about
Adenosine A2A receptors in ventral striatum, hypothalamus and nociceptive circuitry implications for drug addiction, sleep and painDominant localization of prostaglandin D receptors on arachnoid trabecular cells in mouse basal forebrain and their involvement in the regulation of non-rapid eye movement sleepLipocalin-type prostaglandin D synthase produces prostaglandin D2 involved in regulation of physiological sleep.The role of adenosine in the regulation of sleep.Roles of adenosine and its receptors in sleep-wake regulation.Piromelatine exerts antinociceptive effect via melatonin, opioid, and 5HT1A receptors and hypnotic effect via melatonin receptors in a mouse model of neuropathic pain.The role of nucleus accumbens core/shell in sleep-wake regulation and their involvement in modafinil-induced arousalOrexin A activates hypoglossal motoneurons and enhances genioglossus muscle activity in rats.Altered sleep-wake characteristics and lack of arousal response to H3 receptor antagonist in histamine H1 receptor knockout mice.Roles of adrenergic α1 and dopamine D1 and D2 receptors in the mediation of the desynchronization effects of modafinil in a mouse EEG synchronization model.Essential roles of GABA transporter-1 in controlling rapid eye movement sleep and in increased slow wave activity after sleep deprivation.Arousal effect of caffeine depends on adenosine A2A receptors in the shell of the nucleus accumbens.Magnolol, a major bioactive constituent of the bark of Magnolia officinalis, exerts antiepileptic effects via the GABA/benzodiazepine receptor complex in miceLipocalin-type prostaglandin D synthase/beta-trace is a major amyloid beta-chaperone in human cerebrospinal fluid.Repeated sleep restriction in adolescent rats altered sleep patterns and impaired spatial learning/memory ability.Honokiol promotes non-rapid eye movement sleep via the benzodiazepine site of the GABA(A) receptor in mice.Gelsemine alleviates both neuropathic pain and sleep disturbance in partial sciatic nerve ligation mice.Optogenetic Activation of Adenosine A2A Receptor Signaling in the Dorsomedial Striatopallidal Neurons Suppresses Goal-Directed Behavior.Prostaglandins and adenosine in the regulation of sleep and wakefulness.Morphine inhibits sleep-promoting neurons in the ventrolateral preoptic area via mu receptors and induces wakefulness in ratsRole of the basal ganglia in the control of sleep and wakefulnessBasal Forebrain Cholinergic Neurons Primarily Contribute to Inhibition of Electroencephalogram Delta Activity, Rather Than Inducing Behavioral Wakefulness in MiceEthanol inhibits histaminergic neurons in mouse tuberomammillary nucleus slices via potentiating GABAergic transmission onto the neurons at both pre- and postsynaptic sites.Neuronal activity (c-Fos) delineating interactions of the cerebral cortex and basal ganglia.Activation of the ventral tegmental area increased wakefulness in mice.Adenosine A2A receptor deficiency attenuates the somnogenic effect of prostaglandin D2 in mice.Paeoniflorin exerts analgesic and hypnotic effects via adenosine A1 receptors in a mouse neuropathic pain model.Adenosine A2A receptors in the olfactory bulb suppress rapid eye movement sleep in rodents.Gene expression in the rat brain during prostaglandin D2 and adenosinergically-induced sleep.Slow-wave sleep is controlled by a subset of nucleus accumbens core neurons in mice.Adenosine A2A receptor mediates hypnotic effects of ethanol in mice.Selective activation of cholinergic basal forebrain neurons induces immediate sleep-wake transitions.Striatal adenosine A2A receptor neurons control active-period sleep via parvalbumin neurons in external globus pallidus.Essential role of dopamine D2 receptor in the maintenance of wakefulness, but not in homeostatic regulation of sleep, in mice.Extracellular histamine level in the frontal cortex is positively correlated with the amount of wakefulness in rats.Orexin A promotes histamine, but not norepinephrine or serotonin, release in frontal cortex of mice.An adenosine A receptor agonist induces sleep by increasing GABA release in the tuberomammillary nucleus to inhibit histaminergic systems in rats.GABA transporter-1 inhibitor NO-711 alters the EEG power spectra and enhances non-rapid eye movement sleep during the active phase in mice.D(1)/D(2) receptor-targeting L-stepholidine, an active ingredient of the Chinese herb Stephonia, induces non-rapid eye movement sleep in mice.Dopaminergic D1 and D2 receptors are essential for the arousal effect of modafinil.
