Gema Tur scite author profile

We describe a procedure, RNAPol-ChIP, to measure actual transcriptional rate. It consists of the detection, by chromatin immunoprecipitation (ChIP), of RNA polymerase II within the coding region of genes. To do this, the DNA immunoprecipitated with polymerase antibodies is analysed by PCR, using an amplicon well within the coding region of the desired genes to avoid interferences with polymerase paused at the promoter. To validate RNAPol-ChIP, we compare our results to those obtained by classical methods in several genes induced during either liver regeneration or acute pancreatitis. When short half-life mRNA genes are studied (e.g. c-fos and egr1), RNAPol-ChIP gives results similar to those of other procedures. However, in genes whose mRNA is more stable (e.g. the hemopexin, hpx, gene) RNAPol-ChIP informs on real-time transcription with results comparable to those of methods such as nuclear run-on or run-off, which require the isolation of highly purified nuclei. Moreover, RNAPol-ChIP advantageously compares with methods based on the analysis of steady-state mRNA (northern blot or RT-PCR). Additional advantages of RNAPol-ChIP, such as the possibility of combining it with classical ChIP analysis to study transcription-associated changes in chromatin are discussed.

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Factor binding and chromatin modification in the promoter of murine Egr1 gene upon induction

Tur

Georgieva

Gagete

et al. 2010

Cell. Mol. Life Sci.

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The influence of chromatin on immediate-early gene expression has been studied in a model of Egr1 induction in intact mouse cells. ChIP analysis of factor and RNA polymerase binding reveals that the gene is constitutively poised for transcription in nonstimulated cells, but a repressing chromatin structure hampers productive transcription. Stimulation with phorbol esters results in a transient activation, which starts at 5 min and peaks at 30 min. Quantitative mapping of promoter occupancy by the different factors shows for the first time that no direct competition between SP1 and EGR1 occurs. The phosphorylation of ELK1 and CREB, which involves both the cascades of MEK1/2 and p38 kinases, is required for gene expression, which ceases following the binding of NAB1 and NAB2 to the promoter. The changes in histone acetylation and the differential recruitment of histonemodifying complexes further show the role of chromatin in the activation of this immediate-early gene.

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Nucleosome-specific, Time-dependent Changes in Histone Modifications during Activation of the Early Growth Response 1 (Egr1) Gene

Riffo‐Campos

Castillo

Tur

et al. 2015

Journal of Biological Chemistry

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Background: Chromatin structure and histone modifications regulate transcription in eukaryotes. Results: Activation of the early growth response gene 1 involves sliding and/or eviction of nucleosomes around the transcription start site and nucleosome-specific, time-dependent changes in histone modifications. Conclusion: Remodeling mechanisms and histone modifications are specific for each nucleosome. Significance: Mononucleosomal level studies give unique information on chromatin functions.

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Gema Tur

RNAPol-ChIP: a novel application of chromatin immunoprecipitation to the analysis of real-time gene transcription

Factor binding and chromatin modification in the promoter of murine Egr1 gene upon induction

Nucleosome-specific, Time-dependent Changes in Histone Modifications during Activation of the Early Growth Response 1 (Egr1) Gene

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