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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Copper, zinc superoxide dismutase (SOD1 gene product) (superoxide:superoxide oxidoreductase, EC 1.15.1.1) is a copper-containing enzyme that functions to prevent oxygen toxicity. In the yeast Saccharomyces cerevisiae, copper levels exert some control over the level of SOD1 expression. We show that the
ACE1
transcriptional activator
protein, which is responsible for the induction of yeast metallothionein (CUP1) in response to copper, also controls the SOD1 response to copper. A single binding site for
ACE1
is present in the SOD1 promoter region, as demonstrated by DNase I protection and methylation interference experiments, and is highly homologous to a high-affinity
ACE1
binding site in the CUP1 promoter. The functional importance of this DNA-protein interaction is demonstrated by the facts that (i) copper induction of SOD1 mRNA does not occur in a strain lacking
ACE1
and (ii) it does not occur in a strain containing a genetically engineered SOD1 promoter that lacks a functional
ACE1
binding site.
...
PMID:ACE1, a copper-dependent transcription factor, activates expression of the yeast copper, zinc superoxide dismutase gene. 192 15
ACE1
is the
transcriptional activator
of the metallothionein (CUP1 locus) gene in Saccharomyces cerevisiae. Previous data had implicated the N-terminal domain of
ACE1
as responsible for the Cu-dependent specific DNA binding. An expression system in Escherichia coli was constructed to enable the isolation of an
ACE1
domain containing the DNA and Cu-binding regions. Here we report the purification and characterization of the Cu-
ACE1
truncated molecule. Spectroscopic techniques showed that
ACE1
contains an unusual type of DNA binding structure that is based on a polynuclear Cu(I)-cysteinyl thiolate cluster. The cluster consists of six or seven Cu(I) ions coordinated to cysteinyl thiolates in a trigonal geometry distorted from planarity. The Cu(I)-cysteine cluster of Cu-
ACE1
exhibits structural properties analogous to the Cu(I)-thiolate polynuclear cluster in yeast Cu-metallothionein itself, suggesting an unusual mechanism for the evolution of this regulatory factor. The Cu cluster organizes and stabilizes the conformation of the N-terminal domain of
ACE1
for specific DNA binding.
...
PMID:A copper-thiolate polynuclear cluster in the ACE1 transcription factor. 206 93
CUP2 is a regulatory gene controlling expression of CUP1, which encodes the Cu-binding yeast metallothionein. CUP2, which is identical to the
ACE1
gene, encodes a Cu-regulated DNA-binding protein. The CUP2 protein contains a cysteine-rich DNA-binding domain dependent on Cu+ and Ag+ ions which bind the cysteine residues and direct the refolding of the metal-free apoprotein. CUP2 mutant alleles from Cu-sensitive yeast strains have point mutations affecting the DNA-binding activity. These results establish CUP2 as the primary sensor of intracellular Cu+ in the yeast Saccharomyces cerevisiae, functioning as a Cu+-regulated
transcriptional activator
.
...
PMID:The CUP2 gene product, regulator of yeast metallothionein expression, is a copper-activated DNA-binding protein. 267 88
The expression of the 7B2 protein, secreted from a variety of neural and endocrine tissues, increases dramatically in specific neuroendocrine tumors. We have recently shown that human 7B2 can act as a molecular chaperone in the deaggregation of proteins in vitro. In order to identify polypeptides which might bind 7B2 in vivo, the yeast two-hybrid system was employed. Surprisingly, mere covalent linkage of 7B2 to the DNA-binding domains of two yeast transcription activators, Ace1 and Gal4, activates transcription from the
ACE1
and GAL4 operon. 7B2's ability to activate nuclear transcription surpasses that of Ace1 and compares favourably with the strong activation domain of the tumor suppressor protein, p53. Our results suggest that 7B2 must possess an activating sequence, a domain which defines all
transcriptional activator
proteins. Like the acidic activation domains of some transcriptional activators, 7B2 also binds the yeast TATA-box binding protein, an essential polypeptide in the basic transcription machinery. Deletion analysis of the gene encoding 7B2 reveals two independent transcriptional activating sequences in the 185 amino acid protein. It is therefore conceivable that 7B2 not only has a functional role in the secretory pathway but also in the nucleus. Moreover, these findings raise an intriguing question regarding the activation domains of 7B2 and their possible link to 7B2's oncogenic potential.
...
