Insulators are fundamental components of the eukaryotic genomes

Brasset, Emilie; Vaury, Chantal

doi:10.1038/sj.hdy.6800669

Cited by 62 publications

(47 citation statements)

References 45 publications

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“…Indeed, interactions between nonhomologous chromosomal regions may be as potent as those between homologous regions and, as may be the case with homologous pairing, have the capacity to persist through and be regulated by mitosis. Such nonhomologous interactions range from those ensuing from the clustering of PREs (Grimaud et al 2006) and insulators scattered throughout the genome (reviewed by Kuhn and Geyer 2003;Capelson and Corces 2004;Brasset and Vaury 2005;Gaszner and Felsenfeld 2006;Valenzuela and Kamakaka 2006) to those occurring in transcription factories (reviewed by Dillon 2006;Faro-Trindade and Cook 2006;Fraser 2006). Excitingly, they also include gene-specific interactions, such as those that occur in mammals between enhancers and distant promoters during olfactory receptor choice (Lomvardas et al 2006), between the interferon-g and T H 2 cytokine loci during T-cell development (Spilianakis et al 2005), and between the insulin-like growth factor 2/ H19 imprinting control region and the chromosomal segment containing the Wsb1 and Nf1 loci in a manner that appears to require the CCCTC binding factor CTCF (Ling et al 2006).…”

Section: Discussionmentioning

confidence: 99%

“…Of note, two factors that work in conjunction with the gypsy insulator, Suppressor of Hairy Wing ½Su(Hw) and Modifier of mdg4 ½Mod(mdg4) (Kravchenko et al 2005), colocalize at hundreds of chromosomal sites that do not correspond to gypsy elements and, along with another protein, Centrosomal Protein 190 (CP190), mediate the clustering of these sites into ''insulator bodies'' (reviewed by Kuhn and Geyer 2003;Capelson and Corces 2004;Brasset and Vaury 2005;Gaszner and Felsenfeld 2006;Valenzuela and Kamakaka 2006). Consistent with this finding, loss of Su(Hw) function has been observed to compromise homolog pairing (Fritsch et al 2006).…”

mentioning

confidence: 99%

“…Another genetic element implicated in long-range interactions between homologous chromosomal regions is an insulator carried by the gypsy retrotransposon (reviewed by Kuhn and Geyer 2003;Capelson and Corces 2004;Brasset and Vaury 2005;Gaszner and Felsenfeld 2006;Valenzuela and Kamakaka 2006; also see Kravchenko et al 2005). Of note, two factors that work in conjunction with the gypsy insulator, Suppressor of Hairy Wing ½Su(Hw) and Modifier of mdg4 ½Mod(mdg4) (Kravchenko et al 2005), colocalize at hundreds of chromosomal sites that do not correspond to gypsy elements and, along with another protein, Centrosomal Protein 190 (CP190), mediate the clustering of these sites into ''insulator bodies'' (reviewed by Kuhn and Geyer 2003;Capelson and Corces 2004;Brasset and Vaury 2005;Gaszner and Felsenfeld 2006;Valenzuela and Kamakaka 2006).…”

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confidence: 99%

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Disruption of Topoisomerase II Perturbs Pairing in Drosophila Cell Culture

Williams¹,

Bateman²,

Novikov³

et al. 2007

Genetics

111

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Homolog pairing refers to the alignment and physical apposition of homologous chromosomal segments. Although commonly observed during meiosis, homolog pairing also occurs in nonmeiotic cells of several organisms, including humans and Drosophila. The mechanism underlying nonmeiotic pairing, however, remains largely unknown. Here, we explore the use of established Drosophila cell lines for the analysis of pairing in somatic cells. Using fluorescent in situ hybridization (FISH), we assayed pairing at nine regions scattered throughout the genome of Kc 167 cells, observing high levels of homolog pairing at all six euchromatic regions assayed and variably lower levels in regions in or near centromeric heterochromatin. We have also observed extensive pairing in six additional cell lines representing different tissues of origin, different ploidies, and two different species, demonstrating homolog pairing in cell culture to be impervious to cell type or culture history. Furthermore, by sorting Kc 167 cells into G 1 , S, and G 2 subpopulations, we show that even progression through these stages of the cell cycle does not significantly change pairing levels. Finally, our data indicate that disrupting Drosophila topoisomerase II (Top2) gene function with RNAi and chemical inhibitors perturbs homolog pairing, suggesting Top2 to be a gene important for pairing.

