Abstract
To understand the role of CCAAT-binding factor (CBF) in transcription in the context of chromatin-assembled DNA, we used regularly spaced nucleosomal DNA using topoisomerase IIalpha (topo IIalpha) and alpha2(1) collagen promoter templates, which were subsequently reconstituted in an in vitro transcription reaction. Binding of CBF to the nucleosomal wild-type topo IIalpha promoter containing four CBF-binding sites disrupted the regular nucleosomal structure not only in the promoter region containing the CBF-binding sites but also in the downstream region over the transcription start site. In contrast, no nucleosome disruption was observed in a mutant topo IIalpha promoter containing mutations in all CBF-binding sites. Interestingly, CBF also activated transcription from nucleosomal wild-type topo IIalpha promoter. In this experiment, a promoter containing one wild-type CBF-binding site was activated very weakly, whereas the promoter containing mutations in all sites was not activated by CBF. A truncated CBF that lacked the glutamine-rich domains did not activate transcription from nucleosomal wild-type topo IIalpha promoter but disrupted the nucleosomal structure about as much as did the binding of full-length CBF. Two nucleosomal mouse alpha2(1) collagen promoter DNAs, one containing a single and the other containing four CBF- binding sites, were also reconstituted in an in vitro transcription reaction. None of the nucleosomal collagen promoters was activated by CBF. However, both of these collagen promoters were activated by CBF when the transcription reaction was performed using naked DNA templates. Binding of CBF to the nucleosomal collagen promoter containing four binding sites disrupted the nucleosomal structure, similarly as observed in the topo IIalpha promoter. Altogether this study indicates that CBF-mediated nucleosomal disruption occurred independently of transcription activation. It also suggests that specific promoter structure may play a role in the CBF-mediated transcription activation of nucleosomal topo IIalpha promoter template.
Highlights
(CBF) in transcription in the context of chromatin-as- ulation of transcription in eukaryotic cells
The chrosembled DNA, we used regularly spaced nucleosomal matin produces a repressive environment for transcription and DNA using topoisomerase II␣ and ␣2(1) colla- the repression could occur at multiple steps of transcription gen promoter templates, which were subsequently reconstituted in an in vitro transcription reaction
It is recognized that the binding of multiple proteins may be required to disrupt the nucleosomal structure surrounding the promoter in a way that presets the promoter for subsequent transcription activation (6 – 8)
Summary
(CBF) in transcription in the context of chromatin-as- ulation of transcription in eukaryotic cells. No nucleosome disruption was observed in a mutant topo II␣ promoter containing mutations in all CBF-binding sites. CBF activated transcription from nucleosomal wild-type topo II␣ promoter. Studies from many laboratories showed that specific DNA-binding proteins that bind to a particular promoter result in nucleosomal disruption or remodeling surrounding the promoter region, which allows recruitment of coactivators and general transcription machinery to activate transcription [3,4,5]. Nucleosomal mouse ␣2(1) collagen promoter DNAs, one contain CBF-binding sites [14]. Binding of CBF to the nucleosomal collagen promoter containing four binding sites disrupted the nucleosomal structure, as observed in the topo II␣ promoter. It suggests that specific promoter structure may play a role in the CBFmediated transcription activation of nucleosomal topo II␣ promoter template
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.