Biology Reference
In-Depth Information
434. Husse J, Hintze SC, Eichele G, Lehnert H, Oster H. Circadian clock genes Per1 and
Per2 regulate the response of metabolism-associated transcripts to sleep disruption.
PLoS One . 2012;7(12):e52983.
435. Schiavo-Cardozo D, Lima MM, Pareja JC, Geloneze B. Appetite-regulating hormones
from the upper gut: disrupted control of xenin and ghrelin in night workers. Clin
Endocrinol (Oxf ) . 2012; http://dx.doi.org/10.1111/cen.12114 .
436. Morris CJ, Yang JN, Scheer FA. The impact of the circadian timing system on cardio-
vascular and metabolic function. Prog Brain Res . 2012;199:337-358.
437. Roenneberg T, Allebrandt KV, Merrow M, Vetter C. Social jetlag and obesity. Curr
Biol . 2012;22(10):939-943.
438. Milagro FI, Gomez-Abellan P, Campion J, Martinez JA, Ordovas JM, Garaulet M.
CLOCK, PER2 and BMAL1 DNA methylation: association with obesity and meta-
bolic syndrome characteristics and monounsaturated fat
intake. Chronobiol
Int .
2012;29(9):1180-1194.
439. Garcia-Rios A, Perez-Martinez P, Delgado-Lista J, et al. A Period 2 genetic variant
interacts with plasma SFA to modify plasma lipid concentrations in adults with meta-
bolic syndrome. J Nutr . 2012;142(7):1213-1218.
440. Gomez-Abellan P, Madrid JA, Lujan JA, et al. Sexual dimorphism in clock genes
expression in human adipose tissue. Obes Surg . 2012;22(1):105-112.
441. Gomez-Abellan P, Hernandez-Morante JJ, Lujan JA, Madrid JA, Garaulet M. Clock
genes are implicated in the human metabolic syndrome.
Int J Obes (Lond) . 2008;32
(1):121-128.
442. Williams SR, Zies D, Mullegama SV, Grotewiel MS, Elsea SH. Smith-Magenis syn-
drome results in disruption of CLOCK gene transcription and reveals an integral role
for RAI1 in the maintenance of circadian rhythmicity. Am J Hum Genet . 2012;90
(6):941-949.
443. Garaulet M, Corbalan-Tutau MD, Madrid JA, et al. PERIOD2 variants are associated
with abdominal obesity, psycho-behavioral factors, and attrition in the dietary treat-
ment of obesity. J Am Diet Assoc . 2010;110(6):917-921.
444. Morton GJ, Cummings DE, Baskin DG, Barsh GS, Schwartz MW. Central nervous
system control of food intake and body weight. Nature . 2006;443(7109):289-295.
445. Myers Jr MG, Olson DP. Central nervous system control of metabolism. Nature .
2012;491(7424):357-363.
446. Gonnissen HK, Hulshof T, Westerterp-Plantenga MS. Chronobiology, endocrinol-
ogy, and energy- and food-reward homeostasis. Obes Rev . 2013;14(5):405-416.
447. Schibler U, Ripperger J, Brown SA. Peripheral circadian oscillators in mammals: time
and food. J Biol Rhythms . 2003;18(3):250-260.
448. Verwey M, Amir S. Nucleus-specific effects of meal duration on daily profiles of
Period1 and Period2 protein expression in rats housed under restricted feeding. Neu-
roscience . 2011;192:304-311.
449. Guilding C, Hughes AT, Brown TM, Namvar S, Piggins HD. A riot of rhythms: neu-
ronal and glial circadian oscillators in the mediobasal hypothalamus. Mol Brain .
2009;2:28.
450. Mieda M, Williams SC, Richardson JA, Tanaka K, Yanagisawa M. The dorsomedial
hypothalamic nucleus as a putative food-entrainable circadian pacemaker. Proc Natl
Acad Sci USA . 2006;103(32):12150-12155.
451. Wyse CA, Coogan AN. Impact of aging on diurnal expression patterns of CLOCK and
BMAL1 in the mouse brain. Brain Res . 2010;1337:21-31.
452. Abrahamson EE, Leak RK, Moore RY. The suprachiasmatic nucleus projects to pos-
terior hypothalamic arousal systems. Neuroreport . 2001;12(2):435-440.
453. Saper CB, Scammell TE, Lu J. Hypothalamic regulation of sleep and circadian rhythms.
Nature . 2005;437(7063):1257-1263.
 
 
 
Previous Page
Next Page
Progress in Molecular Biology and Translational Science
Search WWH ::




Custom Search
Home