Plurichemical transmission and chemical coding of neurons in the digestive tract.
about
Functional coupling between nitric oxide synthesis and VIP release within enteric nerve terminals of the rat: involvement of protein kinase G and phosphodiesterase 5Activation of phosphodiesterase 5 and inhibition of guanylate cyclase by cGMP-dependent protein kinase in smooth muscleArchitecture and Chemical Coding of the Inner and Outer Submucous Plexus in the Colon of PigletsThe neurology and enterology of equine grass sickness: a review of basic mechanisms.Primary enteric neuropathies underlying gastrointestinal motor dysfunction.Enteric pathways in the stomach.Consequences of intestinal inflammation on the enteric nervous system: neuronal activation induced by inflammatory mediators.NO as a signalling molecule in the nervous system.Enteric neuronal plasticity and a reduced number of interstitial cells of Cajal in hypertrophic rat ileum.Structural, neuronal, and functional adaptive changes in atrophic rat ileumNeuropharmacology of purinergic receptors in human submucous plexus: Involvement of P2X₁, P2X₂, P2X₃ channels, P2Y and A₃ metabotropic receptors in neurotransmissionEnteric ganglionitis in rhesus macaques infected with simian immunodeficiency virusPeptidergic innervation of human esophageal and cardiac carcinoma.Relationships between neurokinin receptor-expressing interstitial cells of Cajal and tachykininergic nerves in the gut.SMB myosin heavy chain knockout enhances tonic contraction and reduces the rate of force generation in ileum and stomach antrumRhoA/Rho-kinase: pathophysiologic and therapeutic implications in gastrointestinal smooth muscle tone and relaxation.Gastrointestinal mechanisms activated by electrical stimulation to treat motility dysfunctions in the digestive tract: a review.High-fat diet ingestion correlates with neuropathy in the duodenum myenteric plexus of obese mice with symptoms of type 2 diabetes.Experimental basis for realistic large-scale computer simulation of the enteric nervous system.Distension-induced gastric contraction is attenuated in an experimental model of gastric restraint.Glial regulation of neuronal plasticity in the gut: implications for clinicians.Substance P and Neurokinin 1 receptor - expression is affected in the ileum of mice with mutation in the W locus.Chronic aerobic swimming exercise promotes functional and morphological changes in rat ileum.Platelet-derived growth factor receptor α-positive cells in the tunica muscularis of human colonA new electrophysiological tool to investigate the spatial neuronal projections within the myenteric ascending reflex of the mouse colon.Characterizing voltage-dependent Ca(2+) channels coupled to VIP release and NO synthesis in enteric synaptosomes.Gastrointestinal transit and anorectal manometry in children with colonic substance P deficiency.Distribution and chemical coding of orphanin FQ/nociceptin-immunoreactive neurons in the myenteric plexus of guinea pig intestines and sphincter of Oddi.Intestinal adaptation in atrophic rat ileum is accompanied by supersensitivity to vasoactive intestinal peptide, pituitary adenylate cyclase-activating peptide and nitric oxide.Immunoreactivity of Hu proteins facilitates identification of myenteric neurones in guinea-pig small intestine.Okadaic acid inhibits relaxant neural transmission in rat gastric fundus in vitro.Neurochemistry of nerve fibers apposing sympathetic preganglionic neurons activated by sustained hypotension.Enhanced excitability of myenteric AH neurones in the inflamed guinea-pig distal colon.Chemical coding of the human gastrointestinal nervous system: cholinergic, VIPergic, and catecholaminergic phenotypes.Enteric neural pathways mediate the anti-inflammatory actions of glucagon-like peptide 2.VPAC1 receptors regulate intestinal secretion and muscle contractility by activating cholinergic neurons in guinea pig jejunum.Cannabinoid-1 (CB1) receptors regulate colonic propulsion by acting at motor neurons within the ascending motor pathways in mouse colon.Expression of intermediate filament proteins and neuronal markers in the human fetal gut.Angiotensin receptors and actions in guinea pig enteric nervous system.Platelet-activating factor in the enteric nervous system of the guinea pig small intestine.
