Distinct patterns of neuronal inputs and outputs of the juxtaparaventricular and suprafornical regions of the lateral hypothalamic area in the male rat.
about
Stress exposure, food intake and emotional stateDirect hypothalamic and indirect trans-pallidal, trans-thalamic, or trans-septal control of accumbens signaling and their roles in food intakeIdentification of neuropeptide receptors expressed by melanin-concentrating hormone neurons.Connections of the juxtaventromedial region of the lateral hypothalamic area in the male ratForebrain networks and the control of feeding by environmental learned cues.Relative number and distribution of murine hypothalamic proopiomelanocortin neurons innervating distinct target sites.The orexinergic system influences conditioned odor aversion learning in the rat: a theory on the processes and hypothesis on the circuit involved.Brainstem projections of neurons located in various subdivisions of the dorsolateral hypothalamic area-an anterograde tract-tracing studyA comparative analysis shows morphofunctional differences between the rat and mouse melanin-concentrating hormone systems.Embryonic GABA(B) receptor blockade alters cell migration, adult hypothalamic structure, and anxiety- and depression-like behaviors sex specifically in mice.Neurotransmitter switching in the adult brain regulates behavior.Organization of connections between the amygdala, medial prefrontal cortex, and lateral hypothalamus: a single and double retrograde tracing study in rats.The role of the lateral hypothalamus and orexin in ingestive behavior: a model for the translation of past experience and sensed deficits into motivated behaviors.To ingest or rest? Specialized roles of lateral hypothalamic area neurons in coordinating energy balance.Appetitive associative learning recruits a distinct network with cortical, striatal, and hypothalamic regions.Knowledge synthesis with maps of neural connectivity.Combining collation and annotation efforts toward completion of the rat and mouse connectomes in BAMS.Area-specific analysis of the distribution of hypothalamic neurons projecting to the rat ventral tegmental area, with special reference to the GABAergic and glutamatergic efferents.Appetitive changes during salt deprivation are paralleled by widespread neuronal adaptations in nucleus accumbens, lateral hypothalamus, and central amygdala.Learning and the motivation to eat: forebrain circuitry.Orexin/Hypocretin-1 Receptor Antagonism Selectively Reduces Cue-Induced Feeding in Sated Rats and Recruits Medial Prefrontal Cortex and Thalamus.Prepro-thyrotropin releasing hormone expressing neurons in the juxtaparaventricular region of the lateral hypothalamus are activated by leptin and altered by prenatal glucocorticoid exposure.Hypothalamus-olfactory system crosstalk: orexin a immunostaining in mice.Hippocampus ghrelin signaling mediates appetite through lateral hypothalamic orexin pathways.Neurochemical characterization of neurons expressing melanin-concentrating hormone receptor 1 in the mouse hypothalamus.Selective Fos induction in hypothalamic orexin/hypocretin, but not melanin-concentrating hormone neurons, by a learned food-cue that stimulates feeding in sated rats.Efferent connections of the parvalbumin-positive (PV1) nucleus in the lateral hypothalamus of rodentsMu-opioid stimulation in rat prefrontal cortex engages hypothalamic orexin/hypocretin-containing neurons, and reveals dissociable roles of nucleus accumbens and hypothalamus in cortically driven feeding.Controlling feeding behavior by chemical or gene-directed targeting in the brain: what's so spatial about our methods?Evidence of a Role for the Lateral Hypothalamic Area Juxtadorsomedial Region (LHAjd) in Defensive Behaviors Associated with Social Defeat.Homeostasis Meets Motivation in the Battle to Control Food Intake.Connections of the lateral hypothalamic area juxtadorsomedial region in the male rat.Lateral hypothalamus contains two types of palatability-related taste responses with distinct dynamics.Parallel, redundant circuit organization for homeostatic control of feeding behavior.How do we know if the brain is wired for type 2 diabetes?Lateral thinking about leptin: a review of leptin action via the lateral hypothalamusThe ventrolateral hypothalamic area and the parvafox nucleus: Role in the expression of (positive) emotions?Corticolimbic regulation of cardiovascular responses to stress.Hubs and spokes of the lateral hypothalamus: cell types, circuits and behaviour.The Orexin System and Hypertension.