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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Disruption of Topoisomerase II Perturbs Pairing in Drosophila Cell Culture

Williams¹,

Bateman²,

Novikov³

et al. 2007

Genetics

111

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show abstract

“…In this relation, of interest is the class of DNA sequence elements, named insulators, that contribute to the organization of independent gene function domains by restricting the functions of enhancers and silencers (Sun and Elgin 1999;Capelson and Corces 2004;Brasset and Vaury 2005;West and Fraser 2005;Gaszner and Felsenfeld 2006;Valenzuela and Kamakaka 2006). Insulators are characterized by two properties.…”

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confidence: 99%

New Properties of Drosophila Fab-7 Insulator

Rodin

Kyrchanova²,

Pomerantseva

et al. 2007

Genetics

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In the Abd-B 39 cis-regulatory region, which is subdivided into a series of iab domains, boundary elements have previously been detected, including the Fab-7 element providing for the autonomous functioning of the iab-6 and iab-7 cis-regulatory domains. Here, it has been shown that a single copy of the 860-bp Fab-7 insulator effectively blocks the yellow and white enhancers. The eye and testis enhancers can stimulate the white promoter across the pair of Fab-7, which is indicative of a functional interaction between the insulators. Unexpectedly, Fab-7 has proved to lose the enhancer-blocking activity when placed near the white promoter. It seems likely that Fab-7 strengthens the relatively weak white promoter, which leads to the efficient enhancer-promoter interaction and insulator bypass.

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“…Two classes of sequences were supposed to be border elements that form and support the loop domain structure -insulators (reviewed in [28][29][30]) and scaffold/matrix attachment regions (S/MARs), defined as sequences capable of specific binding to nuclear matrix in vitro (reviewed in [31]). …”

Section: Iic) Mapping Of Loop-domain Chromatin Structure Elements -S/mentioning

confidence: 99%

Maps of cis-Regulatory Nodes in Megabase Long Genome Segments are an Inevitable Intermediate Step Toward Whole Genome Functional Mapping

Николаев

Akopov²,

Чернов³

2007

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Abstract:The availability of complete human and other metazoan genome sequences has greatly facilitated positioning and analysis of various genomic functional elements, with initial emphasis on coding sequences. However, complete functional maps of sequenced eukaryotic genomes should include also positions of all non-coding regulatory elements. Unfortunately, experimental data on genomic positions of a multitude of regulatory sequences, such as enhancers, silencers, insulators, transcription terminators, and replication origins are very limited, especially at the whole genome level. Since most genomic regulatory elements (e.g. enhancers) are generally gene-, tissue-, or cell-specific, the prediction of these elements by computational methods is difficult and often ambiguous. Therefore, the development of high-throughput experimental approaches for identifying and mapping genomic functional elements is highly desirable. At the same time, the creation of whole-genome map of hundreds of thousands of regulatory elements in several hundreds of tissue/cell types is presently far beyond our capabilities. A possible alternative for the whole genome approach is to concentrate efforts on individual genomic segments and then to integrate the data obtained into a whole genome functional map. Moreover, the maps of polygenic fragments with functional cis-regulatory elements would provide valuable data on complex regulatory systems, including their variability and evolution. Here, we reviewed experimental approaches to the realization of these ideas, including our own developments of experimental techniques for selection of cis-acting functionally active DNA fragments from large (megabase-sized) segments of mammalian genomes.

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Insulators are fundamental components of the eukaryotic genomes

Cited by 62 publications

References 45 publications

Disruption of Topoisomerase II Perturbs Pairing in Drosophila Cell Culture

Disruption of Topoisomerase II Perturbs Pairing in Drosophila Cell Culture

New Properties of Drosophila Fab-7 Insulator

Maps of cis-Regulatory Nodes in Megabase Long Genome Segments are an Inevitable Intermediate Step Toward Whole Genome Functional Mapping

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