Add to ORKGThe role of the TATA element in establishing the chromatin structure and inducible transcription of the Drosophila melanogaster hsp26 gene has been analyzed. An hsp26/lacZ fusion gene with a mutant promoter, in which the TATA box sequence TATAAA was changed to CCCAAA, was introduced into Drosophila by P-element transformation. The mutation had little effect on formation of the preset chromatin structure observed prior to induction. However, the mutation dramatically reduced transcription levels following heat shock. Northern analysis indicated that weak, inducible expression of the mutant promoter occurred within the same period of heat shock as for the normal promoter, suggesting that TFIID was associated with the mutant promoter prior to ...
Proteins from Drosophila nuclei that bind to regions of alternating C and T residues present in the ...
GAGA factor is an important chromosomal protein involved in establishing specific nucleosome arrays ...
Homology-directed repair is a powerful mechanism for maintaining and altering genomic structure. We ...
The upstream regulatory region of the Drosophila melanogaster hsp26 gene includes two DNase I-hypers...
It is increasingly clear that the packaging of DNA in nucleosome arrays serves not only to constrain...
We have analyzed P-element-transformed lines carrying hsp26/lacZ transgenes with various deletions a...
A euchromatic gene placed in the vicinity of heterochromatin by a chromosomal rearrangement generall...
To efficiently transcribe genes, RNA Polymerase II (Pol II) must overcome the barrier imposed by nuc...
We report here the analysis of the sequence requirements for the heat-induced expression of the Dros...
The heat shock response presents an extremely attractive model to study the regulation of gene trans...
A persistent question in biology is how cis-acting sequence elements influence trans-acting factors ...
To efficiently transcribe genes, RNA Polymerase II (Pol II) must overcome the barrier imposed by nuc...
Homology-directed repair is a powerful mechanism for maintaining and altering genomic structure. We ...
Transcription in eukaryotic cells occurs in the context of chromatin. Binding of sequence-specific r...
<div><p>Four different histones (H2A, H2B, H3, and H4; two subunits each) constitute a histone octam...
Proteins from Drosophila nuclei that bind to regions of alternating C and T residues present in the ...
GAGA factor is an important chromosomal protein involved in establishing specific nucleosome arrays ...
Homology-directed repair is a powerful mechanism for maintaining and altering genomic structure. We ...
The upstream regulatory region of the Drosophila melanogaster hsp26 gene includes two DNase I-hypers...
It is increasingly clear that the packaging of DNA in nucleosome arrays serves not only to constrain...
We have analyzed P-element-transformed lines carrying hsp26/lacZ transgenes with various deletions a...
A euchromatic gene placed in the vicinity of heterochromatin by a chromosomal rearrangement generall...
To efficiently transcribe genes, RNA Polymerase II (Pol II) must overcome the barrier imposed by nuc...
We report here the analysis of the sequence requirements for the heat-induced expression of the Dros...
The heat shock response presents an extremely attractive model to study the regulation of gene trans...
A persistent question in biology is how cis-acting sequence elements influence trans-acting factors ...
To efficiently transcribe genes, RNA Polymerase II (Pol II) must overcome the barrier imposed by nuc...
Homology-directed repair is a powerful mechanism for maintaining and altering genomic structure. We ...
Transcription in eukaryotic cells occurs in the context of chromatin. Binding of sequence-specific r...
<div><p>Four different histones (H2A, H2B, H3, and H4; two subunits each) constitute a histone octam...
Proteins from Drosophila nuclei that bind to regions of alternating C and T residues present in the ...
GAGA factor is an important chromosomal protein involved in establishing specific nucleosome arrays ...
Homology-directed repair is a powerful mechanism for maintaining and altering genomic structure. We ...