The role of astrocytes and complement system in neural plasticity.
about
Temporal analysis of neural differentiation using quantitative proteomicsAlzheimer's Disease: Mechanism and Approach to Cell TherapyMüller glia activation in response to inherited retinal degeneration is highly varied and disease-specificThe energy hypothesis of sleep revisitedDetermining the threshold for alcohol-induced brain damage: new evidence with gliosis markersDexamethasone rescues neurovascular unit integrity from cell damage caused by systemic administration of shiga toxin 2 and lipopolysaccharide in mice motor cortexIsoflurane impairs immature astroglia development in vitro: the role of actin cytoskeletonDiffusion MRI of structural brain plasticity induced by a learning and memory task.Three-dimensional imaging of HIV-1 virological synapses reveals membrane architectures involved in virus transmission.Modulation of inflammatory responses after global ischemia by transplanted umbilical cord matrix stem cellsProcessing of the matricellular protein hevin in mouse brain is dependent on ADAMTS4The molecular cloning of glial fibrillary acidic protein in Gekko japonicus and its expression changes after spinal cord transection.CDK5-induced p-PPARγ(Ser 112) downregulates GFAP via PPREs in developing rat brain: effect of metal mixture and troglitazone in astrocytes.Safety evaluation of AAV2-GDNF gene transfer into the dopaminergic nigrostriatal pathway in aged and parkinsonian rhesus monkeys.Reactive astrogliosis in response to hemorrhagic fever virus: microarray profile of Junin virus-infected human astrocytes.Proliferative reactive gliosis is compatible with glial metabolic support and neuronal function.Alcohol and adult hippocampal neurogenesis: promiscuous drug, wanton effectsDysregulation of gene expression in a lysosomal storage disease varies between brain regions implicating unexpected mechanisms of neuropathology.Proteomics analysis of amyloid and nonamyloid prion disease phenotypes reveals both common and divergent mechanisms of neuropathogenesisTracking transplanted bone marrow stem cells and their effects in the rat MCAO stroke model.Binge alcohol alters exercise-driven neuroplasticity.Targeted over-expression of endothelin-1 in astrocytes leads to more severe brain damage and vasospasm after subarachnoid hemorrhage.Clinical and genetic factors associated with progression of geographic atrophy lesions in age-related macular degenerationChanges in cannabinoid receptors, aquaporin 4 and vimentin expression after traumatic brain injury in adolescent male mice. Association with edema and neurological deficitUpregulated vimentin suggests new areas of neurodegeneration in a model of an alcohol use disorder.Gene expression analysis and microdialysis suggest hypothalamic triiodothyronine (T3) gates daily torpor in Djungarian hamsters (Phodopus sungorus).Spatial and temporal MRI profile of ischemic tissue after the acute stages of a permanent mouse model of strokeComplement anaphylatoxin C3a is a potent inducer of embryonic chick retina regeneration.Astrocytic plasticity and patterned oxytocin neuronal activity: dynamic interactions.Astrocyte and microglial activation in the lateral geniculate nucleus and visual cortex of glaucomatous and optic nerve transected primates.Inflammatory Disequilibrium in StrokeDose-dependent induction of astrocyte activation and reactive astrogliosis in mouse brain following maternal exposure to carbon black nanoparticle.The role of astrocytes in mediating exogenous cell-based restorative therapy for strokeGanglioside deficiency causes inflammation and neurodegeneration via the activation of complement system in the spinal cord.Complement and the central nervous system: emerging roles in development, protection and regeneration.Role of complement and perspectives for intervention in ischemia-reperfusion damage.Reactive astrogliosis after spinal cord injury-beneficial and detrimental effects.Noninvasive strategies to promote functional recovery after stroke.Concise review: reactive astrocytes and stem cells in spinal cord injury: good guys or bad guys?Switching from astrocytic neuroprotection to neurodegeneration by cytokine stimulation.
