Mitsuaki Fujimoto, Ryosuke Takii & Akira Nakai. (2023) Regulation of HSF1 transcriptional complexes under proteotoxic stress. BioEssays 45:7.
Crossref
Shruti Ghai, Alex Young & Kuo-Hui Su. (2023) Proteotoxic stress response in atherosclerotic cardiovascular disease: Emerging role of heat shock factor 1. Frontiers in Cardiovascular Medicine 10.
Crossref
Eleni Kyriakou, Eirini Taouktsi & Popi Syntichaki. (2022) The Thermal Stress Coping Network of the Nematode Caenorhabditis elegans. International Journal of Molecular Sciences 23:23, pages 14907.
Crossref
Wen‐Cheng Lu, Ramsey Omari, Haimanti Ray, John Wang, Imade Williams, Curteisha Jacobs, Natasha Hockaden, Matthew L. Bochman & Richard L. Carpenter. (2022) AKT1 mediates multiple phosphorylation events that functionally promote HSF1 activation. The FEBS Journal 289:13, pages 3876-3893.
Crossref
Szymon W. Kmiecik & Matthias P. Mayer. (2022) Molecular mechanisms of heat shock factor 1 regulation. Trends in Biochemical Sciences 47:3, pages 218-234.
Crossref
Hyuck Kim & Rocio Gomez-Pastor. 2023. Cell Biology and Translational Medicine, Volume 19. Cell Biology and Translational Medicine, Volume 19
35
95
.
Annick Dubois & François Roudier. (2021) Deciphering Plant Chromatin Regulation via CRISPR/dCas9-Based Epigenome Engineering. Epigenomes 5:3, pages 17.
Crossref
Benjamin J. Lang, Martin E. Guerrero, Thomas L. Prince, Yuka Okusha, Cristina Bonorino & Stuart K. Calderwood. (2021) The functions and regulation of heat shock proteins; key orchestrators of proteostasis and the heat shock response. Archives of Toxicology 95:6, pages 1943-1970.
Crossref
Anna E. Masser, Michela Ciccarelli & Claes Andréasson. (2020) Hsf1 on a leash – controlling the heat shock response by chaperone titration. Experimental Cell Research 396:1, pages 112246.
Crossref
J. Armando Casas-MollanoMatthew H. ZinselmeierSamuel E. EricksonMichael J. Smanski. (2020) CRISPR-Cas Activators for Engineering Gene Expression in Higher Eukaryotes. The CRISPR Journal 3:5, pages 350-364.
Crossref
Mikael Christer Puustinen & Lea Sistonen. (2020) Molecular Mechanisms of Heat Shock Factors in Cancer. Cells 9:5, pages 1202.
Crossref
Renu Verma & Prakash Chand Sharma. 2021. Heat Shock Proteins in Human Diseases. Heat Shock Proteins in Human Diseases
117
139
.
Naibedya Dutta, Koustav Pal & Mahadeb Pal. 2021. Heat Shock Proteins in Inflammatory Diseases. Heat Shock Proteins in Inflammatory Diseases
69
88
.
Xinfeng Xu, Xiaoyan Pan & Shuwen Liu. 2021. Heat Shock Proteins in Inflammatory Diseases. Heat Shock Proteins in Inflammatory Diseases
147
175
.
Ryosuke Takii, Mitsuaki Fujimoto, Masaki Matsumoto, Pratibha Srivastava, Arpit Katiyar, Keiich I Nakayama & Akira Nakai. (2019)
The pericentromeric protein shugoshin 2 cooperates with
HSF
1 in heat shock response and
RNA
Pol
II
recruitment
. The EMBO Journal 38:24.
Crossref
Hoter, Rizk & Naim. (2019) The Multiple Roles and Therapeutic Potential of Molecular Chaperones in Prostate Cancer. Cancers 11:8, pages 1194.
