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Literature DB >> 11836503

The complex structure and dynamic evolution of human subtelomeres.

Abstract

Subtelomeres are extraordinarily dynamic and variable regions near the ends of chromosomes. They are defined by their unusual structure: patchworks of blocks that are duplicated near the ends of multiple chromosomes. Duplications among subtelomeres have spawned small gene families, making inter-individual variation in subtelomeres a potential source of phenotypic diversity. The ectopic recombination that occurs between subtelomeres might also have a role in reconstituting telomeres in the absence of telomerase. However, the propensity for subtelomeres to interchange is a double-edged sword, as extensive subtelomeric homology can mediate deleterious rearrangements of the ends of chromosomes to cause human disease.

Entities: Species

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Year: 2002 PMID： 11836503 DOI： 10.1038/nrg727

Source DB: PubMed Journal: Nat Rev Genet ISSN： 1471-0056 Impact factor: 53.242

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Cited

119 in total

1. Translocation breakpoint mapping and sequence analysis in three monosomy 1p36 subjects with der(1)t(1;1)(p36;q44) suggest mechanisms for telomere capture in stabilizing de novo terminal rearrangements.

Authors: Blake C Ballif; Keiko Wakui; Marzena Gajecka; Lisa G Shaffer
Journal: Hum Genet Date: 2003-10-25 Impact factor: 4.132

2. Spontaneous reactivation of a silent telomeric transgene in a human cell line.

Authors: Joseph A Baur; Jerry W Shay; Woodring E Wright
Journal: Chromosoma Date: 2004-01-20 Impact factor: 4.316

3. Mapping and initial analysis of human subtelomeric sequence assemblies.

Authors: Harold Riethman; Anthony Ambrosini; Carlos Castaneda; Jeffrey Finklestein; Xue-Lan Hu; Uma Mudunuri; Sheila Paul; Jun Wei
Journal: Genome Res Date: 2004-01 Impact factor: 9.043

4. Leishmania major chromosome 3 contains two long convergent polycistronic gene clusters separated by a tRNA gene.

Authors: E A Worthey; Santiago Martinez-Calvillo; Achim Schnaufer; Gautam Aggarwal; Jason Cawthra; Gholam Fazelinia; Chris Fong; Guoliang Fu; Melissa Hassebrock; Greg Hixson; Alasdair C Ivens; Patti Kiser; Felicia Marsolini; Erika Rickel; Erica Rickell; Reza Salavati; Ellen Sisk; Susan M Sunkin; Kenneth D Stuart; Peter J Myler
Journal: Nucleic Acids Res Date: 2003-07-15 Impact factor: 16.971

10. Duplication of the Miller-Dieker Critical Region in a Patient with a Subtelomeric Unbalanced Translocation t(10;17)(p15.3;p13.3).

Authors: R Ruiz Esparza-Garrido; A C Velázquez-Wong; M A Araujo-Solís; J C Huicochea-Montiel; M Á Velázquez-Flores; F Salamanca-Gómez; D J Arenas-Aranda
Journal: Mol Syndromol Date: 2012-07-10

The complex structure and dynamic evolution of human subtelomeres.

1. Translocation breakpoint mapping and sequence analysis in three monosomy 1p36 subjects with der(1)t(1;1)(p36;q44) suggest mechanisms for telomere capture in stabilizing de novo terminal rearrangements.

2. Spontaneous reactivation of a silent telomeric transgene in a human cell line.

3. Mapping and initial analysis of human subtelomeric sequence assemblies.

4. Leishmania major chromosome 3 contains two long convergent polycistronic gene clusters separated by a tRNA gene.

5. An Alu transposition model for the origin and expansion of human segmental duplications.

6. Chromosome rearrangements in evolution: From gene order to genome sequence and back.

7. Modification of subtelomeric DNA.

8. Modulation of telomere length dynamics by the subtelomeric region of tetrahymena telomeres.

9. Asynchronous replication timing of telomeres at opposite arms of mammalian chromosomes.

10. Duplication of the Miller-Dieker Critical Region in a Patient with a Subtelomeric Unbalanced Translocation t(10;17)(p15.3;p13.3).