Listed by date starting with most recent
Morimoto R.I. Proteotoxic stress and
inducible chaperone networks in neurodegenerative disease and aging. Review. Genes and Development 22:1427-1438 (2008).
Prahlad,
V., T. Cornelius and R.I. Morimoto, . Regulation of
the Cellular Heat Shock Response in Caenorhabditis elegans
by Thermosensory Neurons. Science 320: 811-814 (2008).
Trott A.,
J.D. West, L. Klaic, S.D. Westerheide, R.B. Silverman,
R.I. Morimoto, and K.A. Morano. Activation of Heat Shock
and Antioxidant Responses by the Natural Product Celastrol:
Transcriptional Signatures of a Thiol-targeted Molecule.
Molecular Biology of the Cell 19: 1104-1112 (2008) (Epub
ahead of print January 16, 2008.)
Balch, W.E.,
R.I. Morimoto, A. Dillin, and J.W. Kelly. Adapting proteostasis
for disease intervention. Review. Science 319 (5865):
916-919 (2008).
Garcia,
S. M., M.O. Casanueva, M.C. Silva, M.D. Amaral, and
R.I. Morimoto. Neuronal signaling modulates protein
homeostasis in C. elegans postsynaptic muscle cells.
Genes and Development 21: 3006-3016 (2007).
Zourlidou,
A. T. Gidalevitz, M. Kristiansen , C. Landles, B. Woodman,
D. J. Wells, D. S. Latchman, J. de Belleroche, S. J.
Tabrizi, R. I. Morimoto and G. P. Bates. Hsp27 overexpression
in the R6/2 mouse model of Huntington’s Disease: Chronic
Neurodegeneration does not Induce Hsp27 Activation.
Hum. Mol. Genet. Advance Access (2007) (Mar 14, EPub
ahead of print).
Brignull,
H.R., J.F. Morley, and R.I. Morimoto. The stress of
misfolded proteins: C. elegans models for neurodegenerative
disease and aging. (Ed. P. Csermly and L. Vigh) Molecular
Aspects of the Stress Response: Chaperones, Membranes
and Networks, 594: 167-189, Landes Bioscience (2007).
Finkbeiner, S., A.M. Cuervo, R.I. Morimoto and P.J. Muchowski.
Disease-modifiying pathways in neurodegeneration. The Journal of Neuroscience 26(41): 10349-10357 (2006).
Brignull, H.R., J.F. Morley,
S.M. Garcia, and R.I. Morimoto.
Modeling Polyglutamine Pathogenesis in C. elegans. Methods in
Enzymology 412: 256-282 (2006).
Morimoto, R.I. Stress, Aging and Neurodegenerative Disease.
The New England Journal of Medicine 355(21): 2254-2255
(2006).
Kitamura,
A., H. Kubota, C. Pack, G. Matsumoto, S. Hirayama, Y.
Takahashi, H. Kimura., M. Kinjo, R. I. Morimoto and
K. Nagata. Cytosolic Chaperonin Prevents Polyglutamine
Toxicity with Altering the Aggregation State. Nature
Cell Biology 8(10):1163-1175 (2006).
Brignull,
H., F. Moore, S. Tang, and R. I. Morimoto.
Polyglutamine Proteins at the Pathogenic Threshold Display Neuron-Specific Aggregation in a Pan-Neuronal Caenorhabditis elegans Model.
The Journal of Neuroscience 26(29): 7597-7606
(2006).
Gidalevitz,
T., A. Ben-Zvi, K. Ho, H. Brignull, and R. I. Morimoto.
Progressive Disruption of Cellular Protein Folding in
Models of Polyglutamine Diseases . Science 311: 1471-1474
(2006).
Westerheide,
S., T. Kawahara, K. Orton, and R.I. Morimoto. Triptolide,
an Inhibitor of the Human Heat Shock Response that Enhances
Stress-Induced Cell Death. J. Biol. Chem. 281: 9616-9622
(2006).
Matsumoto,
G., S. Kim, and R.I. Morimoto. Huntingtin and mutant
SOD1 form aggregate structures with distinct molecular
properties in human cells. J Biol Chem. 281: 4477-4485
(2006).
Matsumoto,
G., A. Stojanovic, C. Holmberg, S. Kim, and R.I. Morimoto.
Structural Properties and Neuronal Toxicity of Amyotrophic
Lateral Sclerosis-Associated Cu/Zn Superoxide Dismutase
1 Aggregates. J. Cell Biology 171: 75-85 (2005).
Rieger TR,
Morimoto RI, and V. Hatzimanikatis. Bistability explains
threshold phenomena in protein aggregation both in vitro
and in vivo. Biophys J. 90: 886-95 (2006).