Crossref
Juan Carlos Higareda-Almaraz, Michael Karbiener, Maude Giroud, Florian M. Pauler, Teresa Gerhalter, Stephan Herzig & Marcel Scheideler. (2018) Norepinephrine triggers an immediate-early regulatory network response in primary human white adipocytes. BMC Genomics 19:1.
Crossref
Natália Galdi Quel & Carlos H.I. Ramos. (2018) Heat Shock Factor (HSF): The Promoter of Chaperone Genes. A Mini Review. Current Proteomics 16:1, pages 22-30.
Crossref
Kamalakshi Deka & Sougata Saha. 2018. Regulation of Heat Shock Protein Responses. Regulation of Heat Shock Protein Responses
3
25
.
Suman Chatterjee & Timothy Burns. (2017) Targeting Heat Shock Proteins in Cancer: A Promising Therapeutic Approach. International Journal of Molecular Sciences 18:9, pages 1978.
Crossref
Stuart K. Calderwood & Ayesha Murshid. (2017) Molecular Chaperone Accumulation in Cancer and Decrease in Alzheimer's Disease: The Potential Roles of HSF1. Frontiers in Neuroscience 11.
Crossref
Peter F. Surai & Ivan I. Kochish. 2017. Heat Shock Proteins in Veterinary Medicine and Sciences. Heat Shock Proteins in Veterinary Medicine and Sciences
123
177
.
Kuo-Hui Su & Chengkai Dai. (2016) Metabolic control of the proteotoxic stress response: implications in diabetes mellitus and neurodegenerative disorders. Cellular and Molecular Life Sciences 73:22, pages 4231-4248.
Crossref
Eiichi Takaki & Akira Nakai. 2016. Heat Shock Factor. Heat Shock Factor
51
72
.
Ryosuke Takii & Mitsuaki Fujimoto. 2016. Heat Shock Factor. Heat Shock Factor
31
50
.
Rashid Mehmood Rana, Muhammad Ammar Khan, Muhammad KausarNawaz Shah, Zulfiqar Ali & Hongsheng Zhang. 2016. Heat Shock Proteins and Plants. Heat Shock Proteins and Plants
103
119
.
Federico Miozzo, Délara Sabéran-Djoneidi & Valérie Mezger. (2015) HSFs, Stress Sensors and Sculptors of Transcription Compartments and Epigenetic Landscapes. Journal of Molecular Biology 427:24, pages 3793-3816.
Crossref
Ming-Hua Cao, Jing Xu, Hai-Dong Cai, Zhong-Wei Lv, Ya-Jing Feng, Kun Li, Chun-Qiu Chen & Yong-Yu Li. (2015) p38 MAPK inhibition alleviates experimental acute pancreatitis in mice. Hepatobiliary & Pancreatic Diseases International 14:1, pages 101-106.
Crossref
Tiffany M. Bridges, Rachel G. Scheraga, Mohan E. Tulapurkar, Dante Suffredini, Stephen B. Liggett, Aparna Ramarathnam, Ratnakar Potla, Ishwar S. Singh & Jeffrey D. Hasday. (2014) Polymorphisms in human heat shock factor-1 and analysis of potential biological consequences. Cell Stress and Chaperones 20:1, pages 47-59.
Crossref
Georg Wick, Bojana Jakic, Maja Buszko, Marius C. Wick & Cecilia Grundtman. (2014) The role of heat shock proteins in atherosclerosis. Nature Reviews Cardiology 11:9, pages 516-529.
Crossref
XIAOXIA WANG, MEIJUAN CHEN, JING ZHOU & XU ZHANG. (2014) HSP27, 70 and 90, anti-apoptotic proteins, in clinical cancer therapy. International Journal of Oncology 45:1, pages 18-30.
Crossref
S. Yu. Funikov, D. G. Garbuz & O. G. Zatsepina. (2014) Kinetics of heat-shock response upon dysfunction of general transcription factor (HSF). Molecular Biology 48:2, pages 263-269.
