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Nutrigenetics and Nutrimiromics of the Circadian System: The Time for Human HealthNatural environments, ancestral diets, and microbial ecology: is there a modern "paleo-deficit disorder"? Part II.Circadian molecular clock in lung pathophysiologyPeripheral circadian misalignment: contributor to systemic insulin resistance and potential intervention to improve bariatric surgical outcomesEffects of the Sequence of Isocaloric Meals with Different Protein Contents on Plasma Biochemical Indexes in PigsGlucose Alters Per2 Rhythmicity Independent of AMPK, Whereas AMPK Inhibitor Compound C Causes Profound Repression of Clock Genes and AgRP in mHypoE-37 Hypothalamic NeuronsHigh Fat Diets Sex-Specifically Affect the Renal Transcriptome and Program Obesity, Kidney Injury, and Hypertension in the Offspring.Detrimental effect of maternal and post-weaning high-fat diet on the reproductive function in the adult female offspring rat: roles of insulin-like growth factor 2 and the ovarian circadian clock.Degeneration and energy shortage in the suprachiasmatic nucleus underlies the circadian rhythm disturbance in ApoE(-/-) mice: implications for Alzheimer's disease.Synchronization by Daytime Restricted Food Access Modulates the Presence and Subcellular Distribution of β-Catenin and Its Phosphorylated Forms in the Rat Liver.Clock-Enhancing Small Molecules and Potential Applications in Chronic Diseases and Aging.Calorie restriction effects on circadian rhythms in gene expression are sex dependent.Running on empty: a review of nutrition and physicians' well-being.Circadian regulation of lipid metabolism.Chrono-nutrition: a review of current evidence from observational studies on global trends in time-of-day of energy intake and its association with obesity.The effect of intermittent fasting during Ramadan on sleep, sleepiness, cognitive function, and circadian rhythm.Hypothalamic Integration of Metabolic, Endocrine, and Circadian Signals in Fish: Involvement in the Control of Food Intake.The influence of intermittent fasting on the circadian pattern of melatonin while controlling for caloric intake, energy expenditure, light exposure, and sleep schedules: A preliminary report.Effects of meal composition and meal timing on the expression of genes involved in hepatic drug metabolism in rats.Neural and Molecular Mechanisms Involved in Controlling the Quality of Feeding Behavior: Diet Selection and Feeding Patterns.Systems biology of personalized nutrition.Development of diabetes does not alter behavioral and molecular circadian rhythms in a transgenic rat model of type 2 diabetes mellitus.Neurogenetics of Drosophila circadian clock: expect the unexpected.Perspectives on the relevance of the circadian time structure to workplace threshold limit values and employee biological monitoring.Do night and around-the-clock firefighters' shift schedules induce deviation in tau from 24 hours of systolic and diastolic blood pressure circadian rhythms?Alterations in circadian and meal-induced gut peptide levels in lean and obese rats.Altered energy intake and the amplitude of the body temperature rhythm are associated with changes in phase, but not amplitude, of clock gene expression in the rat suprachiasmatic nucleus in vivo.Effects of Dietary and Lighting Conditions on Diurnal Locomotor Activity and Body Temperature in Microminipigs.Circadian Etiology of Type 2 Diabetes Mellitus.Circadian Rhythms in Diet-Induced Obesity.A circadian rhythm-related MTNR1B genetic variant modulates the effect of weight-loss diets on changes in adiposity and body composition: the POUNDS Lost trial.The relevance of restrained eating behavior for circadian eating patterns in adolescents.An impaired hepatic clock system effects lipid metabolism in rats with nephropathy
P2860
Q26765463-2A4646DA-A293-4923-B0ED-C7019C8A7B38Q28082694-8F917EF3-89C3-4096-B1BC-2370C7EFBCCFQ28082902-37BD286C-3C46-4FA7-BD82-1FD37F33A307Q28396033-47501670-48F2-47F3-B128-CBD5A95434B3Q28547403-6A4622B7-F039-43C8-A2BE-F8685BAAB3A8Q28552603-2F0C3244-2126-482B-8241-D5DD05251D1EQ33616725-793EC523-406C-4068-A275-B3FA546FF7EBQ33729107-9023A258-DFB4-4865-9880-B1D53908A23EQ37400125-5EDB50D5-E35A-48CA-9D06-56AFA8BD47B2Q37626011-676FC826-F2E3-4AE2-A8B6-1F671B9F9F8DQ37699510-63B88CE0-A91C-4FFD-9548-148283C102ACQ38603064-DAE36BD0-C3FF-406A-BE84-3E18452C7615Q38842058-996E4E0C-D4F3-4062-A804-DCD8C638D54DQ38844421-BADDC557-1EE7-4F48-8C33-C4CBFC218B64Q38871975-75CB10BE-CE41-49BA-8980-45B74A9EFD34Q38965292-E83A044E-0471-4E17-92C4-480C63883B4DQ39427040-7B0F0CDF-B632-44A4-B737-647CA4E26B5DQ41231262-F71CB134-CD0E-459A-9E55-8118E0512D92Q42368966-BBE72689-D48E-4DC4-8EE2-4F3DD7C7507BQ43830693-C157B4A3-32A3-4E2D-8148-19B03804EB44Q46093623-A936C38D-3C52-42AA-A148-FB873F93D9D9Q46119141-19E7FDB9-7974-41EB-BA06-26D558ACA07FQ46312549-90C20ABC-98E5-4378-B9E8-876C73B9AAE2Q47272851-05BAB3F9-316C-4792-AE46-D7332A05DFA0Q47664622-C03A4983-D90A-43A8-AA31-B22B2BB24AA6Q48208276-DD2852A6-DDEE-4BC2-99FA-B08D925AB5C6Q49024482-5238CB90-811C-4E62-8249-0A449A704F63Q49594115-E1D85EA1-DBF1-41B8-80D0-5D3BC37733EBQ50143071-5DE0C699-3AB8-419E-B325-A61827D52470Q50599434-90EF8CE0-5463-410B-B512-705C43BAA6C7Q52667791-3EEA9BE1-87EB-4DD6-9F0B-8DFF52AF6E95Q55265001-7439FB3F-6EF3-4A60-9D9D-8F863850BEE8Q58716677-38F51599-B2FA-4ACC-8697-9B85C6FFDE4A
P2860
description
2014 nî lūn-bûn
@nan
2014 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Impact of nutrients on circadian rhythmicity
@ast
Impact of nutrients on circadian rhythmicity
@en
type
label
Impact of nutrients on circadian rhythmicity
@ast
Impact of nutrients on circadian rhythmicity
@en
prefLabel
Impact of nutrients on circadian rhythmicity
@ast
Impact of nutrients on circadian rhythmicity
@en
P2093
P2860
P1476
Impact of nutrients on circadian rhythmicity
@en
P2093
Denise D Belsham
Johanneke E Oosterman
Susanne E la Fleur
P2860
P304
P356
10.1152/AJPREGU.00322.2014
P577
2014-12-17T00:00:00Z