Critical role for chicken Rad17 and Rad9 in the cellular response to DNA damage and stalled DNA replication

The Rad17‐replication factor C (Rad17‐RFC) and Rad9‐Rad1‐Hus1 complexes are thought to function in the early phase of cell‐cycle checkpoint control as sensors for genome damage and genome replication errors. However, genetic analysis of the functions of these complexes in vertebrates is complicated...

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Bibliographic Details
Published in:Genes to cells : devoted to molecular & cellular mechanisms 2004-04, Vol.9 (4), p.291-303
Main Authors: Kobayashi, Masahiko, Hirano, Atsushi, Kumano, Tomoyasu, Xiang, Shuang‐Lin, Mihara, Keiko, Haseda, Yasunari, Matsui, Osamu, Shimizu, Hiroko, Yamamoto, Ken‐ichi
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
B-Lymphocytes - drug effects
B-Lymphocytes - metabolism
B-Lymphocytes - radiation effects
Cell Cycle Proteins - genetics
Cell Cycle Proteins - metabolism
Chickens
DNA Damage - physiology
DNA Replication - physiology
DNA-Binding Proteins
Gallus gallus
Hydroxyurea - pharmacology
Molecular Sequence Data
Nucleic Acid Synthesis Inhibitors - pharmacology
S Phase - physiology
Time Factors
Ultraviolet Rays
X-Rays
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Summary:The Rad17‐replication factor C (Rad17‐RFC) and Rad9‐Rad1‐Hus1 complexes are thought to function in the early phase of cell‐cycle checkpoint control as sensors for genome damage and genome replication errors. However, genetic analysis of the functions of these complexes in vertebrates is complicated by the lethality of these gene disruptions in embryonic mouse cells. We disrupted the Rad17 and Rad9 loci by gene targeting in the chicken B lymphocyte line DT40. Rad17−/− and Rad9−/− DT40 cells are viable, and are highly sensitive to UV irradiation, alkylating agents, and DNA replication inhibitors, such as hydroxyurea. We further found that Rad17−/− and Rad9−/− but not ATM−/− cells are defective in S‐phase DNA damage checkpoint controls and in the cellular response to stalled DNA replication. These results indicate a critical role for chicken Rad17 and Rad9 in the cellular response to stalled DNA replication and DNA damage.
ISSN:1356-9597
1365-2443
DOI:10.1111/j.1356-9597.2004.00728.x