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16. Zylka MJ, Shearman LP, Weaver DR, Reppert SM. Three period homologs in mam-
mals: differential light responses in the suprachiasmatic circadian clock and oscillating
transcripts outside of brain. Neuron . 1998;20:1103-1110.
17. Kalsbeek A, Ruiter M, La Fleur SE, Van Heijningen C, Buijs RM. The diurnal mod-
ulation of hormonal responses in the rat varies with different stimuli.
J Neuroendocrinol .
2003;15:1144-1155.
18. Fu L, Patel MS, Bradley A, Wagner EF, Karsenty G. The molecular clock mediates
leptin-regulated bone formation. Cell . 2005;122:803-815.
19. Matsuo T, Yamaguchi S, Mitsui S, Emi A, Shimoda F, Okamura H. Control mechanism
of the circadian clock for timing of cell division in vivo. Science . 2003;302:255-259.
20. Rudic RD, Curtis AM, Cheng Y, FitzGerald G. Peripheral clocks and the regulation of
cardiovascular and metabolic function. Methods Enzymol . 2005;393:524-539.
21. Paschos GK, FitzGerald GA. Circadian clocks and vascular function. Circ Res .
2010;106:833-841.
22. Doi M, Takahashi Y, Komatsu R, et al. Salt-sensitive hypertension in circadian clock-
deficient Cry-null mice involves dysregulated adrenal Hsd3b6. Nat Med . 2010;16:67-74.
23. Canaple L, Rambaud J, Dkhissi-Benyahya O, et al. Reciprocal regulation of brain and
muscle Arnt-like protein 1 and peroxisome proliferator-activated receptor alpha defines
a novel positive feedback loop in the rodent liver circadian clock. Mol Endocrinol .
2006;20:1715-1727.
24. Nakahata Y, Sahar S, Astarita G, Kaluzova M, Sassone-Corsi P. Circadian control of the
NAD þ salvage pathway by CLOCK-SIRT1. Science . 2009;324:654-657.
25. Lamia KA, Sachdeva UM, Ditacchio L, et al. AMPK regulates the circadian clock by
cryptochrome phosphorylation and degradation. Science . 2009;326:437-440.
26. Albrecht U. Timing to perfection: the biology of central and peripheral circadian clocks.
Neuron . 2012;74:246-260.
27. Semple RK, Chatterjee VK, O'Rahilly S. PPARgamma and human metabolic disease.
J Clin Invest . 2006;116:581-589.
28. Liang F, Kume S, Koya D. SIRT1 and insulin resistance. Nat Rev Endocrinol .
2009;5:367-373.
29. Purushotham A, Schug TT, Xu Q, Surapureddi S, Guo X, Li X. Hepatocyte-specific
deletion of SIRT1 alters fatty acid metabolism and results in hepatic steatosis and inflam-
mation. Cell Metab . 2009;9:327-338.
30. Ramsey KM, Yoshino J, Brace CS, et al. Circadian clock feedback cycle through
NAMPT-mediated NAD þ biosynthesis. Science . 2009;324:651-654.
31. Lamia KA, Storch KF, Weitz CJ. Physiological significance of a peripheral tissue circa-
dian clock. Proc Natl Acad Sci USA . 2008;105:15172-15177.
32. Cailotto C, La Fleur SE, Van Heijningen C, et al. The suprachiasmatic nucleus controls
the daily variation of plasma glucose via the autonomic output to the liver: are the clock
genes involved? Eur J Neurosci . 2005;22:2531-2540.
33. Cailotto C, Van Heijningen C, Van der Vliet J, et al. Daily rhythms in metabolic liver
enzymes and plasma glucose require a balance in the autonomic output to the liver. Endo-
crinology . 2007;149:1914-1925.
34. Guo H, Brewer JM, Champhekar A, Harris RB, Bittman EL. Differential control of
peripheral circadian rhythms by suprachiasmatic-dependent neural signals. Proc Natl Acad
Sci USA . 2005;102:3111-3116.
35. Ungar F, Halberg F. Circadian rhythm in the in vitro response of mouse adrenal to adre-
nocorticotropic hormone. Science . 1962;137:1058-1060.
36. Lemmer B, Witte K. Circadian rhythm of the in vitro stimulation of adenylate cyclase in
rat heart tissue. Eur J Pharmacol . 1989;159:311-315.
37. Litynska A, Wojczyk B. Daily changes of protein synthesis and secretion rates in rat liver
slices. Int J Biochem . 1986;18:569-571.
 
 
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