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Query: EC:3.5.4.4 (
adenosine deaminase
)
5,136
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The murine
adenosine deaminase
(
ADA
) gene has a (G + C)-rich promoter that can support diverse tissue-specific gene expression. By using deletion and mutation analyses, we have identified a cis-acting "repressor" element located immediately upstream of the proximal
Sp1
binding site in the
ADA
gene promoter. This repressor element was localized to a binding site for the immediate-early, serum-responsive, DNA binding factor Zif268. This Zif268 binding site partially overlaps a binding site for the general transcription activator
Sp1
. Disruption of the Zif268 binding site without disturbing the
Sp1
binding motif abolished Zif268 binding and resulted in significantly elevated promoter function. Conversely, disruption of the proximal consensus
Sp1
binding motif without disturbing the Zif268 binding site resulted in a loss of
Sp1
binding at that region and greatly reduced promoter activity. Our results suggest that one function of Zif268 may be to down-regulate this type of mammalian gene promoter by competing with
Sp1
for binding to the overlapping binding motif.
...
PMID:Functional significance of an overlapping consensus binding motif for Sp1 and Zif268 in the murine adenosine deaminase gene promoter. 188 92
We have explored the template and factor requirements for in vitro transcription of the GC-rich promoter of the murine
adenosine deaminase
gene. The core promoter consists of an A-rich sequence (TAAAAAA) 27 base pairs upstream of the initiation site which binds transcription factor IID (TFIID) and a high affinity
Sp1
binding site located 27 base pairs further upstream. Multiple upstream elements increased core promoter activity 20-fold and correspond to protected regions in DNase I footprinting assays with purified Sp1 protein. Internal deletion of the TA6 element alone eliminated transcription in spite of the presence of all other promoter elements including four
Sp1
binding sites. Recombinant human TFIID supported weak basal transcription in heat-treated nuclear extracts whereas a partially purified TFIID fraction from HeLa cells reconstituted a maximal level of transcription. Inclusion of 12 base pairs immediately adjacent to the proximal
Sp1
site resulted in a 5-fold boost in transcriptional activity and corresponds to a second
Sp1
binding site. These results serve as a basis for further exploration of the factors involved in the developmental and selective high level tissue expression of the murine
adenosine deaminase
gene.
...
PMID:The murine adenosine deaminase promoter requires an atypical TATA box which binds transcription factor IID and transcriptional activity is stimulated by multiple upstream Sp1 binding sites. 193 99
A genomic library was prepared with DNA from a genetically enriched mouse cell line in which amplified copies of the
adenosine deaminase
(
ADA
) gene account for over 5% of the genome. Overlapping cosmid clones encompassing the entire
ADA
structural gene were isolated from this genomic library and used for subsequent structural and functional analyses. Nuclease protection and primer extension analyses served to identify the location of multiple transcription initiation sites at the 5' end of the structural gene. Promoter activity was found by functional analyses to reside within a 240-base-pair fragment which contains the transcription initiation sites. Sequences upstream of the transcription initiation sites are very G + C rich (77%) and include a 22 nucleotide stretch of deoxyguanylate residues and two potential
Sp1 transcription factor
-binding sites. Comparison of the mouse and human
ADA
gene promoters revealed the presence of several regions that are highly conserved with regard to both sequence content and location and may represent genetic elements which are involved in
ADA
gene expression.
...
PMID:Molecular cloning of the murine adenosine deaminase gene from a genetically enriched source: identification and characterization of the promoter region. 243 2
Tissue-specific expression of the human
adenosine deaminase
(
ADA
) gene is mediated by transcriptional activation over a thousand-fold range. Cis-regulatory regions responsible for high and basal levels of activation include an enhancer and the proximal promoter region. While analyses of the T-cell specific enhancer have been carried out, detailed studies of the the promoter region or promoter-enhancer interactions have not. Examination of the promoter region by homology searches revealed six putative
Sp1
binding sites. DNase I footprinting showed that
Sp1
is able to bind these sites. Deletion analysis indicated that the proximal
Sp1
site is required for activation of a reporter gene to detectable levels and that the more distal
Sp1
sites further activate the level of expression. Inclusion of an
ADA
enhancer-containing fragment in these deletion constructions demonstrated that
Sp1
sites are also essential for enhancer function. Apparently
Sp1
controls not only low level expression but is also an integral part of the mechanism by which the enhancer achieves high level
ADA
expression. Mutagenesis of a potential TBP binding site at base pairs -21 to -26 decreased activity only two-fold indicating that it is not essential for transcriptional activation or enhancement.
...
PMID:Sp1 is essential for both enhancer-mediated and basal activation of the TATA-less human adenosine deaminase promoter. 812 16
The murine
adenosine deaminase
gene has a structurally archetypal TATAA-box-deficient G+C-rich promoter. The three
Sp1
binding sites of the promoter are neither necessary nor sufficient for promoter function. Minimal basal promoter activity resides within a 48-bp element downstream of the
Sp1
binding sites. This element shows an imperfect dyad symmetry around the promoter's major transcriptional initiation site and contains at least two nuclear protein binding sites. The distinctive sequence characteristics and nuclear protein binding locations of this element led us to propose a model for how such promoters may function.
...
PMID:The minimal self-sufficient element in a murine G+C-rich promoter is a large element with imperfect dyad symmetry. 826 39
Estrogen receptor-alpha (ER alpha) is a ligand-activated transcription factor and a member of the nuclear receptor superfamily. The classic mechanism of ER alpha action is associated with estrogen-induced formation of a nuclear ER alpha homodimer, binding to 5'-regulatory estrogen response elements (EREs) in target gene promoters, interaction with other nuclear proteins, and general transcription factors to activate gene expression. ER alpha also interacts with Sp1 protein to transactivate genes through binding
Sp1
(N)xERE or
Sp1
(N)xERE half-site (1/2) motifs where both ER alpha and
Sp1
bind DNA elements. Activation through
Sp1
(N)xERE1/2 requires interactions of both proteins with their cognate DNA elements as well as additional nuclear factors to form a functional ER alpha/
Sp1
-DNA complex. Recent studies also show that ER alpha and
Sp1
physically interact and ER alpha preferentially binds to the C-terminal DNA-binding domain of Sp1 protein. Moreover, ER alpha/
Sp1
can activate transcription from a consensus GC-rich
Sp1
binding site in transient transfection studies in MCF-7 human breast cancer cells, and this response is also observed with ER alpha variants that do not contain the DNA-binding domain. Several genes that are induced by estrogens in MCF-7 cells are activated through one or more GC-rich sites in their regulatory regions and these include the cathepsin D, E2F1, bcl-2, c-fos,
adenosine deaminase
, insulinlike growth factor binding protein 4, and retinoic acid receptor alpha 1 genes. ER alpha/
Sp1
and ER beta/
Sp1
action is dependent on ligand structure and cell context and ER beta/
Sp1
is primarily associated with decreased ligand-dependent gene expression. ER alpha/
Sp1
, like ER alpha/AP1, represents a pathway for hormone activation of genes in which the receptor does not bind DNA, and results of ongoing studies suggest that ER alpha/
Sp1
plays an important role in transcriptional activation of multiple growth regulatory genes in breast cancer cells.
...
PMID:Transcriptional activation of genes by 17 beta-estradiol through estrogen receptor-Sp1 interactions. 1134
