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Literature DB >> 16623698

DNA mismatch repair system. Classical and fresh roles.

Sung-Hoon Jun¹, Tae Gyun Kim, Changill Ban.

Abstract

The molecular mechanisms of the DNA mismatch repair (MMR) system have been uncovered over the last decade, especially in prokaryotes. The results obtained for prokaryotic MMR proteins have provided a framework for the study of the MMR system in eukaryotic organisms, such as yeast, mouse and human, because the functions of MMR proteins have been conserved during evolution from bacteria to humans. However, mutations in eukaryotic MMR genes result in pleiotropic phenotypes in addition to MMR defects, suggesting that eukaryotic MMR proteins have evolved to gain more diverse and specific roles in multicellular organisms. Here, we summarize recent advances in the understanding of both prokaryotic and eukaryotic MMR systems and describe various new functions of MMR proteins that have been intensively researched during the last few years, including DNA damage surveillance and diversification of antibodies.

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Year: 2006 PMID： 16623698 DOI： 10.1111/j.1742-4658.2006.05190.x

Source DB: PubMed Journal: FEBS J ISSN： 1742-464X Impact factor: 5.542

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Cited

38 in total

1. Epigenetic and copy number variation analysis in retinoblastoma by MS-MLPA.

Authors: Gabriella Livide; Maria Carmela Epistolato; Mariangela Amenduni; Vittoria Disciglio; Annabella Marozza; Maria Antonietta Mencarelli; Paolo Toti; Stefano Lazzi; Theodora Hadjistilianou; Sonia De Francesco; Alfonso D'Ambrosio; Alessandra Renieri; Francesca Ariani
Journal: Pathol Oncol Res Date: 2012-01-26 Impact factor: 3.201

2. hMSH2 recruits ATR to DNA damage sites for activation during DNA damage-induced apoptosis.

Authors: Navjotsingh Pabla; Zhengwei Ma; Michael A McIlhatton; Richard Fishel; Zheng Dong
Journal: J Biol Chem Date: 2011-02-01 Impact factor: 5.157

3. The Escherichia coli mismatch repair protein MutL recruits the Vsr and MutH endonucleases in response to DNA damage.

Authors: Yaroslava Y Polosina; Justin Mui; Photini Pitsikas; Claire G Cupples
Journal: J Bacteriol Date: 2009-04-17 Impact factor: 3.490

4. Utility of BRAF protein overexpression in predicting the metastasis potential of papillary thyroid carcinoma.

Authors: Lu Feng; Mei Li; Qiu-Ping Zhang; Zheng-Ai Piao; Zhao-Hui Wang; Shen Lv
Journal: Oncol Lett Date: 2010-11-23 Impact factor: 2.967

5. Sub-cellular localization analysis of MSH6 missense mutations does not reveal an overt MSH6 nuclear transport impairment.

Authors: Laura Belvederesi; Francesca Bianchi; Cristian Loretelli; Raffaella Bracci; Stefano Cascinu; Riccardo Cellerino
Journal: Fam Cancer Date: 2012-12 Impact factor: 2.375

10. Mechanism of the very efficient quenching of tryptophan fluorescence in human gamma D- and gamma S-crystallins: the gamma-crystallin fold may have evolved to protect tryptophan residues from ultraviolet photodamage.

Authors: Jiejin Chen; Patrik R Callis; Jonathan King
Journal: Biochemistry Date: 2009-05-05 Impact factor: 3.162

DNA mismatch repair system. Classical and fresh roles.

1. Epigenetic and copy number variation analysis in retinoblastoma by MS-MLPA.

2. hMSH2 recruits ATR to DNA damage sites for activation during DNA damage-induced apoptosis.

3. The Escherichia coli mismatch repair protein MutL recruits the Vsr and MutH endonucleases in response to DNA damage.

4. Utility of BRAF protein overexpression in predicting the metastasis potential of papillary thyroid carcinoma.

5. Sub-cellular localization analysis of MSH6 missense mutations does not reveal an overt MSH6 nuclear transport impairment.

6. Molecular signaling mechanisms of apoptosis in hereditary non-polyposis colorectal cancer.

7. The MLH1 ATPase domain is needed for suppressing aberrant formation of interstitial telomeric sequences.

8. Cisplatin upregulates MSH2 expression by reducing miR-21 to inhibit A549 cell growth.

9. Completion of meiosis in male zebrafish (Danio rerio) despite lack of DNA mismatch repair gene mlh1.

10. Mechanism of the very efficient quenching of tryptophan fluorescence in human gamma D- and gamma S-crystallins: the gamma-crystallin fold may have evolved to protect tryptophan residues from ultraviolet photodamage.