Connexin45-containing neuronal gap junctions in rodent retina also contain connexin36 in both apposing hemiplaques, forming bihomotypic gap junctions, with scaffolding contributed by zonula occludens-1
about
Gap junction assembly: roles for the formation plaque and regulation by the C-terminus of connexin43Neuronal gap junctions: making and breaking connections during development and injuryModulation of metabolic communication through gap junction channels by transjunctional voltage; synergistic and antagonistic effects of gating and ionophoresisConnexin36 expression in major centers of the auditory system in the CNS of mouse and rat: Evidence for neurons forming purely electrical synapses and morphologically mixed synapses.Connexin 30 expression and frequency of connexin heterogeneity in astrocyte gap junction plaques increase with age in the rat retinaMolecular disruptions of the panglial syncytium block potassium siphoning and axonal saltatory conduction: pertinence to neuromyelitis optica and other demyelinating diseases of the central nervous system.Evidence for connexin36 localization at hippocampal mossy fiber terminals suggesting mixed chemical/electrical transmission by granule cells.Connexin36 in gap junctions forming electrical synapses between motoneurons in sexually dimorphic motor nuclei in spinal cord of rat and mouseGap junction proteins in the light-damaged albino ratExpression of connexin genes in the human retina.Connexin36 is required for gap junctional coupling of most ganglion cell subtypes in the mouse retinaRole of connexin channels in the retinal light response of a diurnal rodentThe role of gap junction channels during physiologic and pathologic conditions of the human central nervous systemGap junction-mediated electrical transmission: regulatory mechanisms and plasticity.Hemichannel composition and electrical synaptic transmission: molecular diversity and its implications for electrical rectification.Gap junction-mediated death of retinal neurons is connexin and insult specific: a potential target for neuroprotection.The extent and strength of electrical coupling between inferior olivary neurons is heterogeneousHeterotypic gap junctions at glutamatergic mixed synapses are abundant in goldfish brain.Re-evaluation of connexins associated with motoneurons in rodent spinal cord, sexually dimorphic motor nuclei and trigeminal motor nucleus.Pikachurin Protein Required for Increase of Cone Electroretinogram B-Wave during Light AdaptationTrafficking of gap junction channels at a vertebrate electrical synapse in vivoSynergy between electrical coupling and membrane properties promotes strong synchronization of neurons of the mesencephalic trigeminal nucleus.Mixed Electrical-Chemical Synapses in Adult Rat Hippocampus are Primarily Glutamatergic and Coupled by Connexin-36The diverse functional roles and regulation of neuronal gap junctions in the retina.Connexin composition in apposed gap junction hemiplaques revealed by matched double-replica freeze-fracture replica immunogold labelingGap junctions and hemichannels: communicating cell death in neurodevelopment and diseaseUnder construction: building the macromolecular superstructure and signaling components of an electrical synapse.Connexin and AMPA receptor expression changes over time in the rat olfactory bulbConnexins and steroidogenesis in mouse Leydig cells.Localization of neurones expressing the gap junction protein Connexin45 within the adult spinal dorsal horn: a study using Cx45-eGFP reporter mice.KV1 channels identified in rodent myelinated axons, linked to Cx29 in innermost myelin: support for electrically active myelin in mammalian saltatory conduction.Connexin30.2: In Vitro Interaction with Connexin36 in HeLa Cells and Expression in AII Amacrine Cells and Intrinsically Photosensitive Ganglion Cells in the Mouse Retina.Functional Properties of Dendritic Gap Junctions in Cerebellar Golgi Cells.Morphologically mixed chemical-electrical synapses formed by primary afferents in rodent vestibular nuclei as revealed by immunofluorescence detection of connexin36 and vesicular glutamate transporter-1.Reciprocal influence of connexins and apical junction proteins on their expressions and functions.AII amacrine cells discriminate between heterocellular and homocellular locations when assembling connexin36-containing gap junctions.Bursts modify electrical synaptic strengthElectrical synapses in mammalian CNS: Past eras, present focus and future directions.Direct association of connexin36 with zonula occludens-2 and zonula occludens-3.Functional heterotypic interactions between astrocyte and oligodendrocyte connexins.