P2860
Q26798016-49B1CF22-4667-43A2-8F72-8CC5EBA40A06Q26863358-0E886707-CF11-417F-BAD1-9EA420E35561Q30397401-84872F2E-EE4B-4D95-A677-6FD6B5F30FB3Q30409447-D3AF6B7D-6761-4F00-A9F3-7DD318132D1BQ30431076-CBBD058D-A3A6-427C-9152-FC1D48BCE0C5Q31032756-16F2DE99-BA3B-44F6-8722-EF35115A57F2Q33600408-5C35D955-1546-4DF5-B9FB-1985B3FF6251Q33658163-A7BC6195-F0F2-41D8-8E5B-6B448A85A07CQ33754613-4B6CD0CB-4F51-4C05-872A-FB54791A67A4Q34097713-722F4BF5-9731-445B-BB76-5591476A4353Q34341354-35F1651E-67E7-4758-9533-54FA347348AAQ34484761-7E0739D1-810A-4B56-8BE4-3A1EDAB01920Q34501494-E9A2C0DA-B5D3-4DE6-8EB9-5DA83E9EBC5BQ34668388-47FDB4B7-A089-4F65-877E-B9EC2ED4F473Q34982959-3F35DABE-CD2A-4982-9918-746191FA3CA5Q35491613-9EF8FD62-4D4A-4F16-8484-81C9CB73D82FQ35787337-78EF3E50-47CF-48DE-8498-86AA137DB5B7Q36026092-4A0403D2-14B4-4FCA-AD6E-47FD31A78E92Q36178796-1C341947-AD2C-4F35-8C54-7E938D90742CQ36245127-CB1E47C6-B9D6-4442-8C70-B195745FEABBQ36249733-A33B6521-336F-4A0F-BFE9-A3C04CC761B5Q36320587-045874B5-53D8-479F-ABA5-A7CC7AB63792Q36382045-C6FAADBC-5B41-4194-BA09-6273A8D1EBE5Q36415108-5BE2AFB1-7622-4F65-979D-1FCEDE2082D8Q36786510-EF72338B-6F55-4494-BB36-1FB70D9A7D00Q36946754-5EC8B1D4-501A-406C-9EFA-1A0E190997FFQ37170039-9BFA3047-61C3-4EBF-8090-2F328ABB8B17Q37325389-B79D657B-F5FE-4F07-A405-25025B84E873Q37400059-7186EC6A-FA62-4854-97E2-DBC71BE602C4Q37411288-6228A74F-5A79-475F-B976-524FF43F7C6EQ37444966-810475FC-D471-45C7-B3B1-5DB93F009F2FQ37594937-20F97C9B-04E6-4734-8DF7-0C8E71B5E52AQ37650154-633B7C1B-8DE9-477E-A761-D906FCE36C59Q37675451-C7B61254-CB06-4C3C-98F3-696CD4328981Q37682701-997B7976-55D4-40ED-949B-D1A305E5C3ADQ37873076-8DC761FA-E291-4EC2-B647-DCA644D6A43AQ38548070-6CF3A37C-2CB7-4A9B-83B6-486D01D77A26Q38802919-D9CCAF27-6301-4E5F-B81E-B37359C90FB3Q38865497-E401CB32-3AAC-458F-9BCC-D62EED7C480DQ39204098-B18A722C-4E74-41B3-A71B-C79C18BE1FAF
P2860
Distinct patterns of neuronal inputs and outputs of the juxtaparaventricular and suprafornical regions of the lateral hypothalamic area in the male rat.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
name
Distinct patterns of neuronal ...... thalamic area in the male rat.
@ast
Distinct patterns of neuronal ...... thalamic area in the male rat.
@en
type
label
Distinct patterns of neuronal ...... thalamic area in the male rat.
@ast
Distinct patterns of neuronal ...... thalamic area in the male rat.
@en
prefLabel
Distinct patterns of neuronal ...... thalamic area in the male rat.
@ast
Distinct patterns of neuronal ...... thalamic area in the male rat.
@en
P2860
P1476
Distinct patterns of neuronal ...... thalamic area in the male rat.
@en
P2093
Joel D Hahn
Larry W Swanson
P2860
P304
P356
10.1016/J.BRAINRESREV.2010.02.002
P577
2010-02-17T00:00:00Z