Two types of spontaneous depolarizations in the interstitial cells freshly prepared from the murine small intestine.
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Serotonin augments gut pacemaker activity via 5-HT3 receptorsMovement based artifacts may contaminate extracellular electrical recordings from GI musclesInvolvement of mitochondrial Na+-Ca2+ exchange in intestinal pacemaking activity.The significance of interstitial cells in neurogastroenterologyInterstitial cells: regulators of smooth muscle function.Expression of anoctamin 1/TMEM16A by interstitial cells of Cajal is fundamental for slow wave activity in gastrointestinal muscles.Modulation of pacemaker potentials by pyungwi-san in interstitial cells of cajal from murine small intestine: pyungwi-san and interstitial cells of cajalCalcium events in smooth muscles and their interstitial cells; physiological roles of sparks.Electrical events underlying organized myogenic contractions of the guinea pig stomach.Effects of Lizhong Tang on cultured mouse small intestine interstitial cells of CajalCalcium-associated mechanisms in gut pacemaker activity.Ca2+-activated K+ current in freshly isolated c-Kit positive cells in guinea-pig stomachBiophysically based mathematical modeling of interstitial cells of Cajal slow wave activity generated from a discrete unitary potential basisVoltage-dependent Ca Current Identified in Freshly Isolated Interstitial Cells of Cajal (ICC) of Guinea-pig Stomach.Sphingosine and FTY720 modulate pacemaking activity in interstitial cells of Cajal from mouse small intestine.Expression and function of a T-type Ca2+ conductance in interstitial cells of Cajal of the murine small intestine.Computational modeling of anoctamin 1 calcium-activated chloride channels as pacemaker channels in interstitial cells of Cajal.Biophysically based modeling of the interstitial cells of cajal: current status and future perspectives.Problems with extracellular recording of electrical activity in gastrointestinal muscle.Regulation of Gastrointestinal Smooth Muscle Function by Interstitial Cells.Pacemaker phase shift in the absence of neural activity in guinea-pig stomach: a microelectrode array study.Differential expression of ionic conductances in interstitial cells of Cajal in the murine gastric antrum.A Ca(2+)-activated Cl(-) conductance in interstitial cells of Cajal linked to slow wave currents and pacemaker activity.An electrical description of the generation of slow waves in the antrum of the guinea-pig.Spatial and temporal mapping of pacemaker activity in interstitial cells of Cajal in mouse ileum in situ.A functional role for the 'fibroblast-like cells' in gastrointestinal smooth muscles.An electrical analysis of slow wave propagation in the guinea-pig gastric antrum.A mathematical model of pacemaker activity recorded from mouse small intestine.Involvement of MAPKs and PLC pathways in modulation of pacemaking activity by So-Cheong-Ryong-Tang in interstitial cells of Cajal from murine small intestine.The role of ginseng total saponin in transient receptor potential melastatin type 7 channels
P2860
Q27319848-24FCB7C8-9E80-4CC5-AB69-D1B3E3F978C8Q27349409-E8BB528A-A542-49C6-8A1E-1C5FD4F48C06Q33788507-BB7FB13B-8AD2-48AB-850E-C96122B018C1Q33915210-50EA7DD5-FBFD-42A3-AF26-ACD12FF32E53Q34121955-AFF32974-9D3E-4B91-9598-07AC20F673E7Q34997912-257D83A5-0509-4B37-A5E5-1A2B2D161BC7Q35093547-A0194055-9F82-4F24-BC64-C4DA466B10E0Q36272888-8177BD7B-F273-42A3-A346-6F43207E6F33Q36549207-0A4FE796-2622-417B-BE6A-4269AA7D530EQ36770539-494750E4-9FEC-4B7F-9F47-3163896E967CQ36990678-F1924C68-41B9-42D5-8458-1900CE90D527Q37232008-D5813D94-81E7-4455-9FA2-EDE594C97C19Q37265292-A7634657-5B6C-4FD2-BD94-6CB7CC96037FQ37459097-5E3CFC94-ED1B-487A-988C-97C67FF77357Q37462666-893C2501-40E2-4F45-9DC8-1DD9D04906C6Q37655962-3EC34BDC-9541-42F6-A7FE-E58011BE0D7DQ37707558-1ADB7679-3ED3-4B68-8FD1-D7B6A4DC641AQ37902897-24975401-C425-4AAA-8431-29D75E570B97Q38799983-CD8D8366-CE36-4EF1-835E-B27F45336C66Q38917658-6753B423-1A09-4153-91EB-6C3079D16566Q42501666-6B556A36-4C6F-495B-A871-409A6DCA658DQ42521741-95A7FAFC-F13B-45F0-93D8-E146C4C48BB4Q43286789-BEB6A5BF-C65B-49EB-9F19-ACADA5813E22Q46324074-7AA32490-F272-44DF-8505-9D387B160174Q46871081-94EBA75E-68D2-4F64-B6BD-BE1398E6E293Q50530820-FB9EFFC1-B60C-4C52-AF78-AFEC25B580F3Q51303993-CE24BAA9-22F4-4781-9EE9-F23844283648Q51943923-8DCAEA65-A43C-45CF-8A9D-9C298BEE16D9Q54518594-719E781B-0A15-4BAF-A824-05E63E130D88Q58133654-334E85AD-37AF-4004-A2AA-F0CF2BBBCDF8
P2860
Two types of spontaneous depolarizations in the interstitial cells freshly prepared from the murine small intestine.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Two types of spontaneous depol ...... om the murine small intestine.
@en
Two types of spontaneous depol ...... om the murine small intestine.
@nl
type
label
Two types of spontaneous depol ...... om the murine small intestine.
@en
Two types of spontaneous depol ...... om the murine small intestine.
@nl
prefLabel
Two types of spontaneous depol ...... om the murine small intestine.
@en
Two types of spontaneous depol ...... om the murine small intestine.
@nl
P2093
P2860
P1476
Two types of spontaneous depol ...... om the murine small intestine.
@en
P2093
Akinori Noma
Kazunori Goto
Satoshi Matsuoka
P2860
P304
P356
10.1113/JPHYSIOL.2004.063875
P407
P577
2004-07-02T00:00:00Z