Citations (15)
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Naoya Hashikawa & Hiroshi Sakurai. (2004) Phosphorylation of the Yeast Heat Shock Transcription Factor Is Implicated in Gene-Specific Activation Dependent on the Architecture of the Heat Shock Element. Molecular and Cellular Biology 24:9, pages 3648-3659.
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Nicholas Santoro, Nina Johansson & Dennis J. Thiele. (1998) Heat Shock Element Architecture Is an Important Determinant in the Temperature and Transactivation Domain Requirements for Heat Shock Transcription Factor. Molecular and Cellular Biology 18:11, pages 6340-6352.
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Adnan Ali, Steven Bharadwaj, Ruth O’Carroll & Nick Ovsenek. (1998) HSP90 Interacts with and Regulates the Activity of Heat Shock Factor 1 in Xenopus Oocytes. Molecular and Cellular Biology 18:9, pages 4949-4960.
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Raphael Sandaltzopoulos & Peter B. Becker. (1998) Heat Shock Factor Increases the Reinitiation Rate from Potentiated Chromatin Templates. Molecular and Cellular Biology 18:1, pages 361-367.
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András Orosz, Jan Wisniewski & Carl Wu. (1996) Regulation of Drosophila Heat Shock Factor Trimerization: Global Sequence Requirements and Independence of Nuclear Localization. Molecular and Cellular Biology 16:12, pages 7018-7030.
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Elizabeth M. Newton, Ursula Knauf, Marie Green & Robert E. Kingston. (1996) The Regulatory Domain of Human Heat Shock Factor 1 Is Sufficient To Sense Heat Stress. Molecular and Cellular Biology 16:3, pages 839-846.
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Christopher Szent-Gyorgyi. (1995) A Bipartite Operator Interacts with a Heat Shock Element To Mediate Early Meiotic Induction of Saccharomyces cerevisiae HSP82. Molecular and Cellular Biology 15:12, pages 6754-6769.
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Fernando A. G. Torres & J. José Bonner. (1995) Genetic Identification of the Site of DNA Contact in the Yeast Heat Shock Transcription Factor. Molecular and Cellular Biology 15:9, pages 5063-5070.
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Yanhong Shi, Paul E. Kroeger & Richard I. Morimoto. (1995) The Carboxyl-Terminal Transactivation Domain of Heat Shock Factor 1 Is Negatively Regulated and Stress Responsive. Molecular and Cellular Biology 15:8, pages 4309-4318.
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Katherine T. Tamai, Xiaodong Liu, Philippe Silar, Tomasz Sosinowski & Dennis J. Thiele. (1994) Heat Shock Transcription Factor Activates Yeast Metallothionein Gene Expression in Response to Heat and Glucose Starvation via Distinct Signalling Pathways. Molecular and Cellular Biology 14:12, pages 8155-8165.
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Sridhar K. Rabindran, Jan Wisniewski, Ligeng Li, Gloria C. Li & Carl Wu. (1994) Interaction between Heat Shock Factor and hsp70 Is Insufficient To Suppress Induction of DNA-Binding Activity In Vivo. Molecular and Cellular Biology 14:10, pages 6552-6560.
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Michael R. Young & Elizabeth A. Craig. (1993) Saccharomyces cerevisiae HSP70 Heat Shock Elements Are Functionally Distinct. Molecular and Cellular Biology 13:9, pages 5637-5646.
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Ruben Baler, Gerhard Dahl & Richard Voellmy. (1993) Activation of Human Heat Shock Genes Is Accompanied by Oligomerization, Modification, and Rapid Translocation of Heat Shock Transcription Factor HSF1. Molecular and Cellular Biology 13:4, pages 2486-2496.
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Gregory J. Gallo, Holly Prentice & Robert E. Kingston. (1993) Heat Shock Factor Is Required for Growth at Normal Temperatures in the Fission Yeast Schizosaccharomyces pombe. Molecular and Cellular Biology 13:2, pages 749-761.
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Articles from other publishers (1)
Jacob Verghese, Jennifer Abrams, Yanyu Wang & Kevin A. Morano. (2012) Biology of the Heat Shock Response and Protein Chaperones: Budding Yeast (Saccharomyces cerevisiae) as a Model System. Microbiology and Molecular Biology Reviews 76:2, pages 115-158.
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