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121.
Visualization of individual DNA loops and a map of loop domains in the human dystrophin gene 总被引:2,自引:0,他引:2
Iarovaia OV Bystritskiy A Ravcheev D Hancock R Razin SV 《Nucleic acids research》2004,32(7):2079-2086
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Instability of eukaryotic DNA in constructs propagated in prokaryotic hosts is a frequently observed phenomenon. With the exception of a very high A+T-content and the presence of multiple repetitions, no general rule at the basis of this phenomenon is actually known. The intergenic spacer located between the pi and alpha(D) chicken alpha-type globin genes is frequently deleted from recombinant phages and plasmids. Here we have cloned this DNA fragment using a specially designed bacterial strain (SURE competent cells, Stratogene). Comparative analysis of DNA of recombinant clones bearing deletions and clones containing the intact genomic DNA fragment has revealed two important DNA sequence motifs that contribute to the unclonability of eukaryotic DNA in prokaryotic cells. First, the similarity to bacterial transposons (i.e. the presence of repeats flanking a several kilobase DNA fragment) may cause the loss of the fragment during propagation of the recombinant DNA in E. coli. Second, a high content of rotationally correlated kinkable elements (TG*CA steps) may result in non-clonability of the DNA sequence. Interestingly, the latter type of "unclonable" DNA sequence motifs identified in the globin gene domain is unstable (frequently rearranged) also in the eukaryotic chromosome resulting in a local polymorphism. In the chicken domain of alpha globin genes this unstable DNA sequence seems to be partially protected by interaction with nuclear matrix proteins. 相似文献
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The extremely high concentration of macromolecules in a eukaryotic cell nucleus indicates that the nucleoplasm is a crowded macromolecular solution in which large objects tend to gather together due to crowding forces. It has been shown experimentally that crowding forces support the integrity of various nuclear compartments. However, little is known about their role in control of chromatin dynamics in vivo. Here, we experimentally addressed the possible role of crowding forces in spatial organization of the eukaryotic genome. Using the mouse β-globin domain as a model, we demonstrated that spatial juxtaposition of the remote regulatory elements of this domain in globin-expressing cells may be lost and restored by manipulation of the level of macromolecular crowding. In addition to proving the role of crowding forces in shaping interphase chromatin, our results suggest that the folding of the chromatin fiber is a major determinant in juxtaposing remote genomic elements. 相似文献
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Ekaterina S Gushchanskaya Artem V Artemov Sergey V Ulyanov Maria D Logacheva Aleksey A Penin Elena S Kotova Sergey B Akopov Lev G Nikolaev Olga V Iarovaia Eugene D Sverdlov Alexey A Gavrilov Sergey V Razin 《Epigenetics》2014,9(7):951-963
We used the 4C-Seq technique to characterize the genome-wide patterns of spatial contacts of several CpG islands located on chromosome 14 in cultured chicken lymphoid and erythroid cells. We observed a clear tendency for the spatial clustering of CpG islands present on the same and different chromosomes, regardless of the presence or absence of promoters within these CpG islands. Accordingly, we observed preferential spatial contacts between Sp1 binding motifs and other GC-rich genomic elements, including the DNA sequence motifs capable of forming G-quadruplexes. However, an anchor placed in a gene/CpG island-poor area formed spatial contacts with other gene/CpG island-poor areas on chromosome 14 and other chromosomes. These results corroborate the two-compartment model of the spatial organization of interphase chromosomes and suggest that the clustering of CpG islands constitutes an important determinant of the 3D organization of the eukaryotic genome in the cell nucleus. Using the ChIP-Seq technique, we mapped the genome-wide CTCF deposition sites in the chicken lymphoid and erythroid cells that were used for the 4C analysis. We observed a good correlation between the density of CTCF deposition sites and the level of 4C signals for the anchors located in CpG islands but not for an anchor located in a gene desert. It is thus possible that CTCF contributes to the clustering of CpG islands observed in our experiments. 相似文献
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Artem K. Velichko Natalia Ovsyannikova Nadezhda V. Petrova Artem V. Luzhin Maria Vorobjeva Alexey S. Gavrikov Alexander S. Mishin Igor I. Kireev Sergey V. Razin Omar L. Kantidze 《The Journal of cell biology》2021,220(8)
Replication stress is one of the main sources of genome instability. Although the replication stress response in eukaryotic cells has been extensively studied, almost nothing is known about the replication stress response in nucleoli. Here, we demonstrate that initial replication stress–response factors, such as RPA, TOPBP1, and ATR, are recruited inside the nucleolus in response to drug-induced replication stress. The role of TOPBP1 goes beyond the typical replication stress response; it interacts with the low-complexity nucleolar protein Treacle (also referred to as TCOF1) and forms large Treacle–TOPBP1 foci inside the nucleolus. In response to replication stress, Treacle and TOPBP1 facilitate ATR signaling at stalled replication forks, reinforce ATR-mediated checkpoint activation inside the nucleolus, and promote the recruitment of downstream replication stress response proteins inside the nucleolus without forming nucleolar caps. Characterization of the Treacle–TOPBP1 interaction mode leads us to propose that these factors can form a molecular platform for efficient stress response in the nucleolus. 相似文献
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