Regulation of GABA and glutamate release from proopiomelanocortin neuron terminals in intact hypothalamic networks - Wikidata - awgldk - TriplyDB

Regulation of GABA and glutamate release from proopiomelanocortin neuron terminals in intact hypothalamic networks

Regulation of GABA and glutamate release from proopiomelanocortin neuron terminals in intact hypothalamic networks

http://www.wikidata.org/entity/Q35876909

about

Co-existence of Functionally Different Vesicular Neurotransmitter Transporters Environment, leptin sensitivity, and hypothalamic plasticity Role of the hypothalamic arcuate nucleus in cardiovascular regulation Cardiovascular responses to chemical stimulation of the hypothalamic arcuate nucleus in the rat: role of the hypothalamic paraventricular nucleus Effect of barodenervation on cardiovascular responses elicited from the hypothalamic arcuate nucleus of the rat Frank Beach Award Winner: Steroids as neuromodulators of brain circuits and behavior.Melanocortin neurons: Multiple routes to regulation of metabolism.Obesity-driven synaptic remodeling affects endocannabinoid control of orexinergic neurons The short-chain fatty acid acetate reduces appetite via a central homeostatic mechanism.Expression of GABAergic and glutamatergic phenotypic markers in hypothalamic proopiomelanocortin neurons.Deconstruction of a neural circuit for hunger.NMDA-type glutamate receptors participate in reduction of food intake following hindbrain melanocortin receptor activation.Impact of hypothalamic reactive oxygen species in the regulation of energy metabolism and food intake Glutamate receptors in the hypothalamic paraventricular nucleus contribute to insulin-induced sympathoexcitation Hypothalamic leptin action is mediated by histone deacetylase 5.Epigenomic and metabolic responses of hypothalamic POMC neurons to gestational nicotine exposure in adult offspring Glutamate and GABA as rapid effectors of hypothalamic "peptidergic" neurons Oxidative Stress in the Hypothalamus: the Importance of Calcium Signaling and Mitochondrial ROS in Body Weight Regulation Age-dependent changes in amino acid phenotype and the role of glutamate release from hypothalamic proopiomelanocortin neurons.Gad1 mRNA as a reliable indicator of altered GABA release from orexigenic neurons in the hypothalamus.Optogenetic Stimulation of Arcuate Nucleus Kiss1 Neurons Reveals a Steroid-Dependent Glutamatergic Input to POMC and AgRP Neurons in Male Mice.Neuropeptide transmission in brain circuits.Distinct glutamatergic and GABAergic subsets of hypothalamic pro-opiomelanocortin neurons revealed by in situ hybridization in male rats and mice.Unraveling the central proopiomelanocortin neural circuits.Eat and Death: Chronic Over-Eating.Hypothalamic Inflammation: Is There Evidence for Human Obesity?Neurochemical Heterogeneity Among Lateral Hypothalamic Hypocretin/Orexin and Melanin-Concentrating Hormone Neurons Identified Through Single-Cell Gene Expression Analysis Rapamycin ameliorates age-dependent obesity associated with increased mTOR signaling in hypothalamic POMC neurons.Dynorphin inhibits basal forebrain cholinergic neurons by pre- and postsynaptic mechanisms.Direct inhibition of hypothalamic proopiomelanocortin neurons by dynorphin A is mediated by the μ-opioid receptor.Direct inhibition of arcuate proopiomelanocortin neurons: a potential mechanism for the orexigenic actions of dynorphin.Deficiency of leptin receptor in myeloid cells disrupts hypothalamic metabolic circuits and causes body weight increase.Pyruvate induces torpor in obese mice.Dual-transmitter systems regulating arousal, attention, learning and memory.Melanocortin 4 receptor is not required for estrogenic regulations on energy homeostasis and reproduction.Caloric restriction selectively reduces the GABAergic phenotype of mouse hypothalamic proopiomelanocortin neurons.Modulatory function of NMDA glutamate receptor on MC3/MC4 receptors agonist-induced hypophagia in neonatal meat-type chicken.Estradiol Drives the Anorexigenic Activity of Proopiomelanocortin Neurons in Female Mice