Westerheide,
S., and R.I. Morimoto. Heat Shock Response Modulators
as Therapeutic Tools for Diseases of Protein Conformation.
J. Biol. Chem. 380: 33097-33100 (2005).
Rieger, T.,
R.I. Morimoto, and V. Hatzimanikatis. Mathematical Modeling
of the Eukaryotic Heat Shock Response: Dynamics of the
Hsp70 Promoter. Biophysical Journal 88: 1646-1658 (2005).
Holmberg, C., K. Staniszewski,
K. Mensah, A. Chavez, A. Matouschek, and R.I. Morimoto.
Inefficient Degradation of Truncated Polyglutamine Proteins
by the Proteasome. EMBO Journal 23: 4307-4318 (2004).
Westerheide,
S., J. Bosman, B. Mbadugha, T. Kawahara, G. Matsumoto,
W. Gu, S. Kim, J. Devlin, R. Silverman, and R.I. Morimoto.
Celastrols as Inducers of the Heat Shock Response and
Cytoprotection J. Biol. Chem. 279: 56053-60 (2004).
Solomon
A, Bandhakavi S, Jabbar S, Shah R, Beitel GJ, Morimoto RI. Caenorhabditis
elegans OSR-1 Regulates Behavioral and Physiological Responses to
Hyperosmotic Environments. Genetics, 167: 161-170 (2004).
Nollen
EA, Garcia SM, van Haaften G, Kim S, Chavez A, Morimoto RI, Plasterk
RH. Genome-wide RNA interference screen identifies previously undescribed
regulators of polyglutamine aggregation. Proc Natl Acad Sci U S A,
101: 6403-6408 (2004).
Mosser
DD, Morimoto RI. Molecular chaperones and the stress of oncogenesis.
Oncogene, 23(16):2907-18 (2004).
Morley,
J.F. and Morimoto, R. Regulation of Longevity in Caenorhabditis elegans
by Heat Shock Factor and Molecular Chaperones. Mol Biol Cell. Feb;15:657-64
(2004).
Colon-Ramos
DA, Irusta PM, Gan EC, Olson MR, Song J, Morimoto RI, Elliott RM,
Lombard M, Hollingsworth R, Hardwick JM, Smith GK, Kornbluth S. Inhibition
of translation and induction of apoptosis by Bunyaviral nonstructural
proteins bearing sequence similarity to reaper. Mol Biol Cell. Oct;14:4162-72
(2003).
Soojin
Kim, Ellen A. A. Nollen, Kazunori Kitagawa, Vytautas P. Bindokas and
Richard I. Morimoto. Polyglutamine protein aggregates are dynamic.
Nature Cell Biology, 4: 826-831 (2002).
Morimoto,
R.I. Dynamic Remodeling of Transcription Complexes by Molecular Chaperones.
Cell 110: 1–20 (2002).
Morley
J.F., Brignull H.R., Weyers J.J., Morimoto R.I. The threshold for
polyglutamine-expansion protein aggregation and cellular toxicity
is dynamic and influenced by aging in Caenorhabditis elegans. Proc
Natl Acad Sci U S A. (2002).
Nollen
EA, Morimoto RI. Chaperoning signaling pathways: molecular chaperones
as stress-sensing 'heat shock' proteins. J Cell Sci. 115: 2809-16
(2002).
Jolly,
C., L. Konecny, D.L. Grady, Y.A. Kutskova, J.J. Cotto, R.I. Morimoto,
and C. Vourch. In vivo Binding of Active HSF1 to Human Chromosome
9 Heterochromatin During Stress. J. Cell Biology 156: 775-781 (2002).
Nollen, E.A.A.
and R.I. Morimoto. Cellular and Molecular Response to
Stress, Misfolded Proteins, and Diseases of Protein
Misfolding (ed. T. Creighton), Encyclopedia of Molecular
Medicine, p. 1553-1563, Wiley Press (2002).
Shen
X, Ellis RE, Lee K, Liu CY, Yang K, Solomon A, Yoshida H, Morimoto
R, Kurnit DM, Mori K, Kaufman RJ. Complementary signaling pathways
regulate the unfolded protein response and are required for C. elegans
development. Cell 107:893-903 (2001).
Tai
LJ, McFall SM, Huang K, Demeler B, Fox SG, Brubaker K, Radhakrishnan
I, Morimoto RI. Structure-function analysis of the heat shock factor
binding protein reveals a protein composed solely of a highly conserved
and dynamic coiled-coil trimerization domain. J Biol Chem. (2001).
Mathew
A, Mathur SK, Jolly C, Fox SG, Kim S, Morimoto RI. Stress-specific
activation and repression of heat shock factors 1 and 2. Mol Cell
Biol. 21: 7163-71 (2001).
