CDC45/YLR103C Literature Guide

Other names published for CDC45: SLD4, YLR103C

CDC45 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Nucleic Acid Information

Gene Product Information

Related Genes/Proteins

Research Aids

Genome-wide Analysis

Proteome-wide Analysis

Other Topics

Additional Information

CDC45 - Cell Cycle Phase Involved (26)

Reference	Other Genes Addressed
Aucher W, et al. (2010) A Strategy for Interaction Site Prediction between Phospho-binding Modules and their Partners Identified from Proteomic Data. Mol Cell Proteomics 9(12):2745-59	BUD4 \| CDC11 \| CDC7 \| END3 \| GEA1 \| MBP1 \| PPZ1 \| PTC2 \| RAD53 \| ROG3 \| SHS1 \| SNU71 \| SWI4 \| SWI6 \| MORE
Looke M, et al. (2010) Relicensing of transcriptionally inactivated replication origins in budding yeast. J Biol Chem 285(51):40004-11	ARS214 \| ARS305 \| ARS409 \| ARS453 \| ARS519 \| ARS605 \| ARS607 \| ARS609 \| MCM4 \| ORC2 \| RPB10 \| RPB11 \| RPB2 \| RPB3 \| MORE
Suryadinata R, et al. (2010) Control of cell cycle progression by phosphorylation of cyclin-dependent kinase (CDK) substrates. Biosci Rep 30(4):243-55	CDC20 \| CDC28 \| CDC6 \| CDH1 \| DPB11 \| MCM2 \| MCM3 \| MCM4 \| MCM5 \| MCM6 \| MCM7 \| SLD2 \| SLD3 \| TAH11 \| MORE
Gambus A, et al. (2009) A key role for Ctf4 in coupling the MCM2-7 helicase to DNA polymerase alpha within the eukaryotic replisome. EMBO J 28(19):2992-3004	CDC6 \| CSM3 \| CTF4 \| HHF1 \| HHT1 \| HTA1 \| HTA2 \| HTB1 \| HTB2 \| MCM10 \| MCM2 \| MCM3 \| MCM4 \| MCM5 \| MORE
Zierhut C and Diffley JF (2008) Break dosage, cell cycle stage and DNA replication influence DNA double strand break response. EMBO J 27(13):1875-85	DNL4 \| HO \| LCD1 \| ORC6 \| RAD53
Gambus A, et al. (2006) GINS maintains association of Cdc45 with MCM in replisome progression complexes at eukaryotic DNA replication forks. Nat Cell Biol 8(4):358-66	CSM3 \| CTF4 \| HHF1 \| HHT1 \| HTA1 \| HTA2 \| HTB1 \| HTB2 \| MCM10 \| MCM2 \| MCM3 \| MCM4 \| MCM5 \| MCM6 \| MORE
Jensen LJ, et al. (2006) Co-evolution of transcriptional and post-translational cell-cycle regulation. Nature 443(7111):594-7	APC1 \| APC11 \| APC2 \| APC4 \| APC5 \| APC9 \| CDC16 \| CDC20 \| CDC23 \| CDC26 \| CDC27 \| CDC6 \| CDC7 \| CDH1 \| MORE
Sheu YJ and Stillman B (2006) Cdc7-Dbf4 phosphorylates MCM proteins via a docking site-mediated mechanism to promote S phase progression. Mol Cell 24(1):101-13	CDC7 \| DBF4 \| MCM2 \| MCM3 \| MCM4 \| MCM5 \| MCM6 \| MCM7
Yu L, et al. (2006) A survey of essential gene function in the yeast cell division cycle. Mol Biol Cell 17(11):4736-47	ALA1 \| CDC1 \| CDC13 \| CDC14 \| CDC15 \| CDC16 \| CDC19 \| CDC20 \| CDC21 \| CDC23 \| CDC25 \| CDC27 \| CDC3 \| CDC34 \| MORE
Tu BP, et al. (2005) Logic of the yeast metabolic cycle: temporal compartmentalization of cellular processes. Science 310(5751):1152-8	ACS1 \| ADH1 \| ADH2 \| ALD2 \| ARO10 \| ARO9 \| ASC1 \| ATH1 \| ATO3 \| BCS1 \| CAT2 \| CBP3 \| CIT3 \| CLN2 \| MORE
Ricke RM and Bielinsky AK (2004) Mcm10 regulates the stability and chromatin association of DNA polymerase-alpha. Mol Cell 16(2):173-85	MCM10 \| MCM4 \| POL1 \| PRI2 \| RFA2
