Biology Reference
In-Depth Information
79.
Hardie DG, Ross FA, Hawley SA. AMPK: a nutrient and energy sensor that maintains
energy homeostasis.
Nat Rev Mol Cell Biol
. 2012;13:251-262.
80.
Um JH, Pendergast JS, Springer DA, et al. AMPK regulates circadian rhythms in a tissue-
and isoform-specific manner.
PLoS One
. 2011;6:e18450.
81.
Canto C, Auwerx J. Targeting sirtuin 1 to improve metabolism: all you need is NAD(
รพ
)?
Pharmacol Rev
. 2012;64:166-187.
82.
Lan F, Cacicedo JM, Ruderman N, Ido Y. SIRT1 modulation of the acetylation status,
cytosolic localization, and activity of LKB1. Possible role in AMP-activated protein
kinase activation.
J Biol Chem
. 2008;283:27628-27635.
83.
Khan AA, Quigley JG. Control of intracellular heme levels: heme transporters and heme
oxygenases.
Biochim Biophys Acta
. 1813;2011:668-682.
84.
Estall JL, Ruas JL, Choi CS, et al. PGC-1alpha negatively regulates hepatic FGF21
expression by modulating the heme/Rev-Erb(alpha) axis.
Proc Natl Acad Sci USA
.
2009;106:22510-22515.
85.
Raghuram S, Stayrook KR, Huang P, et al. Identification of heme as the ligand for the
orphan nuclear receptors REV-ERBalpha and REV-ERBbeta.
Nat Struct Mol Biol
.
2007;14:1207-1213.
86.
Dioum EM, Rutter J, Tuckerman JR, Gonzalez G, Gilles-Gonzalez MA, McKnight SL.
NPAS2: a gas-responsive transcription factor.
Science
. 2002;298:2385-2387.
87.
Bonkowsky HL, Sinclair PR, Sinclair JF. Hepatic heme metabolism and its control.
Yale
J Biol Med
. 1979;52:13-37.
88.
Tenkanen L, SjoblomT, Harma M. Joint effect of shift work and adverse life-style factors
on the risk of coronary heart disease.
Scand J Work Environ Health
. 1998;24:351-357.
89.
Karlsson BH, Knutsson AK, Lindahl BO, Alfredsson LS. Metabolic disturbances in male
workers with rotating three-shift work. Results of the WOLF study.
Int Arch Occup Envi-
ron Health
. 2003;76:424-430.
90.
Ha M, Park J. Shiftwork and metabolic risk factors of cardiovascular disease.
J Occup
Health
. 2005;47:89-95.
91.
Revollo JR, Grimm AA, Imai S. The NAD biosynthesis pathway mediated by nicotin-
amide phosphoribosyltransferase regulates Sir2 activity in mammalian cells.
J Biol Chem
.
2004;279:50754-50763.
92.
Salgado-Delgado RC, Saderi N, Basualdo MC, Guerrero-Vargas NN, Escobar C,
Buijs RM. Shift work or food intake during the rest phase promotes metabolic disruption
and desynchrony of liver genes in male rats.
PLoS One
. 2013;8:e60052.
93.
Edgar RS, Green EW, Zhao Y, et al. Peroxiredoxins are conserved markers of circadian
rhythms.
Nature
. 2012;485:459-464.
94.
Picard F, Kurtev M, Chung N, et al. Sirt1 promotes fat mobilization in white adipocytes
by repressing PPAR-gamma.
Nature
. 2004;429:771-776.
95.
Nemoto S, Fergusson MM, Finkel T. SIRT1 functionally interacts with the
metabolic regulator and transcriptional coactivator PGC-1{alpha}.
J Biol Chem
.
2005;280:16456-16460.
96.
Sun C, Zhang F, Ge X, et al. SIRT1 improves insulin sensitivity under insulin-resistant
conditions by repressing PTP1B.
Cell Metab
. 2007;6:307-319.
97.
Grimaldi B, Bellet MM, Katada S, et al. PER2 controls lipid metabolism by direct reg-
ulation of PPARgamma.
Cell Metab
. 2010;12:509-520.
Previous Page
Next Page
Progress in Molecular Biology and Translational Science
Search WWH ::
Custom Search
Home