Rif1 provides a new DNA-binding interface for the Bloom syndrome complex to maintain normal replication

BLM, the helicase defective in Bloom syndrome, is part of a multiprotein complex that protects genome stability. Here, we show that Rif1 is a novel component of the BLM complex and works with BLM to promote recovery of stalled replication forks. First, Rif1 physically interacts with the BLM complex...

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Bibliographic Details
Published in:The EMBO journal 2010-09, Vol.29 (18), p.3140-3155
Main Authors: Xu, Dongyi, Muniandy, Parameswary, Leo, Elisabetta, Yin, Jinhu, Thangavel, Saravanabhavan, Shen, Xi, Ii, Miki, Agama, Keli, Guo, Rong, Fox III, David, Meetei, Amom Ruhikanta, Wilson, Lauren, Nguyen, Huy, Weng, Nan-ping, Brill, Steven J, Li, Lei, Vindigni, Alessandro, Pommier, Yves, Seidman, Michael, Wang, Weidong
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Binding sites
BLM
Bloom syndrome
Blotting, Western
Carrier Proteins - antagonists & inhibitors
Carrier Proteins - genetics
Carrier Proteins - metabolism
Cell Line
Chickens
Deoxyribonucleic acid
DNA
DNA - genetics
DNA - metabolism
DNA Replication
DNA-Binding Proteins - antagonists & inhibitors
DNA-Binding Proteins - genetics
DNA-Binding Proteins - metabolism
EMBO13
Genetic disorders
Genomics
HeLa Cells
Humans
Immunoprecipitation
Kidney - cytology
Kidney - metabolism
Kinetics
Molecular biology
Molecular Sequence Data
Nuclear Proteins - antagonists & inhibitors
Nuclear Proteins - genetics
Nuclear Proteins - metabolism
Proteins
RecQ Helicases - antagonists & inhibitors
RecQ Helicases - genetics
RecQ Helicases - metabolism
replication
Rif1
RMI
RNA, Small Interfering - pharmacology
Sequence Homology, Amino Acid
Telomere-Binding Proteins - antagonists & inhibitors
Telomere-Binding Proteins - genetics
Telomere-Binding Proteins - metabolism
Vertebrates
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Description
Summary:BLM, the helicase defective in Bloom syndrome, is part of a multiprotein complex that protects genome stability. Here, we show that Rif1 is a novel component of the BLM complex and works with BLM to promote recovery of stalled replication forks. First, Rif1 physically interacts with the BLM complex through a conserved C‐terminal domain, and the stability of Rif1 depends on the presence of the BLM complex. Second, Rif1 and BLM are recruited with similar kinetics to stalled replication forks, and the Rif1 recruitment is delayed in BLM‐deficient cells. Third, genetic analyses in vertebrate DT40 cells suggest that BLM and Rif1 work in a common pathway to resist replication stress and promote recovery of stalled forks. Importantly, vertebrate Rif1 contains a DNA‐binding domain that resembles the αCTD domain of bacterial RNA polymerase α; and this domain preferentially binds fork and Holliday junction (HJ) DNA in vitro and is required for Rif1 to resist replication stress in vivo . Our data suggest that Rif1 provides a new DNA‐binding interface for the BLM complex to restart stalled replication forks. A new functional interaction of BLM helicase with Rif1, the homolog of a telomere length regulator in yeast, sheds light on one of BLM's less‐understood functions, the facilitation of stalled replication fork restart.
ISSN:0261-4189
1460-2075
DOI:10.1038/emboj.2010.186