Ahn
SG, Liu PC, Klyachko K, Morimoto RI, Thiele DJ. The
loop domain of heat shock transcription factor 1 dictates
DNA-binding specificity and responses to heat stress.
Genes Dev.15: 2134-45 (2001).
Holmberg
CI, Hietakangas V, Mikhailov A, Rantanen JO, Kallio
M, Meinander A, Hellman J, Morrice N, MacKintosh C,
Morimoto RI, Eriksson JE, Sistonen L. Phosphorylation
of serine 230 promotes inducible transcriptional activity
of heat shock factor 1. EMBO J 20: 3800-10 (2001).
Carr,
Menco, Yankova, Morimoto, and Farbman. Odorants as Cell-Type Specific
Activators of a Heat Shock Response in the Rat Olfactory Mucosa. Journal
of Comparative Neurology 432: 425-439 (2001).
Thress
K, Song J, Morimoto RI, Kornbluth S. Reversible inhibition of Hsp70
chaperone function by Scythe and Reaper. EMBO J 1:1033-1041 (2001).
Song,
J, Takeda M and Morimoto RI. Hsp70-Bag1 complex mediates a physiological
stress signaling pathway that regulates Raf-1/ERK and cell growth.
Nature Cell Biology 3: 276-282 (2001).
Jolly
C and Morimoto RI. Role of the heat shock response and molecular chaperones
in oncogenesis and cell death. Journal of the National Cancer Institute
92:1564-1572, 2000.
Mosser,
D., Caron, A.W., Bourget, L., Meriin, A.B., Sherman, M.Y., Morimoto,
R.I., and Massie, B. The Chaperone Function of hsp70 Is Required for
Protection against Stress-Induced Apoptosis. Molecular and Cellular
Biology 20: 7146-7159 (2000).
Beere
H, Wolf B, Mosser R, Klein K, Kuwana T, Morimoto R, Cohen G and Green
D Heat shock protein 70 (Hsp70) inhibits apoptosis by preventing recruitment
of procaspase-9 to aggregated Apaf-1. Nature Cell Bio. 2; 469-475,
2000.
Satyal SH, Schmidt
E, Kitagawa K, Sondheimer N, Lindquist S, Kramer JM,
Morimoto RI. Polyglutamine aggregates alter protein
folding homeostasis in Caenorhabditis elegans. Proc
Natl Acad Sci U S A 23;97(11):5750-5, 2000.
Freeman
BC, Michels A, Son, J, Kampinga H and Morimoto RI Analysis of molecular
chaperone activities using in vitro and in vivo approaches. Methods
in Molecular Biology, (ed. S. Keyse), p. 393-419, Humana Press, 2000. 
Mathew
A, Shi Y, Jolly C, Morimoto RI. Analysis of the mammalian heat-shock
response. Inducible gene expression and heat-shock factor activity.
Methods Mol Biol 2000.
Nollen EA.
Brunsting JF. Song J. Kampinga HH. Morimoto RI. Bag1
functions in vivo as a negative regulator of Hsp70 chaperone
activity. Mol Cell Biol:20(3):1083-8, 2000.
Carr
VM, Morimoto RI, and Farbman AI. Development and further
characterization of a small subclass of rat olfactory
receptor neurons that shows immunoreactivity for the
HSP70 heat shock protein. J Comp Neurol., 404:375-86,
1999.
Super HJ. Hasenkrug
KJ. Simmons S. Brooks DM. Konzek R. Sarge KD. Morimoto
RI. Jenkins NA. Gilbert DJ. Copeland NG. Frankel W.
Chesebro B. Fine mapping of the friend retrovirus resistance
gene, Rfv3, on mouse chromosome 15. J Virol:73(9):7848-52,
1999.
Cotto
JJ and Morimoto RI. Stress-induced activation of the heat-shock response:
cell and molecular biology of heat-shock factors [Review]. Biochem.
Soc. Symp., 64:105-118, 1999.
Montgomery DL, Morimoto
RI, Gierasch LM Mutations in the substrate binding domain
of the Escherichia coli 70 kDa molecular chaperone,
DnaK, which alter substrate affinity or interdomain
coupling. J Mol Biol:286(3):915-32, 1999.
Morimoto RI. The Heat
Shock Response: Regulation and Function of Molecular Chaperones. The
Encyclopedia of Molecular Biology (ed. T. Creighton), p.1088-1098,
Wiley Press, 1999.
Jolly
C. Morimoto RI. Stress and the cell nucleus: dynamics of gene expression
and structure reorganization. Gene Expr:7(4-6):261-70, 1999.