Crossref
Jeffrey D. Hasday, Christopher Thompson & Ishwar S. Singh. 2011. Comprehensive Physiology. Comprehensive Physiology
109
148
.
Azumi Ota, Yasuaki Enoki, Noritaka Yamamoto, Maki Sawai & Hiroshi Sakurai. (2013) Evolutionarily conserved domain of heat shock transcription factor negatively regulates oligomerization and DNA binding. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms 1829:9, pages 930-936.
Crossref
Igor MalyshevIgor Malyshev. 2013. Immunity, Tumors and Aging: The Role of HSP70. Immunity, Tumors and Aging: The Role of HSP70
47
61
.
Mitsuaki Fujimoto, Eiichi Takaki, Ryosuke Takii, Ke Tan, Ramachandran Prakasam, Naoki Hayashida, Shun-ichiro Iemura, Tohru Natsume & Akira Nakai. (2012) RPA Assists HSF1 Access to Nucleosomal DNA by Recruiting Histone Chaperone FACT. Molecular Cell 48:2, pages 182-194.
Crossref
Ling-Huei Yih, Nai-Chi Hsu, Hsiao-Hui Kuo & Yi-Chen Wu. (2012) Inhibition of the Heat Shock Response by PI103 Enhances the Cytotoxicity of Arsenic Trioxide. Toxicological Sciences 128:1, pages 126-136.
Crossref
Julius AnckarLea Sistonen. (2011)
Regulation of H
SF
1 Function in the Heat Stress Response: Implications in Aging and Disease
. Annual Review of Biochemistry 80:1, pages 1089-1115.
Crossref
Karthikeyan Krishnamurthy, Ragu Kanagasabai, Lawrence J. Druhan & Govindasamy Ilangovan. 2011. Studies on Experimental Models. Studies on Experimental Models
105
130
.
András Orosz. 2011. Alcohol and Cancer. Alcohol and Cancer
155
173
.
Ayesha Murshid, Shiuh-Dih Chou, Thomas Prince, Yue Zhang, Ajit Bharti & Stuart K. Calderwood. (2010) Protein Kinase A Binds and Activates Heat Shock Factor 1. PLoS ONE 5:11, pages e13830.
Crossref
Johanna K. Björk & Lea Sistonen. (2010) Regulation of the members of the mammalian heat shock factor family. FEBS Journal 277:20, pages 4126-4139.
Crossref
Mitsuaki Fujimoto & Akira Nakai. (2010) The heat shock factor family and adaptation to proteotoxic stress. FEBS Journal 277:20, pages 4112-4125.
Crossref
Malin Åkerfelt, Richard I. Morimoto & Lea Sistonen. (2010) Heat shock factors: integrators of cell stress, development and lifespan. Nature Reviews Molecular Cell Biology 11:8, pages 545-555.
Crossref
Wei PengYan ZhangMing ZhengHeping ChengWeizhong ZhuChun-Mei CaoRui-Ping Xiao. (2010) Cardioprotection by CaMKII-δB Is Mediated by Phosphorylation of Heat Shock Factor 1 and Subsequent Expression of Inducible Heat Shock Protein 70. Circulation Research 106:1, pages 102-110.
Crossref
Mitsuaki Fujimoto, Naoki Hayashida, Takuma Katoh, Kouji Oshima, Toyohide Shinkawa, Ramachandran Prakasam, Ke Tan, Sachiye Inouye, Ryosuke Takii & Akira Nakai. (2010) A Novel Mouse HSF3 Has the Potential to Activate Nonclassical Heat-Shock Genes during Heat Shock. Molecular Biology of the Cell 21:1, pages 106-116.
Crossref
Richard I. Morimoto & Sandy D. Westerheide. 2010. Handbook of Cell Signaling. Handbook of Cell Signaling
2231
2239
.
Tae Gen Son, Roy G. Cutler, Mark P. Mattson & Simonetta Camandola. 2010. Hormesis. Hormesis
69
93
.
