scholarly article | Q13442814 |
P2093 | author name string | Bert W O'Malley | |
Clifford C Dacso | |||
Bokai Zhu | |||
P2860 | cites work | The endoplasmic reticulum stress response in aging and age-related diseases | Q24297710 |
MetaboAnalyst: a web server for metabolomic data analysis and interpretation | Q24655530 | ||
Synchrony and desynchrony in circadian clocks: impacts on learning and memory | Q26796708 | ||
Lessons from mouse models of high-fat diet-induced NAFLD | Q26829532 | ||
Role of endoplasmic reticulum stress in the pathogenesis of nonalcoholic fatty liver disease | Q26853645 | ||
The mitochondrial unfolded protein response—synchronizing genomes | Q26859420 | ||
Mitohormesis | Q26862860 | ||
Genome-wide analysis of light- and temperature-entrained circadian transcripts in Caenorhabditis elegans | Q27323166 | ||
Brain-specific rescue of Clock reveals system-driven transcriptional rhythms in peripheral tissue | Q27332343 | ||
A transcription elongation factor that links signals from the reproductive system to lifespan extension in Caenorhabditis elegans | Q27349187 | ||
Oxidative stress: New insights on the association of non-alcoholic fatty liver disease and atherosclerosis | Q28084150 | ||
Sleep and muscle recovery: Endocrinological and molecular basis for a new and promising hypothesis | Q28112028 | ||
The hallmarks of aging | Q28131641 | ||
Increased dosage of a sir-2 gene extends lifespan in Caenorhabditis elegans | Q28131824 | ||
The Fork head transcription factor DAF-16 transduces insulin-like metabolic and longevity signals in C. elegans | Q28131830 | ||
Temporal organization: reflections of a Darwinian clock-watcher | Q28267753 | ||
Structural basis of the unfolded protein response | Q28276836 | ||
Regulation of hepatic lipogenesis by the transcription factor XBP1 | Q28507784 | ||
daf-16: An HNF-3/forkhead family member that can function to double the life-span of Caenorhabditis elegans | Q28611332 | ||
Potential conservation of circadian clock proteins in the phylum Nematoda as revealed by bioinformatic searches | Q28652178 | ||
Hormesis defined | Q28755530 | ||
STRING v10: protein-protein interaction networks, integrated over the tree of life | Q29615545 | ||
Physiological significance of a peripheral tissue circadian clock | Q29619075 | ||
Sleep drives metabolite clearance from the adult brain | Q29620065 | ||
Lifespan regulation by evolutionarily conserved genes essential for viability | Q33281293 | ||
Analysis of a gene regulatory cascade mediating circadian rhythm in zebrafish. | Q33355433 | ||
Harmonics of circadian gene transcription in mammals | Q33426339 | ||
Diurnal variation in mental performance; a study of three-shift workers. | Q33637820 | ||
Cerebrospinal fluid sodium rhythms | Q33657258 | ||
Genetic and Environmental Models of Circadian Disruption Link SRC-2 Function to Hepatic Pathology. | Q41789310 | ||
The unfolded protein response transducer IRE1α prevents ER stress-induced hepatic steatosis | Q41904044 | ||
DGIdb: mining the druggable genome | Q41917589 | ||
UPR pathways combine to prevent hepatic steatosis caused by ER stress-mediated suppression of transcriptional master regulators. | Q42041480 | ||
RNAi of the circadian clock gene period disrupts the circadian rhythm but not the circatidal rhythm in the mangrove cricket | Q42175428 | ||
Induction of liver steatosis and lipid droplet formation in ATF6alpha-knockout mice burdened with pharmacological endoplasmic reticulum stress | Q42451739 | ||
Control and function of the homeostatic sleep response by adenosine A1 receptors | Q42573867 | ||
Metabolic molecular markers of the tidal clock in the marine crustacean Eurydice pulchra. | Q42593068 | ||
Lifespan extension in Caenorhabditis elegans by DMSO is dependent on sir-2.1 and daf-16 | Q42912148 | ||
Circadian enhancers coordinate multiple phases of rhythmic gene transcription in vivo | Q43029382 | ||
Coactivator-Dependent Oscillation of Chromatin Accessibility Dictates Circadian Gene Amplitude via REV-ERB Loading. | Q43141176 | ||
Circadian clock-coordinated 12 Hr period rhythmic activation of the IRE1alpha pathway controls lipid metabolism in mouse liver | Q43194435 | ||
