Upstream activating sequence

About: Upstream activating sequence is a research topic. Over the lifetime, 1633 publications have been published within this topic receiving 100112 citations.

E1a transactivation of human HSP70 gene promoter substitution mutants is independent of the composition of upstream and TATA elements.

Abstract: We have analyzed 41 deletion, linker scan, and substitution mutants of the human HSP70 gene promoter for activation by the adenovirus E1a region. No natural element of the HSP70 gene promoter was required for activation. To investigate specific interactions between E1a and transcription factors, a set of 24 promoters containing all possible combinations of eight different upstream or TATA motifs was investigated for E1a stimulation. E1a transactivated the promoter regardless of the particular TATA motif present. Furthermore, there was no dramatic correlation between any upstream motif and activation by E1a. These data suggest that E1a does not stimulate transcription via an interaction with any specific transcription factor but instead suggest that E1a interacts via the general transcription machinery.

Local potentiation of stress-responsive genes by upstream noncoding transcription.

Abstract: It has been postulated that a myriad of long noncoding RNAs (lncRNAs) contribute to gene regulation. In fission yeast, glucose starvation triggers lncRNA transcription across promoter regions of stress-responsive genes including fbp1 (fructose-1,6-bisphosphatase1). At the fbp1 promoter, this transcription promotes chromatin remodeling and fbp1 mRNA expression. Here, we demonstrate that such upstream noncoding transcription facilitates promoter association of the stress-responsive transcriptional activator Atf1 at the sites of transcription, leading to activation of the downstream stress genes. Genome-wide analyses revealed that ∼50 Atf1-binding sites show marked decrease in Atf1 occupancy when cells are treated with a transcription inhibitor. Most of these transcription-enhanced Atf1-binding sites are associated with stress-dependent induction of the adjacent mRNAs or lncRNAs, as observed in fbp1 These Atf1-binding sites exhibit low Atf1 occupancy and high histone density in glucose-rich conditions, and undergo dramatic changes in chromatin status after glucose depletion: enhanced Atf1 binding, histone eviction, and histone H3 acetylation. We also found that upstream transcripts bind to the Groucho-Tup1 type transcriptional corepressors Tup11 and Tup12, and locally antagonize their repressive functions on Atf1 binding. These results reveal a new mechanism in which upstream noncoding transcription locally magnifies the specific activation of stress-inducible genes via counteraction of corepressors.

Artificial promoter libraries for selected organisms and promoters derived from such libraries

Abstract: An artificial promoter library for a selected organism or group of organisms is constructed as a mixture of double stranded DNA fragments, the sense strands of which comprise at least two consensus sequences of efficient promoters from said organism or group of organisms, or parts thereof comprising at least half of each, and surrounding or intermediate nucleotide sequences (spacers) of variable length in which at least 7 nucleotides are selected randomly among the nucleobases A, T, C and G. The sense strands of the double stranded DNA fragments may also include a regulatory DNA sequence imparting a specific regulatory feature, such as activation by a change in the growth conditions, to the promoters of the library. Further, they may have a sequence comprising one or more recognition sites for restriction endonucleases added to one of or both their ends. The selected organism or group or organisms may be selected from prokaryotes and from eukaryotes; and in prokaryotes the consensus sequences to be retained most often will comprise the -35 signal (-35 to -30): TTGACA and the -10 signal (-12 to -7): TATAAT or parts of both comprising at least 3 conserved nucleotides of each, while in eukaryotes said consensus sequences should comprise a TATA box and at least one upstream activation sequence (UAS). Such artificial promoter libraries can be used i.a. for optimizing the expression of specific genes in various selected organisms.

The 19 S Proteasome Subcomplex Establishes a Specific Protein Interaction Network at the Promoter for Stimulated

Abstract: The 26 S proteasome complex that comprises the 20 S core and 19 S regulatory (with six ATPases) particles is engaged in an ATP-dependent degradation of a variety of key regulatory proteins and, thus, controls important cellular processes. Interestingly, several recent studies have implicated the 19 S regulatory particle in controlling eukaryotic transcriptional initiation or activation independently of the 20 S core particle. However, the mechanism of action of the 19 S proteasome subcomplex in regulation of eukaryotic transcriptional activation is not clearly understood in vivo. Here, using a chromatin immunoprecipitation assay in conjunction with mutational and transcriptional analyses in Saccharomyces cerevisiae, we show that the 19 S proteasomal subcomplex establishes a specific protein interaction network at the upstream activating sequence of the promoter. Such an interaction network is essential for formation of the preinitiation complex at the core promoter to initiate transcription. Furthermore, we demonstrate that the formation of the transcription complex assembly at the promoter is dependent on 19 S ATPase activity. Intriguingly, 19 S ATPases appear to cross-talk for stimulation of the assembly of transcription factors at the promoter. Together, these results provide significant insights as to how the 19 S proteasome subcomplex regulates the formation of the active transcription complex assembly (and, hence, transcriptional initiation) at the promoter in vivo.

Expression of a human 7S K RNA gene in vivo requires a novel pol III upstream element.

Abstract: The 5'-flanking sequences required for expression of a human 7S K RNA gene have been defined by mutant analysis. A -111 upstream deletion mutant showed full activity when analysed by in vitro transcription with HeLa cell extracts. In contrast, upon transfection into intact cells, this mutant only revealed a basal level activity of approximately 6% as compared to the wild-type promoter up to position -252. The deleted upstream sequence element acts as a transcriptional activator in vivo, in a strictly position and orientation-dependent manner. Two octamer-like binding motifs observed within this upstream sequence were both dispensable for proper function of this RNA polymerase III promoter in vivo. Instead, a detailed analysis of this region identified a CACCC-box element, together with its surrounding base pairs, as the essential upstream element required for expression of this 7S K RNA gene in vivo. Furthermore, this CACCC-box is centered within a footprint obtained with HeLa cell nuclear proteins.