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Literature DB >> 15173113

Differential alu mobilization and polymorphism among the human and chimpanzee lineages.

Dale J Hedges¹, Pauline A Callinan, Richard Cordaux, Jinchuan Xing, Erin Barnes, Mark A Batzer.

Abstract

Alu elements are primate-specific members of the SINE (short interspersed element) retroposon family, which comprise approximately 10% of the human genome. Here we report the first chromosomal-level comparison examining the Alu retroposition dynamics following the divergence of humans and chimpanzees. We find a twofold increase in Alu insertions in humans in comparison to the common chimpanzee (Pan troglodytes). The genomic diversity (polymorphism for presence or absence of the Alu insertion) associated with these inserts indicates that, analogous to recent nucleotide diversity studies, the level of chimpanzee Alu diversity is approximately 1.7 times higher than that of humans. Evolutionarily recent Alu subfamily structure differs markedly between the human and chimpanzee lineages, with the major human subfamilies remaining largely inactive in the chimpanzee lineage. We propose a population-based model to account for the observed fluctuation in Alu retroposition rates across primate taxa. Copyright 2004 Cold Spring Harbor Laboratory Press

Entities: Species

Mesh：

Substances：
Genetic Markers
DNA

Year: 2004 PMID： 15173113 PMCID： PMC419785 DOI： 10.1101/gr.2530404

Source DB: PubMed Journal: Genome Res ISSN： 1088-9051 Impact factor: 9.043

51 in total

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Journal: Nature Date: 2000-05-18 Impact factor: 49.962

2. The Alu Yc1 subfamily: sorting the wheat from the chaff.

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Journal: Cytogenet Genome Res Date: 2005 Impact factor: 1.636

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Authors: J Jurka
Journal: Proc Natl Acad Sci U S A Date: 1997-03-04 Impact factor: 11.205

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Authors: Anthony B Carter; Abdel-Halim Salem; Dale J Hedges; Catherine Nguyen Keegan; Beth Kimball; Jerilyn A Walker; W Scott Watkins; Lynn B Jorde; Mark A Batzer
Journal: Hum Genomics Date: 2004-03 Impact factor: 4.639

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2. Assembly and characterization of novel Alu inserts detected from next-generation sequencing data.

Authors: Harun Mustafa; Matei David; Michael Brudno
Journal: Mob Genet Elements Date: 2014-12-12

Review 3. The role of Alu elements in the cis-regulation of RNA processing.

Authors: Chammiran Daniel; Mikaela Behm; Marie Öhman
Journal: Cell Mol Life Sci Date: 2015-07-30 Impact factor: 9.261

4. The biased distribution of Alus in human isochores might be driven by recombination.

Authors: Michael Hackenberg; Pedro Bernaola-Galván; Pedro Carpena; José L Oliver
Journal: J Mol Evol Date: 2005-03 Impact factor: 2.395

5. Whole genome computational comparative genomics: A fruitful approach for ascertaining Alu insertion polymorphisms.

Authors: Jianxin Wang; Lei Song; M Katherine Gonder; Sami Azrak; David A Ray; Mark A Batzer; Sarah A Tishkoff; Ping Liang
Journal: Gene Date: 2006-01-10 Impact factor: 3.688

6. Teaching an old dog new tricks: SINEs of canine genomic diversity.

Authors: Richard Cordaux; Mark A Batzer
Journal: Proc Natl Acad Sci U S A Date: 2006-01-23 Impact factor: 11.205

7. Epigenetic silencing of transposable elements: a trade-off between reduced transposition and deleterious effects on neighboring gene expression.

Authors: Jesse D Hollister; Brandon S Gaut
Journal: Genome Res Date: 2009-05-28 Impact factor: 9.043