Novel changes in gene expression following axotomy of a sympathetic ganglion: a microarray analysis.
about
A biomaterials approach to peripheral nerve regeneration: bridging the peripheral nerve gap and enhancing functional recoveryThe transcriptional landscape of dorsal root ganglia after sciatic nerve transectioncAMP-responsive element-binding protein (CREB) and cAMP co-regulate activator protein 1 (AP1)-dependent regeneration-associated gene expression and neurite growthIdentification of candidate transcriptional modulators involved in successful regeneration after nerve injuryPerspective is everything: an irreverent discussion of CNS-immune system interactions as viewed from different scientific traditionsAnalysis of gene expression during neurite outgrowth and regeneration.Microglial responses around intrinsic CNS neurons are correlated with axonal regeneration.Intrinsic response of thoracic propriospinal neurons to axotomy.Long descending cervical propriospinal neurons differ from thoracic propriospinal neurons in response to low thoracic spinal injuryThe conditioning lesion effect on sympathetic neurite outgrowth is dependent on gp130 cytokines.Cytokines that promote nerve regeneration.Vasomotor sympathetic neurons are more excitable than secretomotor sympathetic neurons in bullfrog paravertebral ganglia.Activating transcription factor 3 immunoreactivity identifies small populations of axotomized neurons in rat cervical sympathetic ganglia after transection of the preganglionic cervical sympathetic trunkCardiac ischemia-reperfusion regulates sympathetic neuropeptide expression through gp130-dependent and independent mechanismsA novel and robust conditioning lesion induced by ethidium bromide.Characterization of in vitro transcriptional responses of dorsal root ganglia cultured in the presence and absence of blastema cells from regenerating salamander limbs.Neuronal growth and survival mediated by eIF5A, a polyamine-modified translation initiation factor.gp130 cytokines are positive signals triggering changes in gene expression and axon outgrowth in peripheral neurons following injury.The Acquisition of Target Dependence by Developing Rat Retinal Ganglion Cells(1,2,3).Sympathetic reinnervation of peripheral targets following bilateral axotomy of the adult superior cervical ganglionMyocardial Infarction Causes Transient Cholinergic Transdifferentiation of Cardiac Sympathetic Nerves via gp130Axotomy-induced changes in the chemical coding pattern of colon projecting calbindin-positive neurons in the inferior mesenteric ganglia of the pig.A critical role for macrophages near axotomized neuronal cell bodies in stimulating nerve regeneration.Osteopontin expression and function within the dorsal root ganglionDecrease in neuronal nicotinic acetylcholine receptor subunit and PSD-93 transcript levels in the male mouse MPG after cavernous nerve injury or explant culture.Microarray analyses of pituitary adenylate cyclase activating polypeptide (PACAP)-regulated gene targets in sympathetic neurons.Axotomy of tributaries of the pelvic and pudendal nerves induces changes in the neurochemistry of mouse dorsal root ganglion neurons and the spinal cord.The nuclear events guiding successful nerve regeneration.Role of transcription factors in peripheral nerve regeneration.Downstream effector molecules in successful peripheral nerve regeneration.Cyclic AMP signaling: a molecular determinant of peripheral nerve regeneration.The neuroimmunology of degeneration and regeneration in the peripheral nervous system.Spinal cord injury and the neuron-intrinsic regeneration-associated gene program.Regulation of neuronal pituitary adenylate cyclase-activating polypeptide expression during culture of guinea-pig cardiac gangliaProtein kinase A-dependent substance P expression by pituitary adenylate cyclase-activating polypeptide in rat sensory neuronal cell line ND7/23 cells.Neural precursor cell lines promote neurite branching.Neuronal injury-inducible gene is synergistically regulated by ATF3, c-Jun, and STAT3 through the interaction with Sp1 in damaged neurons.Galanin receptor expression in cultured human keratinocytes and in normal human skin.Quantification of gene expression after painful nerve injury: validation of optimal reference genesActivating transcription factor 3 and the nervous system.
