Assembly of the Cdc45-Mcm2–7-GINS complex in human cells requires the Ctf4/And-1, RecQL4, and Mcm10 proteins

Im, Jun‐Sub; Ki, Sang-Hee; Farina, Andrea; Jung, Dongsoo; Hurwitz, Jerard; Lee, Joon-Kyu

doi:10.1073/pnas.0908039106

Cited by 167 publications

(159 citation statements)

References 34 publications

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“…Moreover, the association of RecQ4 with chromatin and the association between TopBP1 and the RecQ4 amino-terminal domain do not require CDK (Sangrithi et al 2005;Matsuno et al 2006). Furthermore, the formation of the CMG complex in HeLa cells requires RecQ4 and Mcm10 (Im et al 2009), and RecQ4 expressed in human 293 cells binds to Mcm10 and associates with the CMG complex in an Mcm10-dependent manner (Xu et al 2009). These results suggest that RecQ4 functions later in the initiation step compared with Sld2.…”

Section: Recq4mentioning

confidence: 99%

Helicase Activation and Establishment of Replication Forks at Chromosomal Origins of Replication

Tanaka

Araki

2013

Cold Spring Harbor Perspectives in Biology

159

146

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Many replication proteins assemble on the pre-RC-formed replication origins and constitute the pre-initiation complex ( pre-IC). This complex formation facilitates the conversion of Mcm2-7 in the pre-RC to an active DNA helicase, the Cdc45-Mcm-GINS (CMG) complex. Two protein kinases, cyclin-dependent kinase (CDK) and Dbf4-dependent kinase (DDK), work to complete the formation of the pre-IC. Each kinase is responsible for a distinct step of the process in yeast; Cdc45 associates with origins in a DDK-dependent manner, whereas the association of GINS with origins depends on CDK. These associations with origins also require specific initiation proteins: Sld3 for Cdc45; and Dpb11, Sld2, and Sld3 for GINS. Functional homologs of these proteins exist in metazoa, although pre-IC formation cannot be separated by requirement of DDK and CDK because of experimental limitations. Once the replicative helicase is activated, the origin DNA is unwound, and bidirectional replication forks are established.

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Section: Recq4mentioning

confidence: 99%

Helicase Activation and Establishment of Replication Forks at Chromosomal Origins of Replication

Tanaka

Araki

2013

Cold Spring Harbor Perspectives in Biology

159

146

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“…Interactions between TopBP1-interacting, replication-stimulating protein (Treslin) (homolog of Sld3) and MDM two binding protein (MTBP) (homolog of Sld7) with topoisomerase-IIbeta-binding protein 1 (TopBP1) (homolog of Dpb11) have been detected in higher eukaryotes, suggesting that the mechanism used by yeast for the chromatin loading of Cdc45 and GINS may be conserved (8). However, in vivo studies in HeLa cells using bimolecular fluorescence complementation assays reported that Mcm10 as well as RecQ protein-like 4 (RecQL4) (homolog of Sld2) and Ctf4 are required for human CMG (hCMG) complex formation (9).…”

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confidence: 99%

Interaction between human Ctf4 and the Cdc45/Mcm2-7/GINS (CMG) replicative helicase

