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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this report we study the effects of internal deletions of the yeast
transcriptional activator
HAP1 (
CYP1
) on activity at two dissimilar DNA binding sites, upstream activation sequence 1 (UAS1) of CYC1 (iso-1-cytochrome c) and CYC7 (iso-2-cytochrome c). These deletions remove up to 1061 amino acids of the 1483-residue protein and bring the carboxyl-terminal acidic activation domain closer to the amino-terminal DNA-binding domain. Surprisingly, the deletions have opposite effects at the two sites; activity at UAS1 increases with deletion size, while activity at CYC7 decreases. The mutant with the largest deletion, mini-HAP1, has no measurable activity at CYC7 but binds normally to the site in vitro. In contrast, a protein with the DNA-binding domain of HAP1 fused to the acidic activation domain of GAL4 is active at both UAS1 and CYC7. These findings are discussed in the context of two models that suggest how the DNA sequence can alter the activity of the bound HAP1. In a separate experiment, we generate a mutation in the DNA-binding domain of HAP1 that requires the addition of zinc for binding to either UAS1 or CYC7 in vitro. This finding shows that a zinc finger anchors DNA binding to both types of HAP1 sites.
...
PMID:Internal deletions in the yeast transcriptional activator HAP1 have opposite effects at two sequence elements. 216 46
Various fragments of the N-terminal, DNA-binding domain of the yeast Saccharomyces cerevisiae
transcriptional activator
CYP1
(HAP1) have been cloned and expressed in Escherichia coli. The corresponding polypeptides have been analysed biochemically and we have undertaken a more extensive physical study of a fragment consisting of amino acids 49-126 [
CYP1
(49-126)]. We show that this
CYP1
(49-126) peptide requires zinc or cadmium in the growth medium in order to maintain a stable structure. A method to purify
CYP1
(49-126) is presented. We demonstrate that the purified
CYP1
(49-126) fragment contains two zinc ions/fragment or two cadmium ions/fragment, which are necessary for DNA binding. 113Cd one-dimensional NMR data suggest that
CYP1
(HAP1) has a tetrahedral coordination, and that it forms a zinc-cluster complex like GAL4.
...
PMID:The DNA-binding domain of the yeast Saccharomyces cerevisiae CYP1(HAP1) transcription factor possesses two zinc ions which are complexed in a zinc cluster. 795 73
CYP1
(HAP1) is a
transcriptional activator
involved in the aerobic metabolism of the yeast Saccharomyces cerevisiae. The amino acid sequence of its DNA-binding domain suggests that it belongs to the "zinc cluster" class. This region is indeed characterized by a pattern known to form a bimetal thiolate cluster where two zinc ions are coordinated by six cysteine residues. Structures of two such domains, those from GAL4 and PPR1, have been solved as complexes with DNA. These domains consist of the zinc cluster connected to a dimerization helix by a linker peptide. They recognize, as a dimer, an inverted repeat of a CGG motif that is separated by a specific number of bases. Interestingly, the specificity of that interaction seems not to be due to the interaction between the cluster region and the DNA but rather to a fine tune between the structure of the linker peptide and the number of base-pairs separating the two CGGs. However, the
CYP1
target sites fail to display such a consensus sequence. One of the two CGG sites is poorly conserved and some experiments suggest a direct rather than an inverted repeat. Using 1H, 15N and 113Cd NMR spectroscopy, we have undertaken the analysis of the structural properties of the
CYP1
(56-126) fragment that consists of the zinc-cluster region, the linker peptide and a part of the dimerization helix. We have demonstrated that the six cysteine residues of the peptide chelate two cadmium ions as in GAL4 and PPR1. Fifteen structures of the zinc-cluster region (residues 60 to 100) were calculated, the linker peptide and the dimerization helix being unstructured under the conditions of our study. This region possesses the same overall fold as in GAL4 and PPR1, and most of the side-chains involved in the interaction with DNA are structurally conserved. This suggests that the
CYP1
zinc-cluster region recognizes a CGG triplet in the same way as GAL4 and PPR1. In this case, the particular properties of
CYP1
seem to be due to the structure of the linker peptide and/or of the dimerization helix.
...
PMID:1H, 15N resonance assignment and three-dimensional structure of CYP1 (HAP1) DNA-binding domain. 868 83
The DNA binding domain of the yeast
transcriptional activator
CYP1
(HAP1) contains a zinc-cluster structure. The structures of the DNA binding domain-DNA complexes of two other zinc-cluster proteins (GAL4 and PPR1) have been studied by X-ray crystallography. Their binding domains present, besides the zinc cluster, a short linker peptide and a dimerization element. They recognize, as homodimers, two rotationally symmetric CGG trinucleotides, the linker peptide and the dimerization element playing a crucial role in binding specificity. Surprisingly,
CYP1
recognizes degenerate forms of a direct repeat, CGGnnnTAnCGGnnnTA, and the role of its linker is under discussion. To better understand the binding specificity of
CYP1
, we have studied, by NMR, the interaction between the
CYP1
(55-126) peptide and two DNA fragments derived from the CYC1 upstream activation sequence 1B. Our data indicate that
CYP1
(55-126) interacts with a CGG and with a thymine 5 bp downstream. The CGG trinucleotide is recognized by the zinc cluster in the major groove, as for GAL4 and PPR1, and the thymine is bound in the minor groove by the N-terminal region, which possesses a basic stretch of arginyl and lysyl residues. This suggests that the
CYP1
(55-126) N-terminal region could play a role in the affinity and/or specificity of the interaction with its DNA targets, in contrast to GAL4 and PPR1.
...
PMID:NMR analysis of CYP1(HAP1) DNA binding domain-CYC1 upstream activation sequence interactions: recognition of a CGG trinucleotide and of an additional thymine 5 bp downstream by the zinc cluster and the N-terminal extremity of the protein. 922 3