P2860

Q26766804-FEFE23B5-2F7C-4EA6-9F27-D13B38ACB81A Q26849318-34B0DD64-2C78-4DA3-BAA1-E55A75785699 Q27024534-426C12FE-FC65-4C6B-AC5F-0B4D1D05FC8B Q28483804-85A1988C-C311-4D7F-A098-ED93B94EDE7D Q28484589-7A8FD518-1919-41CF-8A46-8AD3602A5336 Q28655209-74ADA3A1-9896-41F9-8B12-5D3C9EDC3EC7 Q30234481-B3826610-141F-4AF8-8605-5739DF215F80 Q30540681-45732854-2AA4-4A3F-AFA4-B03C1A694F76 Q33587361-6ED81F6B-E060-46C5-B567-7D7DDF7688F4 Q33964646-198F3EC7-A1B9-4A5C-8A0D-F47CB962789B Q34288463-13C8A16D-057E-46EC-B755-6572466F3E34 Q34800933-13F4686B-D3B0-474B-B6B4-772752D572BC Q35114807-B42109F1-78A0-4441-88F8-F609E8A4B86E Q35138449-DEAF4389-11A0-4A90-84EF-5944B80BE52E Q35938884-79C3E50A-B475-4602-A6FD-629003896486 Q36127414-823A22E4-2F0C-448E-82CF-9008FE874D65 Q36421816-5B9E0870-6805-4A9D-8084-45DDEE20BF0E Q36460622-D9349AA7-F060-49CA-9B37-CBA597A1C19D Q36563522-73F94317-7EB4-4B26-8226-A0312602D808 Q36911779-204BDCB0-325D-44D4-ACA0-5C195D52AD4D Q36945206-D803112A-6F98-4176-AEB8-9FFB68792491 Q37569283-882938AE-B41C-4DED-9CC8-6DBAB37484ED Q37730934-17B534A7-8954-427E-8DA6-CCEDD32C859C Q38084559-6424B498-D31F-4566-8B0E-E53A9386D2F0 Q40171362-F2650727-4840-4ABE-8DD0-C06C6F0AFE0E Q40253182-9592936E-A60D-4E69-8B08-B91B4DF524D8 Q41664909-61E1193E-D454-4B2F-9E37-48DE47E5957F Q41774391-E5B91353-3454-4C12-8C5B-EA2B4EC75C5D Q42485658-CCC5D6B4-1DBA-4AC4-A4CB-6DA06AAD3F28 Q44346269-EB99B965-4692-41E5-8BDA-67D96D76E9CE Q45173273-F716BC43-FDE1-4C41-ADFA-790AB3243D65 Q47175603-97C0781C-B193-437D-A77C-27FAB647BF31 Q47222898-581705EA-2F75-48A6-A740-E1E9834F5288 Q47657713-E9E8ACAE-0FDD-49F0-8984-C4683B72136B Q47795349-0BBD3340-A11F-4772-AD0F-C3838A63714A Q48022193-7AE231D7-93E8-4BB6-BF2E-9B6C9D522187 Q52092263-F7C94173-BD66-4567-8BC1-B0368FC3CD65 Q57477994-1E96830C-4880-4D25-8A3E-634D8C0DAE4C

P2860

Regulation of GABA and glutamate release from proopiomelanocortin neuron terminals in intact hypothalamic networks

