Alison Thain scite author profile

p300 and CREB binding protein can both activate and repress transcription. Here, we locate the CRD1 transcriptional repression domain between residues 1017 and 1029 of p300. This region contains two copies of the sequence psiKxE that are modified by the ubiquitin-like protein SUMO-1. Mutations that reduce SUMO modification increase p300-mediated transcriptional activity and expression of a SUMO-specific protease or catalytically inactive Ubc9 relieved repression, demonstrating that p300 repression was mediated by SUMO conjugation. SUMO-modified CRD1 domain bound HDAC6 in vitro, and p300 repression was relieved by histone deacetylase inhibition and siRNA-mediated ablation of HDAC6 expression. These results reveal a mechanism controlling p300 function and suggest that SUMO-dependent repression is mediated by recruitment of HDAC6.

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A tetracycline-binding RNA aptamer

Berens

Thain

Schroeder

2001

Bioorganic & Medicinal Chemistry

180

158

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DNA Binding and Bending by the Human Papillomavirus Type 16 E2 Protein

Thain¹,

Webster

Emery³

et al. 1997

Journal of Biological Chemistry

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The human papillomavirus (HPV) 16 E2 protein (hE2) binds to four sites present upstream of the P97 promoter and regulates transcription of the viral E6 and E7 oncogenes. We have determined the relative binding constants for the interaction of the full-length hE2 protein with these sites. Our results show that hE2 binds tightly to site 4, less tightly to sites 1 and 2, and weakly to site 3. Similar results have previously been obtained using a C-terminal fragment of the hE2 protein suggesting that the C-terminal domain is the sole determinant of DNA binding affinity and specificity. Using circular permutation assays we show that binding of the hE2 protein induces the formation of a significant DNA bend and that the hE2-induced DNA bend angle is the same at both tight and weak hE2-binding sites. An alignment of the four hE2-binding sites from the HPV 16 genome suggests that this protein recognizes an extended binding site when compared with the bovine papillomavirus E2 protein. Here we show that the hE2 protein binds tightly to sites containing an A:T or a G:C base pair at position 7 of its binding site but weakly to sites containing either C:G or T:A at this position. Using site-directed mutagenesis we demonstrate that an arginine at position 304 of the hE2 protein is responsible for the recognition of specific base pairs at this position.The recognition of specific DNA sequences by transcription factors is often the first step in the regulation of gene expression. An understanding of how these proteins recognize their target sequences, and the effect that this has on DNA conformation, is central to the question of how genes are controlled. We are studying the human papillomavirus E2 protein, a sequence-specific DNA-binding protein involved in the regulation of viral gene expression and DNA replication. Papillomaviruses infect epithelial cells and induce the formation of benign hyperproliferative lesions or warts. Over 70 distinct types of human papillomavirus (HPV) 1 have been described. Some of these viral types produce lesions that have the potential to undergo malignant transformation. HPV 16 and HPV 18, for example, are thought to play a primary role in the development of cervical cancer (for a review, see Ref. 1). The products of the viral E6 and E7 genes form complexes with the cellular tumor suppressor proteins p53 and Rb, respectively. These interactions bring about a change in cell growth rate and promote cell immortalization (reviewed in Ref.2). In HPV 16, transcription of the E6 and E7 genes is under the control of a single promoter (P97) that lies immediately upstream of the E6 gene (3). The activity of the P97 promoter is regulated by a variety of cellular transcription factors and by the viral E2 protein (4 -6).Much early work concentrated on the bovine papillomavirus (BPV) E2 protein. The BPV E2 protein (bE2) binds as a dimer to 12 inverted repeats (consensus sequence 5Ј-ACCGN 4 CGGT-3Ј) present upstream of the BPV early genes and activates transcription (7,8). Binding of bE2 protein to DNA is coo...

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CpG methylation directly inhibits binding of the human papillomavirus type 16 E2 protein to specific DNA sequences

Thain

Jenkins

Clarke

et al. 1996

J Virol

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CpG methylation of the human papillomavirus upstream regulatory region has previously been shown to reduce virus promoter activity. Here, we demonstrate that methylation of the CpG dinucleotides contained within the binding site of the human papillomavirus type 16 E2 protein has a direct effect on the interaction of this protein with DNA. Methylation of both CpG dinucleotides within the E2 site abolishes the binding of E2. * Corresponding author. Phone: 44-117-928-7439. Fax: 44-117-928-8274. FIG. 1. Oligonucleotides used in this study. Capitals, core E2-binding sites; boldface, CpG dinucleotides; m, methyl group.a The relative dissociation constant (K d(rel) ) was obtained by the following equation: K d(rel) ) ϭ K d(test binding site) /K d(unmethylated binding site) . b ⌬⌬G was determined by the following equation: ⌬⌬G ϭ ϪRT ln K d(unmethylated binding site) /K d(test binding site) .

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A method for the separation of GST fusion proteins from co-purifying GroEL

Thain

Gaston²,

Jenkins³

et al. 1996

Trends in Genetics

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Alison Thain

p300 Transcriptional Repression Is Mediated by SUMO Modification

A tetracycline-binding RNA aptamer

DNA Binding and Bending by the Human Papillomavirus Type 16 E2 Protein

CpG methylation directly inhibits binding of the human papillomavirus type 16 E2 protein to specific DNA sequences

A method for the separation of GST fusion proteins from co-purifying GroEL

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