BAIT

RRM3

RTT104, S000007420, YHR031C

DNA helicase involved in rDNA replication and Ty1 transposition; binds to and suppresses DNA damage at G4 motifs in vivo; relieves replication fork pauses at telomeric regions; structurally and functionally related to Pif1p

GO Process (4)

GO Function (2)

GO Component (2)

Gene Ontology Biological Process

DNA replication [IGI, IMP, IPI]

G-quadruplex DNA unwinding [IMP]

mitochondrial genome maintenance [IGI]

replication fork progression beyond termination site [IMP]

Gene Ontology Molecular Function

ATP-dependent DNA helicase activity [IDA]
DNA helicase activity [IMP, ISS]

Gene Ontology Cellular Component

nuclear telomeric heterochromatin [IPI]

replication fork [IDA, IMP]

SGD Alliance of Genome Resources Entrez Gene RefSeq UniprotKB

Saccharomyces cerevisiae (S288c)

PREY

MRC1

YCL060C, chromatin-modulating protein MRC1, YCL061C

S-phase checkpoint protein required for DNA replication; couples DNA helicase and DNA polymerase; interacts with and stabilizes Pol2p at stalled replication forks during stress, where it forms a pausing complex with Tof1p and is phosphorylated by Mec1p; with Hog1p defines a novel S-phase checkpoint that permits eukaryotic cells to prevent conflicts between DNA replication and transcription; protects uncapped telomeres; degradation via Dia2p help cells resume cell cycle

GO Process (11)

GO Function (0)

GO Component (4)

Gene Ontology Cellular Component

nuclear chromosome [IPI]

nuclear replication fork [IDA]

nucleus [IDA]

replication fork protection complex [IDA]

SGD Alliance of Genome Resources Entrez Gene RefSeq UniprotKB

Saccharomyces cerevisiae (S288c)

Synthetic Lethality

A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.

Publication

Mrc1 is required for normal progression of replication forks throughout chromatin in S. cerevisiae.

Szyjka SJ, Viggiani CJ, Aparicio OM

Mrc1 associates with replication forks, where it transmits replication stress signals and is required for normal replisome pausing in response to nucleotide depletion. Mrc1 also plays a poorly understood role in DNA replication, which appears distinct from its role in checkpoint signaling. Here, we demonstrate that Mrc1 functions constitutively to promote normal replication fork progression. In mrc1Delta cells, replication forks ... [more]

Mol. Cell Sep. 02, 2005; 19(5);691-7 [Pubmed: 16137624]

Throughput

Low Throughput

Ontology Terms

phenotype: inviable (APO:0000112)

Related interactions

Interaction	Experimental Evidence Code	Dataset	Throughput	Score	Curated By	Notes
RRM3 MRC1	Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores.	Collins SR (2007)	High	-10.0141	BioGRID	214274
MRC1 RRM3	Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores.	Costanzo M (2010)	High	-0.5507	BioGRID	360501
RRM3 MRC1	Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores.	Costanzo M (2010)	High	-0.5507	BioGRID	385260
RRM3 MRC1	Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores.	Costanzo M (2016)	High	-0.6422	BioGRID	2125956
MRC1 RRM3	Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores.	Costanzo M (2016)	High	-0.6832	BioGRID	2086371
RRM3 MRC1	Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores.	Fiedler D (2009)	High	-8.1622	BioGRID	322327
MRC1 RRM3	Negative Genetic Negative Genetic Mutations/deletions in separate genes, each of which alone causes a minimal phenotype, but when combined in the same cell results in a more severe fitness defect or lethality under a given condition. This term is reserved for high or low throughput studies with scores.	Ming Sun S (2020)	High	-	BioGRID	3492221
MRC1 RRM3	Synthetic Lethality Synthetic Lethality A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.	Pan X (2006)	High	-	BioGRID	456244
RRM3 MRC1	Synthetic Lethality Synthetic Lethality A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.	Schmidt KH (2006)	Low	-	BioGRID	204098
RRM3 MRC1	Synthetic Lethality Synthetic Lethality A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.	Syed S (2016)	Low	-	BioGRID	2340214
MRC1 RRM3	Synthetic Lethality Synthetic Lethality A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.	Tong AH (2004)	High	-	BioGRID	111666
RRM3 MRC1	Synthetic Lethality Synthetic Lethality A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.	Tong AH (2004)	High	-	BioGRID	111667
RRM3 MRC1	Synthetic Lethality Synthetic Lethality A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.	Torres JZ (2004)	Low	-	BioGRID	426409
RRM3 MRC1	Synthetic Lethality Synthetic Lethality A genetic interaction is inferred when mutations or deletions in separate genes, each of which alone causes a minimal phenotype, result in lethality when combined in the same cell under a given condition.	Torres JZ (2004)	Low	-	BioGRID	161195

Curated By

BioGRID

Interaction Summary

RRM3

Gene Ontology Biological Process

Gene Ontology Molecular Function

ATP-dependent DNA helicase activity [IDA]DNA helicase activity [IMP, ISS]

Gene Ontology Cellular Component

MRC1

Gene Ontology Biological Process

Gene Ontology Cellular Component

Synthetic Lethality

Publication

Mrc1 is required for normal progression of replication forks throughout chromatin in S. cerevisiae.

Throughput

Ontology Terms

Related interactions

Curated By

ATP-dependent DNA helicase activity [IDA]
DNA helicase activity [IMP, ISS]