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The Endonuclease Homolog OsRAD1 Promotes Accurate Meiotic Double-Strand Break Repair by Suppressing Non-Homologous End Joining
Qing Hu, Ding Tang, Hongjun Wang, Yi Shen, Xiaojun Chen, Jianhui Ji, Guijie Du, Yafei Li, Zhukuan Cheng
Plant Physiology
Abstract
During meiosis, programmed double-strand breaks (DSBs) are generated to initiate homologous recombination (HR), which is crucial for faithful chromosome segregation. In yeast, Radiation sensitive 1 (RAD1) acts together with Radiation sensitive 9 (RAD9) and Hydroxyurea sensitive 1 (HUS1) to facilitate meiotic recombination via cell cycle checkpoint control. However, little is known about the meiotic functions of these proteins in higher eukaryotes. Here, we characterized a RAD1 homolog in rice (Oryza sativa) and obtained evidence that Oryza sativa RAD1 (OsRAD1) is important for meiotic DSB repair. Loss of OsRAD1 led to abnormal chromosome association and fragmentation upon completion of homologous pairing and synapsis. These aberrant chromosome associations were independent of OsDMC1. We found that classical non-homologous end joining mediated by Ku70 accounted for most of ectopic associations in Osrad1. In addition, OsRAD1 interacts directly with OsHUS1 and OsRAD9, suggesting that these proteins act as a complex to promote DSB repair during rice meiosis. Together, these findings suggest that the 9-1-1 complex facilitates accurate meiotic recombination by suppressing non-homologous end joining during meiosis in rice.
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论文编号: |
DOI:10.1104/pp.16.00831 |
论文题目: |
The Endonuclease Homolog OsRAD1 Promotes Accurate Meiotic Double-Strand Break Repair by Suppressing Non-Homologous End Joining |
英文论文题目: |
The Endonuclease Homolog OsRAD1 Promotes Accurate Meiotic Double-Strand Break Repair by Suppressing Non-Homologous End Joining |
第一作者: |
Qing Hu, Ding Tang, Hongjun Wang, Yi Shen, Xiaojun Chen, Jianhui Ji, Guijie Du, Yafei Li, Zhukuan Cheng |
英文第一作者: |
Qing Hu, Ding Tang, Hongjun Wang, Yi Shen, Xiaojun Chen, Jianhui Ji, Guijie Du, Yafei Li, Zhukuan Cheng |
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2016-08-11 |
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摘要: |
During meiosis, programmed double-strand breaks (DSBs) are generated to initiate homologous recombination (HR), which is crucial for faithful chromosome segregation. In yeast, Radiation sensitive 1 (RAD1) acts together with Radiation sensitive 9 (RAD9) and Hydroxyurea sensitive 1 (HUS1) to facilitate meiotic recombination via cell cycle checkpoint control. However, little is known about the meiotic functions of these proteins in higher eukaryotes. Here, we characterized a RAD1 homolog in rice (Oryza sativa) and obtained evidence that Oryza sativa RAD1 (OsRAD1) is important for meiotic DSB repair. Loss of OsRAD1 led to abnormal chromosome association and fragmentation upon completion of homologous pairing and synapsis. These aberrant chromosome associations were independent of OsDMC1. We found that classical non-homologous end joining mediated by Ku70 accounted for most of ectopic associations in Osrad1. In addition, OsRAD1 interacts directly with OsHUS1 and OsRAD9, suggesting that these proteins act as a complex to promote DSB repair during rice meiosis. Together, these findings suggest that the 9-1-1 complex facilitates accurate meiotic recombination by suppressing non-homologous end joining during meiosis in rice. |
英文摘要: |
During meiosis, programmed double-strand breaks (DSBs) are generated to initiate homologous recombination (HR), which is crucial for faithful chromosome segregation. In yeast, Radiation sensitive 1 (RAD1) acts together with Radiation sensitive 9 (RAD9) and Hydroxyurea sensitive 1 (HUS1) to facilitate meiotic recombination via cell cycle checkpoint control. However, little is known about the meiotic functions of these proteins in higher eukaryotes. Here, we characterized a RAD1 homolog in rice (Oryza sativa) and obtained evidence that Oryza sativa RAD1 (OsRAD1) is important for meiotic DSB repair. Loss of OsRAD1 led to abnormal chromosome association and fragmentation upon completion of homologous pairing and synapsis. These aberrant chromosome associations were independent of OsDMC1. We found that classical non-homologous end joining mediated by Ku70 accounted for most of ectopic associations in Osrad1. In addition, OsRAD1 interacts directly with OsHUS1 and OsRAD9, suggesting that these proteins act as a complex to promote DSB repair during rice meiosis. Together, these findings suggest that the 9-1-1 complex facilitates accurate meiotic recombination by suppressing non-homologous end joining during meiosis in rice. |
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Plant Physiology |
英文刊物名称: |
Plant Physiology |
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其它备注: |
Qing Hu, Ding Tang, Hongjun Wang, Yi Shen, Xiaojun Chen, Jianhui Ji, Guijie Du, Yafei Li, Zhukuan Cheng. The Endonuclease Homolog OsRAD1 Promotes Accurate Meiotic Double-Strand Break Repair by Suppressing Non-Homologous End Joining. Plant Physiology. DOI: 10.1104/pp.16.00831 |
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