2004
A Ddc2-Rad53 Fusion Protein Can Bypass the Requirements for RAD9 and MRC1 in Rad53 Activation
Lee SJ, Duong JK, Stern DF. A Ddc2-Rad53 Fusion Protein Can Bypass the Requirements for RAD9 and MRC1 in Rad53 Activation. Molecular Biology Of The Cell 2004, 15: 5443-5455. PMID: 15456903, PMCID: PMC532024, DOI: 10.1091/mbc.e04-07-0608.Peer-Reviewed Original ResearchConceptsDNA damageDNA damage checkpoint pathwayFusion proteinDamage checkpoint pathwayRad53p activationRad53 activationMethyl methaneCheckpoint pathwaySignaling systemCell survivalMediator requirementMec1pEssential roleProteinCellsActivationExpressionRad53pRad9pDdc2Rad9Mrc1pMinimal requirementsMrc1Oligomerization
1998
Rad53 FHA Domain Associated with Phosphorylated Rad9 in the DNA Damage Checkpoint
Sun Z, Hsiao J, Fay D, Stern D. Rad53 FHA Domain Associated with Phosphorylated Rad9 in the DNA Damage Checkpoint. Science 1998, 281: 272-274. PMID: 9657725, DOI: 10.1126/science.281.5374.272.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceCell Cycle ProteinsCheckpoint Kinase 2DNA DamageDNA ReplicationFungal ProteinsG2 PhaseHydroxyureaMethyl MethanesulfonateMitosisMutationOligopeptidesPeptidesPhosphorylationProtein KinasesProtein Serine-Threonine KinasesSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsTranscription, GeneticConceptsRad53 phosphorylationRad53 protein kinaseDNA damage signalsDNA damage checkpointProtein-binding domainsCell cycle phase arrestRNR3 transcriptionRad9 proteinFHA domainDamage checkpointG2/M cell cycle phase arrestCell divisionProtein kinaseSaccharomyces cerevisiaeDamage signalsRad9DNA damageRad53Phase arrestPhosphorylationCheckpointDomainCerevisiaeTranscriptionKinase