| scholarly article | Q13442814 |
| P50 | author | Danusa D Soares | Q84004961 |
| P2093 | author name string | Fabiano Trigueiro Amorim | |
| Flávio de Castro Magalhães | |||
| Nilo R V Lima | |||
| Luiz Oswaldo Carneiro Rodrigues | |||
| Edilamar Menezes Oliveira | |||
| Milene Rodrigues Malheiros Lima | |||
| Angelo R P Martini | |||
| João Batista Ferreira-Júnior | |||
| Juliana Bohen Guimarães | |||
| Kenya Paula Moreira Oliveira | |||
| Michele Atalla Fonseca | |||
| Renata L Freitas Passos | |||
| P2860 | cites work | HSP72 gene expression progressively increases in human skeletal muscle during prolonged, exhaustive exercise | Q74218049 |
| Heat shock proteins and the inflammatory response | Q77903052 | ||
| Physiological effects of continuous or intermittent work in the heat | Q79442391 | ||
| Effect of caffeine supplementation on the extracellular heat shock protein 72 response to exercise | Q79774615 | ||
| Exercise intensity and duration affect blood soluble HSP72 | Q81288511 | ||
| Time course and differential responses of the major heat shock protein families in human skeletal muscle following acute nondamaging treadmill exercise | Q82973338 | ||
| Exercise increases serum Hsp72 in humans | Q28345140 | ||
| Tolerance, danger, and the extended family | Q29547532 | ||
| Regulation of the heat shock transcriptional response: cross talk between a family of heat shock factors, molecular chaperones, and negative regulators | Q29618401 | ||
| Glucose ingestion attenuates the exercise-induced increase in circulating heat shock protein 72 and heat shock protein 60 in humans | Q33716811 | ||
| Exercise induces the release of heat shock protein 72 from the human brain in vivo | Q33716849 | ||
| A formula to estimate the approximate surface area if height and weight be known. 1916. | Q34437560 | ||
| Heat shock proteins and heat adaptation of the whole organism | Q34447069 | ||
| From molecular and cellular to integrative heat defense during exposure to chronic heat | Q34544995 | ||
| Heat shock proteins: modifying factors in physiological stress responses and acquired thermotolerance | Q34605740 | ||
| Can exercise stress facilitate innate immunity? A functional role for stress-induced extracellular Hsp72. | Q35611630 | ||
| Chaperokine-induced signal transduction pathways. | Q35611634 | ||
| Endogenous extra-cellular heat shock protein 72: releasing signal(s) and function. | Q36210031 | ||
| Characterization of the thermotolerant cell. I. Effects on protein synthesis activity and the regulation of heat-shock protein 70 expression | Q36218354 | ||
| Releasing signals, secretory pathways, and immune function of endogenous extracellular heat shock protein 72. | Q36357910 | ||
| Heat acclimatization by controlled hyperthermia in hot-dry and hot-wet climates | Q39009767 | ||
| Muscle metabolism during exercise and heat stress in trained men: effect of acclimation | Q39112478 | ||
| Effect of blood handling on extracellular Hsp72 concentration after high-intensity exercise in humans. | Q40245107 | ||
| Exercise-heat acclimation in humans alters baseline levels and ex vivo heat inducibility of HSP72 and HSP90 in peripheral blood mononuclear cells | Q40435509 | ||
| Human resting extracellular heat shock protein 72 concentration decreases during the initial adaptation to exercise in a hot, humid environment | Q41604794 | ||
| Protection against endotoxemia by HSP70 in rodent cardiomyocytes | Q41731415 | ||
| Heat acclimation increases the basal HSP72 level and alters its production dynamics during heat stress | Q42471706 | ||
| Effect of heat acclimation on heat shock protein 72 and interleukin-10 in humans | Q42515379 | ||
| Muscle protein changes following eccentric exercise in humans | Q43437669 | ||
| Skin blood flow and sweating changes following exercise training and heat acclimation | Q43859206 | ||
| Reduced glycogen availability is associated with an elevation in HSP72 in contracting human skeletal muscle | Q43875696 | ||
| Expression of the molecular chaperone Hsp70 in detergent-resistant microdomains correlates with its membrane delivery and release | Q44394452 | ||
| Hsp70 release from peripheral blood mononuclear cells. | Q45098360 | ||
| Heat shock protein (HSP-72) levels in skeletal muscle following work in heat | Q46984519 | ||
| Humid heat acclimation does not elicit a preferential sweat redistribution toward the limbs | Q47424268 | ||
| Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration | Q47844537 | ||
| Detection of heat shock protein 70 (Hsp70) and anti-Hsp70 antibodies in the serum of normal individuals. | Q50853838 | ||
| Elevation of body temperature is an essential factor for exercise-increased extracellular heat shock protein 72 level in rat plasma. | Q51709364 | ||
| Role of extracellular HSP72 in acute stress-induced potentiation of innate immunity in active rats. | Q54536327 | ||
| Exercise induces hepatosplanchnic release of heat shock protein 72 in humans | Q59326285 | ||
| Heat shock protein 70 (Hsp70) stimulates proliferation and cytolytic activity of natural killer cells | Q61893857 | ||
| Mechanisms of thermal acclimation to exercise and heat | Q68793271 | ||
| Synthesis of 70K stress protein by human leukocytes: effect of exercise in the heat | Q70129167 | ||
