Comparative analysis of <i>Alu</i> repeats in primate genomes

Liu, George E.; Alkan, Can; Lu, Jiang; Zhao, Shaying; Eichler, Evan E.

doi:10.1101/gr.083972.108

Cited by 75 publications

(78 citation statements)

References 36 publications

(43 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These landscape changes in the close vicinity of XIST/Xist further reinforce the malleability of this region, as has been underscored previously by comparisons of the mouse, marsupial, and monotreme genomes (Duret et al 2006;Hore et al 2007b). Interspersed repeats have played a role in differentially shaping primate genomes (Liu 2003;Liu et al 2009), and analysis of total repeat content across this region is in agreement with this conclusion (Table 1). Comparisons of specific classes of repeats in the lemurs and the inferred ancestral primate XIC region indicate that the lemurs and ancestral primate have a lower Alu, MIR, and LINE content relative to the rest of the primates (Table 1), while some of the other repeats tend to fluctuate with lineage-specific trends.…”

Section: Recent Gene and Landscape Restructuring In The Xic Regionsupporting

confidence: 63%

Comparative analysis of the primate X-inactivation center region and reconstruction of the ancestral primate XIST locus

Horvath

Sheedy²,

Merrett³

et al. 2011

Genome Res.

View full text Add to dashboard Cite

Here we provide a detailed comparative analysis across the candidate X-Inactivation Center (XIC) region and the XIST locus in the genomes of six primates and three mammalian outgroup species. Since lemurs and other strepsirrhine primates represent the sister lineage to all other primates, this analysis focuses on lemurs to reconstruct the ancestral primate sequences and to gain insight into the evolution of this region and the genes within it. This comparative evolutionary genomics approach reveals significant expansion in genomic size across the XIC region in higher primates, with minimal size alterations across the XIST locus itself. Reconstructed primate ancestral XIC sequences show that the most dramatic changes during the past 80 million years occurred between the ancestral primate and the lineage leading to Old World monkeys. In contrast, the XIST locus compared between human and the primate ancestor does not indicate any dramatic changes to exons or XIST-specific repeats; rather, evolution of this locus reflects small incremental changes in overall sequence identity and short repeat insertions. While this comparative analysis reinforces that the region around XIST has been subject to significant genomic change, even among primates, our data suggest that evolution of the XIST sequences themselves represents only small lineage-specific changes across the past 80 million years.

show abstract

Section: Recent Gene and Landscape Restructuring In The Xic Regionsupporting

confidence: 63%

Comparative analysis of the primate X-inactivation center region and reconstruction of the ancestral primate XIST locus

Horvath

Sheedy²,

Merrett³

et al. 2011

Genome Res.

View full text Add to dashboard Cite

show abstract

“…B1 and ID have become inactive in the genomes of rat and mouse, respectively (Rat Genome Sequencing Consortium, 2004). A similar pattern is observed in SINE subfamilies remaining active over different evolutionary periods (Ohshima et al, 2003;Liu et al, 2009). Little is known about the factors that determine their duration, but it can substantially vary.…”

Section: Da Kramerov and Ns Vassetzkymentioning

confidence: 58%

Origin and evolution of SINEs in eukaryotic genomes

2011

View full text Add to dashboard Cite

“…Researchers familiar with Alu SINEs will be aware that distinct subfamilies of Alu exist in each primate lineage Hedges et al 2004;Otieno et al 2004;Garber et al 2005;Ray and Batzer 2005;Ray et al 2005b;Salem et al 2005b;Han et al 2007;Liu et al 2009;Locke et al 2011). Each of the methods described relies on sequence characteristics unique to particular subfamilies of elements.…”

Section: Extensions To Other Organismsmentioning

confidence: 99%

Reading TE leaves: New approaches to the identification of transposable element insertions

Ray¹,

Batzer²

2011

Genome Res.

View full text Add to dashboard Cite

Transposable elements (TEs) are a tremendous source of genome instability and genetic variation. Of particular interest to investigators of human biology and human evolution are retrotransposon insertions that are recent and/or polymorphic in the human population. As a consequence, the ability to assay large numbers of polymorphic TEs in a given genome is valuable. Five recent manuscripts each propose methods to scan whole human genomes to identify, map, and, in some cases, genotype polymorphic retrotransposon insertions in multiple human genomes simultaneously. These technologies promise to revolutionize our ability to analyze human genomes for TE-based variation important to studies of human variability and human disease. Furthermore, the approaches hold promise for researchers interested in nonhuman genomic variability. Herein, we explore the methods reported in the manuscripts and discuss their applications to aspects of human biology and the biology of other organisms.

show abstract

Comparative analysis of Alu repeats in primate genomes

Cited by 75 publications

References 36 publications

Comparative analysis of the primate X-inactivation center region and reconstruction of the ancestral primate XIST locus

Comparative analysis of the primate X-inactivation center region and reconstruction of the ancestral primate XIST locus

Origin and evolution of SINEs in eukaryotic genomes

Reading TE leaves: New approaches to the identification of transposable element insertions

Contact Info

Product

Resources

About