration host factor (IHF) also binds to a specific site in oriC. IHF stimulates open complex formation by DnaA on supercoiled oriC in cell-free replication systems, but it is unclear whether this stimulation involves specific changes in the oriC nucleoprotein complex. Using dimethylsulphate (DMS) footprinting on supercoiled oriC plasmids, we observed that IHF redistributed prebound DnaA, stimulating binding to sites R2, R3 and R5(M), as well as to three previously unidentified non-R sites with consensus sequence (A/T)G(G/C) (A/T)N(G/C)G(A/T)(A/T)(T/C)A. Redistribution was dependent on IHF binding to its cognate site and also required a functional R4 box. By reducing the DnaA level required to separate DNA strands and trigger initiation of DNA replication at each origin, IHF eliminates competition between strong and weak sites for free DnaA and enhances the precision of initiation synchrony during the cell cycle. [ABSTRACT FROM AUTHOR]

Published
2000
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