Glucocorticoid management in rheumatoid arthritis: morning or night low dose? | Q44522776 | ||
Experimental studies of shift-work I: A comparison of 'rotating' and 'stabilized' 4-hour shift systems | Q44668580 | ||
Ambulatory 24 hour sleep-wake monitoring in narcolepsy-cataplexy compared to matched controls | Q44683693 | ||
Circadian Reprogramming in the Liver Identifies Metabolic Pathways of Aging | Q46220442 | ||
Circadian characteristics of serum calcium, magnesium and eight trace elements and of their metallo-moieties in urine of healthy middle-aged men. | Q46255096 | ||
Role of mitochondria and mitochondria targeted agents in non-alcoholic fatty liver disease. | Q46266754 | ||
The Unfolded Protein Response and Cell Fate Control | Q46394895 | ||
A role for SIR-2.1 regulation of ER stress response genes in determining C. elegans life span | Q46780211 | ||
Silencing the circadian clock gene Clock using RNAi reveals dissociation of the circatidal clock from the circadian clock in the mangrove cricket. | Q46859382 | ||
C. elegans SIR-2.1 interacts with 14-3-3 proteins to activate DAF-16 and extend life span | Q47068907 | ||
Effects of diaphragmatic breathing on ambulatory blood pressure and heart rate | Q47429476 | ||
The two-process model of sleep regulation: a reappraisal. | Q47899463 | ||
Ultradian and asymmetric rhythms of hemispheric processing speed | Q48327258 | ||
Multiple sleep latency tests during the constant routine | Q48422799 | ||
Circasemidian sleep propensity and the phase-amplitude maintenance model of human sleep/wake regulation | Q48470371 | ||
Circadian rhythm period in reaction time to light signals: difference between right- and left-hand side | Q48551132 | ||
Circasemidian 12 h cycle of slow wave sleep under constant darkness | Q48653930 | ||
Circadian pattern of simulated flight performance of pilots is derived from ultradian components | Q48673872 | ||
SCN controlled circadian arousal and the afternoon "nap zone". | Q48692920 | ||
Glucose deprivation induces reticulum stress by the PERK pathway and caspase-7- and calpain-mediated caspase-12 activation. | Q48895051 | ||
Postprandial sleepiness: objective documentation via polysomnography | Q49120334 | ||
Mitochondria in non-alcoholic fatty liver disease | Q49486364 | ||
From the unfolded protein response to metabolic diseases - lipids under the spotlight. | Q50035165 | ||
Diurnal transcriptome atlas of a primate across major neural and peripheral tissues | Q50036475 | ||
The immune system as a chronotoxicity target of the anticancer mTOR inhibitor everolimus | Q50063569 | ||
The mitochondrial unfolded protein response: Signaling from the powerhouse. | Q50902408 | ||
Circadian determinants of the postlunch dip in performance. | Q50998719 | ||
Dynamics of slow wave activity in narcoleptic patients under bed rest conditions. | Q51047059 | ||
Mechanism for 12 hr rhythm generation by the circadian clock. | Q51070740 | ||
Hepatic IRE1α regulates fasting-induced metabolic adaptive programs through the XBP1s-PPARα axis signalling. | Q51324999 | ||
Aging networks in Caenorhabditis elegans: AMP-activated protein kinase (aak-2) links multiple aging and metabolism pathways. | Q52020196 | ||
Circadian rhythmic fractal scaling of heart rate variability in health and coronary artery disease. | Q52261459 | ||
Tidal and diel orchestration of behaviour and gene expression in an intertidal mollusc. | Q52646095 | ||
The Genomic Landscape and Pharmacogenomic Interactions of Clock Genes in Cancer Chronotherapy. | Q52727400 | ||
Glucose-induced endoplasmic reticulum stress is independent of oxidative stress: A mechanistic explanation for the failure of antioxidant therapy in diabetes. | Q54612988 | ||
The circadian clock regulates cisplatin-induced toxicity and tumor regression in melanoma mouse and human models | Q55318141 | ||
Adenosine and sleep | Q56095448 | ||
Fitness costs of disrupting circadian rhythms in malaria parasites | Q56769896 | ||
Circatidal and Circadian Rhythms of Locomotion in Limulus polyphemus | Q57444618 | ||
Temperature compensation and entrainment in circadian rhythms | Q59037871 | ||
Circatidal clocks | Q62002994 | ||
