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5. List of Contributors

Author

Azziz, Ricardo, primary, Balser, Jeffrey R., additional, Berg, Jeremy M., additional, Berk, Bradford C., additional, Berkman, Ron, additional, Braddock, Clarence H., additional, Brandt, Barbara F., additional, Cerra, Frank B., additional, Chisholm, Rex L., additional, Clancy, Carolyn M., additional, Clarke, Robert, additional, Colenda, Christopher C., additional, Collins, Michael F., additional, Combs, C. Donald, additional, Crooke, Elliott, additional, Crowley, Rebecca S., additional, DeMarco, Deborah M., additional, Drezner, Marc K., additional, Du, Weiwei, additional, Dzau, Victor J., additional, ElLaissi, William F., additional, Fall, Leslie, additional, Federoff, Howard J., additional, Flotte, Terence R., additional, Garson, Arthur, additional, Gershen, Jay, additional, Gibson, Ellen F., additional, Golden, Robert N., additional, Grossman, Jeffrey E., additional, Hall, Randolph, additional, Haywood, Sonja, additional, Hou, Jianlin, additional, Johnson, Craig, additional, Kaiser, Larry R., additional, Ke, Yang, additional, Kester, Kent E., additional, Kienholz, Michelle L., additional, King, Landon S., additional, Kneeland, Michael D., additional, Lahey, Tim, additional, Levine, Arthur S., additional, Merlino, James, additional, Meskó, Bertalan, additional, Miller, Edward D., additional, Moss, Richard L., additional, Mullins, C. Daniel, additional, Neilson, Eric G., additional, Newhouse, Robin, additional, Noyes, Katia I., additional, Ogrinc, Greg, additional, Perman, Jay A., additional, Petty, Elizabeth M., additional, Peyre, Sarah E., additional, Pizzo, Philip A., additional, Pomeroy, Claire, additional, Prober, Charles G., additional, Rahn, Daniel W., additional, Reeves, Susan, additional, Remington, Patrick L., additional, Rice, Charles L., additional, Rothman, Paul B., additional, Sanfilippo, Fred, additional, Seymour-Route, Paulette A., additional, Simons, Rich, additional, Sinkford, Jeanne C., additional, Souba, Wiley “Chip”, additional, Stead, William W., additional, Stevenson, Katy A., additional, Sullivan, Louis, additional, Sun, Qiudan, additional, Susman, Jeffrey L., additional, Udayakumar, Krishna, additional, Verma, Sarita, additional, Wartman, Steven A., additional, Whiteside, Catharine, additional, and Zhang, Lei, additional

Published
2015
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16. DnaA, the initiator of Escherichia coli chromosomal replication, is located at the cell membrane

Author

Newman, Gillian and Crooke, Elliott

Subjects
Chromosome replication -- Physiological aspects, DNA binding proteins -- Physiological aspects, Membrane proteins -- Analysis, Escherichia coli -- Research, Biological sciences
Abstract

Results demonstrate that DnaA is membrane-bound consistent with the finding that it requires phospholipids in a lipid bilayer to convert from inactive to an active replicative form.

Published
2000

17. Electrostatic interactions during acidic phospholipid reactivation of DnaA protein, the Escherichia coli initiator of chromosomal replication

Author

Kitchen, Jennifer L., Li, Zhenya, and Crooke, Elliott

Subjects
Escherichia coli -- Genetic aspects, Nucleoproteins -- Research, Bacterial proteins -- Research, Protein binding -- Research, Bacterial genetics -- Research, Biological sciences, Chemistry
Abstract

The role of electrostatic forces in the interaction of DnaA protein and lipid in Escherichia coli has been studied through flotation gradient ultracentrifugation and intrinsic tryptophan fluorescence. DNA initiates chromosomal replication in E coli but is influenced by the behavior of the lipids. Results indicate that anionic phospholipids are needed in DnaA-lipid binding but is inhibited by increasing ionic strength. This finding suggests that electrostatic forces have a role to play in DnaA-lipid binding.

