Activation of DNA Replication in Yeast by Recruitment of the RNA Polymerase II Transcription Complex
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I. Stagljar
Abstract
Activators of transcription are known to also play an important and direct role in activating DNA replication. However, the mechanism whereby they stimulate replication has remained elusive. One model suggests that, in the context of replication origins, transcriptional activators work by interacting with replication factors. We show that a defined, single interaction between a DNA-bound derivative of the activator Gal4 and Gal11P, a mutant form of the RNA polymerase II holoenzyme component Gal11, suffices for stimulating DNA replication as it does for transcription. Moreover, recruitment of TBP, which can activate transcription from a gene promoter, also stimulates DNA replication from an origin site. These results strongly argue that transcriptional activators may not necessarily need to contact DNA replication factors directly, but can stimulate replication by recruiting the RNA polymerase II transcription complex to DNA.
Copyright ©1999 by Walter de Gruyter GmbH & Co. KG
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Artikel in diesem Heft
- Biosynthesis of Glycosylphosphatidylinositols in Mammals and Unicellular Microbes
- Activation of DNA Replication in Yeast by Recruitment of the RNA Polymerase II Transcription Complex
- On the Role of Symmetrical and Asymmetrical Chaperonin Complexes in Assisted Protein Folding
- Regulation of Cathepsin B Activity by Cysteine and Related Thiols
- Epitope Mapping of the Monoclonal Antibody MM12.10 to External MDR1 P-Glycoprotein Domain by Synthetic Peptide Scanning and Phage Display Technologies
- Molecular Mimicry between a Monoclonal Antibody and One Subunit of Crotoxin, a Heterodimeric Phospholipase A2 Neurotoxin
- Enzyme-Linked Immunosorbent Assay for the Measurement of JNK Activity in Cell Extracts
- Mitochondrial DNA Acts as Potential Promoter of the Baculovirus RNA Polymerase
- In Vitro Phosphorylation of Purified Glycosylphos-phatidylinositol-Specific Phospholipase D
- Cathepsin S and Cruzipain Are Inhibited by Equistatin from Actinia equina
- Lipopeptides as Dimerization Inhibitors of HIV-1 Protease