Wang
SM. Khandekar JD. Kaul KL. Winchester DJ. Morimoto RI. A method for
the quantitative analysis of human heat shock gene expression using
a multiplex RT-PCR assay. Cell Stress & Chaperones.
Jolly C. Vourc'h
C. Robert-Nicoud M. Morimoto RI. Intron-independent
association of splicing factors with active genes. Journal
of Cell Biology. 14;145(6):1133-43, 1999.
Jolly C. Usson
Y. Morimoto RI. Rapid and reversible relocalization
of heat shock factor 1 within seconds to nuclear stress
granules. Proc National Academy of Science USA. 8;96(12):6769-74,
1999.
Osipiuk
J, Walsh MA, Freeman BC, Morimoto, RI, Joachimiak, A Structure of
a new crystal form of human Hsp70 ATPase domain Acta Crystallographica,
D55, 1105-1107, 1999.
Melville
MW. Tan SL. Wambach M. Song J. Morimoto RI. Katze MG.
The cellular inhibitor of the PKR protein kinase, P58(IPK),
is an influenza virus-activated co-chaperone that modulates
heat shock protein 70 activity. Journal of Biological
Chemistry. 5;274(6):3797-803, 1999 .
Morimoto,
RI. Regulation of the heat shock transcriptional response: Cross talk
between a family of heat shock factors, molecular chaperones, and
negative regulators. (Review) Genes & Development, 12:3788-3796, 1998.
Satyal, SH and Morimoto,
R. I Biochemical events in the activation and attenuation of the heat
shock transcriptional response. J. Biosci. 23: 303-311, 1998.
Bimston
D, Song J, Winchester D, Takayama S, Reed JC, Morimoto RI BAG-1, a
negative regulator of Hsp70 chaperone activity, uncouples nucleotide
hydrolysis from sugstrate release EMBO 17: 6871-6878, 1998.
Furukawa
M, Uchiumi T, Nomoto M, Takano H, Morimoto RI, Naito
S, Kuwano M, Kohno K The role of an inverted CCAAT element
in transcriptional activation of the human DNA topoisomerase
IIalpha gene by heat shock. J Biol Chem 1998.
Morimoto
RI, Santoro MG Stress-inducible responses and heat shock proteins:
new pharmacologic targets for cytoprotection Nat Biotechnol 1998 Sep;16(9):833-8.
Mathew
A and Morimoto, RI. Role of the heat-shock response
in the life and death of proteins. Ann NY Acad Sci.,
851:99-111, 1998.
Mathew A,
Mathur SK, Morimoto RI Heat shock response and protein
degradation: regulation of HSF2 by the ubiquitin- proteasome
pathway Mol Cell Biol:18(9):5091-8, 1998.
Tanabe M,
Kawazoe Y, Takeda S, Morimoto RI, Nagata K, Nakai A
Disruption of the HSF3 gene results in the severe reduction
of heat shock gene expression and loss of thermotolerance.
EMBO J 1998 Mar 16;17(6):1750-8.
Shi Y, Mosser
DD, Morimoto RI Molecular chaperones as HSF1-specific
transcriptional repressors. Genes Dev., 12(5):654-66,
1998.
Satyal
SH, Chen D, Fox SG, Kramer JM, Morimoto RI Negative
regulation of the heat shock transcriptional response
by HSBP1. Genes Dev 1998 Jul 1;12(13):1962-7.
Jolly C. Morimoto
R. Robert-Nicoud M. Vourc'h C . HSF1 transcription factor
concentrates in nuclear foci during heat shock: relationship
with transcription sites. Journal of Cell Science. 110
( Pt 23):2935-41, 1997.
Cotto J. Fox
S. Morimoto R . HSF1 granules: a novel stress-induced
nuclear compartment of human cells. Journal of Cell
Science. 110 ( Pt 23):2925-34, 1997.
Morimoto
RI, Kline, MP, Bimston DN and Cotto, JJ. The heat-shock response:
regulation and function of heat-shock proteins and molecular chaperones.
Essays Biochm., 32:17-29, 1997.
Kline MP. Morimoto
RI . Repression of the heat shock factor 1 transcriptional
activation domain is modulated by constitutive phosphorylation.
Molecular & Cellular Biology. 17(4):2107-15, 1997.
Rallu M. Loones
M. Lallemand Y. Morimoto R. Morange M. Mezger V . Function
and regulation of heat shock factor 2 during mouse embryogenesis.
Proceedings of the National Academy of Sciences of the
United States of America. 94(6):2392-7, 1997.
Takayama
S. Bimston DN. Matsuzawa S. Freeman BC. Aime-Sempe C.
Xie Z. Morimoto RI. Reed JC . BAG-1 modulates the chaperone
activity of Hsp70/Hsc70. EMBO Journal. 16(16):4887-96,
1997.