Yukiko Takemori, Yasuaki Enoki, Noritaka Yamamoto, Yo Fukai, Kaori Adachi & Hiroshi Sakurai. (2009) Mutational analysis of human heat-shock transcription factor 1 reveals a regulatory role for oligomerization in DNA-binding specificity. Biochemical Journal 424:2, pages 253-261.
Crossref
Qiong Chen, Qing Yu, Yuhu Song, Peiyuan Li, Ying Chang, Zhijun Wang, Lifeng Liu, Wei Wu & Jusheng Lin. (2009) Cloning of human XAF1 gene promoter and assay of its transcription activity in a variety of cell lines. Frontiers of Medicine in China 3:2, pages 148-152.
Crossref
Ian R. Logan, Hesta V. McNeill, Susan Cook, Xiaohong Lu, David W. Meek, Frances V. Fuller-Pace, John Lunec & Craig N. Robson. (2009) Heat shock factor-1 modulates p53 activity in the transcriptional response to DNA damage. Nucleic Acids Research 37:9, pages 2962-2973.
Crossref
Ishwar S. Singh, Nirav G. Shah, Eid Almutairy & Jeffrey D. Hasday. 2010. Prokaryotic and Eukaryotic Heat Shock Proteins in Infectious Disease. Prokaryotic and Eukaryotic Heat Shock Proteins in Infectious Disease
1
31
.
Tsuyoshi Uchiyama, Hiroyuki Atsuta, Toshihiro Utsugi, Masato Oguri, Akira Hasegawa, Tetsuya Nakamura, Akira Nakai, Masanori Nakata, Ikuro Maruyama, Hideaki Tomura, Fumikazu Okajima, Shoichi Tomono, Shoji Kawazu, Ryozo Nagai & Masahiko Kurabayashi. (2007) HSF1 and constitutively active HSF1 improve vascular endothelial function (heat shock proteins improve vascular endothelial function). Atherosclerosis 190:2, pages 321-329.
Crossref
Stuart K. Calderwood, Md Abdul Khaleque, Ajit Bharti & Daniel R. Ciocca. 2007. Heat Shock Proteins in Cancer. Heat Shock Proteins in Cancer
53
72
.
Richard Voellmy & Frank Boellmann. 2007. Molecular Aspects of the Stress Response: Chaperones, Membranes and Networks. Molecular Aspects of the Stress Response: Chaperones, Membranes and Networks
89
99
.
Julius Anckar & Lea Sistonen. 2007. Molecular Aspects of the Stress Response: Chaperones, Membranes and Networks. Molecular Aspects of the Stress Response: Chaperones, Membranes and Networks
78
88
.
Richard Voellmy. 2007. Cell Stress Proteins. Cell Stress Proteins
122
139
.
Emily J. Noonan, Robert F. Place, Reza J. Rasoulpour, Charles Giardina & Lawrence E. Hightower. (2007) Cell number-dependent regulation of Hsp70B′ expression: Evidence of an extracellular regulator. Journal of Cellular Physiology 210:1, pages 201-211.
Crossref
Parvaneh Rafiee, Monica E. Theriot, Victoria M. Nelson, Jan Heidemann, Yasmin Kanaa, Scott A. Horowitz, Aaron Rogaczewski, Christopher P. Johnson, Irshad Ali, Reza Shaker & David G. Binion. (2006) Human esophageal microvascular endothelial cells respond to acidic pH stress by PI3K/AKT and p38 MAPK-regulated induction of Hsp70 and Hsp27. American Journal of Physiology-Cell Physiology 291:5, pages C931-C945.
Crossref
Tsuyoshi Uchiyama, Hiroyuki Atsuta, Toshihiro Utsugi, Yoshio Ohyama, Tetsuya Nakamura, Akira Nakai, Masanori Nakata, Ikuro Maruyama, Hideaki Tomura, Fumikazu Okajima, Shoichi Tomono, Shoji Kawazu, Ryozo Nagai & Masahiko Kurarbayashi. (2006) Simvastatin induces heat shock factor 1 in vascular endothelial cells. Atherosclerosis 188:2, pages 265-273.
