Both ATP and the peptide VIP are inhibitory neurotransmitters in guinea-pig ileum circular muscle.
about
Purinergic signalling in the gastrointestinal tract and related organs in health and diseaseInhibitory effect of cannabichromene, a major non-psychotropic cannabinoid extracted from Cannabis sativa, on inflammation-induced hypermotility in miceImaging of nitric oxide in nitrergic neuromuscular neurotransmission in the gutMolecular properties of small-conductance Ca2+-activated K+ channels expressed in murine colonic smooth musclePurinergic neuromuscular transmission in the gastrointestinal tract; functional basis for future clinical and pharmacological studiesThe hallucinogenic herb Salvia divinorum and its active ingredient salvinorin A inhibit enteric cholinergic transmission in the guinea-pig ileum.Different receptors mediating the inhibitory action of exogenous ATP and endogenously released purines on guinea-pig intestinal peristalsisRole of nitric oxide- and vasoactive intestinal polypeptide-containing neurones in human gastric fundus strip relaxations.Properties of the inhibitory junction potential in smooth muscle of the guinea-pig gastric fundus.Modulation of mouse gastrointestinal motility by allyl isothiocyanate, a constituent of cruciferous vegetables (Brassicaceae): evidence for TRPA1-independent effects.CaMKII inhibition hyperpolarizes membrane and blocks nitrergic IJP by closing a Cl(-) conductance in intestinal smooth muscle.Purinergic mechanisms in the control of gastrointestinal motility.Purinergic receptors and synaptic transmission in enteric neurons.Neuronal constitutive nitric oxide synthase is involved in murine enteric inhibitory neurotransmission.Gastrointestinal mechanisms activated by electrical stimulation to treat motility dysfunctions in the digestive tract: a review.Progress in understanding of inhibitory purinergic neuromuscular transmission in the gut.Expression and localization of VPAC1, the major receptor of vasoactive intestinal peptide along the length of the intestine.R-Type Ca2+ channels couple to inhibitory neurotransmission to the longitudinal muscle in the guinea-pig ileum.Neuronal nitric oxide in the gut.Study on the cyclic GMP-dependency of relaxations to endogenous and exogenous nitric oxide in the mouse gastrointestinal tract.Upregulation of L-type calcium channels in colonic inhibitory motoneurons of P/Q-type calcium channel-deficient mice.Functional evidence that ATP or a related purine is an inhibitory NANC neurotransmitter in the mouse jejunum: study on the identity of P2X and P2Y purinoceptors involved.The possible role of ATP and PACAP as mediators of apaminsensitive NANC inhibitory junction potentials in circular muscle of guinea-pig colonExcitatory transmission to the circular muscle of the guinea-pig ileum: evidence for the involvement of cannabinoid CB1 receptorsNeural modulation of the cyclic electrical and mechanical activity in the rat colonic circular muscle: putative role of ATP and NO.ATP activates P2x-contracting and P2y-relaxing purinoceptors in the smooth muscle of mouse vas deferens.Post-receptor pathway of the ATP-induced relaxation in smooth muscle of the mouse vas deferens.Relative contribution of SKCa and TREK1 channels in purinergic and nitrergic neuromuscular transmission in the rat colon.Electrophysiological evidence for different release mechanism of ATP and NO as inhibitory NANC transmitters in guinea-pig colonP2Y(1) receptors mediate inhibitory neuromuscular transmission in the rat colon.Purinergic and nitrergic neuromuscular transmission mediates spontaneous neuronal activity in the rat colon.Purinergic neuromuscular transmission is selectively attenuated in ulcerated regions of inflamed guinea pig distal colon.Differential release of β-NAD(+) and ATP upon activation of enteric motor neurons in primate and murine colons.P2Y1 purinoreceptors are fundamental to inhibitory motor control of murine colonic excitability and transit.Altered electrical activity in colonic smooth muscle cells from dystrophic (mdx) mice.Neuronal control of the pyloric sphincter of the guinea-pig.P2X(7) receptors in the enteric nervous system of guinea-pig small intestine.Nitrergic and purinergic mechanisms evoke inhibitory neuromuscular transmission in the human small intestine.Nitrergic prejunctional inhibition of purinergic neuromuscular transmission in the hamster proximal colon.P2Y(1) knockout mice lack purinergic neuromuscular transmission in the antrum and cecum.
