scholarly article | Q13442814 |
P50 | author | Shawn D. Youngstedt | Q104835346 |
Desta Fekedulegn | Q28037036 | ||
Diane B. Miller | Q64539321 | ||
Michael E. Andrew | Q69542125 | ||
Cecil M. Burchfiel | Q78827847 | ||
John M. Violanti | Q79170615 | ||
P2093 | author name string | Hongmei Zhang | |
James Burch | |||
James R Hébert | |||
John E Vena | |||
Michael Wirth | |||
P2860 | cites work | Area under the curve and other summary indicators of repeated waking cortisol measurements | Q23912061 |
Atypical work hours and metabolic syndrome among police officers | Q23915240 | ||
Shiftwork duration and the awakening cortisol response among police officers | Q23918415 | ||
The Buffalo Cardio-Metabolic Occupational Police Stress (BCOPS) pilot study: methods and participant characteristics | Q24169809 | ||
Cortisol patterns and brachial artery reactivity in a high stress environment | Q24170154 | ||
PER3 polymorphism predicts sleep structure and waking performance | Q24299328 | ||
PERIOD3, circadian phenotypes, and sleep homeostasis | Q24310709 | ||
Inter-individual differences in habitual sleep timing and entrained phase of endogenous circadian rhythms of BMAL1, PER2 and PER3 mRNA in human leukocytes | Q24648514 | ||
An hPer2 phosphorylation site mutation in familial advanced sleep phase syndrome | Q27863695 | ||
Stress and the individual. Mechanisms leading to disease | Q28262768 | ||
Shift work in nurses: contribution of phenotypes and genotypes to adaptation | Q28387916 | ||
Differential functions of mPer1, mPer2, and mPer3 in the SCN circadian clock | Q28509438 | ||
Diurnal expression of functional and clock-related genes throughout the rat HPA axis: system-wide shifts in response to a restricted feeding schedule | Q28572853 | ||
Testing the circadian gene hypothesis in prostate cancer: a population-based case-control study | Q30497028 | ||
Targeted disruption of the mPer3 gene: subtle effects on circadian clock function | Q30901003 | ||
Association of structural polymorphisms in the human period3 gene with delayed sleep phase syndrome | Q30986859 | ||
PER3 polymorphism predicts cumulative sleep homeostatic but not neurobehavioral changes to chronic partial sleep deprivation | Q33466014 | ||
Interactions of the circadian CLOCK system and the HPA axis | Q33823325 | ||
A length polymorphism in the circadian clock gene Per3 is linked to delayed sleep phase syndrome and extreme diurnal preference | Q34211265 | ||
Circadian disruption, Per3, and human cytokine secretion | Q34222534 | ||
Stress, stress response, and health | Q34310873 | ||
Sleep disturbances are correlated with decreased morning awakening salivary cortisol | Q34329303 | ||
Morningness and eveningness: the free cortisol rise after awakening in "early birds" and "night owls". | Q34461125 | ||
An endogenous circadian rhythm in sleep inertia results in greatest cognitive impairment upon awakening during the biological night | Q34594814 | ||
Circadian rhythm gene period 3 is an inhibitor of the adipocyte cell fate. | Q34684926 | ||
The cortisol awakening response (CAR): facts and future directions | Q34852491 | ||
Association of diurnal patterns in salivary cortisol with all-cause and cardiovascular mortality: findings from the Whitehall II study | Q34894329 | ||
The circadian clock: pacemaker and tumour suppressor | Q35118733 | ||
Disrupting the circadian clock: gene-specific effects on aging, cancer, and other phenotypes. | Q35166095 | ||
Circadian disruption in cancer: a neuroendocrine-immune pathway from stress to disease? | Q35208593 | ||
Clocks on top: the role of the circadian clock in the hypothalamic and pituitary regulation of endocrine physiology | Q35623991 | ||
The awakening cortisol response: methodological issues and significance | Q35809333 | ||
Biological basis of the stress response | Q36067923 | ||
Entrainment of peripheral clock genes by cortisol. | Q36185506 | ||
Early morning executive functioning during sleep deprivation is compromised by a PERIOD3 polymorphism. | Q36891170 | ||
Neurohormonal-cytokine interactions: implications for inflammation, common human diseases and well-being | Q36918387 | ||
Circadian clocks: regulators of endocrine and metabolic rhythms | Q36977129 | ||
Circadian polymorphisms associated with affective disorders. | Q37142227 | ||
Psychosocial factors, biological mediators, and cancer prognosis: a new look at an old story | Q37182412 | ||
Glucocorticoids and the circadian clock | Q37312824 | ||
Cortisol awakening response and psychosocial factors: a systematic review and meta-analysis | Q37330758 | ||
The regulation of central and peripheral circadian clocks in humans | Q37619698 | ||
Circadian clock and vascular disease | Q37744499 | ||
Circadian regulation of cell cycle: Molecular connections between aging and the circadian clock. | Q37766876 | ||
Mammalian circadian clock system: Molecular mechanisms for pharmaceutical and medical sciences. | Q37771569 | ||
Clock genes and sleep | Q37915303 | ||
