Immunocytochemical localization of trkA receptors in chemically identified subgroups of adult rat sensory neurons.
about
Treatment of trigeminal ganglion neurons in vitro with NGF, GDNF or BDNF: effects on neuronal survival, neurochemical properties and TRPV1-mediated neuropeptide secretionThe functional and anatomical dissection of somatosensory subpopulations using mouse geneticsLight-evoked somatosensory perception of transgenic rats that express channelrhodopsin-2 in dorsal root ganglion cellsAllodynia limits the usefulness of intraspinal neural stem cell grafts; directed differentiation improves outcomeProtein tyrosine phosphatase receptor type O regulates development and function of the sensory nervous system.Quantitative automated microscopy (QuAM) elucidates growth factor specific signalling in pain sensitizationCharacterisation of axon terminals in the rat dorsal horn that are immunoreactive for serotonin 5-HT3A receptor subunits.Female steroid hormones modulate receptors for nerve growth factor in rat dorsal root ganglia.Differential regulation of trkA and p75 in noradrenergic pelvic autonomic ganglion cells after deafferentation of their cholinergic neighbours.Diabetic neuropathy: mechanisms to managementNeurotrophins, nociceptors, and pain.Neurotrophins and hyperalgesia.Transcriptional and posttranslational plasticity and the generation of inflammatory painA phenotypically restricted set of primary afferent nerve fibers innervate the bone versus skin: therapeutic opportunity for treating skeletal pain.Syntaxin 8 modulates the post-synthetic trafficking of the TrkA receptor and inflammatory pain transmission.Sciatic nerve injury in adult rats causes distinct changes in the central projections of sensory neurons expressing different glial cell line-derived neurotrophic factor family receptorsPain-related sensory innervation in monoiodoacetate-induced osteoarthritis in rat knees that gradually develops neuronal injury in addition to inflammatory painChanges in afferent activity after spinal cord injury.Mechanisms of pain.Role of phosphoinositide 3-kinase and endocytosis in nerve growth factor-induced extracellular signal-regulated kinase activation via Ras and Rap1.Nociceptors for the 21st century.Phenotypic switching of nonpeptidergic cutaneous sensory neurons following peripheral nerve injuryThe molecular dynamics of pain control.Blockade of nerve sprouting and neuroma formation markedly attenuates the development of late stage cancer pain.Administration of a tropomyosin receptor kinase inhibitor attenuates sarcoma-induced nerve sprouting, neuroma formation and bone cancer pain.Sustained blockade of neurotrophin receptors TrkA, TrkB and TrkC reduces non-malignant skeletal pain but not the maintenance of sensory and sympathetic nerve fibers.Extracellular matrix-associated gene expression in adult sensory neuron populations cultured on a laminin substrate.Expression of receptors for glial cell line-derived neurotrophic factor family ligands in sacral spinal cord reveals separate targets of pelvic afferent fibers.Breast cancer-induced bone remodeling, skeletal pain, and sprouting of sensory nerve fibersAntagonism of nerve growth factor-TrkA signaling and the relief of painTemporal mismatch between pain behaviour, skin Nerve Growth factor and intra-epidermal nerve fibre density in trigeminal neuropathic pain.Activation of cannabinoid receptor 1 inhibits increased bladder activity induced by nerve growth factor.Highly localized interactions between sensory neurons and sprouting sympathetic fibers observed in a transgenic tyrosine hydroxylase reporter mouse.Potential mechanisms for hypoalgesia induced by anti-nerve growth factor immunoglobulin are identified using autoimmune nerve growth factor deprivation.Kv7.5 is the primary Kv7 subunit expressed in C-fibers.The effect of spinal cord injury on the neurochemical properties of vagal sensory neurons.Sensory axon regeneration: rebuilding functional connections in the spinal cord.The neuronal distribution of cannabinoid receptor type 1 in the trigeminal ganglion of the rat.Specification of neural crest into sensory neuron and melanocyte lineages.Afferent nerve regulation of bladder function in health and disease.