Published
1999

19. The initiator function of DnaA protein is negatively regulated by the sliding clamp of the E. coli chromosomal replicase

Author

Katayama, Tsutomu, Kubota, Toshio, Kurokawa, Kenji, Crooke, Elliott, and Sekimizu, Kazuhisa

Subjects
Chromosomal proteins -- Research, DNA -- Research, Chromosome replication -- Research, Escherichia coli -- Genetic aspects, Biological sciences
Abstract

The beta subunit of DNA polymerase III in Escherichia coli is essential for negative regulation of the initiator protein, DnaA. This ability to inactivate DnaA depends on the beta subunit's assembly as a sliding clamp on DNA and a partially purified factor IdaB protein. The DnaA inactivation is further stimulated by DNA synthesis, suggesting a close linkage between initiator inactivation and replication. In vivo, DnaA takes on the ADP form. This supports the hypothesis that the initiator is negatively regulated by action of the replicase.

Published
1998

21. Regulation of chromosomal replication in E. coli: sequestration and beyond

Author

Crooke, Elliott

Subjects
Escherichia coli -- Observations, Chromosome replication -- Research, Biological sciences
Abstract

The timing of the replication of the Escherichia coli chromosome depends on methylated form of oriC, SeqA protein, DnaA protein and acidic phospholipids. Methylated oriC stimulates transcription while the SeqA protein inhibits transcription. Inhibition of replication is either due to the binding of SeqA to oriC to stop the formation of an open complex or by controlling the activity of the DnaA protein, an inhibiting factor. The acidic phospholipids and oriC converts the inactive ADP-DnaA form into the active ATP-bound form. Sequestering prevents replication in recently formed fragments.

Published
1995

27. A Novel Inositol Pyrophosphate Phosphatase in Saccharomyces cerevisiae: Siw14 PROTEIN SELECTIVELY CLEAVES THE β-PHOSPHATE FROM 5-DIPHOSPHOINOSITOL PENTAKISPHOSPHATE (5PP-IP5)*

Author

Steidle, Elizabeth A., Chong, Lucy S., Wu, Mingxuan, Crooke, Elliott, Fiedler, Dorothea, Resnick, Adam C., and Rolfes, Ronda J.

Subjects
Phosphotransferases (Phosphate Group Acceptor), Saccharomyces cerevisiae Proteins, Inositol Phosphates, Genetic Complementation Test, Cell Biology, Saccharomyces cerevisiae, Recombinant Proteins, Substrate Specificity, Kinetics, Gene Expression Regulation, Fungal, Escherichia coli, Cloning, Molecular, Protein Tyrosine Phosphatases, Gene Deletion, Signal Transduction
Abstract

Inositol pyrophosphates are high energy signaling molecules involved in cellular processes, such as energetic metabolism, telomere maintenance, stress responses, and vesicle trafficking, and can mediate protein phosphorylation. Although the inositol kinases underlying inositol pyrophosphate biosynthesis are well characterized, the phosphatases that selectively regulate their cellular pools are not fully described. The diphosphoinositol phosphate phosphohydrolase enzymes of the Nudix protein family have been demonstrated to dephosphorylate inositol pyrophosphates; however, the Saccharomyces cerevisiae homolog Ddp1 prefers inorganic polyphosphate over inositol pyrophosphates. We identified a novel phosphatase of the recently discovered atypical dual specificity phosphatase family as a physiological inositol pyrophosphate phosphatase. Purified recombinant Siw14 hydrolyzes the β-phosphate from 5-diphosphoinositol pentakisphosphate (5PP-IP5 or IP7) in vitro. In vivo, siw14Δ yeast mutants possess increased IP7 levels, whereas heterologous SIW14 overexpression eliminates IP7 from cells. IP7 levels increased proportionately when siw14Δ was combined with ddp1Δ or vip1Δ, indicating independent activity by the enzymes encoded by these genes. We conclude that Siw14 is a physiological phosphatase that modulates inositol pyrophosphate metabolism by dephosphorylating the IP7 isoform 5PP-IP5 to IP6.

Published
2016

29. Controlled initiation of chromosomal replication in Escherichia coli requires functional Hda protein

Author

Camara, Johanna Eltz, Skarstad, Kirsten, and Crooke, Elliott

Subjects
Genetic regulation -- Analysis, Chromosome replication -- Genetic aspects, Cellular control mechanisms -- Genetic aspects, Biological sciences
Abstract

Research reveals that the inactivation of DnaA component of the homologous to DnaA (Hda) protein is required for controlled initiation of chromosomal replication in Escherichia coli as shown in a strain deficient in hda gene.

Published
2003

42. DnaGenes

Author

Kitchen, Jennifer L., primary and Crooke, Elliott, additional

Published
2002
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