P2860
Q24616777-0B7E6A9A-46E7-4249-8564-3D5DA4F02AC0Q26825282-884C0EC9-2B2B-4128-97BF-3A58E20DA85AQ26861611-E52AD329-1646-4B7E-B8AC-10D0B9283C07Q27304994-90CF6C97-CB86-4662-9FC4-90E999BE3904Q28570651-6B7E02F3-8D5A-4FEC-9B71-A662E335431AQ30474717-69E74A64-575A-48A8-BC8F-EE8A4CED0F52Q30528489-785665A2-2EB5-4E2A-804B-E55C1AC3AFC4Q30573487-A86DFD2B-FAF6-4781-9487-149D43F22CF9Q33681505-FFE11E0F-279E-4C8C-8995-5D6625906C8CQ33729796-B60D8AE7-BFDB-43D6-8BE5-4401FCD7F9C7Q33813492-7342B432-850F-4D93-A3A1-2F8EEA637162Q34081156-7B8F67A0-0FDC-4A41-98DF-BC21A2C7269AQ34262821-5C53A984-CE0C-4EA5-9B63-E09277422254Q34278660-5DE72B74-8F21-43E3-91DB-BB9B9456B0BBQ34342008-74A1614D-D405-4869-BE4B-D6BBCA4939C3Q34354701-1449543F-D169-4334-B9F9-B2DCDB001B18Q34781127-BA7E5121-168E-4355-A0A7-AF76E65A5F8DQ34810422-E5A44543-33F3-402B-8732-4EDA366324A2Q35387097-33B3AAC2-91FE-4061-9642-7B8FDEAB34FBQ35668950-69169DF3-D5A6-4973-AB40-35D108C1A00FQ35807635-1DC679EF-E8BA-465D-8849-38FCC5DBDF18Q35919731-523BED92-2901-49B7-AD62-02C1CA572E92Q35958304-EDB587E6-F2FE-493B-B479-44EB1676B5BEQ36052992-9CC1ADB6-9374-44BC-809C-1CC2B1036768Q36107147-ED55CEB5-DA74-40A2-A7FC-8304B40FB36DQ36260714-FE54E611-E608-4317-A6C9-AA87634EBC6AQ36423270-94FD72CD-C7EB-4C25-B6D9-9346B9B43DCBQ36707749-3D1811EC-D7FC-4DBB-9ADE-DBE134D25534Q36761760-433C796E-386B-4EF2-991D-C491F625FCCCQ36798763-671565C0-E474-462C-B661-53C5419E31BDQ36907606-C8903B81-6B02-41E2-B102-4F2703524AD8Q36940870-AC68CB24-1C24-4802-B977-8508396511B2Q36968975-A37FFB72-021D-4565-9309-FE8A5CCC9A76Q37227505-2656A692-3C93-4E13-83B6-B008578F6C6AQ37338603-F8D37DDF-1BF1-453F-936B-346781C7DC9FQ37636581-0C633B12-01BF-489B-A053-F5C72E3B9D17Q38024573-45BC0ADA-C62E-4D4C-AAF7-5EC4FEFC1C37Q38675220-0BDAB9A4-8E95-4B99-A42E-F16D7F516FE3Q42288626-96DF16DE-F522-4968-93F5-AE8895DB48C9Q42574030-D15EF198-BD75-491C-9FF0-0301F6B497D8
P2860
Connexin45-containing neuronal gap junctions in rodent retina also contain connexin36 in both apposing hemiplaques, forming bihomotypic gap junctions, with scaffolding contributed by zonula occludens-1
description
2008 nî lūn-bûn
@nan
2008 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@ast
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@en
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@nl
type
label
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@ast
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@en
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@nl
prefLabel
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@ast
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@en
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@nl
P2093
P2860
P3181
P1476
Connexin45-containing neuronal ...... tributed by zonula occludens-1
@en
P2093
Carl O Olson
Cristina Ciolofan
John E Rash
Kimberly G V Davidson
Naomi Kamasawa
Ryuichi Shigemoto
Thomas Yasumura
P2860
P304
P3181
P356
10.1523/JNEUROSCI.2137-08.2008
P407
P577
2008-09-01T00:00:00Z