Kimura
Y. Rutherford SL. Miyata Y. Yahara I. Freeman BC. Yue L. Morimoto
RI. Lindquist S . Cdc37 is a molecular chaperone with specific functions
in signal transduction. Genes & Development. 11(14):1775-85, 1997.
Kanei-Ishii
C. Tanikawa J. Nakai A. Morimoto RI. Ishii S . Activation
of heat shock transcription factor 3 by c-Myb in the
absence of cellular stress. Science. 277(5323):246-8,
1997.
Sriram
M. Osipiuk J. Freeman B. Morimoto R. Joachimiak A . Human Hsp70 molecular
chaperone binds two calcium ions within the ATPase domain. Structure.
5(3):403-14, 1997.
Nakai A, Tanabe
M, Kawazoe Y, Inazawa J, Morimoto RI and Nagata K. HSF4,
a new member of the human heat shock factor family which
lacks properties of a transcriptional activator. Mol
Cell Biol 17:469-81, 1997.
Freeman BC. Toft DO. Morimoto
RI . Molecular Chaperone Machines: Chaperone Activities
of the Cyclophilin Cyp-40 and the Steroid Aporeceptor-Associated
Protein P23. Science 274:1718-1720, 1996.
Hansen
S, Midgley CA, Lane DP, Freeman BC, Morimoto RI and
Hupp TR. Modification of two distinct COOH-terminal
domains is required for murine p53 activation by bacterial
Hsp70. J Biol. Chem., 271: 30922-8, 1996.
Morimoto
RI. Kroeger PE. Cotto JJ . The transcriptional regulation of heat
shock genes: a plethora of heat shock factors and regulatory conditions.
[Review] [116 refs] EXS. 77:139-63, 1996.
Freeman BC. Morimoto
RI . The human cytosolic molecular chaperones hsp90,
hsp70 (hsc70) and hdj-1 have distinct roles in recognition
of a non-native protein and protein refolding. EMBO
Journal. 15(12):2969-79, 1996.
Cotto JJ. Kline
M. Morimoto RI . Activation of heat shock factor 1 DNA
binding precedes stress-induced serine phosphorylation.
Evidence for a multistep pathway of regulation. Journal
of Biological Chemistry. 271(7):3355-8, 1996.
Marcuccilli
CJ. Mathur SK. Morimoto RI. Miller RJ. Regulatory differences in the
stress response of hippocampal neurons and glial cells after heat
shock. Journal of Neuroscience. 16(2):478-85, 1996.
Nakai A. Kawazoe
Y. Tanabe M. Nagata K. Morimoto RI. The DNA-binding
properties of two heat shock factors, HSF1 and HSF3,
are induced in the avian erythroblast cell line HD6.
Molecular & Cellular Biology. 15(10):5268-78, 1995.
Freeman
BC. Myers MP. Schumacher R. Morimoto RI. Identification of a regulatory
motif in Hsp70 that affects ATPase activity, substrate binding and
interaction with HDJ-1. EMBO Journal. 14(10):2281-92, 1995.
Bhattacharyya T. Karnezis
AN. Murphy SP. Hoang T. Freeman BC. Phillips B. Morimoto
RI. Cloning and subcellular localization of human mitochondrial
hsp70. Journal of Biological Chemistry. 270(4):1705-10,
1995.
Shi
Y, Kroeger PE and Morimoto RI. The carboxyl-terminal transactivation
domain of heat shock factor 1 is negatively regulated and stress responsive.
Mol. Cell Biol., 15:4309-4318, 1995.
Lee
BS. Chen J. Angelidis C. Jurivich DA. Morimoto RI. Pharmacological
modulation of heat shock factor 1 by antiinflammatory
drugs results in protection against stress-induced cellular
damage. PNAS 92(16):7207-11, 1995.
Carr
VM. Murphy SP. Morimoto RI. Farbman AI. Small subclass of rat olfactory
neurons with specific bulbar projections is reactive with monoclonal
antibodies to the HSP70 heat shock protein. Journal of Comparative
Neurology. 348(1):150-60, 1994.
Kroeger
PE. Morimoto RI. Selection of new HSF1 and HSF2 DNA-binding sites
reveals difference in trimer cooperativity. Molecular & Cellular Biology.
14(11):7592-603, 1994.
Jurivich
DA. Sistonen L. Sarge KD. Morimoto RI. Arachidonate is a potent modulator
of human heat shock gene transcription. Proceedings of the National
Academy of Sciences of the United States of America. 91(6):2280-4,
1994.
Sistonen
L. Sarge KD. Morimoto RI. Human heat shock factors 1 and 2 are differentially
activated and can synergistically induce hsp70 gene transcription.
