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Literature DB >> 16169479

Signal transduction: how rad53 kinase is activated.

Abstract

Recent studies have elucidated the activation mechanism of the Rad53 checkpoint kinase and the role of Rad9-like adaptor proteins in mediating signal transduction from PIKK sensor kinases that detect DNA damage to the effector kinases that play a part in mending that damage.

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Year: 2005 PMID： 16169479 DOI： 10.1016/j.cub.2005.08.057

Source DB: PubMed Journal: Curr Biol ISSN： 0960-9822 Impact factor: 10.834

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Cited

43 in total

1. Saccharomyces cerevisiae Dbf4 has unique fold necessary for interaction with Rad53 kinase.

Authors: Lindsay A Matthews; Darryl R Jones; Ajai A Prasad; Bernard P Duncker; Alba Guarné
Journal: J Biol Chem Date: 2011-11-29 Impact factor: 5.157

2. Mechanisms of checkpoint kinase Rad53 inactivation after a double-strand break in Saccharomyces cerevisiae.

Authors: Ghislaine Guillemain; Emilie Ma; Sarah Mauger; Simona Miron; Robert Thai; Raphaël Guérois; Françoise Ochsenbein; Marie-Claude Marsolier-Kergoat
Journal: Mol Cell Biol Date: 2007-02-26 Impact factor: 4.272

3. Activation of protein kinase Tel1 through recognition of protein-bound DNA ends.

Authors: Kenzo Fukunaga; Youngho Kwon; Patrick Sung; Katsunori Sugimoto
Journal: Mol Cell Biol Date: 2011-03-14 Impact factor: 4.272

4. Dampening DNA damage checkpoint signalling via coordinated BRCT domain interactions.

Authors: José R Cussiol; Carolyn M Jablonowski; Askar Yimit; Grant W Brown; Marcus B Smolka
Journal: EMBO J Date: 2015-04-20 Impact factor: 11.598

Review 5. Dbf4: the whole is greater than the sum of its parts.

Authors: Lindsay A Matthews; Alba Guarné
Journal: Cell Cycle Date: 2013-04-02 Impact factor: 4.534

Review 6. Coupling end resection with the checkpoint response at DNA double-strand breaks.

Authors: Matteo Villa; Corinne Cassani; Elisa Gobbini; Diego Bonetti; Maria Pia Longhese
Journal: Cell Mol Life Sci Date: 2016-05-03 Impact factor: 9.261

7. FACT prevents the accumulation of free histones evicted from transcribed chromatin and a subsequent cell cycle delay in G1.

Authors: Macarena Morillo-Huesca; Douglas Maya; Mari Cruz Muñoz-Centeno; Rakesh Kumar Singh; Vincent Oreal; Gajjalaiahvari Ugander Reddy; Dun Liang; Vincent Géli; Akash Gunjan; Sebastián Chávez
Journal: PLoS Genet Date: 2010-05-20 Impact factor: 5.917

8. Dynamics of Rad9 chromatin binding and checkpoint function are mediated by its dimerization and are cell cycle-regulated by CDK1 activity.

Authors: Magda Granata; Federico Lazzaro; Daniele Novarina; Davide Panigada; Fabio Puddu; Carla Manuela Abreu; Ramesh Kumar; Muriel Grenon; Noel F Lowndes; Paolo Plevani; Marco Muzi-Falconi
Journal: PLoS Genet Date: 2010-08-05 Impact factor: 5.917

9. Rad17 plays a central role in establishment of the interaction between TopBP1 and the Rad9-Hus1-Rad1 complex at stalled replication forks.

Authors: Joon Lee; William G Dunphy
Journal: Mol Biol Cell Date: 2010-01-28 Impact factor: 4.138

10. Elevated levels of the polo kinase Cdc5 override the Mec1/ATR checkpoint in budding yeast by acting at different steps of the signaling pathway.

Authors: Roberto Antonio Donnianni; Matteo Ferrari; Federico Lazzaro; Michela Clerici; Benjamin Tamilselvan Nachimuthu; Paolo Plevani; Marco Muzi-Falconi; Achille Pellicioli
Journal: PLoS Genet Date: 2010-01-22 Impact factor: 5.917