References
- Bhatti P, Mirick DK, Davis S. (2014). The impact of chronotype on melatonin levels among shift workers. Occup Environ Med. 71:195–200
- Bunger MK, Wilsbacher LD, Moran SM, et al. (2000). Mop3 is an essential component of the master circadian pacemaker in mammals. Cell. 103:1009–17
- Cho K, Ennaceur A, Cole JC, Suh CK. (2000). Chronic jet lag produces cognitive deficits. J Neurosci. 20:RC66:1–5
- Dallmann R, DeBruyne JP, Weaver DR. (2011). Photic resetting and entrainment in CLOCK-deficient mice. J Biol Rhythm. 5:390–401
- Davidson AJ, Sellix MT, Daniel J, et al. (2006). Chronic jet-lag increases mortality in aged mice. Curr Biol. 16:914–6
- De Bacquer D, Van Risseghem M, Clays E, et al. (2009). Rotating shift work and the metabolic syndrome: A prospective study. Int J Epidemiol. 38:848–54
- DeBryuyne JP, Noton E, Lambert CM, et al. (2006). A clock shock: Mouse CLOCK is not required for circadian oscillator function. Neuron. 50:465–77
- Dijk DJ, Duffy JF, Riel E, et al. (1999). Ageing and the circadian and homeostatic regulation of human sleep during forced desynchrony of rest, melatonin and temperature rhythms. J Physiol. 516:611–27
- Evans DS, Parimi N, Nievergelt CM, et al. (2013). Common genetic variants in ARNTL and NPAS2 and at chromosome 12p13 are associated with objectively measured sleep traits in the elderly. Sleep. 36:431–46
- Farajnia S, Michel S, Deboer T, et al. (2012). Evidence for neuronal desynchrony in the aged suprachiasmatic nucleus clock. J Neurosci. 32:5891–9
- Foster RG1, Peirson SN, Wulff K, et al. (2013). Sleep and circadian rhythm disruption in social jetlag and mental illness. Prog Mol Biol Transl Sci. 119:325–46
- Golombek DA, Casiraghi LP, Agostino PV, et al. (2013). The times they’re a-changing: Effects of circadian desynchronization on physiology and disease. J Physiol. 107:310–22
- Hofman MA, Swaab DF. (2006). Living by the clock: The circadian pacemaker in older people. Ageing Res Rev. 5:33–51
- Ishihara K, Miyasita A, Inugami M, et al. (1985). Differences in the time or frequency of meals, alcohol and caffeine ingestion, and smoking found between ‘morning’ and ‘evening’ types. Psychol Rep. 57:391–6
- Juda M, Vetter C, Roenneberg T. (2013). Chronotype modulates sleep duration, sleep quality, and social jet lag in shift-workers. J Biol Rhythms. 28:141–51
- Kondratov RV, Kondratova AA, Gorbacheva VY, et al. (2006). Early aging and age-related pathologies in mice deficient in BMAL1, the core componentof the circadian clock. Genes Dev. 20:1868–73
- Lowrey PL, Takahashi JS. (2000). Genetics of the mammalian circadian system: Photic entrainment, circadian pacemaker mechanisms, and posttranslational regulation. Annu Rev Genet. 34:533–62
- Mrosovsky N. (1999). Masking: History, definitions and measurement. Chronobiol Int. 16:415–29
- Musiek ES, Lim MM, Yang G, et al. (2013). Circadian clock proteins regulate neuronal redox homeostasis and neurodegeneration. J Clin Invest. 123:5389–400
- Pan A, Schernhammer ES, Sun Q, Hu FB. (2011). Rotating night shift work and risk of type 2 diabetes: Two prospective cohort studies in women. PLoS Med. 8:e1001141
- Pfeffer M, Müller CM, Mordel J, et al. (2009). The mammalian molecular clock controls rhythmic expression of its own pathway components. J Neurosci. 29:6114–23
- Pfeffer M, Rauch A, Korf H-W, von Gall C. (2012). The endogenous melatonin signal facilitates reentrainment of the circadian system to light-induced phase advances by acting upon MT2 receptors. Chronobiol Int. 29:415–29
- Portaluppi F, Smolensky MH, Touitou Y. (2010). Ethics and methods for biological rhythm research on animals and human beings. Chronobiol Int. 27:1911–29
- Reddy AB, Field MD, Maywood ES, Hastings MH. (2002). Differential resynchronisation of circadian clock gene expression within the suprachiasmatic nuclei of mice subjected to experimental jet lag. J Neurosci. 22:7326–30
- Redlin U, Hattar S, Mrosovsky N. (2005). The circadian Clock mutant mouse: Impaired masking response to light. J Comp Physiol A. 19:51–9
- Refinetti R. (2004). Non-stationary time series and the robustness of circadian rhythms. J Theor Biol. 227:571–81
- Reppert SM, Weaver DR. (2002). Coordination of circadian timing in mammals. Nature. 418:935–41
- Roenneberg T, Allebrandt KV, Merrow M, Vetter C. (2012). Social jetlag and obesity. Curr Biol. 22:939–43
- Roenneberg T, Kuehnle T, Juda M, et al. (2007). Epidemiology of the human circadian clock. Sleep Med Rev. 11:429–38
- Roenneberg T, Wirz-Justice A, Merrow M. (2003). Life between clocks: Daily temporal patterns of human chronotypes. J Biol Rhythms. 18:80–90
- Shi SQ1, Ansari TS, McGuinness OP, et al. (2013). Circadian disruption leads to insulin resistance and obesity. Curr Biol. 23:372–81
- Shimomura K, Kumar V, Koike N, et al. (2013). Usf1, a suppressor of the circadian Clock mutant, reveals the nature of the DNA-binding of the CLOCK:BMAL1 complex in mice. eLife. 2:e00426
- Storch KF, Paz C, Signorovitch J, et al. (2007). Intrinsic circadian clock of the mammalian retina: Importance for retinal processing of visual information. Cell. 130:730–41
- Turek FW, Penev P, Zhang Y, et al. (1995). Effects of age on the circadian system. Neurosci Biobehav Rev. 19:53–8
- von Gall C, Weaver DR. (2008). Loss of responsiveness to melatonin in the aging mouse suprachiasmatic nucleus. Neurobiol Aging. 29:464–70
- Wicht H, Korf HW, Ackermann H, et al. (2014). Chronotypes and rhythm stability in mice. Chronobiol Int. 1:27–36
- Wickboldt AT, Bowen AF, Kaye AJ, et al. (2012). Sleep physiology, abnormal states, and therapeutic interventions. Ochsner J. 12:122–34
- Yamaguchi Y, Suzuki T, Mizoro Y, et al. (2013). Mice genetically deficient in vasopressin V1a and V1b receptors are resistant to jet lag. Science. 342:85–90
- Yamazaki S, Numano R, Abe M, et al. (2000). Resetting central and peripheral circadian oscillators in transgenic rats. Science. 288:682–5