PMID:The neuroendocrine protein 7B2 contains unusually potent transcriptional activating sequences. 748 73
Yeast metallothionein, encoded by the CUP1 gene, and its copper-dependent
transcriptional activator
ACE1
play a key role in mediating copper resistance in Saccharomyces cerevisiae. Using an ethyl methanesulfonate mutant of a yeast strain in which CUP1 and
ACE1
were deleted, we isolated a gene, designated CUP9, which permits yeast cells to grow at high concentrations of environmental copper, most notably when lactate is the sole carbon source. Disruption of CUP9, which is located on chromosome XVI, caused a loss of copper resistance in strains which possessed CUP1 and
ACE1
, as well as in the cup1 ace1 deletion strain. Measurement of intracellular copper levels of the wild-type and cup9-1 mutant demonstrated that total intracellular copper concentrations were unaffected by CUP9. CUP9 mRNA levels were, however, down regulated by copper when yeast cells were grown with glucose but not with lactate or glycerol-ethanol as the sole carbon source. This down regulation was independent of the copper metalloregulatory transcription factor
ACE1
. The DNA sequence of CUP9 predicts an open reading frame of 306 amino acids in which a 55-amino-acid sequence showed 47% identity with the homeobox domain of the human proto-oncogene PBX1, suggesting that CUP9 is a DNA-binding protein which regulates the expression of important copper homeostatic genes.
...
PMID:Identification and analysis of a Saccharomyces cerevisiae copper homeostasis gene encoding a homeodomain protein. 796 20
Using the anticoagulant, hirudin, from the leech Hirudo medicinalis as a secreted reporter protein, the influence of physiological parameters on activity and regulation of the yeast (Saccharomyces cerevisiae) metallothionein (CUP1) promoter was studied. Induction of CUP1-directed hirudin expression from 2 mu-based vectors was possible at any time point during diauxic batch growth, even in cells approaching stationary phase. The highest titers of hirudin were obtained when the CUP1 promoter was activated immediately following inoculation of the cultures. If such a pseudo-constitutive fermentation strategy was adopted, the promoter was superior to an optimized variant (GAPFL) of the strong, constitutive GAPDH promoter. This superiority was primarily due to the relative independence of CUP1 promoter activity of the physiological status of host cells: whilst the maximal strength of the CUP1 and GAPFL promoters was comparable, CUP1-directed hirudin expression was high in all phases of diauxic batch growth, whereas hirudin production from the GAPFL promoter declined in post-diauxic cultures. High activity of the CUP1 promoter was observed on both a fermentable (glucose) and a non-fermentable (ethanol) carbon source. Hirudin expression could be adjusted to different levels by varying the amount of inducer (cupric sulphate) added to cultures. The copper concentrations required for maximal promoter induction had no negative effects on host growth and interfered with neither hirudin secretion nor with the biological activity of the peptide. Overexpression of the
transcriptional activator
,
ACE1
, resulted in increased levels of hirudin mRNA. Hirudin titers increased in parallel to mRNA concentrations in cultures grown in the presence of low concentrations of copper. In contrast, at high copper doses, elevated levels of the
ACE1
protein resulted in inferior hirudin production. Cells overexpressing
ACE1
while harbouring a CUP1-drived hirudin expression cassette showed slow growth and poor plasmid maintenance. It was tested whether this might be the result of a block in the secretory pathway; however, measurements of intracellular hirudin did not support this hypothesis. The data rather indicated that hirudin production was limited by a metabolic constraint downstream of transcription but upstream of the secretory pathway.
...
PMID:Physiological characterization of the yeast metallothionein (CUP1) promoter, and consequences of overexpressing its transcriptional activator, ACE1. 801 99
Calcium signaling plays pivotal roles in the hyphal growth, conidiation, and osmosis sensitivity of fungi through the Ca(2+) /calmodulin-calcineurin-dependent pathway. This study found that an appropriate extracellular Ca(2+) concentration markedly stimulated the hyphal growth, cellulase production, and total protein secretion of the cellulase hyper-producing strain, Trichoderma reesei Rut-C30. Transcription analysis revealed upregulation of not only encoding genes of cellulases and the
transcriptional activator
XYR1 but also several genes encoding endoplasmic reticulum-chaperones after Ca(2+) addition. The function of CRZ1, T. reesei calcineurin-responsive zinc finger transcription factor 1, was further characterized by gene disruption. Electrophoretic mobility shift assays (EMSAs) in combination with chromatin immunoprecipitation (ChIP) verified that CRZ1 could bind directly to the upstream regions of xyr1 and cbh1 (cellobiohydrolase I-encoding gene) in response to Ca(2+) . A DNase I footprinting assay identified its putative binding consensus site (5'-[T/G]GGCG-3' or 5'-GGGC[G/T]-3'). EMSAs confirmed that CRZ1 competed for occupancy of the xyr1 promoter with another transcription factor,
ACE1
. These results revealed putative signaling pathways downstream of calcineurin in response to extracellular Ca(2+) involved in upregulation of cellulose degradation-related genes, reflecting progress in the study of Ca(2+) signaling in filamentous fungi. This study also provides insight that will facilitate further improvement of (hemi-)cellulase production by T. reesei.
...
PMID:Characterization of the Ca(2+) -responsive signaling pathway in regulating the expression and secretion of cellulases in Trichoderma reesei Rut-C30. 2710 92