Crossref
Ariel Shabtay & Zeev Arad. (2006) Reciprocal activation of HSF1 and HSF3 in brain and blood tissues: is redundancy developmentally related?. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology 291:3, pages R566-R572.
Crossref
Ville Hietakangas & Lea Sistonen. 2006. Chaperones. Chaperones
1
34
.
R. Voellmy. 2006. Molecular Chaperones in Health and Disease. Molecular Chaperones in Health and Disease
43
68
.
Md Abdul Khaleque, Ajit Bharti, Douglas Sawyer, Jianlin Gong, Ivor J Benjamin, Mary Ann Stevenson & Stuart K Calderwood. (2005) Induction of heat shock proteins by heregulin β1 leads to protection from apoptosis and anchorage-independent growth. Oncogene 24:43, pages 6564-6573.
Crossref
Yvonne M Hajdu-Cronin, Wen J Chen & Paul W Sternberg. (2004) The L-Type Cyclin CYL-1 and the Heat-Shock-Factor HSF-1 Are Required for Heat-Shock-Induced Protein Expression in Caenorhabditis elegans. Genetics 168:4, pages 1937-1949.
Crossref
XiaoZhe Wang, Nicholas Grammatikakis, Aliki Siganou, Mary Ann Stevenson & Stuart K. Calderwood. (2004) Interactions between Extracellular Signal-regulated Protein Kinase 1, 14-3-3ϵ, and Heat Shock Factor 1 during Stress. Journal of Biological Chemistry 279:47, pages 49460-49469.
Crossref
Yiqun Wang, Jimmy R. Theriault, Haiying He, Jianlin Gong & Stuart K. Calderwood. (2004) Expression of a Dominant Negative Heat Shock Factor-1 Construct Inhibits Aneuploidy in Prostate Carcinoma Cells*. Journal of Biological Chemistry 279:31, pages 32651-32659.
Crossref
Nobuhiko Ojima & Michiaki Yamashita. (2004) Cloning and characterization of two distinct isoforms of rainbow trout heat shock factor 1. European Journal of Biochemistry 271:4, pages 703-712.
Crossref
Richard Voellmy. (2004) On mechanisms that control heat shock transcription factor activity in metazoan cells. Cell Stress & Chaperones 9:2, pages 122.
Crossref
Richard Voellmy. 2004.
143
185
.
Derek S. Wheeler & Hector R. Wong. 2004. Immunobiology of Organ Transplantation. Immunobiology of Organ Transplantation
525
543
.
O. Laptenko. (2003) Transcript cleavage factors GreA and GreB act as transient catalytic components of RNA polymerase. The EMBO Journal 22:23, pages 6322-6334.
Crossref
Haiying He, Fabrice Soncin, Nicholas Grammatikakis, Youlin Li, Aliki Siganou, Jianlin Gong, Steven A. Brown, Robert E. Kingston & Stuart K. Calderwood. (2003) Elevated Expression of Heat Shock Factor (HSF) 2A Stimulates HSF1-induced Transcription during Stress. Journal of Biological Chemistry 278:37, pages 35465-35475.
Crossref
Yue Xie, Rong Zhong, Changmin Chen & Stuart K. Calderwood. (2003) Heat Shock Factor 1 Contains Two Functional Domains That Mediate Transcriptional Repression of the c-fos and c-fms Genes. Journal of Biological Chemistry 278:7, pages 4687-4698.
Crossref
Samuel H.H. ChanLing-Lin WangKuei-Feng ChangChen-Chun OuJulie Y.H. Chan. (2003) Altered Temporal Profile of Heat Shock Factor 1 Phosphorylation and Heat Shock Protein 70 Expression Induced by Heat Shock in Nucleus Tractus Solitarii of Spontaneously Hypertensive Rats. Circulation 107:2, pages 339-345.