Molecular & Cellular Biology. 14(3):2087-99, 1994.
Kanei-Ishii
C. Yasukawa T. Morimoto RI. Ishii S. c-Myb-induced trans-activation
mediated by heat shock elements without sequence-specific DNA binding
of c-Myb. Journal of Biological Chemistry. 269(22):15768-75, 1994.
Sarge
KD. Park-Sarge OK. Kirby JD. Mayo KE. Morimoto RI. Expression of heat
shock factor 2 in mouse testis: potential role as a regulator of heat-shock
protein gene expression during spermatogenesis. Biology of Reproduction.
50(6):1334-43, 1994.
Fawcett
TW. Sylvester SL. Sarge KD. Morimoto RI. Holbrook NJ. Effects of neurohormonal
stress and aging on the activation of mammalian heat shock factor
1. Journal of Biological Chemistry. 269(51):32272-8, 1994.
Mezger
V. Rallu M. Morimoto RI. Morange M. Renard JP. Heat shock factor 2-like
activity in mouse blastocysts. Developmental Biology. 166(2):819-22,
1994.
Mathur
SK. Sistonen L. Brown IR. Murphy SP. Sarge KD. Morimoto RI. Deficient
induction of human hsp70 heat shock gene transcription in Y79 retinoblastoma
cells despite activation of heat shock factor 1. Proceedings of the
National Academy of Sciences of the United States of America. 91(18):8695-9,
1994.
Li
WW. Sistonen L. Morimoto RI. Lee AS. Stress induction of the mammalian
GRP78/BiP protein gene: in vivo genomic footprinting and identification
of p70CORE from human nuclear extract as a DNA-binding component specific
to the stress regulatory element. Molecular & Cellular Biology. 14(8):5533-46,
1994.
Morimoto
RI. Cells in stress: transcriptional activation of heat shock genes.
[Review] Science. 259(5100):1409-10, 1993.
Sarge
KD. Murphy SP. Morimoto RI. Activation of heat shock gene transcription
by heat shock factor 1 involves oligomerization, acquisition of DNA-binding
activity, and nuclear localization and can occur in the absence of
stress [published errata appear in Mol Cell Biol 1993 May;13(5):3122-3
and 1993 Jun;13(6):3838-9]. Molecular & Cellular Biology. 13(3):1392-407,
1993.
Kroeger
PE. Sarge KD. Morimoto RI. Mouse heat shock transcription factors
1 and 2 prefer a trimeric binding site but interact differently with
the HSP70 heat shock element. Molecular & Cellular Biology. 13(6):3370-83,
1993.
Beere
HM. Morimoto RI. Hickman JA. Investigations of mechanisms of drug-induced
changes in gene expression: N-methylformamide-induced changes in synthesis
of the M(r) 72,000 constitutive heat shock protein during commitment
of HL-60 cells to granulocyte differentiation. Cancer Research. 53(13):3034-9,
1993.
Nakai
A. Morimoto RI. Characterization of a novel chicken heat shock transcription
factor, heat shock factor 3, suggests a new regulatory pathway. Molecular
& Cellular Biology. 13(4):1983-97, 1993.
Sistonen
L. Sarge KD. Phillips B. Abravaya K. Morimoto RI. Activation of heat
shock factor 2 during hemin-induced differentiation of human erythroleukemia
cells. Molecular & Cellular Biology. 12(9):4104-11, 1992.
Morimoto
RI. Sarge KD. Abravaya K. Transcriptional regulation of heat shock
genes. A paradigm for inducible genomic responses. [Review] Journal
of Biological Chemistry. 267(31):21987-90, 1992.
Jurivich
DA. Sistonen L. Kroes RA. Morimoto RI. Effect of sodium salicylate
on the human heat shock response. Science. 255(5049):1243-5, 1992.
Morimoto
RI. Transcription factors: positive and negative regulators of cell
growth and disease. [Review] Current Opinion in Cell Biology. 4(3):480-7,
1992 .
Amici
C. Sistonen L. Santoro MG. Morimoto RI. Antiproliferative prostaglandins
activate heat shock transcription factor.Proceedings of the National
Academy of Sciences of the United States of America. 89(14):6227-31,
1992.
Abravaya
K. Myers MP. Murphy SP. Morimoto RI. The human heat shock protein
hsp70 interacts with HSF, the transcription factor that regulates
heat shock gene expression. Genes & Development. 6(7):1153-64, 1992.
Sarge
KD. Zimarino V. Holm K. Wu C. Morimoto RI. Cloning and characterization
of two mouse heat shock factors with distinct inducible and constitutive
DNA-binding ability. Genes & Development. 5(10):1902-11, 1991.