P2860
Q24800293-EC687CD9-85BD-45AE-BF47-A5C1EA004B26Q27014891-DC8D1E4B-EA45-46D0-BDDA-77AC190BF0B6Q27307905-326D5272-A0A6-4964-BE2B-0CA0AB6F5622Q28235047-D2877538-0C3A-44BE-B443-50F99B7A4511Q28593226-EA5F3520-0CFB-4D99-954E-BB0DC8B2F670Q30497951-25082FAB-8AA1-4BD5-8373-CC5FCC965F0EQ31132124-16AD9FC4-0C59-4A1C-927D-7C36E3728A43Q31774558-0138920B-33FA-43D7-8BD4-18EE84206D70Q31899973-A725003F-8A55-46A0-B176-A759289D6DB5Q33554384-3FD454EE-03B9-4758-8266-745C4FCD8AB4Q33670613-B52148A9-9B54-4C6E-945D-2B00A9880F94Q33679514-3F3E80C9-3A8C-4C38-B45C-A96A296ECAC3Q33679553-C9C12AC0-7B69-4263-BD6F-3DB73760ABB7Q33779598-C183DC2E-6F02-4F7B-BEE4-FFF3F45D5E0EQ33888573-D461C8F1-AA18-4809-963D-40BAB6E4C6A5Q33906411-C94E4EF1-B212-4F6D-916F-A3D31B32D91FQ33934561-C654CCD9-C8D5-46AD-A3F0-BC45CB86E212Q33936100-0D27AAC5-6B4C-4134-8854-BA7BC5EE366FQ33946821-CEE2CE61-16AE-4CE1-97FC-F53D1AC168F6Q33966221-AEA4F2D6-5D54-48A7-BF10-C416669EFE63Q34074631-2A303C0C-BEF0-4925-8BFC-1706865D71F8Q34117071-986B00FB-6B23-4271-8CEC-D58B90B79FCFQ34185953-C32CB69A-FB3B-4B68-B674-ECBD5B0A6823Q34356398-C21798D7-0C1A-4760-A95F-322D1AA37F89Q34419168-877C6CA6-5F85-47B9-929A-B0A06E62F1A3Q34486451-7C8F76D7-8123-4E80-8940-8CAF0E250BE9Q34566967-925BBE2C-7E84-4B38-8365-FCC86B974F03Q34629284-775B5E5B-6373-41F2-96AE-B102F9F959DEQ35036692-7A3DCC1C-C5CA-4357-AA6B-1D6AE0D2B30FQ35064559-22A785A7-B69C-482F-8228-E85306D7569BQ35079184-061C30F4-F069-4B07-86AD-1241F47BA464Q35116257-53580A3A-6EC4-4C22-9D81-823E450054C7Q35154922-F0A96FE6-7265-44AB-9F9B-283A988CCBA8Q35463321-EE7D5105-6F75-4FA1-94BB-8A35B120E01DQ35629778-E3BA93DF-1D7A-44C0-8140-82FED98DD1CBQ35749792-94E9C1FB-FCF6-467B-900B-DC9E51E743EFQ35803072-8517EC8D-2DA3-4D02-BDD8-EC4057AD5E72Q35854891-0E92E759-5755-4677-AFBB-8FCB658913DDQ35957140-1D19A1D8-6746-4972-ABF2-7F96474B05CEQ36057867-74F5F1CE-13C4-4B0E-ADD2-CDE729A7661E
P2860
Immunocytochemical localization of trkA receptors in chemically identified subgroups of adult rat sensory neurons.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
1995年论文
@zh
1995年论文
@zh-cn
name
Immunocytochemical localizatio ...... of adult rat sensory neurons.
@en
Immunocytochemical localizatio ...... of adult rat sensory neurons.
@nl
type
label
Immunocytochemical localizatio ...... of adult rat sensory neurons.
@en
Immunocytochemical localizatio ...... of adult rat sensory neurons.
@nl
prefLabel
Immunocytochemical localizatio ...... of adult rat sensory neurons.
@en
Immunocytochemical localizatio ...... of adult rat sensory neurons.
@nl
P2093
P2860
P1476
Immunocytochemical localizatio ...... s of adult rat sensory neurons
@en
P2093
J V Priestley
L F Reichardt
P2860
P304
P356
10.1111/J.1460-9568.1995.TB01143.X
P407
P577
1995-07-01T00:00:00Z