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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.


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Journal ArticleDOI
12 Oct 1992-Gene
TL;DR: It is suggested that the gpd box comprises at least two separate activities: one being orientation dependent, but relatively independent of position of thegpd box in the upstream region, and the other is only functional near other sites of transcriptional control.

47 citations

Journal ArticleDOI
TL;DR: The results presented here demonstrate that the human T cell-specific transcription factor, SOX4, is able to bind to one of these regions; further, SoX4 transactivates transcription of a reporter gene via three tandem copies of this sequence.

47 citations

Journal ArticleDOI
TL;DR: Transcriptional regulation by glucocorticoids and chronic acidosis was demonstrated and promoter activity was present in OKP cells, a renal proximal tubule cell line, but not in fibroblasts, suggesting that the NHE3 promoter contains elements conferring epithelial cell-specific expression.
Abstract: NHE3, a transmembrane protein involved in transcellular ion transport, is expressed in the apical membrane of renal and gastrointestinal epithelia. Chronic regulation by multiple stimuli, including glucocorticoid-induced transcriptional regulation, has been demonstrated. To study the tissue-specific expression and transcriptional regulation of NHE3, the 5' flanking region of the rat NHE3 gene was cloned. Two genomic libraries were screened with the 5' end of the NHE3 cDNA. The 5' flanking region and first exon were isolated. Primer extension mapped a single transcription start site in stomach, colon and kidney. The NHE3 promoter near the transcription initiation site is characterized by the absence of TATA and CAAT sequences. Two Sp1 sites, one Egr-1 site, and an initiator with the sequence GGGATTAAA mark the area of transcription initiation. Upstream sequences include multiple DNA sequence elements recognized by the glucocorticoid and thyroid receptors, Sp1, atriopeptin-2, and several other transcription factors. Transcriptional regulation by glucocorticoids and chronic acidosis was demonstrated. Promoter activity was present in OKP cells, a renal proximal tubule cell line, but not in fibroblasts. This suggests that the NHE3 promoter contains elements conferring epithelial cell-specific expression.

47 citations

Journal ArticleDOI
TL;DR: The presence of a divergently transcribed gene (phhR) encoding an activator protein in the flanking upstream region of the E. coli system is reported, and it is proposed that one or both boxes may be the target of PhhR acting as an autogenous repressor at a 70 promoter in one direction.
Abstract: Pseudomonas aeruginosa was recently found to possess a cluster of structural genes encoding phenylalanine hydroxylase (PhhA), carbinolamine dehydratase (PhhB), and aromatic aminotransferase (PhhC). We now report the presence, in the flanking upstream region, of a divergently transcribed gene (phhR) encoding an activator protein. Inactivation of phhR markedly reduced expression of the structural genes. PhhR belongs to the large prokaryote family of sigma 54 enhancer-binding proteins, and activation of the phh operon by PhhR in P. aeruginosa required rpoN. The closest homologues of PhhR are the TyrR proteins from Escherichia coli and Haemophilus influenzae. E. coli TyrR is an unusual member of the homologue family in that the transcriptional units regulated by tyrR are driven by sigma 70 promoters. P. aeruginosa phhR was able to replace E. coli tyrR as a repressor of the aroF-tyrA operon (but not as an activator of mtr) in the heterologous E. coli system. Two regions that resemble E. coli TyrR boxes were identified in the intervening region between phhR and phhA. We propose that one or both boxes may be the target of PhhR acting as an autogenous repressor at a sigma 70 promoter in one direction. In the other direction, one or both boxes may be the upstream activator sequence targeted by PhhR to facilitate expression of the phh operon from a sigma 54 promoter. The phh operon was strongly induced in fructose- or glucose-based minimal medium by L-phenylalanine. Inactivation of phhR in P. aeruginosa abolished ability to utilize either L-phenylalanine or L-tyrosine as a sole source of carbon for growth.

47 citations

Journal ArticleDOI
TL;DR: It is shown that the MAT alpha UAS is sufficient to activate transcription from a promoterless gene fusion of the yeast CYC1 upstream region and the lacZ gene, and this data provides evidence that the RAP1 gene product functions at the MATalpha UAS in vivo.
Abstract: The RAP1 gene of Saccharomyces cerevisiae encodes an abundant DNA-binding protein, also known as GRF1, TBA, or TUF, that binds to many sites in the yeast genome in vitro. These sites define a consensus sequence, [sequence: see text], and deletion analyses of genes that contain this sequence have implicated the involvement of RAP1 in numerous cellular processes, including gene activation and repression. The MAT alpha locus, required for determination of the alpha cell type in yeast cells, contains a RAP1 binding site; this site coincides with the MAT alpha upstream activating sequence (UAS) and is necessary for expression of the two genes encoded by the MAT alpha locus, MAT alpha 1 and MAT alpha 2. We show that the MAT alpha UAS is sufficient to activate transcription from a promoterless gene fusion of the yeast CYC1 upstream region and the lacZ gene. Constructs containing only the MAT alpha UAS generated elevated levels of beta-galactosidase activity which were indistinguishable from those of constructs containing the entire MAT alpha intergenic region. Further, the MAT alpha UAS has an intrinsic polarity of transcriptional activation; transcription of CYC1-lacZ was six- to sevenfold higher when the UAS was oriented in the direction normally associated with MAT alpha 2 transcription. Point mutations in the MAT alpha UAS that reduce MAT alpha expression three- to fivefold resulted in a bi-mating phenotype, while a mutation that reduced MAT alpha expression still further resulted in an a-mating phenotype. We isolated plasmids from a high-copy-number yeast library that suppressed the bi-mating defect of point mutations in the MAT alpha UAS, and the most effective dosage suppressor contained the gene encoding RAP1. A temperature-sensitive rap1 mutant bi-mates at the semipermissive temperature. Double mutants at rap1 and mat alpha mate exclusively as a cells, at all temperatures, and do not express detectable levels of MAT alpha RNA. These data provide evidence that the RAP1 gene product functions at the MAT alpha UAS in vivo.

47 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20232
20223
20218
20206
20196
20186