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Transcription (biology)

About: Transcription (biology) is a research topic. Over the lifetime, 56532 publications have been published within this topic receiving 2952782 citations. The topic is also known as: genetic transcription & transcription, genetic.


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Journal ArticleDOI
TL;DR: Using differential RNA sequencing, a genome-wide map of 3,527 transcriptional start sites (TSS) of the model organism Synechocystis sp.
Abstract: There has been an increasing interest in cyanobacteria because these photosynthetic organisms convert solar energy into biomass and because of their potential for the production of biofuels. However, the exploitation of cyanobacteria for bioengineering requires knowledge of their transcriptional organization. Using differential RNA sequencing, we have established a genome-wide map of 3,527 transcriptional start sites (TSS) of the model organism Synechocystis sp. PCC6803. One-third of all TSS were located upstream of an annotated gene; another third were on the reverse complementary strand of 866 genes, suggesting massive antisense transcription. Orphan TSS located in intergenic regions led us to predict 314 noncoding RNAs (ncRNAs). Complementary microarray-based RNA profiling verified a high number of noncoding transcripts and identified strong ncRNA regulations. Thus, ∼64% of all TSS give rise to antisense or ncRNAs in a genome that is to 87% protein coding. Our data enhance the information on promoters by a factor of 40, suggest the existence of additional small peptide-encoding mRNAs, and provide corrected 5′ annotations for many genes of this cyanobacterium. The global TSS map will facilitate the use of Synechocystis sp. PCC6803 as a model organism for further research on photosynthesis and energy research.

372 citations

Journal ArticleDOI
TL;DR: It is found that fis is not essential for the function of two control systems known to regulate rRNA, growth rate dependent control and stringent control and that rRNA promoters derepress in response to the loss of Fis in vivo in accord with the predictions of the negative feedback model for rRNA regulation.
Abstract: An upstream activation region (UAR) contributes to the extremely high activity of the Escherichia coli ribosomal RNA promoter, rrnB P1, increasing its activity 20- to 30-fold over that of the same promoter lacking the UAR. We have used DNase footprinting to define three specific sites in the rrnB P1 UAR that bind Fis, a protein identified previously by its role in recombinational enhancer function in other systems. We find that purified Fis activates transcription from promoters containing these sites 10- to 20-fold in vitro at concentrations correlating with the filling of these sites. Three approaches indicate that Fis contributes to the function of the UAR in vivo. First, there is a progressive loss in the activity of rrnB P1-lacZ fusions as Fis binding sites are deleted. Second, an rrnB P1 promoter with a mutation in a Fis binding site has 5-fold reduced transcription activity in vivo, dramatically reduced Fis binding in vitro, and shows no Fis dependent transcription activation in vitro. Third, upstream activation is reduced 5-fold in a Fis- strain. We show that rRNA promoters derepress in response to the loss of Fis in vivo in accord with the predictions of the negative feedback model for rRNA regulation. We find that fis is not essential for the function of two control systems known to regulate rRNA, growth rate dependent control and stringent control. On the basis of these results, we propose roles for Fis and the upstream activation system in rRNA synthesis.

372 citations

Journal ArticleDOI
TL;DR: Using chromatin immunoprecipitation‐sequencing, data show that Jmjd3 fine‐tunes the transcriptional output of LPS‐activated macrophages in an H3K27 demethylation‐independent manner.
Abstract: Jmjd3, a JmjC family histone demethylase, is induced by the transcription factor NF-kB in response to microbial stimuli. Jmjd3 erases H3K27me3, a histone mark associated with transcriptional repression and involved in lineage determination. However, the specific contribution of Jmjd3 induction and H3K27me3 demethylation to inflammatory gene expression remains unknown. Using chromatin immunoprecipitation-sequencing we found that Jmjd3 is preferentially recruited to transcription start sites characterized by high levels of H3K4me3, a marker of gene activity, and RNA polymerase II (Pol_II). Moreover, 70% of lipopolysaccharide (LPS)-inducible genes were found to be Jmjd3 targets. Although most Jmjd3 target genes were unaffected by its deletion, a few hundred genes, including inducible inflammatory genes, showed moderately impaired Pol_II recruitment and transcription. Importantly, most Jmjd3 target genes were not associated with detectable levels of H3K27me3, and transcriptional effects of Jmjd3 absence in the window of time analysed were uncoupled from measurable effects on this histone mark. These data show that Jmjd3 fine-tunes the transcriptional output of LPS-activated macrophages in an H3K27 demethylation-independent manner.

372 citations

Journal ArticleDOI
TL;DR: This study examines pausing on hsp70 and two of the small heat shock genes at high resolution using a technique that utilizes paramagnetic particle-mediated selection of terminated run-on transcripts, which provides precise information on the distribution of RNA polymerase within each transcription unit.
Abstract: The regulation of many eukaryotic genes occurs at the level of transcriptional elongation. On the uninduced hsp70 gene of Drosophila melanogaster, for example, an RNA polymerase II complex has initiated transcription but has paused early in elongation. In this study, we examine pausing on hsp70 and two of the small heat shock genes (hsp27 and hsp26) at high resolution, using a technique that utilizes paramagnetic particle-mediated selection of terminated run-on transcripts. This technique provides precise information on the distribution of RNA polymerase within each transcription unit. It also details the progression of 5' cap formation on the elongating transcripts. For each gene, we find polymerases paused over a relatively narrow promoter-proximal region. The regions are generally around 20 nucleotides wide, with two preferred pausing positions spaced roughly 10 nucleotides apart or about one turn of the helix. The bulk of capping occurs as transcripts pass between 20 and 30 nucleotides in length. Interestingly, in the three genes examined here, elongational pausing and 5' cap formation appear largely coincident.

371 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20229
20211,730
20201,721
20191,686
20181,571
20171,465