Crossref
Richard I. Morimoto & Ellen A.A. Nollen. 2003. Handbook of Cell Signaling. Handbook of Cell Signaling
269
275
.
Michiaki Yamashita, Kanako Uchino, Yoshimitsu Taguchi, Shintaro Imamura, Daisuke Uchida, Takeshi Yabu, Misako Hojo & Nobuhiko Ojima. 2003. Aquatic Genomics. Aquatic Genomics
195
206
.
Richard Morimoto. 2002. Encyclopedia of Molecular Biology. Encyclopedia of Molecular Biology.
Ellen A. A. Nollen & Richard I. Morimoto. 2002. Wiley Encyclopedia of Molecular Medicine. Wiley Encyclopedia of Molecular Medicine.
R S Jope & G N Bijur. (2002) Mood stabilizers, glycogen synthase kinase-3β and cell survival. Molecular Psychiatry 7:S1, pages S35-S45.
Crossref
Yongle Guo, Toumy Guettouche, Mary Fenna, Frank Boellmann, William B. Pratt, David O. Toft, David F. Smith & Richard Voellmy. (2001) Evidence for a Mechanism of Repression of Heat Shock Factor 1 Transcriptional Activity by a Multichaperone Complex. Journal of Biological Chemistry 276:49, pages 45791-45799.
Crossref
Konstanze F. Winklhofer, Anja Reintjes, Marius C. Hoener, Richard Voellmy & Jörg Tatzelt. (2001) Geldanamycin Restores a Defective Heat Shock Responsein Vivo. Journal of Biological Chemistry 276:48, pages 45160-45167.
Crossref
Monica Rimoldi, Antonio Servadio & Vincenzo Zimarino. (2001) Analysis of heat shock transcription factor for suppression of polyglutamine toxicity. Brain Research Bulletin 56:3-4, pages 353-362.
Crossref
Yiling Hong, Richard Rogers, Michael J. Matunis, Christopher N. Mayhew, Michael Goodson, Ok-Kyong Park-Sarge & Kevin D. Sarge. (2001) Regulation of Heat Shock Transcription Factor 1 by Stress-induced SUMO-1 Modification. Journal of Biological Chemistry 276:43, pages 40263-40267.
Crossref
LILA PIRKKALA, PÄIVI NYKÄNEN & LEA SISTONEN. (2001) Roles of the heat shock transcription factors in regulation of the heat shock response and beyond. The FASEB Journal 15:7, pages 1118-1131.
Crossref
Gautam N. Bijur & Richard S. Jope. (2008) Opposing Actions of Phosphatidylinositol 3-Kinase and Glycogen Synthase Kinase-3β in the Regulation of HSF-1 Activity. Journal of Neurochemistry 75:6, pages 2401-2408.
Crossref
Akira Nakai & Terumi Ishikawa. (2000) A Nuclear Localization Signal Is Essential for Stress-induced Dimer-to-Trimer Transition of Heat Shock Transcription Factor 3. Journal of Biological Chemistry 275:44, pages 34665-34671.
Crossref
Chao-Xing Yuan & William B Gurley. (2000) Potential targets for HSF1 within the preinitiation complex. Cell Stress & Chaperones 5:3, pages 229.
Crossref
M.Gabriella Santoro. (2000) Heat shock factors and the control of the stress response. Biochemical Pharmacology 59:1, pages 55-63.
Crossref
Eva Czarnecka-Vemer, Songqin Pan, Chao Xing Yuan & William B. Gurley. 2000. Plant Tolerance to Abiotic Stresses in Agriculture: Role of Genetic Engineering. Plant Tolerance to Abiotic Stresses in Agriculture: Role of Genetic Engineering
3
28
.
