Studies of an 800-kilobase DNA stretch of the Drosophila X chromosome: comapping of a subclass of scaffold-attached regions with sequences able to replicate autonomously in Saccharomyces cerevisiae.

Brun, Catherine; Dang, Qi; Miassod, Raymond

doi:10.1128/mcb.10.10.5455

Cited by 61 publications

(34 citation statements)

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“…These putative structural elements of chromatin have attracted considerable attention because of evidence for their involvement in the regulation of transcription, including stabilization and increased levels of transgene expression (12)(13)(14)(15)(16)(17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27) [reviewed by Bode et al (4)]. The comapping of MARs and origins of replication and the functioning of MARs as ARS elements suggest a role for MARs in DNA replication (28)(29)(30)(31)(32)(33)(34).…”

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confidence: 99%

Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants^,

et al. 1999

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Matrix attachment regions (MARs) can be operationally defined as DNA fragments that bind to the nuclear matrix. We have created a library of randomly obtained MARs from tobacco (Nicotiana tobacum) by cloning DNA fragments that co-isolate with nuclear matrixes prepared by a method involving lithium diiodosalicylate. The interactions of several of the cloned MARs with nuclear matrixes were tested by an in vitro binding assay in which genomic DNA was used as competitor. Based on this assay, the MARs were classified as strong, medium, and weak binders. Examples of each of the binding classes were further studied by in vitro binding using self-and cross-competition. Estimates of dissociation constants for several MARs ranged from 6 to 11 nM and correlated inversely with binding strength. The number of binding sites per matrix for several MARs ranged from 4 × 10 5 to 9 × 10 5 and correlated directly with binding strength. We conclude that binding strength, as we have measured it, is a function of both numbers of binding sites and affinity for the sites. The tobacco MARs were sequenced and analyzed for overall AT content, for distribution of AT-rich regions, and for the abundance of several MAR-related motifs. Previously identified MAR motifs correlate to various degrees with binding strength. Notably, the Drosophila topoisomerase II motif does not correlate with binding strength of the tobacco MARs. A newly identified motif, the "90%AT Box," correlates better with binding strength than any of the previously identified motifs we investigated.The idea that chromatin is organized into loop domains is as old as the original observation of loops in lampbrush chromosomes by Flemming in 1882 (1, 2). A reincarnation of that idea came from the electron micrographs of Paulson and Laemmli (3), which showed loops of DNA attached at their bases to the proteinaceous scaffold of metaphase chromosomes. A natural extension of the observations of Paulson and Laemmli is that the DNA-chromosome scaffold interaction is not random. Indeed, abundant evidence has been presented for interactions between specific DNA fragments and the metaphase chromosome scaffold and the interphase nuclear matrix [reviewed in Bode et al. (4,5)]. The specific DNA sequences have been termed MARs (matrix associated regions) (6) or SARs (scaffold attachment regions) (7,8). Both terms apparently describe the same biological entity (9). We use the term "MAR" because of its prevalence in the literature (10).MARs have a typical size of around 1 kb and have been postulated to form the anchorage points of torsionally constrained loop domains ranging in size from a few kb to more than 100 kb [reviewed by Gasser et al. (11) and Bode et al. (4,5)]. These putative structural elements of chromatin have attracted considerable attention because of evidence for their involvement in the regulation of transcription, including stabilization and increased levels of transgene expression (12)(13)(14)(15)(16)(17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27) [reviewed by Bode e...

