Ca2+/calmodulin-dependent kinase II mediates simultaneous enhancement of gap-junctional conductance and glutamatergic transmission.
about
Connexins: a myriad of functions extending beyond assembly of gap junction channelsModafinil enhances thalamocortical activity by increasing neuronal electrotonic couplingConnexins in neurons and glia: targets for intervention in disease and injuryTwo distinct oscillatory states determined by the NMDA receptor in rat inferior oliveCalmodulin kinase pathway mediates the K+-induced increase in Gap junctional communication between mouse spinal cord astrocytesActivity-dependent plasticity of electrical synapses: increasing evidence for its presence and functional roles in the mammalian brain.Two independent forms of activity-dependent potentiation regulate electrical transmission at mixed synapses on the Mauthner cell.Functional specializations of primary auditory afferents on the Mauthner cells: interactions between membrane and synaptic properties.Chemical synaptic activity modulates nearby electrical synapses.Interaction between connexin35 and zonula occludens-1 and its potential role in the regulation of electrical synapses.Calmodulin dependent protein kinase increases conductance at gap junctions formed by the neuronal gap junction protein connexin36.Contribution of neurons to habituation to mechanical stimulation in Caenorhabditis elegans.Initiation and propagation of calcium-dependent action potentials in a coupled network of olfactory interneurons.Molecular and functional asymmetry at a vertebrate electrical synapseElectrical synapses and their functional interactions with chemical synapses.Molecular determinants of magnesium-dependent synaptic plasticity at electrical synapses formed by connexin36.Cellular signaling through multifunctional Ca2+/calmodulin-dependent protein kinase II.Variability of distribution of Ca(2+)/calmodulin-dependent kinase II at mixed synapses on the mauthner cell: colocalization and association with connexin 35Neuroscience. The strength of electrical synapsesGap junction-mediated electrical transmission: regulatory mechanisms and plasticity.Cellular communication and coupling within the suprachiasmatic nucleus.The extent and strength of electrical coupling between inferior olivary neurons is heterogeneousCell death triggers olfactory circuit plasticity via glial signaling in Drosophila.Connexin35 mediates electrical transmission at mixed synapses on Mauthner cells.Trafficking of gap junction channels at a vertebrate electrical synapse in vivoHigh-resolution proteomic mapping in the vertebrate central nervous system: close proximity of connexin35 to NMDA glutamate receptor clusters and co-localization of connexin36 with immunoreactivity for zonula occludens protein-1 (ZO-1)Synergy between electrical coupling and membrane properties promotes strong synchronization of neurons of the mesencephalic trigeminal nucleus.Nonsynaptic NMDA receptors mediate activity-dependent plasticity of gap junctional coupling in the AII amacrine cell network.Regulation of gap junction channels and hemichannels by phosphorylation and redox changes: a revision.Characteristics and plasticity of electrical synaptic transmissionUnder construction: building the macromolecular superstructure and signaling components of an electrical synapse.Rhythmic coupling among cells in the suprachiasmatic nucleus.Regulation of neuronal connexin-36 channels by pHAdenosine and dopamine receptors coregulate photoreceptor coupling via gap junction phosphorylation in mouse retina.The neuronal connexin36 interacts with and is phosphorylated by CaMKII in a way similar to CaMKII interaction with glutamate receptorsRole of nociceptor αCaMKII in transition from acute to chronic pain (hyperalgesic priming) in male and female rats.SK2 channel plasticity contributes to LTP at Schaffer collateral-CA1 synapses.Synaptically induced long-term modulation of electrical coupling in the inferior oliveThe ever-changing electrical synapse.The electrical synapse: Molecular complexities at the gap and beyond.
