国际口腔医学杂志

国际口腔医学杂志 ›› 2018, Vol. 45 ›› Issue (1): 42-45.doi: 10.7518/gjkq.2018.01.008

• 综述 • 上一篇    下一篇

单链DNA结合蛋白1的研究进展

曾祥林, 王代友   

  1. 广西医科大学附属口腔医院口腔颌面外科 南宁 530021
  • 收稿日期:2017-05-22 修回日期:2017-10-15 出版日期:2018-01-01 发布日期:2018-01-01
  • 通讯作者: 王代友,教授,博士,Email:wangdaiyou@sina.com
  • 作者简介:曾祥林,硕士,Email:zengxianglinhx@sina.com
  • 基金资助:
    广西自然科学基金(2014GXNSFDA118022)

Research progress on single-stranded DNA-binding protein 1

Zeng Xianglin, Wang Daiyou   

  1. Dept. of Oral and Maxillofacial Surgery, College of Stomatology, Guangxi Medical University, Nanning 530021, China
  • Received:2017-05-22 Revised:2017-10-15 Online:2018-01-01 Published:2018-01-01
  • Supported by:
    This study was supported by Natural Science Foundation of The Guangxi Zhuang Autonomous Region (2014GXNSF-DA118022).

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摘要: 单链DNA结合蛋白(SSB)1是在人类身上新发现的一种单链DNA结合蛋白,它通过参与各种DNA损伤修复过程维持基因的完整性与稳定性。这一重大发现为各种DNA损伤修复机制提供了新的见解。本文就SSB1相关结构及功能的研究进展进行综述。

关键词: 单链DNA结合蛋白1, 结构, 功能

Abstract: Single-stranded DNA-binding protein (SSB) 1 is a newly discovered SSB in humans. Given its involvement in DNA damage repair, SSB1 is critical for genomic integrity and stability. This significant discovery provides new insights into the mechanism of DNA damage repair. In this study, we reviewed the research progress on the structure and function of SSB1.

Key words: single-stranded DNA-binding protein 1, structure, function

中图分类号: 

  • Q754
[1]Kang HS, Beak JY, Kim YS, et al. NABP1, a novel RORγ-regulated gene encoding a single-stranded nucleic-acid-binding protein[J]. Biochem J, 2006, 397(1):89-99.
[2]Richard DJ, Bolderson E, Cubeddu L, et al. Single-stranded DNA-binding protein hSSB1 is critical for genomic stability[J]. Nature, 2008, 453(7195):677- 681.
[3]Shereda RD, Kozlov AG, Lohman TM, et al. SSB as an organizer/mobilizer of genome maintenance com-plexes[J]. Crit Rev Biochem Mol Biol, 2008, 43(5): 289-318.
[4]Ren W, Chen H, Sun Q, et al. Structural basis of SOSS1 complex assembly and recognition of ssDNA [J]. Cell Rep, 2014, 6(6):982-991.
[5]Wei S, Bain AL, Schwer B, et al. Essential develop-mental, genomic stability, and tumour suppressor functions of the mouse orthologue of hSSB1/NABP2 [J]. PLoS Genet, 2013, 9(2):e1003298.
[6]Goodarzi AA, Jeggo PA. The repair and signaling responses to DNA double-strand breaks[J]. Adv Genet, 2013, 82:1-45.
[7]Schmid TE, Zlobinskaya O, Multhoff G. Differences in phosphorylated histone H2AX foci formation and removal of cells exposed to low and high linear energy transfer radiation[J]. Curr Genomics, 2012, 13(6):418-425.
[8]Richard DJ, Savage K, Bolderson E, et al. hSSB1 rapidly binds at the sites of DNA double-strand breaks and is required for the efficient recruitment of the MRN complex[J]. Nucleic Acids Res, 2011, 39 (5):1692-1702.
[9]Richard DJ, Cubeddu L, Urquhart AJ, et al. hSSB1 interacts directly with the MRN complex stimulating its recruitment to DNA double-strand breaks and its endo-nuclease activity[J]. Nucleic Acids Res, 2011, 39(9):3643-3651.
[10]Xu S, Feng Z, Zhang M, et al. hSSBl binds and pro-tects p21 from ubiquitin-mediated degradation and positively correlates with p21 in human hepatocellular carcinomas[J]. Oncogene, 2011, 30(19):2219-2229.
[11]Xu S, Wu Y, Chen Q, et al. hSSBl regulates both the stability and the transcriptional activity of p53[J]. Cell Res, 2013, 23(3):423-435.
[12]Feldhahn N, Ferretti E, Robbiani DF, et al. The hSSB1 orthologue Obfc2b is essential for skeletogenesis but dispensable for the DNA damage response in vivo [J]. EMBO J, 2012, 31(20):4045-4056.
[13]Lupardus PJ, Byun T, Yee MC, et al. A requirement for replication in activation of the ATR-dependent DNA damage checkpoint[J]. Genes Dev, 2002, 16 (18):2327-2332.
[14]Wang X, Zou L, Lu T, et al. Rad17 phosphorylation is required for claspin recruitment and Chk1 activa-tion in response toreplication stress[J]. Mol Cell, 2006, 23(3):331-341.
[15]Bolderson E, Petermann E, Croft L, et al. Human single-sranded DNA binding protein 1 (hSSB1/NABP2) is required for the stability and repair of stalled replication forks[J]. Nucleic Acids Res, 2014, 42(10):6326-6336.
[16]Abdullah JM, Li X, Nachtman RG, et al. FLRF, a novel evolutionarily conserved RING finger gene, is differentially expressed in mouse fetal and adult hematopoietic stem cells and progenitors[J]. Blood Cells Mol Dis, 2001, 27(1):320-333.
[17]Deng Y, Guo X, Ferguson DO, et al. Multiple roles for MRE11 at uncapped telomeres[J]. Nature, 2009, 460(7257):914-918.
[18]He H, Wang Y, Guo X, et al. Pot1b deletion and telomerase haploinsufficiency in mice initiate an ATR-dependent DNA damage response and elicit phenotypes resembling dyskeratosis congenita[J]. Mol Cell Biol, 2009, 29(1):229-240.
[19]Flynn RL, Chang S, Zou L. RPA and POT1: friends or foes at telomeres[J]. Cell Cycle, 2012, 11(4):652- 657.
[20]Wu P, Takai H, De Lange T. Telomeric 3’ overhangs derive from resection by Exo1 and Apollo and fill-in by POT1b-associated CST[J]. Cell, 2012, 150(1):39- 52.
[21]Gu P, Deng W, Lei M, et al. Single strand DNA bin-ding proteins 1 and 2 protect newly replicated telo-meres[J]. Cell Res, 2013, 23(5):705-719.
[22]Daniel JA, Pellegrini M, Lee BS, et al. Loss of ATM kinase activity leads to embryonic lethality in mice[J]. J Cell Biol, 2012, 198(3):295-304.
[23]Wang Y, Putnam CD, Kane MF, et al. Mutation in Rpa1 results in defective DNA double-strand break repair, chromosomal instability and cancer in mice[J]. Nat Genet, 2005, 37(7):750-755.
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