Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
about
The type III neurofilament peripherin is expressed in the tuberomammillary neurons of the mouseSleep and metabolism: an overviewOrexin receptors: pharmacology and therapeutic opportunitiesCholinergic-associated loss of hnRNP-A/B in Alzheimer's disease impairs cortical splicing and cognitive function in miceRole of orexin receptors in obesity: from cellular to behavioral evidenceFeeding-elicited cataplexy in orexin knockout mice.The spectrum of neurobehavioral sequelae after repetitive mild traumatic brain injury: a novel mouse model of chronic traumatic encephalopathy.IGFBP3 colocalizes with and regulates hypocretin (orexin)Hypocretin-2 saporin lesions of the ventrolateral periaquaductal gray (vlPAG) increase REM sleep in hypocretin knockout mice.Phospholipase C-beta4 is essential for the progression of the normal sleep sequence and ultradian body temperature rhythms in mice.Optogenetic deconstruction of sleep-wake circuitry in the brainSleep and obesity: a focus on animal models.Energy expenditure is affected by rate of accumulation of sleep deficit in rats.Hypocretin and GABA interact in the pontine reticular formation to increase wakefulnessSleep disorders, obesity, and aging: the role of orexinSleep related changes in blood pressure in hypocretin-deficient narcoleptic mice.Loss of polyubiquitin gene Ubb leads to metabolic and sleep abnormalities in miceTo ingest or rest? Specialized roles of lateral hypothalamic area neurons in coordinating energy balance.Histamine Transmission Modulates the Phenotype of Murine Narcolepsy Caused by Orexin Neuron Deficiency.Orexin modulates brown adipose tissue thermogenesis.Animal models of sleep disorders.Animal models of narcolepsy.Orexin gene therapy restores the timing and maintenance of wakefulness in narcoleptic mice.Partial sleep deprivation by environmental noise increases food intake and body weight in obesity-resistant ratsOrexin neurons are necessary for the circadian control of REM sleep.Orexin/hypocretin signaling at the orexin 1 receptor regulates cue-elicited cocaine-seeking.Central functions of the orexinergic system.Models of mild traumatic brain injury: translation of physiological and anatomic injury.Central and peripheral metabolic changes induced by gamma-hydroxybutyrate.The Hypocretin/Orexin Neuronal Networks in Zebrafish.An orexinergic projection from perifornical hypothalamus to raphe pallidus increases rat brown adipose tissue thermogenesis.Orexins and the cardiovascular events of awakening.Running promotes wakefulness and increases cataplexy in orexin knockout mice.Orexin receptor-1 mediates brown fat developmental differentiation.Inhibitory Interplay between Orexin Neurons and Eating.A major role for perifornical orexin neurons in the control of glucose metabolism in rats.Noninvasive detection of sleep/wake changes and cataplexy-like behaviors in orexin/ataxin-3 transgenic narcoleptic mice across the disease onsetWhy we sleep: the temporal organization of recoveryEffects of sleep on the cardiovascular and thermoregulatory systems: a possible role for hypocretins.Sustained sleep fragmentation affects brain temperature, food intake and glucose tolerance in mice.
P2860
Q21262028-3C38BADC-5FFB-47EE-9D12-C627161F6BBEQ21328678-B0492BA9-CDC6-4FFF-AE12-73C9F9DE2E04Q24597418-D475AFFD-5345-48C4-8652-1FE751A31B22Q24615739-301062C2-B391-427D-89A1-13BDE15D7900Q27028141-5A51A927-E1C6-4548-AB5F-CC573FFC7714Q30490183-337007D8-7D73-44B4-A29B-24E283BC2888Q30582745-5889D302-F3AD-4C35-AB84-848C591F4126Q33401580-53B1AF75-E86C-4063-97A4-A639DAAB23EFQ33485239-D2EAF4E8-A0A3-48BD-A92B-0DFFE1126592Q33515591-36B30592-6C18-404B-8DC8-F44C6759D994Q33623396-BF7DA210-BF42-4670-A3A3-163C3013C83CQ34030325-0859402A-CE5E-471E-9AD3-858C4F6F61ABQ34125080-D325FA66-60F2-45CF-8CC2-C14BCBB25375Q34137170-365458E7-13A9-4257-AF04-2CC9742F12CDQ34451399-4E41DCE2-8AF6-4116-BC84-53DC0C97B13DQ34500449-034F481A-5607-4576-B7EA-A27BEFFFFE11Q34530441-6E8024CD-F54A-4A83-8A54-CC9E28C65AC1Q34668388-1D28CC72-12CF-415D-9A17-D288AAEB700AQ36170845-9B2AEA49-8CEA-46F8-ACE1-11636D2702AAQ36503608-4B5B0F64-798B-42AF-9780-6205220B9C8DQ36761993-6C4D46B9-E020-416B-AF62-3713E04798D4Q36764549-52F59012-F8AD-4CC6-8653-2AFAFA141D3FQ36980393-F7AB88A3-A3C4-4092-8FF0-E064A4AA413BQ37093199-3C2BF5D4-20E3-4F3F-B0CB-6386C38A1057Q37332460-365F42E6-B97A-41A6-A8A4-D5A7C5EE9576Q37407124-30F76F25-D114-4108-9834-4B99E0786C4DQ38072632-2C290BBC-5C8C-4030-830B-C943A38C3AF9Q38252018-6CCE7817-4DE7-44D7-9285-C13718706D57Q38302187-45884C7F-2C5C-4D8E-928A-5B98CBC52EFFQ39052250-885A3D19-461C-4C0C-8D49-4FF8ACBA31ADQ39278472-C3987598-916A-4210-A58B-4299EB88A776Q39416935-050C0E06-5579-4FCC-9465-8EEB1D4FA6EFQ40243643-6EF2B999-5795-4DAB-86FD-0DF430BA2EB5Q40928558-E38A928D-6403-4E13-BF58-6C77D296B014Q41309219-54711E73-F79F-42C3-A2E6-FE8ABC0488ADQ41888343-694465AB-1242-4DF0-A2B8-725EA233EB31Q42000623-081DB97B-5673-4824-A816-9E319F52092AQ42109659-94F0E827-FCD1-424F-BFB9-1A7BDE5E2585Q42329929-29E9818C-8A7D-4162-8FD1-221196A95B7AQ43605302-CE87C0D9-0486-4B28-AF23-3D592EC1E7CE
P2860
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
@en
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
@nl
type
label
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
@en
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
@nl
prefLabel
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
@en
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
@nl
P2093
P2860
P1476
Sleep/wake fragmentation disrupts metabolism in a mouse model of narcolepsy.
@en
P2093
Seiji Nishino
Shengwen Zhang
Takeshi Sakurai
P2860
P304
P356
10.1113/JPHYSIOL.2007.129510
P407
P577
2007-03-22T00:00:00Z