P2860
Q28345164-B664DBF7-29BF-4CB2-B564-6F285B3CC2A8Q28363328-A6517437-B130-4701-8E77-AFBB2365CE1BQ28546944-8D555AC6-8035-4570-AC99-1892EBB41FC7Q33631260-584137BB-0349-40AF-83E5-ACE56B2F3227Q33864538-0EC7B46B-548D-4CAB-97BE-CA177FB6EFB3Q34123439-5036B1CD-07AC-4308-8154-42BBE78E49A8Q34123459-5C9E85A6-3E01-4DC8-BAC3-CE5205B9E6E7Q34551365-41E86445-05B2-43F3-A4DC-2DF120AAD0A0Q35351230-DE1C4311-F18A-4F27-B822-20583E415B0FQ35356392-23D61F69-2689-46AE-837B-8A22966DABCAQ35738609-3F6BB4E2-C11D-4E39-8FB6-7E9207A757F9Q35857250-1D30895F-6BBD-404B-9B25-BA28AC6E8929Q36209660-3A2F8356-61CF-4D31-8CF9-B86A23A34373Q36430845-567ADFE6-463E-4508-890E-B0594A8BDF45Q36538850-F67A9EC0-512D-4032-A7F5-A0D19BA6B376Q37636738-73B35854-F2DA-4568-A4F2-1202463EB5C5Q37965996-F156EAC2-E60D-4C88-9ABE-D2C97962D46AQ38457192-C62E86D7-7074-4511-A369-2773D02C20B6Q41205139-CBAB6D77-6B16-4453-8E63-6AA1A97B540FQ41820118-313976D2-B730-45A7-A358-226FE9809916Q41858589-B327983C-008C-4620-AAF8-2A3365BFD645Q41911986-9B7C0EF3-BE34-402B-9063-63386F076F0CQ41959918-B7104F77-CDAD-4600-B23D-3F3507E7B7D1Q42410943-829754E4-4322-4612-876D-DE92125A2ECAQ42525819-D7535ECE-B151-41FB-BA8C-C807E09CBE09Q42526893-7D1B2D81-D8E8-4D93-9809-A5E253AF35C7Q43345183-41C611BA-6190-4AEC-A44B-A021ACDC444EQ43514515-4EEBAC00-DF64-4176-B03E-EC14F2D9A627Q43577162-489A3B92-32B6-4F61-A87C-DCDD55DAEBB5Q43970912-60F7A161-1B63-4013-A15D-7FB2AB81A531Q43975278-D611CE15-CE13-4409-8D99-F0D85F89476CQ44062634-104BDC3C-9D09-4440-9D3C-00DE158188BCQ44300149-897813DA-7365-4A18-93EA-CB4E3D92CE3CQ44357603-A4349687-4AE0-465F-B5B4-E3125D71EA94Q44891764-6013B8A8-BA62-4BAF-A02C-8318AC619BA6Q46228789-9440447D-EAD7-46C2-A730-36B60B88B818Q46228825-E78FF6DC-B586-42C5-A262-9E0D40E505B6Q46640891-30F5C52D-25D3-42E9-B91B-401792B07196Q46644425-0C09429A-4552-4D0A-995E-0E34B785ADCEQ46696283-CF873F99-F145-4D65-89F6-FF7696CCA1E4
P2860
Plurichemical transmission and chemical coding of neurons in the digestive tract.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
1995年论文
@zh
1995年论文
@zh-cn
name
Plurichemical transmission and chemical coding of neurons in the digestive tract.
@en
type
label
Plurichemical transmission and chemical coding of neurons in the digestive tract.
@en
prefLabel
Plurichemical transmission and chemical coding of neurons in the digestive tract.
@en
P2093
P50
P1433
P1476
Plurichemical transmission and chemical coding of neurons in the digestive tract
@en
P2093
K McConalogue
P304
P356
10.1016/0016-5085(95)90086-1
P407
P577
1995-02-01T00:00:00Z