The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.

The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.

DNA damage checkpoint activation can be subdivided in two steps: initial activation and signal amplification. The events distinguishing these two phases and their genetic determinants remain obscure. TopBP1, a mediator protein containing multiple BRCT domains, binds to and activates the ATR/ATRIP co...

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Main Authors: Su-Jiun Lin, Christopher P Wardlaw, Takashi Morishita, Izumi Miyabe, Charly Chahwan, Thomas Caspari, Ulrike Schmidt, Antony M Carr, Valerie Garcia
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-06-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC3386226?pdf=render
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spelling doaj-c50423e445224319a0b4f4b9ff5ff5be2020-11-25T01:19:26ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042012-06-0186e100280110.1371/journal.pgen.1002801The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.Su-Jiun LinChristopher P WardlawTakashi MorishitaIzumi MiyabeCharly ChahwanThomas CaspariUlrike SchmidtAntony M CarrValerie GarciaDNA damage checkpoint activation can be subdivided in two steps: initial activation and signal amplification. The events distinguishing these two phases and their genetic determinants remain obscure. TopBP1, a mediator protein containing multiple BRCT domains, binds to and activates the ATR/ATRIP complex through its ATR-Activation Domain (AAD). We show that Schizosaccharomyces pombe Rad4(TopBP1) AAD-defective strains are DNA damage sensitive during G1/S-phase, but not during G2. Using lacO-LacI tethering, we developed a DNA damage-independent assay for checkpoint activation that is Rad4(TopBP1) AAD-dependent. In this assay, checkpoint activation requires histone H2A phosphorylation, the interaction between TopBP1 and the 9-1-1 complex, and is mediated by the phospho-binding activity of Crb2(53BP1). Consistent with a model where Rad4(TopBP1) AAD-dependent checkpoint activation is ssDNA/RPA-independent and functions to amplify otherwise weak checkpoint signals, we demonstrate that the Rad4(TopBP1) AAD is important for Chk1 phosphorylation when resection is limited in G2 by ablation of the resecting nuclease, Exo1. We also show that the Rad4(TopBP1) AAD acts additively with a Rad9 AAD in G1/S phase but not G2. We propose that AAD-dependent Rad3(ATR) checkpoint amplification is particularly important when DNA resection is limiting. In S. pombe, this manifests in G1/S phase and relies on protein-chromatin interactions.http://europepmc.org/articles/PMC3386226?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Su-Jiun Lin
Christopher P Wardlaw
Takashi Morishita
Izumi Miyabe
Charly Chahwan
Thomas Caspari
Ulrike Schmidt
Antony M Carr
Valerie Garcia
spellingShingle Su-Jiun Lin
Christopher P Wardlaw
Takashi Morishita
Izumi Miyabe
Charly Chahwan
Thomas Caspari
Ulrike Schmidt
Antony M Carr
Valerie Garcia
The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.
PLoS Genetics
author_facet Su-Jiun Lin
Christopher P Wardlaw
Takashi Morishita
Izumi Miyabe
Charly Chahwan
Thomas Caspari
Ulrike Schmidt
Antony M Carr
Valerie Garcia
author_sort Su-Jiun Lin
title The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.
title_short The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.
title_full The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.
title_fullStr The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.
title_full_unstemmed The Rad4(TopBP1) ATR-activation domain functions in G1/S phase in a chromatin-dependent manner.
title_sort rad4(topbp1) atr-activation domain functions in g1/s phase in a chromatin-dependent manner.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2012-06-01
description DNA damage checkpoint activation can be subdivided in two steps: initial activation and signal amplification. The events distinguishing these two phases and their genetic determinants remain obscure. TopBP1, a mediator protein containing multiple BRCT domains, binds to and activates the ATR/ATRIP complex through its ATR-Activation Domain (AAD). We show that Schizosaccharomyces pombe Rad4(TopBP1) AAD-defective strains are DNA damage sensitive during G1/S-phase, but not during G2. Using lacO-LacI tethering, we developed a DNA damage-independent assay for checkpoint activation that is Rad4(TopBP1) AAD-dependent. In this assay, checkpoint activation requires histone H2A phosphorylation, the interaction between TopBP1 and the 9-1-1 complex, and is mediated by the phospho-binding activity of Crb2(53BP1). Consistent with a model where Rad4(TopBP1) AAD-dependent checkpoint activation is ssDNA/RPA-independent and functions to amplify otherwise weak checkpoint signals, we demonstrate that the Rad4(TopBP1) AAD is important for Chk1 phosphorylation when resection is limited in G2 by ablation of the resecting nuclease, Exo1. We also show that the Rad4(TopBP1) AAD acts additively with a Rad9 AAD in G1/S phase but not G2. We propose that AAD-dependent Rad3(ATR) checkpoint amplification is particularly important when DNA resection is limiting. In S. pombe, this manifests in G1/S phase and relies on protein-chromatin interactions.
url http://europepmc.org/articles/PMC3386226?pdf=render
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