# | Title | Journal | Year | Citations |
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1 | Heat shock proteins in cancer: diagnostic, prognostic, predictive, and treatment implications | Cell Stress and Chaperones | 2005 | 1,176 |
2 | Guidelines for the nomenclature of the human heat shock proteins | Cell Stress and Chaperones | 2009 | 1,105 |
3 | &cestflwr; Arabidopsis and the heat stress transcription factor world: how many heat stress transcription factors do we need? | Cell Stress and Chaperones | 2001 | 641 |
4 | Structure, function and evolution of DnaJ: conservation and adaptation of chaperone function | Cell Stress and Chaperones | 1998 | 528 |
5 | Influence of molecular and chemical chaperones on protein folding | Cell Stress and Chaperones | 1996 | 430 |
6 | The human HSP70 family of chaperones: where do we stand? | Cell Stress and Chaperones | 2016 | 419 |
7 | CHIP: a link between the chaperone and proteasome systems | Cell Stress and Chaperones | 2003 | 398 |
8 | The human genome encodes 10 α-crystallin–related small heat shock proteins: HspB1–10 | Cell Stress and Chaperones | 2003 | 391 |
9 | Chemical chaperones correct the mutant phenotype of the ΔF508 cystic fibrosis transmembrane conductance regulator protein | Cell Stress and Chaperones | 1996 | 378 |
10 | Antibiotic radicicol binds to the N-terminal domain of Hsp90 and shares important biologic activities with geldanamycin | Cell Stress and Chaperones | 1998 | 355 |
11 | A hitchhiker's guide to the human Hsp70 family | Cell Stress and Chaperones | 1996 | 331 |
12 | &cestflwr; The expanding family of Arabidopsis thaliana small heat stress proteins and a new family of proteins containing α-crystallin domains (Acd proteins) | Cell Stress and Chaperones | 2001 | 322 |
13 | &cestflwr; The Hsp90 family of proteins in Arabidopsis thaliana | Cell Stress and Chaperones | 2001 | 318 |
14 | Actin cytoskeleton and small heat shock proteins: how do they interact? | Cell Stress and Chaperones | 2002 | 306 |
15 | Discovery of the heat shock response | Cell Stress and Chaperones | 1996 | 304 |
16 | Deleterious consequences of Hsp70 overexpression in Drosphilla melanogaster larvae | Cell Stress and Chaperones | 1997 | 288 |
17 | Mechanisms for regulation of Hsp70 function by Hsp40 | Cell Stress and Chaperones | 2003 | 281 |
18 | Heat shock proteins: regulators of stress response and apoptosis | Cell Stress and Chaperones | 1998 | 269 |
19 | The Hsp110 and Grp170 stress proteins: newly recognized relatives of the Hsp70s | Cell Stress and Chaperones | 2000 | 269 |
20 | An Hsp70 family chaperone, mortalin/mthsp70/PBP74/Grp75: what, when, and where? | Cell Stress and Chaperones | 2002 | 242 |
21 | On mechanisms that control heat shock transcription factor activity in metazoan cells | Cell Stress and Chaperones | 2004 | 239 |
22 | Exercise increases serum Hsp72 in humans | Cell Stress and Chaperones | 2001 | 236 |
23 | &cestflwr; Genomic analysis of the Hsp70 superfamily in Arabidopsis thaliana | Cell Stress and Chaperones | 2001 | 236 |
24 | Extracellular heat shock proteins, cellular export vesicles, and the Stress Observation System: A form of communication during injury, infection, and cell damage | Cell Stress and Chaperones | 2011 | 233 |
25 | &cestchinlong;Visibly stressed: the role of eIF2, TIA-1, and stress granules in protein translation | Cell Stress and Chaperones | 2002 | 226 |
26 | Full genome gene expression analysis of the heat stress response in Drosophila melanogaster | Cell Stress and Chaperones | 2005 | 223 |
27 | A pathway of multi-chaperone interactions common to diverse regulatory proteins: estrogen receptor, Fes tyrosine kinase, heat shock transcription factor Hsf1, and the aryl hydrocarbon receptor | Cell Stress and Chaperones | 1996 | 221 |