Role of circadian clocks in the development and therapeutics of cancer | Q37979963 | ||
Shiftwork impacts and adaptation among health care workers | Q39306624 | ||
Impact of Event Scale: A Measure of Subjective Stress | Q39513124 | ||
PTSD symptoms predict waking salivary cortisol levels in police officers | Q39707224 | ||
Association between specific diurnal preference questionnaire items and PER3 VNTR genotype. | Q39988397 | ||
Reliability of hormonal levels for assessing the hypothalamic-pituitary-adrenocortical system in clinical pharmacology | Q41921897 | ||
Hypocortisolism and increased glucocorticoid sensitivity of pro-Inflammatory cytokine production in Bosnian war refugees with posttraumatic stress disorder | Q42459042 | ||
Circadian rhythmicity of cortisol and body temperature: morningness-eveningness effects | Q43622151 | ||
Cortisol in urine and saliva: relations to the intima media thickness, IMT. | Q43786567 | ||
Diurnal cortisol rhythm as a predictor of lung cancer survival. | Q44449313 | ||
Salivary cortisol response to awakening in chronic fatigue syndrome | Q44750322 | ||
Correlation between circadian gene variants and serum levels of sex steroids and insulin-like growth factor-I. | Q46259418 | ||
The cortisol awakening response: a pilot study on the effects of shift work, morningness and sleep duration | Q46466914 | ||
Blunted cortisol response to awakening in mild to moderate depression: regulatory influences of sleep patterns and social contacts | Q46849111 | ||
Association of the 54-nucleotide repeat polymorphism of hPer3 with heroin dependence in Han Chinese population | Q48192968 | ||
Aging, health behaviors, and the diurnal rhythm and awakening response of salivary cortisol | Q48247087 | ||
Human melatonin and alerting response to blue-enriched light depend on a polymorphism in the clock gene PER3. | Q48268427 | ||
Association study of a variable-number tandem repeat polymorphism in the clock gene PERIOD3 and chronotype in Norwegian university students | Q48282883 | ||
Sleep quality and diurnal preference in a sample of young adults: associations with 5HTTLPR, PER3, and CLOCK 3111. | Q48295635 | ||
A length polymorphism in the circadian clock gene Per3 influences age at onset of bipolar disorder. | Q48423719 | ||
Circadian cortisol profiles and psychological self-reports in shift workers with and without recent change in the shift rotation system. | Q48485416 | ||
The cortisol awakening response is blunted in psychotherapy inpatients suffering from depression. | Q48535683 | ||
Circadian rhythm of heart rate, urinary cortisol excretion, and sleep in civil air traffic controllers. | Q48709967 | ||
Circadian clock gene Per3 variants influence the postpartum onset of bipolar disorder. | Q48912030 | ||
Period3 structural variation: a circadian biomarker associated with breast cancer in young women. | Q52562314 | ||
The role of polymorphisms in circadian pathway genes in breast tumorigenesis. | Q52604677 | ||
Scaling of Life Events | Q52998196 | ||
Free Cortisol Levels after Awakening: A Reliable Biological Marker for the Assessment of Adrenocortical Activity | Q59858771 | ||
Power density in theta/alpha frequencies of the waking EEG progressively increases during sustained wakefulness | Q71362962 | ||
Circadian clock genes oscillate in human peripheral blood mononuclear cells | Q73740489 | ||
Diurnal cortisol rhythm as a predictor of breast cancer survival | Q73911071 | ||
Variation of electroencephalographic activity during non-rapid eye movement and rapid eye movement sleep with phase of circadian melatonin rhythm in humans | Q74149145 | ||
Shift work and health | Q79887885 | ||
Design decisions to optimize reliability of daytime cortisol slopes in an older population | Q83043389 | ||
P6195 | funding scheme | contract | Q93288 |
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | gene | Q7187 |
cortisol | Q190875 | ||
public security | Q294240 | ||
police officer | Q384593 | ||
sleep deprivation | Q1364801 | ||
P5008 | on focus list of Wikimedia project | Wikimedia–NIOSH collaboration | Q104416361 |
P304 | page(s) | 27-37 | |
P577 | publication date | 2013-01-01 | |
P1433 | published in | Neuro endocrinology letters | Q26839541 |
P859 | sponsor | NIOSH Health Effects Laboratory Division | Q123344455 |
P1476 | title | Association of the Period3 clock gene length polymorphism with salivary cortisol secretion among police officers | |
P478 | volume | 34 |
Q89963779 | A Topological Cluster of Differentially Regulated Genes in Mice Lacking PER3 |
Q28390369 | Case-control study of breast cancer in India: Role of PERIOD3 clock gene length polymorphism and chronotype |
Q28386541 | Case-control study of the PERIOD3 clock gene length polymorphism and colorectal adenoma formation |
Q52671323 | Daytime Sleep Disturbance in Night Shift Work and the Role of PERIOD3. |
Q28390956 | PER1 rs3027172 Genotype Interacts with Early Life Stress to Predict Problematic Alcohol Use, but Not Reward-Related Ventral Striatum Activity |
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