Function and evolution in the NGF family and its receptors
about
sameAs
A novel BDNF gene promoter directs expression to skeletal muscleNerve Growth Factor: A Focus on Neuroscience and TherapyHigh resolution mapping of the binding site of TrkA for nerve growth factor and TrkC for neurotrophin-3 on the second immunoglobulin-like domain of the Trk receptorsForced arm use is superior to voluntary training for motor recovery and brain plasticity after cortical ischemia in rats.Nerve growth factor for Bell's palsy: A meta-analysis.Spatial patterns of genome-wide expression profiles reflect anatomic and fiber connectivity architecture of healthy human brain.Let-7 microRNAs regenerate peripheral nerve regeneration by targeting nerve growth factor.C-peptide and diabetic neuropathy.A comparative study on the transplantation of different concentrations of human umbilical mesenchymal cells into diabetic rats.Intravenous administration of a transferrin receptor antibody-nerve growth factor conjugate prevents the degeneration of cholinergic striatal neurons in a model of Huntington disease.NGF in Early Embryogenesis, Differentiation, and Pathology in the Nervous and Immune Systems.SP, CGRP changes in pyridoxine induced neuropathic dogs with nerve growth factor gene therapy.Circular dichroism and crosslinking studies of the interaction between four neurotrophins and the extracellular domain of the low-affinity neurotrophin receptor.Mutational studies of conserved residues in the dimer interface of nerve growth factorNeuroprotective effects of ultrasound-guided nerve growth factor injections after sciatic nerve injury.Nerve growth factor: from the early discoveries to the potential clinical useMolecular evolution and domain structure of plasminogen-related growth factors (HGF/SF and HGF1/MSP)Expression of nerve growth factor, p75, and trk in the somatosensory and motor cortices of mature rats: evidence for local trophic support circuits.Two restricted sites on the surface of the nerve growth factor molecule independently determine specific TrkA receptor binding and activation.Specificity of neurotrophin-3 determined by loss-of-function mutagenesis.Cholecystokinin-8 protects central cholinergic neurons against fimbria-fornix lesion through the up-regulation of nerve growth factor synthesis.The binding epitopes of neurotrophin-3 to its receptors trkC and gp75 and the design of a multifunctional human neurotrophin.Microencapsulation and the grafting of genetically transformed cells as therapeutic strategies to rescue degenerating neurons of the CNS.BDNF: A Key Factor with Multipotent Impact on Brain Signaling and Synaptic Plasticity.Brain-Derived Neurotrophic Factor Inhibits Intercellular Adhesion Molecule-1 Expression in Interleukin-1β-Treated Endothelial Cells.BDNF isoforms: a round trip ticket between neurogenesis and serotonin?Brain-derived neurotrophic factor prevents the endothelial barrier dysfunction induced by interleukin-1β and tumor necrosis factor-α.In Vivo Confocal Microscopy of Corneal Nerves in Health and Disease.BDNF protects human vascular endothelial cells from TNFα-induced apoptosis.Brain-derived neurotrophic factor protects cementoblasts from serum starvation-induced cell death.Brain-derived neurotrophic factor stimulates bone/cementum-related protein gene expression in cementoblasts.Neurotrophic factors in the pathogenesis of Rett syndrome.Neurotrophic factors in cerebrospinal fluid and serum of patients with Rett syndrome.Bone morphogenetic proteins and their receptors: potential functions in the brain.The mitogen-activated protein (MAP) kinase cascade can either stimulate or inhibit DNA synthesis in primary cultures of rat hepatocytes depending upon whether its activation is acute/phasic or chronic.Nerve growth factor receptor TrkA is expressed by horizontal and amacrine cells during chicken retinal development.Nerve growth factor: structure/function relationships.A non-invasive system for delivering neural growth factors across the blood-brain barrier: a review.Chronic alcohol ingestion: nerve growth factor gene expression and neurotrophic activity in rat hippocampus.TrkA-immunoreactive profiles in the central nervous system: colocalization with neurons containing p75 nerve growth factor receptor, choline acetyltransferase, and serotonin.