P2860
Q21245510-D253F1D0-2AB6-4056-BB19-F4ACDBE2D8A0Q24669824-91EDFE47-84F3-4F46-B560-990580642453Q26786768-51E50BDF-1129-48A2-B008-A6977AE7AA02Q28343366-2E346DDA-7A65-4ACC-90CA-4EC4CEF0369BQ28346561-36370F96-392F-49BC-A42A-7C8F88B7318AQ30381568-A7FDC02C-FA73-4DBF-ADBD-36D1D16D876AQ30434673-E371817C-02C3-4D7E-8C74-663866FE67C2Q30475588-92F5E20A-E632-43F6-89B2-99C85BD258F8Q30477777-97AA36D8-4D5D-4F53-859A-50A2E5A5B5A6Q30483337-74D76ABD-18CD-4991-A23B-F10AAA92E774Q30626692-47B38E20-F3E3-4354-84CC-E640DC657EEAQ30975928-124950DE-621C-4383-B72E-727960CD6F64Q30978495-52A91633-143F-4A2C-9676-27F28242921FQ33607444-A509FDE9-112A-40B3-9EEE-F964FD385BE4Q33881841-EFBF5891-D397-4D6D-875C-BC3C2A10F9F1Q34081082-FEDBDC81-2580-4AC2-AE0F-29D4D57C9828Q34092385-0126C6EB-F14E-4CE3-A3C8-D799C8D89702Q34154187-7BD2967D-71FC-4C2B-84A5-8BAD320E168BQ34226764-85CDA98B-5272-4612-96C9-BD27A4EFC1BAQ34278660-6C296D8E-9411-46E9-BF37-FA7E9227CEE6Q34391826-663B7947-5D5C-472D-8F3A-84D7953FE76BQ34781127-107137F3-B213-45B8-8352-0F1C9EB06607Q35058126-6A132CA4-03F7-4952-ADBF-30C2E0433EDFQ35653089-0C72FC38-2E1A-4D05-9C63-5F791DDF03F6Q35807635-A43C4A95-BE09-46D5-9EB1-DEA71617EAACQ35842812-039A7273-E05D-4EF9-80D4-E6C0234D2677Q35919731-9FEF2A89-F186-4926-9BD6-A3706F4BC83CQ36009178-4D84BF64-CBC4-4ED0-BC67-317DEB851C48Q36031387-90B2CE71-A1BE-4BC0-BA5D-B74B42F2F11BQ36031872-FE058610-DF3A-4A73-AC73-C76D225945DAQ36423270-BF729B0D-E984-4B9F-89EC-79A761158FECQ36959557-2C371864-E280-4CBC-8C4E-3644A204B8CEQ36964381-9627963F-85BD-41C6-AF59-B27FE04E008BQ37011933-5E7133C5-44FE-4CB8-AA85-0E49956A9EE3Q37020174-DC444991-1236-448F-917E-E0F4749DEBB3Q37032440-351BB89B-50AE-4C6B-904D-CCDA0CCB1769Q37036877-54BD6E56-B626-495A-8C8A-168D1652B605Q37706526-7333C40F-C7EE-4E7B-83A9-AA366CF83A83Q38222459-45D8C3B0-61B6-48EA-8ACB-542E5016B07DQ39124530-E24FC497-B739-4F84-B651-5AE46DA2AEA1
P2860
Ca2+/calmodulin-dependent kinase II mediates simultaneous enhancement of gap-junctional conductance and glutamatergic transmission.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
Ca2+/calmodulin-dependent kina ...... nd glutamatergic transmission.
@ast
Ca2+/calmodulin-dependent kina ...... nd glutamatergic transmission.
@en
type
label
Ca2+/calmodulin-dependent kina ...... nd glutamatergic transmission.
@ast
Ca2+/calmodulin-dependent kina ...... nd glutamatergic transmission.
@en
prefLabel
Ca2+/calmodulin-dependent kina ...... nd glutamatergic transmission.
@ast
Ca2+/calmodulin-dependent kina ...... nd glutamatergic transmission.
@en
P2093
P2860
P356
P1476
Ca2+/calmodulin-dependent kina ...... and glutamatergic transmission
@en
P2093
A E Pereda
A J Czernik
T R Soderling
P2860
P304
13272-13277
P356
10.1073/PNAS.95.22.13272
P407
P577
1998-10-01T00:00:00Z