Literature DB >> 15916782

Hypothetical role of RNA damage avoidance in preventing human disease.

Damien Brégeon1, Alain Sarasin.   

Abstract

Most of nucleic acids damaging agents are not only restricted to DNA but equally affect DNA and RNA molecules. Considering that RNA damage could be very toxic for the cell, a property used by some cancer treatments, it would not be unexpected to find out that several proteins may be involved in RNA damage avoidance mechanisms helping cells to counteract such cytotoxic effects. Up to now, only one specific repair mechanism allowing cells to deal with toxic effects of methylated RNA have been described. However, there are in the literature several data suggesting that this study may only be the tip of the iceberg and that cells might be able to counteract the deleterious effects of a large variety of RNA damage. In this review, we will discuss the different proteins that may be involved in the mechanism of RNA damage avoidance and their potential role in human diseases.

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Year:  2005        PMID: 15916782     DOI: 10.1016/j.mrfmmm.2005.04.002

Source DB:  PubMed          Journal:  Mutat Res        ISSN: 0027-5107            Impact factor:   2.433


  23 in total

Review 1.  Oxidative damage to RNA in aging and neurodegenerative disorders.

Authors:  Akihiko Nunomura; Paula I Moreira; Rudy J Castellani; Hyoung-Gon Lee; Xiongwei Zhu; Mark A Smith; George Perry
Journal:  Neurotox Res       Date:  2012-06-06       Impact factor: 3.911

2.  A role for ubiquitin in the clearance of nonfunctional rRNAs.

Authors:  Kotaro Fujii; Makoto Kitabatake; Tomoko Sakata; Atsumi Miyata; Mutsuhito Ohno
Journal:  Genes Dev       Date:  2009-04-15       Impact factor: 11.361

3.  Intrastrand G-U cross-links generated by the oxidation of guanine in 5'-d(GCU) and 5'-r(GCU).

Authors:  Conor Crean; Nicholas E Geacintov; Vladimir Shafirovich
Journal:  Free Radic Biol Med       Date:  2008-07-23       Impact factor: 7.376

4.  A novel class of mRNA-containing cytoplasmic granules are produced in response to UV-irradiation.

Authors:  Hélène Gaillard; Andrés Aguilera
Journal:  Mol Biol Cell       Date:  2008-09-03       Impact factor: 4.138

5.  A typical RNA-binding protein gene (AccRBM11) in Apis cerana cerana: characterization of AccRBM11 and its possible involvement in development and stress responses.

Authors:  Guilin Li; Haihong Jia; Hongfang Wang; Yan Yan; Xingqi Guo; Qinghua Sun; Baohua Xu
Journal:  Cell Stress Chaperones       Date:  2016-09-02       Impact factor: 3.667

Review 6.  Transcriptional mutagenesis: causes and involvement in tumour development.

Authors:  Damien Brégeon; Paul W Doetsch
Journal:  Nat Rev Cancer       Date:  2011-03       Impact factor: 60.716

7.  Oxidative damage to RNA but not DNA in the hippocampus of patients with major mental illness.

Authors:  Yi Che; Jun-Feng Wang; Li Shao; Trevor Young
Journal:  J Psychiatry Neurosci       Date:  2010-09       Impact factor: 6.186

8.  Abstinence from repeated amphetamine treatment induces depressive-like behaviors and oxidative damage in rat brain.

Authors:  Yi Che; Yong-Hua Cui; Hua Tan; Ana C Andreazza; L Trevor Young; Jun-Feng Wang
Journal:  Psychopharmacology (Berl)       Date:  2013-02-01       Impact factor: 4.530

Review 9.  DNA Damage in Major Psychiatric Diseases.

Authors:  Muhammad Ummear Raza; Turan Tufan; Yan Wang; Christopher Hill; Meng-Yang Zhu
Journal:  Neurotox Res       Date:  2016-04-28       Impact factor: 3.911

10.  Sublethal RNA oxidation as a mechanism for neurodegenerative disease.

Authors:  Rudy J Castellani; Akihiko Nunomura; Raj K Rolston; Paula I Moreira; Atsushi Takeda; George Perry; Mark A Smith
Journal:  Int J Mol Sci       Date:  2008-05-20       Impact factor: 6.208
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