Masako Tanabe, Noriaki Sasai, Kazuhiro Nagata, Xiao-Dong Liu, Phillip C.C. Liu, Dennis J. Thiele & Akira Nakai. (1999) The Mammalian HSF4Gene Generates Both an Activator and a Repressor of Heat Shock Genes by Alternative Splicing. Journal of Biological Chemistry 274:39, pages 27845-27856.
Crossref
Phillip C.C. Liu & Dennis J. Thiele. (1999) Modulation of Human Heat Shock Factor Trimerization by the Linker Domain. Journal of Biological Chemistry 274:24, pages 17219-17225.
Crossref
Min Zhong, Soon-Jong Kim & Carl Wu. (1999) Sensitivity of Drosophila Heat Shock Transcription Factor to Low pH. Journal of Biological Chemistry 274:5, pages 3135-3140.
Crossref
G. C. Li & N. F. Mivechi. 1999. Stress Proteins. Stress Proteins
43
68
.
Y. Shi & R. I. Morimoto. 1999. Stress Proteins. Stress Proteins
225
241
.
Richard I. Morimoto. (1998) Regulation of the heat shock transcriptional response: cross talk between a family of heat shock factors, molecular chaperones, and negative regulators. Genes & Development 12:24, pages 3788-3796.
Crossref
C.I. HolmbergP.M. RoosJ.M. LordJ.E. ErikssonL. Sistonen. (1998) Conventional and novel PKC isoenzymes modify the heat-induced stress response but are not activated by heat shock. Journal of Cell Science 111:22, pages 3357-3365.
Crossref
Klaus-Dieter Scharf, Ingo Höhfeld & Lutz Nover. (1998) Heat stress response and heat stress transcription factors. Journal of Biosciences 23:4, pages 313-329.
Crossref
Sanjeev H Satyal & Richard I Morimoto. (1998) Biochemical events in the activation and attenuation of the heat shock transcriptional response. Journal of Biosciences 23:4, pages 303-311.
Crossref
Tadahiko Yoshima, Takashi Yura & Hideki Yanagi. (1998) Heat Shock Factor 1 Mediates Hemin-induced hsp70 Gene Transcription in K562 Erythroleukemia Cells. Journal of Biological Chemistry 273:39, pages 25466-25471.
Crossref
Sanjeev H. Satyal, Dayue Chen, Susan G. Fox, James M. Kramer & Richard I. Morimoto. (1998) Negative regulation of the heat shock transcriptional response by HSBP1. Genes & Development 12:13, pages 1962-1974.
Crossref
Boyang Chu, Rong Zhong, Fabrice Soncin, Mary Ann Stevenson & Stuart K. Calderwood. (1998) Transcriptional Activity of Heat Shock Factor 1 at 37 oC Is Repressed through Phosphorylation on Two Distinct Serine Residues by Glycogen Synthase Kinase 3α and Protein Kinases Cα and Cζ. Journal of Biological Chemistry 273:29, pages 18640-18646.
Crossref
Kirstie A. Saltsman, Holly L. Prentice & Robert E. Kingston. (1998) The C-terminal hydrophobic repeat ofSchizosaccharomyces pombe heat shock factor is not required for heat-induced DNA-binding. Yeast 14:8, pages 733-746.
Crossref
Wenle Xia, Yongle Guo, Nuria Vilaboa, Jianru Zuo & Richard Voellmy. (1998) Transcriptional Activation of Heat Shock Factor HSF1 Probed by Phosphopeptide Analysis of Factor 32P-labeled in Vivo. Journal of Biological Chemistry 273:15, pages 8749-8755.
Crossref
Steven Bharadwaj, Alex Hnatov, Adnan Ali & Nick Ovsenek. (1998) Induction of the DNA-binding and transcriptional activities of heat shock factor 1 is uncoupled in Xenopus oocytes. Biochimica et Biophysica Acta (BBA) - Molecular Cell Research 1402:1, pages 79-85.
Crossref
Barbara J. Graves & Jeannine M. Petersen. 1998.
