about
Amphiphysin II (SH3P9; BIN1), a member of the amphiphysin/Rvs family, is concentrated in the cortical cytomatrix of axon initial segments and nodes of ranvier in brain and around T tubules in skeletal muscleAnkyrinG. A new ankyrin gene with neural-specific isoforms localized at the axonal initial segment and node of RanvierThe pathophysiology of multiple sclerosis: the mechanisms underlying the production of symptoms and the natural history of the diseasePhysiological Dynamics in Demyelinating Diseases: Unraveling Complex Relationships through Computer Modeling.A glial signal consisting of gliomedin and NrCAM clusters axonal Na+ channels during the formation of nodes of RanvierMolecular composition of the node of Ranvier: identification of ankyrin-binding cell adhesion molecules neurofascin (mucin+/third FNIII domain-) and NrCAM at nodal axon segmentsCleavage and oligomerization of gliomedin, a transmembrane collagen required for node of ranvier formationDeafness alters auditory nerve fibre responses to cochlear implant stimulationIncreased mitochondrial content in remyelinated axons: implications for multiple sclerosis.Adaptive functional changes in the cerebral cortex of patients with nondisabling multiple sclerosis correlate with the extent of brain structural damage.Does functional MRI detect activation in white matter? A review of emerging evidence, issues, and future directions.Axonal L-type Ca2+ channels and anoxic injury in rat CNS white matter.Sodium channel Nav1.6 accumulates at the site of infraorbital nerve injury.Detecting functional magnetic resonance imaging activation in white matter: interhemispheric transfer across the corpus callosum.Myelination and regional domain differentiation of the axon.Oligodendrocytes and the control of myelination in vivo: new insights from the rat anterior medullary velum.Investigation of fMRI activation in the internal capsule.At the Fulcrum in Health and Disease: Cdk5 and the Balancing Acts of Neuronal Structure and Physiology.Anoxic and ischemic injury of myelinated axons in CNS white matter: from mechanistic concepts to therapeutics.The role of immune cells, glia and neurons in white and gray matter pathology in multiple sclerosis.Nodes of Ranvier act as barriers to restrict invasion of flanking paranodal domains in myelinated axons.Beyond faithful conduction: short-term dynamics, neuromodulation, and long-term regulation of spike propagation in the axon.Histochemical localisation of mitochondrial enzyme activity in human optic nerve and retinaDysfunction of axonal membrane conductances in adolescents and young adults with spinal muscular atrophyThe distributions of mitochondria and sodium channels reflect the specific energy requirements and conduction properties of the human optic nerve head.Mixing properties of sphingomyelin ceramide bilayers: a simulation study.The role of sodium channels in chronic pain.The axonal membrane protein Caspr, a homologue of neurexin IV, is a component of the septate-like paranodal junctions that assemble during myelinationThe glycosylphosphatidyl inositol-anchored adhesion molecule F3/contactin is required for surface transport of paranodin/contactin-associated protein (caspr)Kv1 channels in signal conduction of myelinated nerve fibers.Sodium channels and multiple sclerosis: roles in symptom production, damage and therapy.Mitochondrial biogenesis in the axons of vertebrate peripheral neuronsIntegration of engrafted Schwann cells into injured peripheral nerve: axonal association and nodal formation on regenerated axons.Delayed depolarization and slow sodium currents in cutaneous afferentsAssessment of nerve excitability in toxic and metabolic neuropathies.Cortical action potential backpropagation explains spike threshold variability and rapid-onset kineticsLong-term maintenance of Na+ channels at nodes of Ranvier depends on glial contact mediated by gliomedin and NrCAM.Potassium channel blockers as an effective treatment to restore impulse conduction in injured axons.Matching mitochondria to metabolic needs at nodes of Ranvier.Changes at the nodal and perinodal axonal domains: a basis for multiple sclerosis pathology?
