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Items: 1 to 20 of 597

1.
2.

Neonatal monosodium glutamate treatment prevents effects of constant light on circadian temperature rhythms of adult rats.

Edelstein K, Pfaus JG, Rusak B, Amir S.

Brain Res. 1995 Mar 27;675(1-2):135-42.

PMID:
7796122
3.

Behavioral deficits in monosodium glutamate rats: specific changes in the structure of feeding behavior.

Stricker-Krongrad A, Burlet C, Beck B.

Life Sci. 1998;62(23):2127-32.

PMID:
9627091
4.

Food anticipatory activity and photic entrainment in food-restricted BALB/c mice.

Holmes MM, Mistlberger RE.

Physiol Behav. 2000 Mar;68(5):655-66.

PMID:
10764895
5.

Enhanced food-anticipatory circadian rhythms in the genetically obese Zucker rat.

Mistlberger RE, Marchant EG.

Physiol Behav. 1999 Apr;66(2):329-35.

PMID:
10336162
6.

Food-entrained feeding and locomotor circadian rhythms in rats under different lighting conditions.

Lax P, Zamora S, Madrid JA.

Chronobiol Int. 1999 May;16(3):281-91.

PMID:
10373098
8.

Effects of three-hour restricted food access during the light period on circadian rhythms of temperature, locomotor activity, and heart rate in rats.

Boulamery-Velly A, Simon N, Vidal J, Mouchet J, Bruguerolle B.

Chronobiol Int. 2005;22(3):489-98.

PMID:
16076649
9.

Thermocyclic and photocyclic entrainment of circadian locomotor activity rhythms in sleepy lizards, Tiliqua rugosa.

Ellis DJ, Firth BT, Belan I.

Chronobiol Int. 2009 Oct;26(7):1369-88. doi: 10.3109/07420520903412392.

PMID:
19916837
10.

The dorsomedial hypothalamic nucleus is not necessary for food-anticipatory circadian rhythms of behavior, temperature or clock gene expression in mice.

Moriya T, Aida R, Kudo T, Akiyama M, Doi M, Hayasaka N, Nakahata N, Mistlberger R, Okamura H, Shibata S.

Eur J Neurosci. 2009 Apr;29(7):1447-60. doi: 10.1111/j.1460-9568.2009.06697.x. Epub 2009 Mar 23.

PMID:
19519629
11.

Changes in open-field activity and novelty-seeking behavior in periadolescent rats neonatally treated with monosodium glutamate.

Kiss P, Hauser D, Tamás A, Lubics A, Rácz B, Horvath ZS, Farkas J, Zimmermann F, Stepien A, Lengvari I, Reglódi D.

Neurotox Res. 2007 Sep;12(2):85-93.

PMID:
17967732
13.
14.

Circadian rhythms of PERIOD1 expression in the dorsomedial hypothalamic nucleus in the absence of entrained food-anticipatory activity rhythms in rats.

Verwey M, Lam GY, Amir S.

Eur J Neurosci. 2009 Jun;29(11):2217-22. doi: 10.1111/j.1460-9568.2009.06766.x. Epub 2009 May 21.

PMID:
19490091
15.

Restricted feeding and circadian activity rhythms of a predatory marsupial, Dasyuroides byrnei.

O'Reilly H, Armstrong SM, Coleman GJ.

Physiol Behav. 1986 Oct;38(4):471-6.

PMID:
3823161
16.

Restricted feeding entrains circadian wheel-running activity rhythms of the kowari.

Kennedy GA, Coleman GJ, Armstrong SM.

Am J Physiol. 1991 Oct;261(4 Pt 2):R819-27.

PMID:
1928428
17.

Characteristics of food-entrained circadian rhythms in rats during long-term exposure to constant light.

Mistlberger RE, Houpt TA, Moore-Ede MC.

Chronobiol Int. 1990;7(5-6):383-91.

PMID:
2097071
18.
19.

Feeding entrainment of daily rhythms of locomotor activity and clock gene expression in zebrafish brain.

Sanchez JA, Sanchez-Vazquez FJ.

Chronobiol Int. 2009 Aug;26(6):1120-35. doi: 10.3109/07420520903232092.

PMID:
19731109
20.

A pharmacological analysis of food intake regulation in rats treated neonatally with monosodium L-glutamate (MSG).

Dawson R Jr, Wallace DR, Gabriel SM.

Pharmacol Biochem Behav. 1989 Feb;32(2):391-8.

PMID:
2726997

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