Kang

Farina

Bermudez

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Chromosome transmission fidelity 4 (Ctf4) is a conserved protein required for DNA replication. In this report, interactions between human Ctf4 (hCtf4) and the replicative helicase containing the cell division cycle 45 (Cdc45)/minichromosome maintenance 2-7 (Mcm2-7)/Go, Ichi, Nii, and San (GINS) (CMG) proteins [human CMG (hCMG) complex] were examined. The hCtf4-CMG complex was isolated following in vitro interaction of purified proteins (hCtf4 plus the hCMG complex), coinfection of Spodoptera frugiperda (Sf9) insect cells with viruses expressing the hCMG complex and hCtf4, and from HeLa cell chromatin after benzonase and immunoprecipitation steps. The stability of the hCtf4-CMG complex depends upon interactions between hCtf4 and multiple components of the hCMG complex. The hCtf4-CMG complex, like the hCMG complex, contains DNA helicase activity that is more salt-resistant than the helicase activity of the hCMG complex. We demonstrate that the hCtf4-CMG complex contains a homodimeric hCtf4 and a monomeric hCMG complex and suggest that the homodimeric hCtf4 acts as a platform linking polymerase α to the hCMG complex. The role of the hCMG complex as the core of the replisome is also discussed.replisome core structure | dimerization | replication initiation E ukaryotic DNA replication is a stepwise process by which protein complexes are assembled on chromatin. During the G1 phase of the cell cycle, the origin recognition complex (ORC) binds to replication origins and recruits cell division cycle 6 (Cdc6) (1). This complex leads to the association of cdc10 dependent transcript 1 (Cdt1)/Mcm2-7 with chromatin and the loading of the Mcm2-7 complex as a head-to-head dimer (2, 3). At the G1/S transition, this prereplication complex is altered further by a number of replication initiation factors whose actions are facilitated by the cyclin-dependent and cell division cycle 7 (Cdc7)-dumbbell former 4 (Dbf4) kinases (4). These replication initiation factors [which include synthetically lethal with dpb11-1 (Sld)2, Sld3, Sld7, DNA polymerase B possible subunit 11 (Dpb11), and DNA polymerase e (Pol e) in budding yeast] play critical roles resulting in the interaction of Cdc45 and GINS with the Mcm2-7 complex and the formation of the replicative DNA helicase complex containing Cdc45/Mcm2-7/GINS (CMG) (5). Other replication factors (including Mcm10 and Ctf4) contribute to the activation of the CMG helicase and association of proteins that recruit the replicative Pols to effect DNA replication (6, 7). Interactions between TopBP1-interacting, replication-stimulating protein (Treslin)

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“…Previous studies by others and us showed that the acidic nucleoplasmic DNA-binding protein 1 (And-1) is a replisome component and is required for efficient DNA replication in unperturbed cells (Zhu et al, 2007;Errico et al, 2009;Gambus et al, 2009;Im et al, 2009;Yoshizawa-Sugata & Masai, 2009;Bermudez et al, 2010;Li et al, 2012b). Ctf4/Mcl1, the ortholog of And-1 in yeast, is required for chromosome transmission fidelity, sister chromatin cohesion, DNA damage repair, maintenance of genome integrity, and the regulation of telomere replication (Kouprina et al, 1992;Hanna et al, 2001;Williams & McIntosh, 2002;Mayer et al, 2004;Tsutsui et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

And‐1 coordinates with Claspin for efficient Chk1 activation in response to replication stress

Hao

Renty

et al. 2015

The EMBO Journal

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The replisome is important for DNA replication checkpoint activation, but how specific components of the replisome coordinate with ATR to activate Chk1 in human cells remains largely unknown. Here, we demonstrate that And-1, a replisome component, acts together with ATR to activate Chk1. And-1 is phosphorylated at T826 by ATR following replication stress, and this phosphorylation is required for And-1 to accumulate at the damage sites, where And-1 promotes the interaction between Claspin and Chk1, thereby stimulating efficient Chk1 activation by ATR. Significantly, And-1 binds directly to ssDNA and facilitates the association of Claspin with ssDNA. Furthermore, And-1 associates with replication forks and is required for the recovery of stalled forks. These studies establish a novel ATR-And-1 axis as an important regulator for efficient Chk1 activation and reveal a novel mechanism of how the replisome regulates the replication checkpoint and genomic stability.

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Assembly of the Cdc45-Mcm2–7-GINS complex in human cells requires the Ctf4/And-1, RecQL4, and Mcm10 proteins

Cited by 167 publications

References 34 publications

Helicase Activation and Establishment of Replication Forks at Chromosomal Origins of Replication

Helicase Activation and Establishment of Replication Forks at Chromosomal Origins of Replication

Interaction between human Ctf4 and the Cdc45/Mcm2-7/GINS (CMG) replicative helicase

And‐1 coordinates with Claspin for efficient Chk1 activation in response to replication stress

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