Rhythms of locomotion expressed by Limulus polyphemus, the American horseshoe crab: II. Relationship to circadian rhythms of visual sensitivity. | Q64999267 | ||
Age, gender and circadian or circasemidian blood pressure and heart rate variation of children | Q67981454 | ||
Multiple component analysis of plasma growth hormone in children with standard and short stature | Q68645472 | ||
Assessment of adrenocortical activity in term newborn infants using salivary cortisol determinations | Q69065915 | ||
Body temperature and the return of slow wave activity in extended sleep | Q71215132 | ||
[Circadian rhythm in normal and pathological sleep] | Q71932391 | ||
Endogenous rhythms of locomotor activity in the high-shore limpet, Helcion pectunculus (Patellogastropoda) | Q74524990 | ||
Entrainment of the circatidal swimming activity rhythm in the cumacean Dimorphostylis asiatica (Crustacea) to 12.5-hour hydrostatic pressure cycles | Q75338356 | ||
[Cross-talk between endoplasmic reticulum and mitochondria in non-alcoholic fatty liver disease] | Q82862249 | ||
Clock Regulation of Metabolites Reveals Coupling between Transcription and Metabolism | Q87986150 | ||
CYCLOPS reveals human transcriptional rhythms in health and disease | Q33719425 | ||
Circadian rhythms and metabolic syndrome: from experimental genetics to human disease. | Q33722806 | ||
The relationship between circadian and hemicircadian components of human endogenous temperature rhythms | Q33801279 | ||
Synchronization of circadian Per2 rhythms and HSF1-BMAL1:CLOCK interaction in mouse fibroblasts after short-term heat shock pulse | Q34019094 | ||
Roles of adenosine and its receptors in sleep-wake regulation | Q34041863 | ||
A mitochondrial specific stress response in mammalian cells | Q34090940 | ||
Caffeine and adenosine. | Q34099428 | ||
Temperature as a universal resetting cue for mammalian circadian oscillators | Q34143703 | ||
Circadian biology: a 2.5 billion year old clock. | Q34290472 | ||
Procedures for numerical analysis of circadian rhythms | Q34346975 | ||
Nonalcoholic fatty liver disease and aging: epidemiology to management. | Q34366861 | ||
Plant circadian clocks increase photosynthesis, growth, survival, and competitive advantage | Q34436491 | ||
Sleep-dependent memory consolidation | Q34463197 | ||
The Circadian Clock and Human Health | Q34528045 | ||
Circatidal activity rhythm in the mangrove cricket Apteronemobius asahinai | Q34588797 | ||
Clinical pharmacology and pharmacogenetics of thiopurines | Q34782066 | ||
The contribution of endoplasmic reticulum stress to liver diseases | Q34860549 | ||
Endoplasmic reticulum stress and the unfolded protein response in nonalcoholic fatty liver disease | Q35055531 | ||
In-vivo quantitative proteomics reveals a key contribution of post-transcriptional mechanisms to the circadian regulation of liver metabolism. | Q35082239 | ||
The circadian clock interacts with metabolic physiology to influence reproductive fitness | Q35155205 | ||
Getting the better of ER stress. | Q35333412 | ||
Chronomics for chronoastrobiology with immediate spin-offs for life quality and longevity | Q35565647 | ||
MetaboAnalyst 3.0--making metabolomics more meaningful | Q35610559 | ||
Circadian and CLOCK-controlled regulation of the mouse transcriptome and cell proliferation | Q35645626 | ||
Azathioprine, 6-mercaptopurine in inflammatory bowel disease: pharmacology, efficacy, and safety | Q35881304 | ||
Reprogramming of the circadian clock by nutritional challenge. | Q36069161 | ||
Nascent-Seq reveals novel features of mouse circadian transcriptional regulation | Q36382560 | ||
DGIdb 2.0: mining clinically relevant drug-gene interactions. | Q36434749 | ||
The Xbp1s/GalE axis links ER stress to postprandial hepatic metabolism | Q36497151 | ||
The Mitochondrial Basis of Aging | Q36654160 | ||
Modulation of environmental responses of plants by circadian clocks. | Q36722475 | ||
Catastrophes, sleep, and public policy: consensus report | Q36839076 | ||
Mitonuclear protein imbalance as a conserved longevity mechanism | Q36873369 | ||
Timing of expression of the core clock gene Bmal1 influences its effects on aging and survival. | Q36909030 | ||