1
57
.
Eva Czarnecka-Verner, Chao-Xing Yuan, Lutz Nover, Klaus-Dieter Scharf, Gisela Englich & William B. Gurley. (1997) Plant heat shock transcription factors: positive and negative aspects of regulation. Acta Physiologiae Plantarum 19:4, pages 529-537.
Crossref
Juren Huang, Arsenio Nueda, Sunghan Yoo & William S. Dynan. (1997) Heat Shock Transcription Factor 1 Binds Selectively in Vitro to Ku Protein and the Catalytic Subunit of the DNA-dependent Protein Kinase. Journal of Biological Chemistry 272:41, pages 26009-26016.
Crossref
Jynho Kim, Arsenio Nueda, Yong-Hong Meng, William S. Dynan & Nahid F. Mivechi. (1997) Analysis of the phosphorylation of human heat shock transcription factor-1 by MAP kinase family members. Journal of Cellular Biochemistry 67:1, pages 43-54.
Crossref
Paul Jedlicka, Mark A. Mortin & Carl Wu. (1997)
Multiple functions of
Drosophila
heat shock transcription factor
in vivo
. The EMBO Journal 16:9, pages 2452-2462.
Crossref
Carina I. Holmberg, Sirpa Leppä, John E. Eriksson & Lea Sistonen. (1997) The Phorbol Ester 12-O-Tetradecanoylphorbol 13-Acetate Enhances the Heat-induced Stress Response. Journal of Biological Chemistry 272:10, pages 6792-6798.
Crossref
Wenle Xia & Richard Voellmy. (1997) Hyperphosphorylation of Heat Shock Transcription Factor 1 Is Correlated with Transcriptional Competence and Slow Dissociation of Active Factor Trimers. Journal of Biological Chemistry 272:7, pages 4094-4102.
Crossref
Min Zhong & Carl Wu. (1996) Proteolytic mapping of heat shock transcription factor domains. Protein Science 5:12, pages 2592-2599.
Crossref
U Knauf, E M Newton, J Kyriakis & R E Kingston. (1996) Repression of human heat shock factor 1 activity at control temperature by phosphorylation.. Genes & Development 10:21, pages 2782-2793.
Crossref
Boyang Chu, Fabrice Soncin, Brendan D. Price, Mary Ann Stevenson & Stuart K. Calderwood. (1996) Sequential Phosphorylation by Mitogen-activated Protein Kinase and Glycogen Synthase Kinase 3 Represses Transcriptional Activation by Heat Shock Factor-1. Journal of Biological Chemistry 271:48, pages 30847-30857.
Crossref
Hui Li, Hyunsung P. Ko & James P. WhitlockJr.Jr.. (1996) Induction of Phosphoglycerate Kinase 1 Gene Expression by Hypoxia. Journal of Biological Chemistry 271:35, pages 21262-21267.
Crossref
Qingbo XuTimothy W. FawcettRobert UdelsmanNikki J. Holbrook. (1996) Activation of Heat Shock Transcription Factor 1 in Rat Aorta in Response to High Blood Pressure. Hypertension 28:1, pages 53-57.
Crossref
S A Brown, A N Imbalzano & R E Kingston. (1996) Activator-dependent regulation of transcriptional pausing on nucleosomal templates.. Genes & Development 10:12, pages 1479-1490.
Crossref
José J. Cotto, Michael Kline & Richard I. Morimoto. (1996) Activation of Heat Shock Factor 1 DNA Binding Precedes Stress-induced Serine Phosphorylation. Journal of Biological Chemistry 271:7, pages 3355-3358.
Crossref
R. Voellmy. 1995. Stress-Inducible Cellular Responses. Stress-Inducible Cellular Responses
121
137
.
R. I. Morimoto, P. E. Kroeger & J. J. Cotto. 1995. Stress-Inducible Cellular Responses. Stress-Inducible Cellular Responses
139
163
.