| HSP expression in human leukocytes is modulated by endurance exercise | Q73579406 | ||
| HSP70 stimulates cytokine production through a CD14-dependant pathway, demonstrating its dual role as a chaperone and cytokine | Q73606601 | ||
| Sweat distribution before and after repeated heat exposure | Q73629671 | ||
| P433 | issue | 6 | |
| P304 | page(s) | 885-895 | |
| P577 | publication date | 2010-04-23 | |
| P1433 | published in | Cell Stress & Chaperones | Q13458649 |
| P1476 | title | Heat and exercise acclimation increases intracellular levels of Hsp72 and inhibits exercise-induced increase in intracellular and plasma Hsp72 in humans | |
| P478 | volume | 15 |
| Q44983068 | 2011 and 2012 Early Careers Achievement Awards: metabolic priorities during heat stress with an emphasis on skeletal muscle. |
| Q41985668 | Acute exercise boosts cell proliferation and the heat shock response in lymphocytes: correlation with cytokine production and extracellular-to-intracellular HSP70 ratio. |
| Q38266173 | Adaptation to hot environmental conditions: an exploration of the performance basis, procedures and future directions to optimise opportunities for elite athletes. |
| Q38460638 | Adaptations and mechanisms of human heat acclimation: Applications for competitive athletes and sports |
| Q51025860 | Chronic probiotic supplementation with or without glutamine does not influence the eHsp72 response to a multi-day ultra-endurance exercise event. |
| Q89830905 | Comparative effects of two heat acclimation protocols consisting of high-intensity interval training in the heat on aerobic performance and thermoregulatory responses in exercising rats |
| Q93051251 | Could Heat Therapy Be an Effective Treatment for Alzheimer's and Parkinson's Diseases? A Narrative Review |
| Q36660965 | Cross Acclimation between Heat and Hypoxia: Heat Acclimation Improves Cellular Tolerance and Exercise Performance in Acute Normobaric Hypoxia |
| Q38733278 | Cross-Adaptation: Heat and Cold Adaptation to Improve Physiological and Cellular Responses to Hypoxia |
| Q57054823 | Dietary curcumin supplementation does not alter peripheral blood mononuclear cell responses to exertional heat stress |
| Q40186587 | Dietary glutamine prevents the loss of intestinal barrier function and attenuates the increase in core body temperature induced by acute heat exposure. |
| Q42004928 | Effect of Permissive Dehydration on Induction and Decay of Heat Acclimation, and Temperate Exercise Performance |
| Q83062189 | Effects of whole-body heat acclimation on cell injury and cytokine responses in peripheral blood mononuclear cells |
| Q64230443 | Efficacy of Heat Mitigation Strategies on Core Temperature and Endurance Exercise: A Meta-Analysis |
| Q39502798 | Eleven days of moderate exercise and heat exposure induces acclimation without significant HSP70 and apoptosis responses of lymphocytes in college-aged males |
| Q28299626 | Extracellular Hsp72 concentration relates to a minimum endogenous criteria during acute exercise-heat exposure |
| Q40235882 | Extracellular and cellular Hsp72 differ as biomarkers in acute exercise/environmental stress and recovery |
| Q36010531 | Genetic variations of HSPA1A, the heat shock protein levels, and risk of atherosclerosis |
| Q51610356 | Heat acclimation attenuates physiological strain and the HSP72, but not HSP90α, mRNA response to acute normobaric hypoxia. |
| Q45840687 | Heat and Hypoxic Acclimation Increase Monocyte Heat Shock Protein 72 but Do Not Attenuate Inflammation following Hypoxic Exercise |
| Q34464470 | Heat shock response and autophagy--cooperation and control |
| Q41600602 | Hsp72 and Hsp90α mRNA transcription is characterised by large, sustained changes in core temperature during heat acclimation |
| Q41334385 | Human monocyte heat shock protein 72 responses to acute hypoxic exercise after 3 days of exercise heat acclimation. |
| Q26745777 | Insights into the role of heat shock protein 72 to whole-body heat acclimation in humans |
| Q40973896 | Isothermic and fixed-intensity heat acclimation methods elicit equal increases in Hsp72 mRNA. |
| Q41222071 | Moderate- and high-intensity exhaustive exercise in the heat induce a similar increase in monocyte Hsp72. |
| Q47297115 | Pregnancy History Influences the Level of Autophagy in Peripheral Blood Mononuclear Cells From Pregnant Women. |
| Q98177816 | Recent Advances in Genetic and Epigenetic Modulation of Animal Exposure to High Temperature |
| Q40343305 | Response of mice to continuous 5-day passive hyperthermia resembles human heat acclimation |
| Q34797199 | Serum level of soluble Hsp70 is associated with vascular calcification |
| Q38815417 | The Effects of Heat Adaptation on Physiology, Perception and Exercise Performance in the Heat: A Meta-Analysis. |
| Q35169987 | The chaperone balance hypothesis: the importance of the extracellular to intracellular HSP70 ratio to inflammation-driven type 2 diabetes, the effect of exercise, and the implications for clinical management |
| Q41198064 | The effect of 10 days of heat acclimation on exercise performance in acute hypobaric hypoxia (4350 m). |
| Q35160073 | Thermotolerance and heat acclimation may share a common mechanism in humans |
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