Ellen Fanning scite author profile

Processing of DNA in replication, repair and recombination pathways in cells of all organisms requires the participation of at least one major single-stranded DNA (ssDNA)-binding protein. This protein protects ssDNA from nucleolytic damage, prevents hairpin formation and blocks DNA reannealing until the processing pathway is successfully completed. Many ssDNA-binding proteins interact physically and functionally with a variety of other DNA processing proteins. These interactions are thought to temporally order and guide the parade of proteins that ‘trade places’ on the ssDNA, a model known as ‘hand-off’, as the processing pathway progresses. How this hand-off mechanism works remains poorly understood. Recent studies of the conserved eukaryotic ssDNA-binding protein replication protein A (RPA) suggest a novel mechanism by which proteins may trade places on ssDNA by binding to RPA and mediating conformation changes that alter the ssDNA-binding properties of RPA. This article reviews the structure and function of RPA, summarizes recent studies of RPA in DNA replication and other DNA processing pathways, and proposes a general model for the role of RPA in protein-mediated hand-off.

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Structure of the replicative helicase of the oncoprotein SV40 large tumour antigen

Zhao

Lilyestrom

et al. 2003

Nature

284

382

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The oncoprotein large tumour antigen (LTag) is encoded by the DNA tumour virus simian virus 40. LTag transforms cells and induces tumours in animals by altering the functions of tumour suppressors (including pRB and p53) and other key cellular proteins. LTag is also a molecular machine that distorts/melts the replication origin of the viral genome and unwinds duplex DNA. LTag therefore seems to be a functional homologue of the eukaryotic minichromosome maintenance (MCM) complex. Here we present the X-ray structure of a hexameric LTag with DNA helicase activity. The structure identifies the p53-binding surface and reveals the structural basis of hexamerization. The hexamer contains a long, positively charged channel with an unusually large central chamber that binds both single-stranded and double-stranded DNA. The hexamer organizes into two tiers that can potentially rotate relative to each other through connecting alpha-helices to expand/constrict the channel, producing an 'iris' effect that could be used for distorting or melting the origin and unwinding DNA at the replication fork.

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Interaction of DNA polymerase alpha-primase with cellular replication protein A and SV40 T antigen.

Dornreiter¹,

Erdile²,

Gilbert³

et al. 1992

The EMBO Journal

356

321

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The purified human single‐stranded DNA binding protein, replication protein A (RP‐A), forms specific complexes with purified SV40 large T antigen and with purified DNA polymerase alpha‐primase, as shown by ELISA and a modified immunoblotting technique. RP‐A associated efficiently with the isolated primase, as well as with intact polymerase alpha‐primase. The 70 kDa subunit of RP‐A was sufficient for association with polymerase alpha‐primase. Purified SV40 large T antigen bound to intact RP‐A and to polymerase‐primase, but not to any of the separated subunits of RP‐A or to the isolated primase. These results suggest that the specific protein‐protein interactions between RP‐A, polymerase‐primase and T antigen may play a role in the initiating of SV40 DNA replication.

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Structure and Function of Simian Virus 40 Large Tumor Antigen

Fanning

Knippers

1992

Annu. Rev. Biochem.

490

256

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Intramolecular masking of the nuclear location signal and dimerization domain in the precursor for the p50 NF-κB subunit

Henkel

Zabel

Zee³

et al. 1992

Cell

375

228

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Activation of the DNA Replication Checkpoint Through RNA Synthesis by Primase

Michael

Ott

Fanning

et al. 2000

Science

188

197

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When DNA replication is inhibited during the synthesis (S) phase of the cell cycle, a signaling pathway (checkpoint) is activated that serves to prevent mitosis from initiating before completion of replication. This replication checkpoint acts by down-regulating the activity of the mitotic inducer cdc2-cyclin B. Here, we report the relation between chromatin structure and induction of the replication checkpoint. Chromatin was competent to initiate a checkpoint response only after the DNA was unwound and DNA polymerase alpha had been loaded. Checkpoint induction did not require new DNA synthesis on the unwound template strand but did require RNA primer synthesis by primase. These findings identify the RNA portion of the primer as an important component of the signal that activates the replication checkpoint.

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Quantitative procedures for use with the Edman-Begg sequenator. Partial sequences of two unusual immunoglobulin light chains, Rzf and Sac

Smithies¹,

Gibson

Fanning³

et al. 1971

Biochemistry

668

204

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spectable form in which all the quantitative information relevant to a sequence determination can be displayed in a single graph. An outline of computer programs to process the data is given. The procedures are illustrated by partial sequence determinations for 67 and 50 positions, respectively, of two smaller than usual immunoglobulin light chains. The two chains are Rzf [Deutsch, H. F. (1965), Immunochemistry 2, 207

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RPA2 Is a Direct Downstream Target for ATR to Regulate the S-phase Checkpoint

Olson

Nievera

Klimovich

et al. 2006

Journal of Biological Chemistry

172

182

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Upon DNA damage, replication is inhibited by the S-phase checkpoint. ATR (ataxia telangiectasia mutated-and Rad3-related) is specifically involved in the inhibition of replicon initiation when cells are treated with DNA damage-inducing agents that stall replication forks, but the mechanism by which it acts to prevent replication is not yet fully understood. We observed that RPA2 is phosphorylated on chromatin in an ATR-dependent manner when replication forks are stalled. Mutation of the ATRdependent phosphorylation sites in RPA2 leads to a defect in the down-regulation of DNA synthesis following treatment with UV radiation, although ATR activation is not affected. Threonine 21 and serine 33, two residues among several phosphorylation sites in the amino terminus of RPA2, are specifically required for the UV-induced, ATR-mediated inhibition of DNA replication. RPA2 mutant alleles containing phospho-mimetic mutations at ATR-dependent phosphorylation sites have an impaired ability to associate with replication centers, indicating that ATR phosphorylation of RPA2 directly affects the replication function of RPA. Our studies suggest that in response to UV-induced DNA damage, ATR rapidly phosphorylates RPA2, disrupting its association with replication centers in the S-phase and contributing to the inhibition of DNA replication.

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Ellen Fanning

A dynamic model for replication protein A (RPA) function in DNA processing pathways

Structure of the replicative helicase of the oncoprotein SV40 large tumour antigen

Interaction of DNA polymerase alpha-primase with cellular replication protein A and SV40 T antigen.

Structure and Function of Simian Virus 40 Large Tumor Antigen

Intramolecular masking of the nuclear location signal and dimerization domain in the precursor for the p50 NF-κB subunit

Activation of the DNA Replication Checkpoint Through RNA Synthesis by Primase

Quantitative procedures for use with the Edman-Begg sequenator. Partial sequences of two unusual immunoglobulin light chains, Rzf and Sac

RPA2 Is a Direct Downstream Target for ATR to Regulate the S-phase Checkpoint

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