P2860
Q24625076-41E124DF-0C76-405C-AAA8-521C787EB8BFQ28394099-BE05ED02-BF19-483B-9262-FE01A7B8F9A3Q28397949-8ECB1E67-1F91-421C-B269-AB6CBDBC2237Q28577382-B9D92CBA-8E4F-4E13-B998-15EE42FABC37Q28755738-437F5D42-7864-4046-9BF9-1C3B56186541Q33307065-6AD997DD-1027-4659-B573-3529F2ABACB8Q33529862-75F36293-F296-4F70-B2EC-2794586AB157Q33595299-1F7228A3-410F-403E-8B1C-CABC67EC5CBFQ33752251-29AA6D9A-189C-4993-B297-6E4FA01E034BQ33829004-F5597309-EB50-4329-A9A9-FA23CEB25A8CQ33858909-A778DA94-D3DC-40FB-95BA-F9FE411ABA2CQ33886624-2583B2A4-4B4E-4345-8CB9-7A247BD63706Q34245583-049BFB86-DF6B-4A61-8783-FF9489BDEE1EQ34645372-5FE1F710-7319-4716-A535-90C78F0AD372Q35137639-E2B3D3FD-63ED-4E72-9F66-A9C8507B0E6DQ35146720-36BD7A08-AF83-4109-B34C-F812E4A4F4B9Q35676858-15B1ADF4-5BF2-49B9-AD93-55CCFFF975F1Q35683496-2D8022BD-8CF0-4C0D-9D85-7B83ED802A20Q35805868-1DF6DC04-BB58-4031-8C36-7B23D625B4FFQ36229385-3CCCE873-5D16-421D-B638-7C7A96C7982AQ36456696-2A25432B-11B4-4908-B7AA-2DD8A9947A35Q37085869-4F482FC2-45CD-458A-90DC-8B40ED2E80E8Q37220088-0A20C134-10B4-4411-921B-2B23ECA9761DQ37301330-377CEAE5-F0B8-4FB2-AD6B-E3C74A36BF31Q37342103-84938E9D-49B8-4B21-8E12-7DAE1ED5469FQ37348942-7CBD1C81-CE0F-46C0-97E1-8BEFB798F0FDQ37637372-08914F81-55D3-4EF5-B4DE-04204AAFE734Q37969752-4EA654A5-AAF9-49A1-87EA-D4BEC0F5DF68Q37987916-28CC0A29-DE15-4FAF-9AB0-F82EF6225B18Q38009650-56F11313-78C0-4054-A50B-C791C7BF3D39Q38245249-1FA566C9-7583-4BF4-94F9-723DC417E487Q38253020-7A8277A0-D748-4445-A78A-5B25A4FA87E0Q38255644-16EAAEC9-A8B7-45E3-85F2-BE4404121E58Q39240070-93560D3C-2C31-4AB4-A601-E661FD46635AQ39379630-0516CA13-F7A8-43F7-85E2-6F352B02D49AQ39899965-E9BDD1C0-88D4-4DA8-BFF8-C30860BE654FQ40025578-2382E767-3D44-4341-B0FE-4054C305CE5EQ40264964-FB8C260E-BA76-4CF0-930B-B795EAA9894AQ40893784-71AF2B83-7250-4831-9A97-1655456A0A2EQ41098388-ECA327CE-1375-4BC7-9385-920A91562BCF
P2860
Novel changes in gene expression following axotomy of a sympathetic ganglion: a microarray analysis.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Novel changes in gene expressi ...... nglion: a microarray analysis.
@en
Novel changes in gene expressi ...... nglion: a microarray analysis.
@nl
type
label
Novel changes in gene expressi ...... nglion: a microarray analysis.
@en
Novel changes in gene expressi ...... nglion: a microarray analysis.
@nl
prefLabel
Novel changes in gene expressi ...... nglion: a microarray analysis.
@en
Novel changes in gene expressi ...... nglion: a microarray analysis.
@nl
P2093
P356
P1476
Novel changes in gene expressi ...... nglion: a microarray analysis.
@en
P2093
Hilary Hyatt Sachs
Junghee Lee
Kristen L Boeshore
Patrick Leahy
Rafael Salazar
Rajiv R Ratan
Rebecca C Schreiber
Richard E Zigmond
Stacey A Vaccariello
P2860
P304
P356
10.1002/NEU.10308
P577
2004-05-01T00:00:00Z