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confidence: 99%

Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants^,

et al. 1999

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“…These two neighboring attachment sites delineate a putative loop of ∼6.6 kb containing the Sh2 homolog. It should be pointed out that different functions have been suggested for strong and weak MARs (2,15) and that, in at least one case, involvement of a strong MAR in attenuating transgene silencing has been reported (9). While this is certainly an interesting issue, it is beyond the scope of this work.…”

Section: Identification and Mapping Of Mars In The Sh2/a1-homologous mentioning

confidence: 85%

“…Hence, most of the existing information on the structural organization of the genome describes individual genes and their immediate surroundings. Information on domain organization and chromosome folding at a supragenic level in animal systems is limited to only a few studies: a 320 kb continuum of the Drosophila rosy-Ace locus (13), an 800 kb region of Drosophila chromosome 1 (14,15), the 240 kb amplicon of the chinese hamster dihydrofolate reductase gene (16) and 200 kb around the mouse heavy chain IgH locus (17). The first study in plants devoted to the higher order structural organization of a large chromosomal continuum was focused on a 290 kb region around maize Adh1 (18).…”

Section: Introductionmentioning

confidence: 99%

Matrix attachment regions and structural colinearity in the genomes of two grass species

1998

Current Opinion in Plant Biology

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In order to gain insights into the relationship between spatial organization of the genome and genome function we have initiated studies of the co-linear Sh2/A1-homologous regions of rice (30 kb) and sorghum (50 kb). We have identified the locations of matrix attachment regions (MARs) in these homologous chromosome segments, which could serve as anchors for individual structural units or loops. Despite the fact that the nucleotide sequences serving as MARs were not detectably conserved, the general organizational patterns of MARs relative to the neighboring genes were preserved. All identified genes were placed in individual loops that were of comparable size for homologous genes. Hence, gene composition, gene orientation, gene order and the placement of genes into structural units has been evolutionarily conserved in this region. Our analysis demonstrated that the occurrence of various 'MAR motifs' is not indicative of MAR location. However, most of the MARs discovered in the two genomic regions were found to co-localize with miniature inverted repeat transposable elements (MITEs), suggesting that MITEs preferentially insert near MARs and/or that they can serve as MARs.

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“…S/MARs anchor chromatin onto the NM, thereby organizing the genomic DNA into topologically distinct loop domains that are important for the regulation of replication and transcription. 2 Despite numerous genomic studies, [3][4][5][6][7] no consensus S/MAR sequence has been identified so far. 8 S/MARs can be both A/T 9 or G/C rich.…”

Section: Introductionmentioning

confidence: 99%

DNA polymorphism and epigenetic marks modulate the affinity of a scaffold/matrix attachment region to the nuclear matrix

et al. 2014

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Mechanisms that regulate attachment of the scaffold/matrix attachment regions (S/MARs) to the nuclear matrix remain largely unknown. We have studied the effect of simple sequence length polymorphism (SSLP), DNA methylation and chromatin organization in an S/MAR implicated in facioscapulohumeral dystrophy (FSHD), a hereditary disease linked to a partial deletion of the D4Z4 repeat array on chromosome 4q. This FSHD-related nuclear matrix attachment region (FR-MAR) loses its efficiency in myoblasts from FSHD patients. Three criteria were found to be important for high-affinity interaction between the FR-MAR and the nuclear matrix: the presence of a specific SSLP haplotype in chromosomal DNA, the methylation of one specific CpG within the FR-MAR and the absence of histone H3 acetylated on lysine 9 in the relevant chromatin fragment.

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Studies of an 800-kilobase DNA stretch of the Drosophila X chromosome: comapping of a subclass of scaffold-attached regions with sequences able to replicate autonomously in Saccharomyces cerevisiae.

Cited by 61 publications

References 50 publications

Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants^,

Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants^,

Matrix attachment regions and structural colinearity in the genomes of two grass species

DNA polymorphism and epigenetic marks modulate the affinity of a scaffold/matrix attachment region to the nuclear matrix

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Studies of an 800-kilobase DNA stretch of the Drosophila X chromosome: comapping of a subclass of scaffold-attached regions with sequences able to replicate autonomously in Saccharomyces cerevisiae.

Cited by 61 publications

References 50 publications

Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants,

Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants,

Matrix attachment regions and structural colinearity in the genomes of two grass species

DNA polymorphism and epigenetic marks modulate the affinity of a scaffold/matrix attachment region to the nuclear matrix

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Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants^,

Characterization of Randomly-Obtained Matrix Attachment Regions (MARs) from Higher Plants^,