28 | Versatile TPR domains accommodate different modes of target protein recognition and function | Cell Stress and Chaperones | 2011 | 196 |
29 | The plant sHSP superfamily: five new members in Arabidopsis thaliana with unexpected properties | Cell Stress and Chaperones | 2008 | 195 |
30 | Transgenic mice expressing the human inducible Hsp70 have hippocampal neurons resistant to ischemic injury | Cell Stress and Chaperones | 1997 | 195 |
31 | A 14-mer Hsp70 peptide stimulates natural killer (NK) cell activity | Cell Stress and Chaperones | 2001 | 183 |
32 | Stress-induced extracellular Hsp72 is a functionally significant danger signal to the immune system | Cell Stress and Chaperones | 2003 | 183 |
33 | Differential interactions of p23 and the TPR-containing proteins Hop, Cyp40, FKBP52 and FKBP51 with Hsp90 mutants | Cell Stress and Chaperones | 1998 | 178 |
34 | Direct observation of stress response in Caenorhabditis elegans using a reporter transgene | Cell Stress and Chaperones | 1999 | 178 |
35 | Co-expression of ICAM-1, VCAM-1, ELAM-1 and Hsp60 in human arterial and venous endothelial cells in response to cytokines and oxidized low-density lipoproteins | Cell Stress and Chaperones | 1997 | 177 |
36 | Proteomic data from human cell cultures refine mechanisms of chaperone-mediated protein homeostasis | Cell Stress and Chaperones | 2013 | 174 |
37 | The Hsf world: classification and properties of plant heat stress transcription factors | Cell Stress and Chaperones | 1996 | 169 |
38 | Intronic hormone response elements mediate regulation of FKBP5 by progestins and glucocorticoids | Cell Stress and Chaperones | 2004 | 168 |
39 | Hsp30, the integral plasma membrane heat shock protein of Saccharmyces cerevisiae, is a stress-inducible regulator of plasma membrane H+-ATPase | Cell Stress and Chaperones | 1997 | 165 |
40 | On the brotherhood of the mitochondrial chaperones mortalin and heat shock protein 60 | Cell Stress and Chaperones | 2006 | 163 |
41 | Expression of cytoprotective proteins, heat shock protein 70and metallothioneins, in tissues ofOstrea edulis exposed to heat andheavy metals | Cell Stress and Chaperones | 2004 | 161 |
42 | The growing world of small heat shock proteins: from structure to functions | Cell Stress and Chaperones | 2017 | 158 |
43 | Comparative analysis of the small heat shock proteins in three angiosperm genomes identifies new subfamilies and reveals diverse evolutionary patterns | Cell Stress and Chaperones | 2008 | 157 |
44 | Cell surface expression of heat shock proteins and the immune response | Cell Stress and Chaperones | 1996 | 155 |
45 | Computational analysis of the human HSPH/HSPA/DNAJ family and cloning of a human HSPH/HSPA/DNAJ expression library | Cell Stress and Chaperones | 2009 | 153 |
46 | Melatonin protected cardiac microvascular endothelial cells against oxidative stress injury via suppression of IP3R-[Ca2+]c/VDAC-[Ca2+]m axis by activation of MAPK/ERK signaling pathway | Cell Stress and Chaperones | 2018 | 153 |
47 | Heat shock protein 70 regulates cellular redox status by modulating glutathione-related enzyme activities | Cell Stress and Chaperones | 2007 | 152 |
48 | Gene expression profiles of cytosolic heat shock proteins Hsp70 and Hsp90 from symbiotic dinoflagellates in response to thermal stress: possible implications for coral bleaching | Cell Stress and Chaperones | 2011 | 152 |
49 | Hsp27 protects mitochondria of thermotolerant cells against apoptotic stimuli | Cell Stress and Chaperones | 2001 | 151 |
50 | Functional analysis of Hsp70 superfamily proteins of rice (Oryza sativa) | Cell Stress and Chaperones | 2013 | 149 |