Circasemidian rather than circadian variation of circulating osteoprotegerin in clinical health | Q37074469 | ||
Dissociation of circadian and circatidal timekeeping in the marine crustacean Eurydice pulchra. | Q37223289 | ||
The mitochondrial unfolded protein response, a conserved stress response pathway with implications in health and disease | Q37402149 | ||
Long-term exposure to space's microgravity alters the time structure of heart rate variability of astronauts | Q37538851 | ||
Unmasking ultradian rhythms in gene expression. | Q37589843 | ||
Metabolism and circadian rhythms--implications for obesity | Q37621141 | ||
Spliced X-box binding protein 1 couples the unfolded protein response to hexosamine biosynthetic pathway | Q37648367 | ||
Shift work: coping with the biological clock | Q37668860 | ||
ER stress and hormetic regulation of the aging process | Q37736675 | ||
Endoplasmic reticulum stress in nonalcoholic fatty liver disease | Q38027194 | ||
Timing is important in medication administration: a timely review of chronotherapy research | Q38074873 | ||
XBP1s Is an Anti-lipogenic Protein | Q38291938 | ||
Hatching controlled by the circatidal clock, and the role of the medulla terminalis in the optic peduncle of the eyestalk, in an estuarine crab Sesarma haematocheir | Q38453873 | ||
Alternating light-darkness-influenced human electrocardiographic magnetoreception in association with geomagnetic pulsations | Q38458370 | ||
DNA methylation analysis in nonalcoholic fatty liver disease suggests distinct disease-specific and remodeling signatures after bariatric surgery | Q38487123 | ||
Tidal, daily, and lunar-day activity cycles in the marine polychaete Nereis virens. | Q38496569 | ||
Crab clockwork: the case for interactive circatidal and circadian oscillators controlling rhythmic locomotor activity of Carcinus maenas | Q38530763 | ||
Endoplasmic reticulum stress and Oxidative stress in the pathogenesis of Non-alcoholic fatty liver disease | Q38557011 | ||
Circadian rhythm of body temperature during prolonged undersea voyages | Q38581924 | ||
XBP-1 is a cell-nonautonomous regulator of stress resistance and longevity | Q38681055 | ||
Clock Regulation of Metabolites Reveals Coupling between Transcription and Metabolism | Q38708811 | ||
A Cell-Autonomous Mammalian 12 hr Clock Coordinates Metabolic and Stress Rhythms. | Q38737988 | ||
Metabolic Control of Longevity. | Q38926024 | ||
Glucose Deprivation Induces ATF4-Mediated Apoptosis through TRAIL Death Receptors | Q38938720 | ||
Mitochondrial Adaptation in Nonalcoholic Fatty Liver Disease: Novel Mechanisms and Treatment Strategies | Q39041789 | ||
Hepatic lipid metabolism and non-alcoholic fatty liver disease in aging | Q39054564 | ||
Endoplasmic reticulum proteostasis impairment in aging | Q39258127 | ||
Chronobiological aspects of narcolepsy. | Q40497214 | ||
Commentary: XBP-1 Is a Cell-Nonautonomous Regulator of Stress Resistance and Longevity | Q40572165 | ||
Activation of endoplasmic reticulum stress by hyperglycemia is essential for Müller cell-derived inflammatory cytokine production in diabetes | Q40666660 | ||
Costs of Clock-Environment Misalignment in Individual Cyanobacterial Cells. | Q40960174 | ||
Brief Communication: SIR-2.1-dependent lifespan extension of Caenorhabditis elegans by oxyresveratrol and resveratrol | Q41122060 | ||
Misalignment with the external light environment drives metabolic and cardiac dysfunction | Q41197584 | ||
Changes in the temperature rhythm of submariners following a rapidly rotating watchkeeping system for a prolonged period | Q41449298 | ||
The AMP-activated protein kinase AAK-2 links energy levels and insulin-like signals to lifespan in C. elegans | Q41711470 | ||
P275 | copyright license | Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International | Q24082749 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 7 | |
P304 | page(s) | 727-752 | |
P577 | publication date | 2018-06-06 | |
P1433 | published in | Journal of the Endocrine Society | Q50817780 |
P1476 | title | Unveiling "Musica Universalis" of the Cell: A Brief History of Biological 12-Hour Rhythms | |
P478 | volume | 2 |
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