Abravaya
K. Phillips B. Morimoto RI. Attenuation of the heat shock response
in HeLa cells is mediated by the release of bound heat shock transcription
factor and is modulated by changes in growth and in heat shock temperatures.
Genes & Development. 5(11):2117-27, 1991.
Phillips
B. Abravaya K. Morimoto RI. Analysis of the specificity and mechanism
of transcriptional activation of the human hsp70 gene during infection
by DNA viruses. Journal of Virology. 65(11):5680-92, 1991.
Kroes
RA. Abravaya K. Seidenfeld J. Morimoto RI. Selective activation of
human heat shock gene transcription by nitrosourea antitumor drugs
mediated by isocyanate-induced damage and activation of heat shock
transcription factor. Proceedings of the National Academy of Sciences
of the United States of America. 88(11):4825-9, 1991.
Watowich
SS. Morimoto RI. Lamb RA. Flux of the paramyxovirus hemagglutinin-neuraminidase
glycoprotein through the endoplasmic reticulum activates transcription
of the GRP78-BiP gene. Journal of Virology. 65(7):3590-7, 1991.
Abravaya
K. Phillips B. Morimoto RI. Heat shock-induced interactions of heat
shock transcription factor and the human hsp70 promoter examined by
in vivo footprinting. Molecular & Cellular Biology. 11(1):586-92,
1991.
Koskinen
PJ. Sistonen L. Evan G. Morimoto R. Alitalo K. Nuclear colocalization
of cellular and viral myc proteins with HSP70 in myc-overexpressing
cells. Journal of Virology. 65(2):842-51, 1991.
Morimoto
RI. Heat shock: the role of transient inducible responses in cell
damage, transformation, and differentiation. [Review] Cancer Cells.
3(8):295-301, 1991.
Phillips
B. Morimoto RI. Transcriptional regulation of human hsp70 genes: relationship
between cell growth, differentiation, virus infection, and the stress
response. Results & Problems in Cell Differentiation. 17:167-87, 1991.
Sarge
KD. Morimoto RI. Surprising features of transcriptional regulation
of heat shock genes. [Review] Gene Expression. 1(3):169-73, 1991.
Mosser
DD. Kotzbauer PT. Sarge KD. Morimoto RI. In vitro activation of heat
shock transcription factor DNA-binding by calcium and biochemical
conditions that affect protein conformation. Proceedings of the National
Academy of Sciences of the United States of America. 87(10):3748-52,
1990.
Williams
GT. Morimoto RI. Maximal stress-induced transcription from the human
HSP70 promoter requires interactions with the basal promoter elements
independent of rotational alignment. Molecular & Cellular Biology.
10(6):3125-36, 1990.
Alvares
K. Carrillo A. Yuan PM. Kawano H. Morimoto RI. Reddy JK. Identification
of cytosolic peroxisome proliferator binding protein as a member of
the heat shock protein HSP70 family. Proceedings of the National Academy
of Sciences of the United States of America. 87(14):5293-7, 1990.
Ovsenek
N. Williams GT. Morimoto RI. Heikkila JJ. cis-acting sequences and
trans-acting factors required for constitutive expression of a microinjected
HSP70 gene after the midblastula transition of Xenopus laevis embryogenesis.
Developmental Genetics. 11(1):97-109, 1990.
Milarski
KL. Morimoto RI. Mutational analysis of the human HSP70 protein: distinct
domains for nucleolar localization and adenosine triphosphate binding.
Journal of Cell Biology. 109(5):1947-62, 1989.
Williams
GT. McClanahan TK. Morimoto RI. E1a transactivation of the human HSP70
promoter is mediated through the basal transcriptional complex. Molecular
& Cellular Biology. 9(6):2574-87, 1989.
Milarski
KL. Welch WJ. Morimoto RI. Cell cycle-dependent association of HSP70
with specific cellular proteins. Journal of Cell Biology. 108(2):413-23,
1989.
Theodorakis
NG. Zand DJ. Kotzbauer PT. Williams GT. Morimoto RI. Hemin-induced
transcriptional activation of the HSP70 gene during erythroid maturation
in K562 cells is due to a heat shock factor-mediated stress response.
Molecular & Cellular Biology. 9(8):3166-73, 1989.
Theodorakis
NG. Banerji SS. Morimoto RI. HSP70 mRNA translation in chicken reticulocytes
is regulated at the level of elongation. Journal of Biological Chemistry.
263(28):14579-85, 1988.
Schaefer
EL. Morimoto RI. Theodorakis NG. Seidenfeld J. Chemical specificity
for induction of stress response genes by DNA-damaging drugs in human
adenocarcinoma cells. Carcinogenesis. 9(10):1733-8, 1988.
