Gap junctions in the brain: where, what type, how many and why?
about
Contribution of gap junctional communication between tumor cells and astroglia to the invasion of the brain parenchyma by human glioblastomasCxs and Panx- hemichannels in peripheral and central chemosensing in mammalsHippocampal sharp wave-ripple: A cognitive biomarker for episodic memory and planningRole of gap junction protein connexin43 in astrogliosis induced by brain injuryIdentification of cells expressing Cx43, Cx30, Cx26, Cx32 and Cx36 in gap junctions of rat brain and spinal cordProtective Effect of Quinine on Chemical Kindling and Passive Avoidance Test in RatsDifferentiating connexin hemichannels and pannexin channels in cellular ATP release.Connexons and pannexons: newcomers in neurophysiologyNovel mutations in the connexin 26 gene (GJB2) that cause autosomal recessive (DFNB1) hearing loss.Central visual, acoustic, and motor pathway involvement in a Charcot-Marie-Tooth family with an Asn205Ser mutation in the connexin 32 gene.Slowing of central conduction in X-linked Charcot-Marie-Tooth neuropathy shown by brain stem auditory evoked responses.In vivo imaging of oligodendrocytes with sulforhodamine 101.Propagation of intercellular calcium waves in C6 glioma cells transfected with connexins 43 or 32.Molecular cloning and functional expression of zfCx52.6: a novel connexin with hemichannel-forming properties expressed in horizontal cells of the zebrafish retina.X linked Charcot-Marie-Tooth disease (CMTX1): a study of 15 families with 12 highly informative polymorphisms.Glial-neuronal interactions in the neuroendocrine control of mammalian puberty: facilitatory effects of gonadal steroids.Abundance of gap junctions at glutamatergic mixed synapses in adult Mosquitofish spinal cord neurons.Depression of intraocular pressure following inactivation of connexin43 in the nonpigmented epithelium of the ciliary bodyGap-junctional coupling between neurons and astrocytes in primary central nervous system cultures.Optic nerve head structure in glaucoma: astrocytes as mediators of axonal damage.Leukocytes express connexin 43 after activation with lipopolysaccharide and appear to form gap junctions with endothelial cells after ischemia-reperfusion.Functional properties of electrical synapses between inhibitory interneurons of neocortical layer 4.Rat nucleus accumbens core astrocytes modulate reward and the motivation to self-administer ethanol after abstinenceFunctional analysis of selective interactions among rodent connexins.Visualization and functional blocking of gap junction hemichannels (connexons) with antibodies against external loop domains in astrocytes.Role of gap junctions in CO(2) chemoreception and respiratory control.Central and peripheral nerve regeneration by transplantation of Schwann cells and transdifferentiated bone marrow stromal cells.Cell Volume Fluctuations in MDCK MonolayersImmunogold evidence that neuronal gap junctions in adult rat brain and spinal cord contain connexin-36 but not connexin-32 or connexin-43.Connexin35 mediates electrical transmission at mixed synapses on Mauthner cells.Neurone-to-astrocyte signalling in the brain represents a distinct multifunctional unit.Computational model of electrically coupled, intrinsically distinct pacemaker