Wang X, et al. (2004) Role of DNA replication proteins in double-strand break-induced recombination in Saccharomyces cerevisiae. Mol Cell Biol 24(16):6891-9	CDC9 \| DNL4 \| MATA \| MATALPHA \| MCM2 \| MCM7 \| POL30
Pollok S, et al. (2003) Regulation of eukaryotic DNA replication at the initiation step. Biochem Soc Trans 31(Pt 1):266-9
Tercero JA, et al. (2003) A central role for DNA replication forks in checkpoint activation and response. Mol Cell 11(5):1323-36	CDC6 \| CDC7 \| CLB5 \| LCD1 \| MEC1 \| RAD53
Kamimura Y, et al. (2001) Sld3, which interacts with Cdc45 (Sld4), functions for chromosomal DNA replication in Saccharomyces cerevisiae. EMBO J 20(8):2097-107	MCM2 \| SLD3
Simon I, et al. (2001) Serial regulation of transcriptional regulators in the yeast cell cycle. Cell 106(6):697-708	ACE2 \| AGA1 \| AGA2 \| ALK1 \| APC1 \| ARP7 \| ASH1 \| BUD4 \| BUD8 \| BUD9 \| CDC20 \| CDC21 \| CDC6 \| CHS1 \| MORE
Nougarede R, et al. (2000) Hierarchy of S-phase-promoting factors: yeast Dbf4-Cdc7 kinase requires prior S-phase cyclin-dependent kinase activation. Mol Cell Biol 20(11):3795-806	CDC28 \| CDC7 \| CLB5 \| CLB6 \| DBF4
Tercero JA, et al. (2000) DNA synthesis at individual replication forks requires the essential initiation factor Cdc45p. EMBO J 19(9):2082-93
Zou L and Stillman B (2000) Assembly of a complex containing Cdc45p, replication protein A, and Mcm2p at replication origins controlled by S-phase cyclin-dependent kinases and Cdc7p-Dbf4p kinase. Mol Cell Biol 20(9):3086-96	ARS1 \| CDC7 \| CLB5 \| CLB6 \| DBF4 \| MCM2 \| RFA1 \| RFA2 \| RFA3
Aparicio OM, et al. (1999) Differential assembly of Cdc45p and DNA polymerases at early and late origins of DNA replication. Proc Natl Acad Sci U S A 96(16):9130-5
Zou L and Stillman B (1998) Formation of a preinitiation complex by S-phase cyclin CDK-dependent loading of Cdc45p onto chromatin. Science 280(5363):593-6	CDC28 \| CDC6 \| MCM2 \| MCM3 \| MCM4 \| MCM5 \| MCM6 \| MCM7 \| ORC1 \| ORC2 \| ORC3 \| ORC4 \| ORC5 \| ORC6 \| MORE
Zou L, et al. (1997) CDC45, a novel yeast gene that functions with the origin recognition complex and Mcm proteins in initiation of DNA replication. Mol Cell Biol 17(2):553-63	MCM2 \| MCM3 \| MCM4 \| MCM5 \| MCM7 \| ORC2
Hopwood B and Dalton S (1996) Cdc45p assembles into a complex with Cdc46p/Mcm5p, is required for minichromosome maintenance, and is essential for chromosomal DNA replication. Proc Natl Acad Sci U S A 93(22):12309-14	MCM5 \| MCM7
Hennessy KM, et al. (1991) A group of interacting yeast DNA replication genes. Genes Dev 5(6):958-69	CEN16 \| MCM4 \| MCM5 \| MCM7
Moir D and Botstein D (1982) Determination of the order of gene function in the yeast nuclear division pathway using cs and ts mutants. Genetics 100(4):565-77	CDC14 \| CDC16 \| CDC9 \| RFC1
Moir D, et al. (1982) Cold-sensitive cell-division-cycle mutants of yeast: isolation, properties, and pseudoreversion studies. Genetics 100(4):547-63	CDC11 \| CDC48 \| CDC50 \| MCM4 \| MCM5 \| MCM7 \| RFC1