P2860
Q24648790-BF49E32E-D45B-44B9-9B31-A9F909698BA2Q26778149-67BB523D-1DC2-4D54-86A5-3E57546B6C5FQ27311456-49AB84D5-3D2A-41C0-8089-338601EA6B83Q28383752-C7218A64-B0EF-4F9A-9F44-2D2052059497Q28395116-FD17C0F8-670E-4776-BAAB-7DACCC918DD9Q28534818-66EC9301-69BF-4264-95AB-6914C39210EAQ30427652-1C2B9A29-832E-493A-84C4-3B53C3E701BBQ30501387-EFC8589E-F06D-479F-B4DB-703F42E78906Q30588474-0BF937E9-D79A-46F0-8566-14D2E8653F6BQ33574998-1F154E82-83A5-4CB3-B644-E791614273FBQ33648561-CCAE7CC8-8389-4E6F-B0B3-62D033CEA1ECQ33659162-7475FC1D-D881-4B7F-BEFD-6A57EB420260Q33695158-07EF35BA-565E-49E8-B17D-0E7A0E5B428FQ33819946-DF347DD6-EC00-4580-A5A5-5A635985D070Q33963386-AFEDB3ED-5696-4FD3-90F3-9CF33D11D6EEQ34045171-803242DA-03A3-4090-87D4-6BCB2CD4A7E1Q34053689-F8954ECF-8E60-4A94-A549-1D478452EC77Q34189460-4230DBC9-1743-4253-A4FB-18E99A02C33EQ34488612-4B7AD6C2-0133-422A-8394-513829E8E1E4Q34653099-BFF20F70-2926-4EFF-B25C-5BD040B14951Q34680228-75BE745D-F7F6-4D88-A7BC-8918F0C320CAQ35025799-86DB9C22-0264-450D-9752-220E994D40AEQ35593465-AB2F8BF1-FFC0-4CC3-AA8F-910877F7BDAEQ35651109-6A11E073-DB9E-4536-A7F6-D848E1BABC52Q35818187-14DB1EA0-ED06-4791-A11B-DEE5B38BE75DQ36331042-748372D1-BA0C-4481-9D8C-F617FC971D19Q36634475-65821EDF-B799-4DCE-B970-4C6A6E7752C8Q37121818-C93ABB53-0A81-400B-880D-00EF7514556FQ37361248-E03B9DD0-DE0B-4E12-AA4C-4825698080E2Q37412937-F08225E0-DF4A-4B7F-972A-C3EF473C902EQ37474699-9F724C6B-93DE-4D68-AE43-6B9C39B86667Q37621077-647BDDCF-BCA0-48C4-8D7C-A0C7F3673AE9Q37627332-B1FC66B3-5649-4095-8F9A-94D9F7BBED24Q37702966-341EB34D-654A-486C-ABD4-04B6A0AB792CQ37734205-EFA4DDE0-127C-4832-8151-BE08F07E78BBQ37831329-ACA749B5-EB99-4C2B-8C6B-E030DF92177AQ38017625-B9C9290C-5D7A-4CD4-882B-61B5ABF79765Q38122368-D03F986C-2D81-4AAA-BC26-121D889BB65EQ38366449-34A15435-BE7C-4237-A0C3-F655813B0996Q38780192-879C3BF8-1222-4FAF-9E9D-16B41D073A6C
P2860
The role of astrocytes and complement system in neural plasticity.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
The role of astrocytes and complement system in neural plasticity.
@en
type
label
The role of astrocytes and complement system in neural plasticity.
@en
prefLabel
The role of astrocytes and complement system in neural plasticity.
@en
P2093
P1476
The role of astrocytes and complement system in neural plasticity
@en
P2093
Milos Pekny
Ulrika Wilhelmsson
Yalda Rahpeymai Bogestål
P304
P356
10.1016/S0074-7742(07)82005-8
P577
2007-01-01T00:00:00Z