P2860
Q24309508-C85E84E1-81EE-442C-A888-78575BE5BBB5Q24311821-DC0942FC-E620-485A-AC2B-872F9D403BFBQ24676476-FABD918E-A0CA-471D-94A7-77D0277F182BQ26786977-A445E093-FA42-4057-85E0-5DFD06FFFA86Q28507204-C2152B6C-4DF1-4EDD-AD92-02D4042308CCQ28566036-D9797E4B-BA07-443D-B099-82675C2D8A04Q28588337-BEBB5D14-F414-4B5E-ACD0-59E516A8D7BEQ30499543-3385A0C3-EC2C-42A9-8325-E6F532B09A97Q30501593-43339A5E-5B86-4521-8C7C-AD3539D12130Q30679381-59A0835C-E27D-40AB-A08B-8CE3C5474351Q30844572-51481AB7-1BDB-4F1A-AB42-75A57965FE2FQ31841583-B0530322-4FED-42E1-9C99-182FE4A6586CQ33292270-315FFF0D-F864-4BB4-8734-B54707F65F50Q33369223-E43E65FF-2951-4068-9B01-CDDDBAB19295Q33666278-7D5A6CB4-1C21-44A3-9C49-C0AFA988A363Q33840876-DA1F5C23-17CF-4185-A5AF-6F8CF598F23CQ33932300-31231774-DD91-4117-B4EF-38F3234D3156Q34418930-B2E81884-1A68-49BE-B893-08BB5CC88D66Q34452140-F27EE382-CB4C-4679-A1EB-6B49D3880D1FQ34468304-D2BE695C-9C12-4BD3-8861-572971A7F3B9Q34558317-76985470-AE56-4EB2-BE3A-9A3B435CF9F0Q35166946-D8BE950A-E685-4359-A488-338F62AF4E29Q35308734-C989CF65-BD92-4814-B3BE-AC553D4D42FBQ35540059-499FB7F7-338C-4088-A956-AA1744929A82Q35591713-67AFDE45-9418-454B-97CB-8D54FD500A16Q35954384-0FCBE359-D543-46FC-B5E8-A79EF4D56A26Q36103777-FCB4F706-B0E6-45CC-83F3-577947F6A667Q36254979-6C11D29C-B099-44CF-943D-7AB174E1CA93Q36328347-1C8543E5-9E1C-444E-9188-F3AD6AA9C209Q36551589-CA0F559B-DAA1-4061-9E2D-31149914B214Q36771880-97E1BB54-1BA5-468A-BB37-84FCA144EA2EQ36883274-96740B7E-1904-4D91-951B-DC9F717C986BQ37020012-098DA3D7-0B6F-4DFD-B33E-D7730F3AA95EQ37021451-E4165E5D-AF01-4103-A19E-45438483E580Q37111987-5D873467-27D5-4EBD-A5C3-D74B54AAD07EQ37148307-B463FBE8-3473-41B3-8A0C-89430383C155Q37698145-E135AEEF-111A-40D7-B118-57D896CCD939Q37832653-ED807D29-D89F-4B19-B897-2123ADCE8778Q37868834-BF6491A4-3E63-49C9-B115-13BDCEA14846Q37973165-7723C973-A28A-4B6B-AB47-12F000D1E6B8
P2860
description
1993 nî lūn-bûn
@nan
1993 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1993 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
name
Molecular dissection of the myelinated axon.
@ast
Molecular dissection of the myelinated axon.
@en
Molecular dissection of the myelinated axon.
@nl
type
label
Molecular dissection of the myelinated axon.
@ast
Molecular dissection of the myelinated axon.
@en
Molecular dissection of the myelinated axon.
@nl
prefLabel
Molecular dissection of the myelinated axon.
@ast
Molecular dissection of the myelinated axon.
@en
Molecular dissection of the myelinated axon.
@nl
P2860
P356
P1433
P1476
Molecular dissection of the myelinated axon.
@en
P2093
P2860
P304
P356
10.1002/ANA.410330202
P577
1993-02-01T00:00:00Z