P50
Q24676705-CE4481E0-CABC-497B-92CB-F1EEFF8D26BBQ28354375-67823962-5B1A-48F1-98E4-B942C60F987EQ30478455-C26CE67A-4D97-4B08-AD55-9BFB726D0D32Q34026079-5B110350-51FF-4E06-A85C-592249276D29Q34041863-9669547E-0CDC-41C1-9DE5-0D0E0FAA88C9Q34413608-F03A50B8-0D20-4013-B0D7-CA4D5AA9C9A3Q34429137-8BF296E4-8A16-43C9-9381-1F7142495C3DQ34559586-07C6E152-D08F-491D-98A9-75CF4B87A783Q34574933-A05C68DC-406F-48C2-B380-0899F3989092Q35014589-BA6621CE-AB04-4D14-91E2-CF0066BA7EBCQ35025192-F0D866EF-DE1A-4072-97AD-41F7DDB083F9Q35156606-A2FC11DE-2389-42B4-80A2-719A8E51A246Q35564297-89D920BF-DE4C-4555-BA00-E5C4140F5A9FQ35748577-AF0202D3-36F5-438A-99B2-0F2E8B1868DEQ35962684-AF0D600A-2140-4EBF-80B3-0D3F4287ACE7Q36254017-9C5C3EFF-0791-44D2-B317-9887A2B01D51Q36254561-C72464FF-8314-4346-89D5-FB10D967BAC9Q36565622-8836038E-3B5F-4A34-97A5-4D858949969AQ36665541-FD6A336B-2D26-4AC8-A829-FB54E426627EQ36901115-F59A8E19-6DE8-425C-92EC-7EB37DB15476Q36931153-FA4F0CA7-5962-42DA-B4A6-0E69B86ACBB3Q37006324-4B785BF2-ABF4-47B3-9AA5-D8F513A189DDQ37325681-B70060BA-9095-48A4-BC58-F1D3E2B7ECB3Q37678858-DF45D26A-90B7-43BC-A873-590728B2CC4EQ37716841-4DD16CE9-426C-4A39-AF20-D11018C4387BQ37744746-C3FC4CEE-0435-4960-A172-AFAB147FC02FQ40378596-9E245E15-6A93-4756-8FD0-CF3B86CFA98FQ40638644-13AED00E-2EAF-491D-B127-9D04B3DDEAA0Q41510870-ACCE544D-5AC5-4513-8C90-D09EA5D0C776Q42164050-1D97A16C-F9E7-4F2E-92C2-99B7116E0E2CQ42281573-1746ED56-F055-4E66-8D6D-7BB3321DD327Q42455483-196BAAD8-5695-477A-9B22-1A831FCD76DCQ42637831-AD003F03-4F00-4CE7-98EA-A77F9E5A3DF9Q43119654-1E6B42C3-9B15-4A8B-8D70-5F92CD69EE59Q44966074-D1A3BF3F-3E7C-4549-BA75-17937F31F446Q45233267-F62BE0F3-0607-4300-93DA-1384204F980FQ45301995-1A960B21-E2C7-4ABE-B7B9-FC39C2EC15D0Q45415633-1E6C2F9E-090F-40C9-B211-09F7BD7023D6Q45928562-6ABDAC78-4BA0-4971-BF80-DDC2BF6F15D2Q46419877-8587FFBA-30C2-4DC4-A9E6-FC2B050CEC2E
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Zhi-Li Huang
@ast
Zhi-Li Huang
@en
Zhi-Li Huang
@es
Zhi-Li Huang
@nl
Zhi-Li Huang
@sl
type
label
Zhi-Li Huang
@ast
Zhi-Li Huang
@en
Zhi-Li Huang
@es
Zhi-Li Huang
@nl
Zhi-Li Huang
@sl
prefLabel
Zhi-Li Huang
@ast
Zhi-Li Huang
@en
Zhi-Li Huang
@es
Zhi-Li Huang
@nl
Zhi-Li Huang
@sl
P106
P108
P1153
35203657700
P31
P496
0000-0001-9359-1150