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Ioudinkova E Verbovaia L Kadulin S Goldman I Razin SV 《Journal of cellular biochemistry》2004,92(1):99-103
It is demonstrated that a heterologous (chicken) CpG island containing five Sp1 canonical recognition sequences becomes highly methylated in the genome of transgenic mice bearing one or several copies of the transgene. Similar levels of methylation of the chicken CpG island were observed in different tissues of transgenic mice except the brain where the level of methylation of this chicken CpG-rich fragment was significantly lower than in other tissues. Analysis of susceptibility of the "transgenic" CpG island to Hpa II and Msp I restriction nucleases revealed an unusual methylation pattern interfering with the action of both of these enzymes. A conclusion has been drawn that heterologous CpG island per se does not contain all necessary signals permitting to maintain its own non-methylated status in the genome of transgenic animals. 相似文献
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Elena S. Ioudinkova Ana Barat Andrey Pichugin Elena Markova Ilya Sklyar Iryna Pirozhkova Chloe Robin Marc Lipinski Vasily Ogryzko Yegor S. Vassetzky Sergey V. Razin 《PloS one》2012,7(10)
Background
It becomes increasingly evident that nuclesomes are far from being identical to each other. This nucleosome diversity is due partially to the existence of histone variants encoded by separate genes. Among the known histone variants the less characterized are H2A.Bbd and different forms of macroH2A. This is especially true in the case of H2A.Bbd as there are still no commercially available antibodies specific to H2A.Bbd that can be used for chromatin immunoprecipitation (ChIP).Methods
We have generated HeLa S3 cell lines stably expressing epitope-tagged versions of macroH2A1.1, H2A.Bbd or canonical H2A and analyzed genomic distribution of the tagged histones using ChIP-on-chip technique.Results
The presence of histone H2A variants macroH2A1.1 and H2A.Bbd has been analyzed in the chromatin of several segments of human chromosomes 11, 16 and X that have been chosen for their different gene densities and chromatin status. Chromatin immunoprecipitation (ChIP) followed by hybridization with custom NimbleGene genomic microarrays demonstrated that in open chromatin domains containing tissue-specific along with housekeeping genes, the H2A.Bbd variant was preferentially associated with the body of a subset of transcribed genes. The macroH2A1.1 variant was virtually absent from some genes and underrepresented in others. In contrast, in closed chromatin domains which contain only tissue-specific genes inactive in HeLa S3 cells, both macroH2A1.1 and H2A.Bbd histone variants were present and often colocalized.Conclusions
Genomic distribution of macro H2A and H2A.Bbd does not follow any simple rule and is drastically different in open and closed genomic domains. 相似文献4.
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Here, we show that in the chicken genome, the domain of alpha-globin genes is preceded by a CpG island of which the downstream part ( approximately 0.65 kbp) is heavily methylated in lymphoid cells; it is either non-methylated or undermethylated in erythroid cells. Recombinant plasmids were constructed with the corresponding DNA fragment (called "uCpG") placed upstream to a reporter CAT gene expressed from the promoter of the alpha(D) chicken globin gene. Selective methylation of CpG dinucleotides within the uCpG fragment suppressed fivefold the expression of the CAT gene, when neither this gene itself nor the alpha(D) promoter were methylated. Methylation of CpG dinucleotides within the alpha(D) gene promoter did not modify the suppression effect exerted by methylated uCpG. We interpret these results within the frame of the hypothesis postulating, that methylation of the upstream CpG island of the chicken alpha-globin gene domain may play an essential role in silencing the alpha-globin genes in non-erythroid cells. 相似文献
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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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