P2860
Q26861086-CA475C88-C14A-4EC3-AB42-7028D27CA081Q28258759-4217B993-CC5B-478E-B191-058DE09AE0D2Q28475168-23143081-5EE5-4E21-AE29-140403058269Q28509474-CC4A398A-C6E3-482B-BE36-777ADE23E503Q34402767-A66A1BCD-282E-4955-BDA4-CF82535A7001Q34478698-8FBD6DD5-2BA2-4C24-8FF2-9CE988CC4D8BQ35041540-231FDA08-464D-4AF3-9273-34F76C0F92EEQ35107555-F682DE2C-1CF3-4FD2-9489-3B4821D8299AQ35873410-E00FFEFE-15C6-4C01-A5E9-31DCDCC127DCQ36025421-FC9C6E6F-B39F-47CE-A525-4C55AC22E95CQ36114882-4EFCEAD4-BAEB-4BA5-A162-0E2A3F122D92Q36793756-C334795D-2807-4D0E-B5CA-9521F3F05B20Q37119870-B2E2C691-0F39-48AB-8FA2-F00E6787F568Q37356812-F4CA9D4F-B8DE-447B-8B09-FAA26CEB1861Q37965996-685FD38B-FAD3-4CA2-A760-E910B17AC9AEQ38081978-91EE2D0A-A5FC-4A05-8F7F-1574D43A478CQ38849190-81BA4901-501A-4E32-A8D2-A1E152BD78F6Q39069469-D7F56236-157D-403A-BC54-B6B5124CB2E7Q40385507-7E96A79A-56D1-4823-98A2-40F4A55D4892Q41583779-E60EFEB4-F8A1-4596-A178-3A57BEF02ACDQ41630502-A5B2F63C-D7CE-451C-906D-FBA982709B12Q41817576-27CA4A9F-8009-4976-B295-32720C7671BAQ41878156-BE929998-37B2-459E-9BEF-F614F8979705Q41904764-079075EA-B53C-41C1-89D2-33929C81D854Q42051976-6E3A030B-2C38-45F6-A0A4-91042FE52C12Q42170345-74E339EA-BBC2-402F-8E33-0CD92AF7CD77Q42254069-9D8FC1E0-924A-4E61-A4CB-C4D03322BBF1Q42507072-FCC83A8F-2F63-47E5-B7F3-BDACCEABF8C5Q42701203-47D6EF2D-A4F3-496D-A682-46B6C5F81DBFQ42951349-E156BE75-14B7-4A2A-A3BE-CFBFD85083D7Q43097860-DA5D5BA8-1F91-4E61-97ED-6EC764BAAA15Q43197442-C0A73276-ACB7-45B5-853F-EEC4D163B9DDQ43243277-EB08EF2F-AE4F-49D9-B947-B4F1D917A71CQ43465574-66D45036-B610-46C7-A3C6-9C20858A6DF2Q43572617-3879C745-38FD-463E-B3C8-2B3D64558094Q43662274-1CF5D382-0266-40FC-AA65-69C586B9E696Q43824584-4DB81F92-AD05-47C3-B6B9-F94466CBB671Q44221243-33074FB2-5544-4B9B-A823-25805E1821E5Q44436400-11D7B544-4C72-4838-870E-DA247143EE42Q45997566-7F6C6FE2-B088-4255-B537-C3A6B29F235A
P2860
Both ATP and the peptide VIP are inhibitory neurotransmitters in guinea-pig ileum circular muscle.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh-hant
name
Both ATP and the peptide VIP a ...... nea-pig ileum circular muscle.
@en
Both ATP and the peptide VIP a ...... nea-pig ileum circular muscle.
@nl
type
label
Both ATP and the peptide VIP a ...... nea-pig ileum circular muscle.
@en
Both ATP and the peptide VIP a ...... nea-pig ileum circular muscle.
@nl
prefLabel
Both ATP and the peptide VIP a ...... nea-pig ileum circular muscle.
@en
Both ATP and the peptide VIP a ...... nea-pig ileum circular muscle.
@nl
P2093
P1476
Both ATP and the peptide VIP a ...... nea-pig ileum circular muscle.
@en
P2093
P304
P356
10.1113/JPHYSIOL.1992.SP018994
P407
P577
1992-02-01T00:00:00Z