http://www.wikidata.org/entity/Q35876909

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年論文

@yue

2012年論文

@zh-hant

2012年論文

@zh-hk

2012年論文

@zh-mo

2012年論文

@zh-tw

2012年论文

@wuu

2012年论文

@zh

2012年论文

@zh-cn

name

Regulation of GABA and glutama ...... n intact hypothalamic networks

@ast

Regulation of GABA and glutama ...... n intact hypothalamic networks

@en

type

label

Regulation of GABA and glutama ...... n intact hypothalamic networks

@ast

Regulation of GABA and glutama ...... n intact hypothalamic networks

@en

prefLabel

Regulation of GABA and glutama ...... n intact hypothalamic networks

@ast

Regulation of GABA and glutama ...... n intact hypothalamic networks

@en

P1433

Q35876909-0A931070-98E7-406E-8377-3BE408C2C527

P1476

Q35876909-4DAA0850-1666-40F3-9701-EC549CC341E7

P2093

Q35876909-3F4D86F5-678F-4AE7-85C9-7A0F815DB14F

Q35876909-866FF90E-7D94-41D3-997E-4B3766714CDF

Q35876909-935D9F47-38B2-4F9E-A25A-603F523C0D6B

P2860

Q35876909-05EF9B6F-1DB4-4F54-8364-E65AC767D2A1

Q35876909-34E63ADB-36C6-4AD4-BEB6-4331DB053D44

Q35876909-35C21060-DB6D-4DBF-A6D0-B734AC5AFF91

Q35876909-3AADFCE7-DDDA-4376-A854-66840D55E118

Q35876909-4077A847-3EA8-4814-A46E-87FEC6E40A56

Q35876909-4A8137B6-500F-43E2-881D-F04E1D2301CB

Q35876909-516ADD0D-A645-4EAA-A545-DC862938EBE6

Q35876909-67B10D73-512C-4CAF-904B-62D92E053353

Q35876909-6D3FA0BE-EE7F-4C3F-900A-1ADAEA28C13B

Q35876909-7098BE64-5DEC-4F87-BE71-E28F0F6F18C0

P304

Q35876909-E80D9B9B-F065-42ED-AB0F-607A3A175AA6

P31

Q35876909-E2B3187F-28BA-4449-A002-F104F2DE6E94

P356

Q35876909-72E8D09F-4589-4527-B683-64EDD5B5501E

P407

Q35876909-5947E969-0A81-400A-9466-4D2CBF8FE675

P433

Q35876909-8E2FC846-BB80-43D5-B3B6-A97C246EAF35

P478

Q35876909-06FA432A-9047-485A-8319-A4D7039F72E9

P577

Q35876909-C329353D-835B-48B6-84AD-5DA87D9F0E82

P5875

Q35876909-2E7D9DB1-7167-4684-B77F-80686B2104EB

P698

Q35876909-CBB8F43A-F7F8-4F88-8DCD-39368DD06383

P932

Q35876909-6BCE2407-3315-460A-8A0F-8F2C16734201

P356

JNEUROSCI.6032-11.2012

P1433

Journal of Neuroscience

P1476

Regulation of GABA and glutama ...... n intact hypothalamic networks

@en

P2093

Matthew S Dicken

http://www.w3.org/2001/XMLSchema#string

Ryan E Tooker

http://www.w3.org/2001/XMLSchema#string

Shane T Hentges

http://www.w3.org/2001/XMLSchema#string

P2860

Characterization of engineered channelrhodopsin variants with improved properties and kinetics

A FLEX switch targets Channelrhodopsin-2 to multiple cell types for imaging and long-range circuit mapping

Effects of hypothalamic neurodegeneration on energy balance.

The SLC32 transporter, a key protein for the synaptic release of inhibitory amino acids

Identification and characterization of the vesicular GABA transporter

PI3K integrates the action of insulin and leptin on hypothalamic neurons.

The role of insulin receptor substrate 2 in hypothalamic and beta cell function.

Arcuate nucleus expression of NKX2.1 and DLX and lineages expressing these transcription factors in neuropeptide Y(+), proopiomelanocortin(+), and tyrosine hydroxylase(+) neurons in neonatal and adult mice.

Brain effects of melanocortins.

Channelrhodopsin-2-assisted circuit mapping of long-range callosal projections.

P304

4042-4048

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1523/JNEUROSCI.6032-11.2012

http://www.w3.org/2001/XMLSchema#string

P407

P433

12

http://www.w3.org/2001/XMLSchema#string

P478

32

http://www.w3.org/2001/XMLSchema#string

P577

2012-03-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

221970836

http://www.w3.org/2001/XMLSchema#string

P698

22442070

http://www.w3.org/2001/XMLSchema#string

P932

3321840

http://www.w3.org/2001/XMLSchema#string