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Literature DB >> 17581576

Expandable DNA repeats and human disease.

Abstract

Nearly 30 hereditary disorders in humans result from an increase in the number of copies of simple repeats in genomic DNA. These DNA repeats seem to be predisposed to such expansion because they have unusual structural features, which disrupt the cellular replication, repair and recombination machineries. The presence of expanded DNA repeats alters gene expression in human cells, leading to disease. Surprisingly, many of these debilitating diseases are caused by repeat expansions in the non-coding regions of their resident genes. It is becoming clear that the peculiar structures of repeat-containing transcripts are at the heart of the pathogenesis of these diseases.

Entities: Disease Species

Mesh：

Substances：
RNA

Year: 2007 PMID： 17581576 DOI： 10.1038/nature05977

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Cited

411 in total

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Journal: DNA Repair (Amst) Date: 2011-10-29

3. Searching for non-B DNA-forming motifs using nBMST (non-B DNA motif search tool).

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Journal: Curr Protoc Hum Genet Date: 2012-04

Review 4. Chromatin replication and epigenome maintenance.

Authors: Constance Alabert; Anja Groth
Journal: Nat Rev Mol Cell Biol Date: 2012-02-23 Impact factor: 94.444

Review 5. Role of noncoding RNAs in trinucleotide repeat neurodegenerative disorders.

Authors: Huiping Tan; Zihui Xu; Peng Jin
Journal: Exp Neurol Date: 2012-01-27 Impact factor: 5.330

6. The DNA replication program is altered at the FMR1 locus in fragile X embryonic stem cells.

Authors: Jeannine Gerhardt; Mark J Tomishima; Nikica Zaninovic; Dilek Colak; Zi Yan; Qiansheng Zhan; Zev Rosenwaks; Samie R Jaffrey; Carl L Schildkraut
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Review 7. FMR1: a gene with three faces.

Authors: Ben A Oostra; Rob Willemsen
Journal: Biochim Biophys Acta Date: 2009-02-21

Review 8. The MID1 gene product in physiology and disease.

Authors: Rossella Baldini; Martina Mascaro; Germana Meroni
Journal: Gene Date: 2020-04-10 Impact factor: 3.688

9. Investigating the binding mode of an inhibitor of the MBNL1·RNA complex in myotonic dystrophy type 1 (DM1) leads to the unexpected discovery of a DNA-selective binder.

Authors: Chun-Ho Wong; Stacie L Richardson; Yen-Jun Ho; Alex M H Lucas; Tiziano Tuccinardi; Anne M Baranger; Steven C Zimmerman
Journal: Chembiochem Date: 2012-10-24 Impact factor: 3.164

10. Modelling and inference reveal nonlinear length-dependent suppression of somatic instability for small disease associated alleles in myotonic dystrophy type 1 and Huntington disease.

Authors: Catherine F Higham; Darren G Monckton
Journal: J R Soc Interface Date: 2013-09-18 Impact factor: 4.118