P2860
Q24806465-5A7F5F27-21A8-422A-BF3B-0C6E52F29FE4Q26786398-25DEB060-691F-48DC-B677-675BC1D24A4BQ28263675-E1E558E7-5B45-4BC5-BEF1-C472C7774B3EQ30572938-21B14904-9C14-49A4-8FC4-B264EFC7A800Q34795795-37A318C6-E9E8-466A-9F43-9CC5B4D7928EQ34817175-F260D641-0373-4F1C-9B8E-190C8F4420EAQ35153091-E5277A0B-FA45-4C29-9AD8-18F3C7DB0FEEQ35207611-909D18F3-E822-4C20-B441-92EA0995DB4CQ35550002-E28301CE-C6CE-460A-B8D8-589D5B38F5B7Q35761924-EA3CD8C3-4D20-4167-83CA-7036C9C1248FQ35875769-64509967-C79C-4B10-B81C-DD3B7100D09FQ35884375-41635761-D178-48AF-8F09-C0EF32A5575EQ36278514-32A9F26D-9C1E-4C29-ABA6-4EC49DC382B4Q36279686-AC3B7FD2-4ACF-4074-B38E-B0C02DCF7510Q36443668-34C53CDB-1D0B-4DEC-BF9B-E7447BE8DFFEQ36526946-D1490019-8EFF-4CE5-A733-A24293F4E457Q36704207-3B94986C-657D-4B6B-9112-0F46904C3234Q36822896-8D303ABD-C7EA-4F32-93CA-39B01F5BC67BQ36851760-44FF59FA-7CC6-473E-BAAC-B95CA8B63CC1Q36890277-0A968975-58BF-436A-A7BB-20961B8B5279Q37212751-9EC4444A-FA5E-49F4-98AB-DE6AB1757DACQ37639840-0277A1F6-B947-47E6-AA7A-368C239DE69BQ38574264-6AAADE93-EFE6-4DEB-AC8E-EC99627B46E9Q38670024-7C4CCF29-ED10-4273-B9EB-46665E78C120Q38763899-A09B90EA-9086-47E4-9647-0FED29CAB805Q38831821-CA18DD59-AD31-47B7-A11F-70C54EF534BEQ38958151-854E8D03-A401-45BB-9713-47BD925BDF71Q38988352-DFEC72FB-4C87-4FBE-8897-642F4C29B3CEQ39096483-B1126014-05FF-44C8-A205-2623BDCA0E1CQ39807492-AE9B6B29-CC7F-4DFA-AF71-75031F5569A1Q39994919-A0540A80-4440-4477-A82A-63704D145009Q40612520-520C4D4A-19AC-4ACF-B01D-496B7863FF64Q41010011-6A50A289-FF49-4578-B095-A77BDEA7F5B3Q41704154-4CB94402-DAA4-46F9-82F3-1EC5227EA1A0Q41895997-2191CD8A-D694-4A82-BB56-4935E4271FA1Q41947506-0A497307-E4CF-4F2D-B993-D43D2017ED65Q41956129-2B7937D7-21B1-414F-8C93-4F991D210E39Q42458889-39EA911B-7FDA-411D-9FB1-F966308CFB5DQ42484031-9E3E1E73-4EE6-4863-AB8B-1F558913E227Q42490267-E0DBC460-EDEA-40E7-B607-804443C342D0
P2860
Function and evolution in the NGF family and its receptors
description
1992 nî lūn-bûn
@nan
1992 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
Function and evolution in the NGF family and its receptors
@ast
Function and evolution in the NGF family and its receptors
@en
Function and evolution in the NGF family and its receptors
@nl
type
label
Function and evolution in the NGF family and its receptors
@ast
Function and evolution in the NGF family and its receptors
@en
Function and evolution in the NGF family and its receptors
@nl
prefLabel
Function and evolution in the NGF family and its receptors
@ast
Function and evolution in the NGF family and its receptors
@en
Function and evolution in the NGF family and its receptors
@nl
P2860
P356
P1476
Function and evolution in the NGF family and its receptors
@en
P2093
P2860
P304
P356
10.1002/JNR.490320402
P407
P577
1992-08-01T00:00:00Z