AnCF, the CCAAT Binding Complex ofAspergillus nidulans, Is Essential for the Formation of a DNase I-Hypersensitive Site in the 5′ Region of theamdS Gene

ABSTRACT The CCAAT sequence in the amdS promoter ofAspergillus nidulans is recognized by AnCF, a complex consisting of the three evolutionary conserved subunits HapB, HapC, and HapE. In this study we have investigated the effect of AnCF on the chromatin structure of the amdS gene. The AnCF complex and the CCAAT sequence were found to be necessary for the formation of a nucleosome-free, DNase I-hypersensitive region in the 5′ region of theamdS gene. Deletion of the hapE gene results in loss of the DNase I-hypersensitive site, and the positioning of nucleosomes over the transcriptional start point is lost. Likewise, a point mutation in the CCAAT motif, as well as a 530-bp deletion which removes the CCAAT box, results in the loss of the DNase I-hypersensitive region. The DNase I-hypersensitive region and the nucleosome positioning can be restored by insertion of a 35-bp oligonucleotide carrying the CCAAT motif. A DNase I-hypersensitive region has been found in the CCAAT-containing fmdS gene and was also hapE dependent. These data indicate a critical role for the AnCF complex in establishing an open chromatin structure in A. nidulans.

Human DNA polymerase alpha gene: sequences controlling expression in cycling and serum-stimulated cells.

We have investigated the DNA polymerase alpha promoter sequence requirements for the expression of a heterologous gene in actively cycling cells and following serum addition to serum-deprived cells. An 11.4-kb genomic clone that spans the 5' end of this gene and includes 1.62 kb of sequence upstream from the translation start site was isolated. The transcription start site was mapped at 46 +/- 1 nucleotides upstream from the translation start site. The upstream sequence is GC rich and lacks a TATA sequence but has a CCAAT sequence on the opposite strand. Analysis of a set of deletion constructs in transient transfection assays demonstrated that efficient expression of the reporter in cycling cells requires 248 bp of sequence upstream from the cap site. Clustered within these 248 nucleotides are sequences similar to consensus sequences for Sp1-, Ap1-, Ap2-, and E2F-binding sites. The CCAAT sequence and the potential E2F- and Ap1-binding sites are shown to be protected from DNase I digestion by partially purified nuclear proteins. The DNA polymerase alpha promoter can confer upon the reporter an appropriate, late response to serum addition. No single sequence element could be shown to confer serum inducibility. Rather, multiple sequence elements appear to mediate the full serum response.

Human DNA polymerase alpha gene: sequences controlling expression in cycling and serum-stimulated cells

We have investigated the DNA polymerase alpha promoter sequence requirements for the expression of a heterologous gene in actively cycling cells and following serum addition to serum-deprived cells. An 11.4-kb genomic clone that spans the 5' end of this gene and includes 1.62 kb of sequence upstream from the translation start site was isolated. The transcription start site was mapped at 46 +/- 1 nucleotides upstream from the translation start site. The upstream sequence is GC rich and lacks a TATA sequence but has a CCAAT sequence on the opposite strand. Analysis of a set of deletion constructs in transient transfection assays demonstrated that efficient expression of the reporter in cycling cells requires 248 bp of sequence upstream from the cap site. Clustered within these 248 nucleotides are sequences similar to consensus sequences for Sp1-, Ap1-, Ap2-, and E2F-binding sites. The CCAAT sequence and the potential E2F- and Ap1-binding sites are shown to be protected from DNase I digestion by partially purified nuclear proteins. The DNA polymerase alpha promoter can confer upon the reporter an appropriate, late response to serum addition. No single sequence element could be shown to confer serum inducibility. Rather, multiple sequence elements appear to mediate the full serum response.

DNA binding of the mouse class II major histocompatibility CCAAT factor depends on two components

A CCAAT-binding factor that recognizes a CCAAT sequence (Y box) located upstream of the major histocompatibility class II gene I-A beta has been partially purified. This CCAAT-binding factor was found to consist of two components, designated factors A and B, both of which were required for efficient binding to the DNA. Factor A had an apparent molecular size of 34 kilodaltons, and factor B had an apparent molecular size of 42 to 46 kilodaltons.

DNA binding of the mouse class II major histocompatibility CCAAT factor depends on two components.

A CCAAT-binding factor that recognizes a CCAAT sequence (Y box) located upstream of the major histocompatibility class II gene I-A beta has been partially purified. This CCAAT-binding factor was found to consist of two components, designated factors A and B, both of which were required for efficient binding to the DNA. Factor A had an apparent molecular size of 34 kilodaltons, and factor B had an apparent molecular size of 42 to 46 kilodaltons.