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.

A GC-box motif upstream of the B19 parvovirus unique promoter is important for in vitro transcription.

Abstract: Nucleotides upstream of the B19 parvovirus P6 promoter affect in vitro transcription in HeLa cell nuclear extracts. Comparison of the relative transcriptional strengths of equimolar mixes of plasmids containing the intact upstream sequence and plasmids containing deletions within these nucleotides identified several regions that affect transcription in vitro. A fragment containing two of five GC-box motifs which correspond to high-affinity SP1-binding sites was shown, by using a gel shift assay, to bind a HeLa cell factor (or factors). DNase I, methylation interference, and methylation protection footprinting demonstrated that the HeLa cell factor(s) bound to one of the two GC-box motifs within this fragment. Mutation of this GC box abolished factor binding and significantly reduces in vitro transcription from the P6 promoter. These results suggest that the B19 parvovirus promoter includes a complex regulatory region containing multiple sequences which affect promoter strength and that the GC-box motif is a major controlling sequence for in vitro transcription.

Phylogenetic footprinting reveals evolutionarily conserved regions of the gonadotropin-releasing hormone gene that enhance cell-specific expression.

Abstract: Reproductive function is controlled by the hypothalamic neuropeptide, GnRH, which serves as the central regulator of the hypothalamic-pituitary-gonadal axis. GnRH expression is limited to a small population of neurons in the hypothalamus. Targeting this minute population of neurons (as few as 800 in the mouse) requires regulatory elements upstream of the GnRH gene that remain to be fully characterized. Previously, we have identified an evolutionarily conserved promoter region (−173 to −1) and an enhancer (−1863 to −1571) in the rat gene that targets a subset of the GnRH neurons in vivo. In the present study, we used phylogenetic sequence comparison between human and rodents and analysis of the transcription factor clusters within conserved regions in an attempt to identify additional upstream regulatory elements. This approach led to the characterization of a new upstream enhancer that regulates expression of GnRH in a cell-specific manner. Within this upstream enhancer are nine binding sites for Octamer-binding transcription factor 1 (OCT1), known to be an important transcriptional regulator of GnRH gene expression. In addition, we have identified nuclear factor I (NF1) binding to multiple elements in the GnRH-regulatory regions, each in close proximity to OCT1. We show that OCT1 and NF1 physically and functionally interact. Moreover, the OCT1 and NF1 binding sites in the regulatory regions appear to be essential for appropriate GnRH gene expression. These findings indicate a role for this upstream enhancer and novel OCT1/NF1 complexes in neuron-restricted expression of the GnRH gene.

An upstream activating sequence containing curved DNA involved in activation of the Clostridium perfringens plc promoter.

Abstract: The plc gene, which encodes phospholipase C (α-toxin) of Clostridium perfringens, possesses three poly(A) tracts forming an intrinsically curved DNA region immediately upstream of the promoter. The in vivo transcriptional activity of the plasmid-borne plc gene was stimulated by this curved-DNA-containing sequence, depending on its proper linear and rotational orientation. The in vitro transcriptional activity of the plc gene was also stimulated by the upstream sequence. In addition, the stimulatory effect of the sequence and the degree of DNA bending were greater at lower temperature, as was demonstrated by both in vitro and in vivo transcription assays, and a gel-mobility assay, respectively. A similar temperature effect was also observed with the chromosomal plc gene. These observations suggest that the upstream DNA curvature per se stimulates the initiation of transcription of the plc gene, possibly through direct contact with RNA polymerase.

Sequence, function, and regulation of the Vmw65 gene of herpes simplex virus type 2.

Abstract: We determined the sequence of the gene for the virion transactivator protein Vmw65 of herpes simplex virus type 2 (HSV-2), strain 333. An analysis of the coding sequence revealed an overall high degree of primary sequence conservation (86%) relative to the HSV-1 protein, although the carboxy-terminal region which encompasses the powerful acidic transactivation domain of the HSV-1 protein was slightly less well conserved (70%). One important change in this region was the presence of a proline residue in a region of the HSV-2 protein which is thought to form an amphipathic alpha-helix in the HSV-1 homolog. Despite the occurrence of this helix-disrupting residue, the HSV-2 protein exhibited powerful transactivation properties for immediate-early target promoters. We also demonstrated that the HSV-2 protein forms a transcriptional complex (TRF.C) with the cellular Oct-1 protein and target TAATGARAT elements from immediate-early promoters. A comparison of upstream sequences from the two Vmw65 genes revealed good conservation of proximal promoter elements but considerable divergence elsewhere. Specifically, the HSV-2 promoter alone carries 9.5 copies of a 9-bp direct repeat (GGGGCGGGA) ending 85 bp upstream of the conserved TTAAAT element. An analysis of transcription factor binding sites in vitro revealed that cellular factor Sp1 bound to the direct repeat sequence of the HSV-2 promoter and that cellular factor USF bound to a proximal element present in both HSV-1 and HSV-2 promoters. Mutational analysis of the HSV-2 promoter demonstrated that the integrity of both of these binding sites was important for the full activity of the promoter.