Mosser
DD. Theodorakis NG. Morimoto RI. Coordinate changes in heat shock
element-binding activity and HSP70 gene transcription rates in human
cells. Molecular & Cellular Biology. 8(11):4736-44, 1988.
Ferris
DK. Harel-Bellan A. Morimoto RI. Welch WJ. Farrar WL. Frederick, MD.Mitogen
and lymphokine stimulation of heat shock proteins in T lymphocytes.
Proceedings of the National Academy of Sciences of the United States
of America. 85(11):3850-4, 1988.
Watowich
SS. Morimoto RI. Complex regulation of heat shock- and glucose-responsive
genes in human cells. Molecular & Cellular Biology. 8(1):393-405,
1988.
Banerji
SS. Laing K. Morimoto RI. Erythroid lineage-specific expression and
inducibility of the major heat shock protein HSP70 during avian embryogenesis.
Genes & Development. 1(9):946-53, 1987.
Harrison
GS. Drabkin HA. Kao FT. Hartz J. Hart IM. Chu EH. Wu BJ. Morimoto
RI. Chromosomal location of human genes encoding major heat-shock
protein HSP70. Somatic Cell & Molecular Genetics. 13(2):119-30, 1987.
Morgan
WD. Williams GT. Morimoto RI. Greene J. Kingston RE. Tjian R. Two
transcriptional activators, CCAAT-box-binding transcription factor
and heat shock transcription factor, interact with a human hsp70 gene
promoter. Molecular & Cellular Biology. 7(3):1129-38, 1987.
Theodorakis
NG. Morimoto RI. Posttranscriptional regulation of hsp70 expression
in human cells: effects of heat shock, inhibition of protein synthesis,
and adenovirus infection on translation and mRNA stability. Molecular
& Cellular Biology. 7(12):4357-68, 1987.
Moore
M. Schaack J. Baim SB. Morimoto RI. Shenk T. Induced heat shock mRNAs
escape the nucleocytoplasmic transport block in adenovirus-infected
HeLa cells. Molecular & Cellular Biology. 7(12):4505-12, 1987.
Wu
BJ. Williams GT. Morimoto RI. Detection of three protein binding sites
in the serum-regulated promoter of the human gene encoding the 70-kDa
heat shock protein. Proceedings of the National Academy of Sciences
of the United States of America. 84(8):2203-7, 1987.
Morimoto
RI. Hunt C. Huang SY. Berg KL. Banerji SS. Organization, nucleotide
sequence, and transcription of the chicken HSP70 gene. Journal of
Biological Chemistry. 261(27):12692-9, 1986.
Kingston
RE. Cowie A. Morimoto RI. Gwinn KA. Binding of polyomavirus large
T antigen to the human hsp70 promoter is not required for trans activation.
Molecular & Cellular Biology. 6(9):3180-90, 1986.
Banerji
SS. Berg L. Morimoto RI. Transcription and post-transcriptional regulation
of avian HSP70 gene expression. Journal of Biological Chemistry. 261(33):15740-5,
1986.
Wu
BJ. Kingston RE. Morimoto RI. Human HSP70 promoter contains at least
two distinct regulatory domains. Proceedings of the National Academy
of Sciences of the United States of America. 83(3):629-33, 1986.
Milarski
KL. Morimoto RI. Expression of human HSP70 during the synthetic phase
of the cell cycle. Proceedings of the National Academy of Sciences
of the United States of America. 83(24):9517-21, 1986.
Wu
BJ. Hurst HC. Jones NC. Morimoto RI. The E1A 13S product of adenovirus
5 activates transcription of the cellular human HSP70 gene. Molecular
& Cellular Biology. 6(8):2994-9, 1986 .
Wu
BJ. Morimoto RI. Transcription of the human hsp70 gene is induced
by serum stimulation. Proceedings of the National Academy of Sciences
of the United States of America. 82(18):6070-4, 1985.
Hunt
C. Morimoto RI. Conserved features of eukaryotic hsp70 genes revealed
by comparison with the nucleotide sequence of human hsp70. Proceedings
of the National Academy of Sciences of the United States of America.
82(19):6455-9, 1985.
Wu
B. Hunt C. Morimoto R. Structure and expression of the human gene
encoding major heat shock protein HSP70. Molecular & Cellular Biology.
5(2):330-41, 1985.
Morimoto
R. Fodor E. Cell-specific expression of heat shock proteins in chicken
reticulocytes and lymphocytes. Journal of Cell Biology. 99:1316-23,
1984.
Banerji
SS. Theodorakis NG. Morimoto RI. Heat shock-induced translational
control of HSP70 and globin synthesis in chicken reticulocytes. Molecular
& Cellular Biology 4:2437-48, 1984.
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