Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7

Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7

The Rif1 protein, originally identified as a telomere-binding factor in yeast, has recently been implicated in DNA replication control from yeast to metazoans. Here, we show that budding yeast Rif1 protein inhibits activation of prereplication complexes (pre-RCs). This inhibitory function requires t...

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Main Authors: Stefano Mattarocci, Maksym Shyian, Laure Lemmens, Pascal Damay, Dogus Murat Altintas, Tianlai Shi, Clinton R. Bartholomew, Nicolas H. Thomä, Christopher F.J. Hardy, David Shore
Format: Article
Language:English
Published: Elsevier 2014-04-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124714001880
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spelling doaj-ea5b2f2c3e4f45a9b5bb9c390c37518a2020-11-25T01:09:09ZengElsevierCell Reports2211-12472014-04-0171626910.1016/j.celrep.2014.03.010Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7Stefano Mattarocci0Maksym Shyian1Laure Lemmens2Pascal Damay3Dogus Murat Altintas4Tianlai Shi5Clinton R. Bartholomew6Nicolas H. Thomä7Christopher F.J. Hardy8David Shore9Department of Molecular Biology and Institute of Genetics and Genomics in Geneva, University of Geneva, 30 quai Ernest-Ansermet, 1211 Geneva, SwitzerlandDepartment of Molecular Biology and Institute of Genetics and Genomics in Geneva, University of Geneva, 30 quai Ernest-Ansermet, 1211 Geneva, SwitzerlandDepartment of Molecular Biology and Institute of Genetics and Genomics in Geneva, University of Geneva, 30 quai Ernest-Ansermet, 1211 Geneva, SwitzerlandDepartment of Molecular Biology and Institute of Genetics and Genomics in Geneva, University of Geneva, 30 quai Ernest-Ansermet, 1211 Geneva, SwitzerlandDepartment of Molecular Biology and Institute of Genetics and Genomics in Geneva, University of Geneva, 30 quai Ernest-Ansermet, 1211 Geneva, SwitzerlandFriedrich Miescher Institute for Biomedical Research, Maulbeerstrasse 66, 4058 Basel, SwitzerlandDepartment of Cell and Developmental Biology, Vanderbilt University Medical Center, T-2212 Medical Center North, Nashville, TN 37232-2175, USAFriedrich Miescher Institute for Biomedical Research, Maulbeerstrasse 66, 4058 Basel, SwitzerlandDepartment of Cell and Developmental Biology, Vanderbilt University Medical Center, T-2212 Medical Center North, Nashville, TN 37232-2175, USADepartment of Molecular Biology and Institute of Genetics and Genomics in Geneva, University of Geneva, 30 quai Ernest-Ansermet, 1211 Geneva, SwitzerlandThe Rif1 protein, originally identified as a telomere-binding factor in yeast, has recently been implicated in DNA replication control from yeast to metazoans. Here, we show that budding yeast Rif1 protein inhibits activation of prereplication complexes (pre-RCs). This inhibitory function requires two N-terminal motifs, RVxF and SILK, associated with recruitment of PP1 phosphatase (Glc7). In G1 phase, we show both that Glc7 interacts with Rif1 in an RVxF/SILK-dependent manner and that two proteins implicated in pre-RC activation, Mcm4 and Sld3, display increased Dbf4-dependent kinase (DDK) phosphorylation in rif1 mutants. Rif1 also interacts with Dbf4 in yeast two-hybrid assays, further implicating this protein in direct modulation of pre-RC activation through the DDK. Finally, we demonstrate Rif1 RVxF/SILK motif-dependent recruitment of Glc7 to telomeres and earlier replication of these regions in cells where the motifs are mutated. Our data thus link Rif1 to negative regulation of replication origin firing through recruitment of the Glc7 phosphatase.http://www.sciencedirect.com/science/article/pii/S2211124714001880
collection DOAJ
language English
format Article
sources DOAJ
author Stefano Mattarocci
Maksym Shyian
Laure Lemmens
Pascal Damay
Dogus Murat Altintas
Tianlai Shi
Clinton R. Bartholomew
Nicolas H. Thomä
Christopher F.J. Hardy
David Shore
spellingShingle Stefano Mattarocci
Maksym Shyian
Laure Lemmens
Pascal Damay
Dogus Murat Altintas
Tianlai Shi
Clinton R. Bartholomew
Nicolas H. Thomä
Christopher F.J. Hardy
David Shore
Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7
Cell Reports
author_facet Stefano Mattarocci
Maksym Shyian
Laure Lemmens
Pascal Damay
Dogus Murat Altintas
Tianlai Shi
Clinton R. Bartholomew
Nicolas H. Thomä
Christopher F.J. Hardy
David Shore
author_sort Stefano Mattarocci
title Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7
title_short Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7
title_full Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7
title_fullStr Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7
title_full_unstemmed Rif1 Controls DNA Replication Timing in Yeast through the PP1 Phosphatase Glc7
title_sort rif1 controls dna replication timing in yeast through the pp1 phosphatase glc7
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2014-04-01
description The Rif1 protein, originally identified as a telomere-binding factor in yeast, has recently been implicated in DNA replication control from yeast to metazoans. Here, we show that budding yeast Rif1 protein inhibits activation of prereplication complexes (pre-RCs). This inhibitory function requires two N-terminal motifs, RVxF and SILK, associated with recruitment of PP1 phosphatase (Glc7). In G1 phase, we show both that Glc7 interacts with Rif1 in an RVxF/SILK-dependent manner and that two proteins implicated in pre-RC activation, Mcm4 and Sld3, display increased Dbf4-dependent kinase (DDK) phosphorylation in rif1 mutants. Rif1 also interacts with Dbf4 in yeast two-hybrid assays, further implicating this protein in direct modulation of pre-RC activation through the DDK. Finally, we demonstrate Rif1 RVxF/SILK motif-dependent recruitment of Glc7 to telomeres and earlier replication of these regions in cells where the motifs are mutated. Our data thus link Rif1 to negative regulation of replication origin firing through recruitment of the Glc7 phosphatase.
url http://www.sciencedirect.com/science/article/pii/S2211124714001880
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