neurons.Connexins and pannexins in neuronal development and adult neurogenesisGap junction coupling confers isopotentiality on astrocyte syncytiumSelective interactions among the multiple connexin proteins expressed in the vertebrate lens: the second extracellular domain is a determinant of compatibility between connexinsThe pattern of disulfide linkages in the extracellular loop regions of connexin 32 suggests a model for the docking interface of gap junctionsMulti-walled carbon nanotubes change morpho-functional and GABA characteristics of mouse cortical astrocytes.Homeostatic function of astrocytes: Ca(2+) and Na(+) signalling.Basal promoter of the rat connexin 32 gene: identification and characterization of an essential element and its DNA-binding protein.In vivo models of cortical acquired epilepsy
P2860
Q24799123-0AE89D9C-221A-4E54-9FFB-677C18059EE0Q26859920-6B15626B-42B6-43A4-B388-EE7AB406386CQ28083958-87A7EA47-A766-4A43-8D56-4DBC786FBD57Q28484517-0E370D2F-C6F1-43F6-8BEC-B81EEF42B43EQ28566575-D389BA45-8CE3-4653-8CA1-9FDA00FC2E2DQ28818568-51E96D3E-3AC4-456F-9BD0-72C002C6EB82Q30405751-D8ABAFEB-653D-4DEF-A7B7-A36EC79A14CDQ30425814-2FC54DB3-C8AF-449C-B610-A9ACAEA8394BQ30430067-C45EE2CB-77EC-47AA-A42B-E509A4A85A3FQ30495660-2C08579E-D361-4C47-8853-12309A0DD250Q30495725-8718F9D5-9750-44CF-9799-09FFCCBCB5F3Q30661578-78B37CDB-6933-499D-9F97-4E36253DB51AQ31950025-0631FE6B-A1BB-4DF1-B67F-3F342124AEA0Q33194304-A08CD3A9-0DB9-4F21-9021-031A3FBED9F2Q33673507-27CA46E3-945F-42D7-B26C-7939BECCCC79Q33714949-FB18B0D5-4EC5-4A1F-AE16-4A44C084A033Q33810718-D10A9BDF-6A3A-4FEC-B04F-F9A9C112FAE6Q33831809-07BEC83B-3A26-4075-BBA9-9932D7362BDEQ33865707-4A57AA8A-BDBF-415B-BBEE-8C07A097504EQ34057614-4B9CE3FB-FBC4-4596-A65A-33EAFA6B5364Q34095407-AC72BE6D-055B-479F-AB4C-1667DC4D9C01Q34341999-519612D9-2967-446C-8D4B-BB1D2FD4C3E3Q34356997-CB68C214-1A70-42EE-9C35-A463E0AD3520Q34448036-356FAD30-A592-4D54-BD8C-3EAEA1FBFC11Q34750442-245077D4-7FB9-40EA-AEF5-0C84C458AB59Q34843944-02A8237D-9E53-4A1E-BE65-BD939B69330EQ34989857-7767266D-FB8B-4D8B-90BC-12E0A39DD253Q34996577-F9651329-8C1D-4CF2-92A6-BD67DAFD7A33Q35163576-875374FB-BE5B-4333-9FCE-E4251B071557Q35653089-198022F2-7C66-4B01-8F80-DAA111B435D7Q35817626-B608D4B6-B408-4A9C-8043-25414D0A11BFQ35928503-5038DE27-C829-498F-98C0-043D1F27E9BFQ36031743-F6D67897-8C56-4B93-9924-E279A31BE3B1Q36129365-45026141-D83F-4FE4-9C5F-B17818E996FDQ36234305-7344B2F0-63E2-4614-8DB9-872F0F8694D2Q36255213-F1809B33-BDF6-462E-B30A-59F995B12B24Q36383395-EF154894-E52C-4187-AED8-CC2941C7910FQ36460918-44F14329-F1B4-4C33-B10F-2B4E98906E4AQ36549862-C1483625-E438-4C28-99FC-2F997B54BC05Q36553888-C3FA5E2E-9F40-4C22-A466-A3D1A1DBD9C0
P2860
Gap junctions in the brain: where, what type, how many and why?
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年学术文章
@wuu
1993年学术文章
@zh-cn
1993年学术文章
@zh-hans
1993年学术文章
@zh-my
1993年学术文章
@zh-sg
1993年學術文章
@yue
1993年學術文章
@zh
1993年學術文章
@zh-hant
name
Gap junctions in the brain: where, what type, how many and why?
@en
type
label
Gap junctions in the brain: where, what type, how many and why?
@en
prefLabel
Gap junctions in the brain: where, what type, how many and why?
@en
P1476
Gap junctions in the brain: where, what type, how many and why?
@en
P2093
Dermietzel R
P304
P356
10.1016/0166-2236(93)90151-B
P577
1993-05-01T00:00:00Z